StemCell Therapy

New Jersey, United States,- A detailed research study on Nanomedicine Market recently published by Market Research Intellect. This is the latest report, which covers the time COVID-19 impact on the market. Pandemic Coronavirus (COVID-19) has affected every aspect of global life. This has brought some changes in market conditions. Rapidly changing market scenario and the initial assessment and the future of this effect is included in the report. Reports put together a brief analysis of the factors affecting the growth of the current business scenarios in various areas. Important information relating to the size of the industry analysis, sharing, application, and statistics summed up in the report to present the ensemble prediction. In addition, this report includes an accurate competitive analysis of major market players and their strategies during the projection period.

This report includes market size estimates for the value (million USD) and volume (K Units). Both top-down and bottom-up approach has been used to estimate the size of the market and validate the Market of Nanomedicine, to estimate the size of the various submarkets more dependent on the overall market. Key players in the market have been identified through secondary research and their market share has been determined through primary and secondary research. All the shares percentage, split, and the damage have been determined using secondary sources and primary sources verified.

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Leading Nanomedicine manufacturers/companies operating at both regional and global levels:

Nanomedicine Market Competitive Landscape & Company Profiles

Competitor analysis is one of the best sections of the report that compares the progress of leading players based on crucial parameters, including market share, new developments, global reach, local competition, price, and production. From the nature of competition to future changes in the vendor landscape, the report provides in-depth analysis of the competition in the Nanomedicine market.

Segmental Analysis

Both developed and emerging regions are deeply studied by the authors of the report. The regional analysis section of the report offers a comprehensive analysis of the global Nanomedicine market on the basis of region. Each region is exhaustively researched about so that players can use the analysis to tap into unexplored markets and plan powerful strategies to gain a foothold in lucrative markets.

Nanomedicine Market, By Product

Nanomedicine Market, By Application

Regions Covered in these Report:

Asia Pacific (China, Japan, India, and Rest of Asia Pacific)Europe (Germany, the UK, France, and Rest of Europe)North America (the US, Mexico, and Canada)Latin America (Brazil and Rest of Latin America)Middle East & Africa (GCC Countries and Rest of Middle East & Africa)

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Nanomedicine Market Research Methodology

The research methodology adopted for the analysis of the market involves the consolidation of various research considerations such as subject matter expert advice, primary and secondary research. Primary research involves the extraction of information through various aspects such as numerous telephonic interviews, industry experts, questionnaires and in some cases face-to-face interactions. Primary interviews are usually carried out on a continuous basis with industry experts in order to acquire a topical understanding of the market as well as to be able to substantiate the existing analysis of the data.

Subject matter expertise involves the validation of the key research findings that were attained from primary and secondary research. The subject matter experts that are consulted have extensive experience in the market research industry and the specific requirements of the clients are reviewed by the experts to check for completion of the market study. Secondary research used for the Nanomedicine market report includes sources such as press releases, company annual reports, and research papers that are related to the industry. Other sources can include government websites, industry magazines and associations for gathering more meticulous data. These multiple channels of research help to find as well as substantiate research findings.

Table of Content

1 Introduction of Nanomedicine Market

1.1 Overview of the Market1.2 Scope of Report1.3 Assumptions

2 Executive Summary

3 Research Methodology

3.1 Data Mining3.2 Validation3.3 Primary Interviews3.4 List of Data Sources

4 Nanomedicine Market Outlook

4.1 Overview4.2 Market Dynamics4.2.1 Drivers4.2.2 Restraints4.2.3 Opportunities4.3 Porters Five Force Model4.4 Value Chain Analysis

5 Nanomedicine Market, By Deployment Model

5.1 Overview

6 Nanomedicine Market, By Solution

6.1 Overview

7 Nanomedicine Market, By Vertical

7.1 Overview

8 Nanomedicine Market, By Geography

8.1 Overview8.2 North America8.2.1 U.S.8.2.2 Canada8.2.3 Mexico8.3 Europe8.3.1 Germany8.3.2 U.K.8.3.3 France8.3.4 Rest of Europe8.4 Asia Pacific8.4.1 China8.4.2 Japan8.4.3 India8.4.4 Rest of Asia Pacific8.5 Rest of the World8.5.1 Latin America8.5.2 Middle East

9 Nanomedicine Market Competitive Landscape

9.1 Overview9.2 Company Market Ranking9.3 Key Development Strategies

10 Company Profiles

10.1.1 Overview10.1.2 Financial Performance10.1.3 Product Outlook10.1.4 Key Developments

11 Appendix

11.1 Related Research

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Market Research Intellect provides syndicated and customized research reports to clients from various industries and organizations with the aim of delivering functional expertise. We provide reports for all industries including Energy, Technology, Manufacturing and Construction, Chemicals and Materials, Food and Beverage and more. These reports deliver an in-depth study of the market with industry analysis, market value for regions and countries and trends that are pertinent to the industry.

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Nanomedicine Market Analysis, Top Manufacturers, Share, Growth, Statistics, Opportunities and Forecast To 2026 - Cole of Duty

The report discusses many vital industry facets that influence global Nanotechnology for Healthcare Market industry acutely which includes extensive study of competitive edge, latest advancements, region-wise industry environment, contemporary market and emerging latest trends, leading market contenders, and current tendency of the consumers. The report also oversees market size, market share, growth rate, revenue, and CAGR reported previously along with its forecast estimation.

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Global Nanotechnology for Healthcare Market Analysis Report includesTop Companies:Amgen, Teva Pharmaceuticals, Abbott, UCB, Roche, Celgene, Sanofi, Merck & Co, Biogen, Stryker, Gilead Sciences, Pfizer, 3M Company, Johnson & Johnson, Smith & Nephew, Leadiant Biosciences, Kyowa Hakko Kirin, Shire, Ipsen, Endo International along with their company profile, growth aspects, opportunities, and threats to the market development. This report presents the industry analysis for the forecast timescale. An up-to-date industry details related to industry events, import/export scenario, market share is covered in this report.

Global Nanotechnology for Healthcare Market Split by Product Type and Applications:

This report segments the global Nanotechnology for Healthcare market on the basis ofTypesare:

Nanomedicine

Nano Medical Devices

Nano Diagnosis

Other

On the basis of Application, the Global Nanotechnology for Healthcare market is segmented into:

Anticancer

CNS Product

Anti-infective

Other

Regional Analysis For Nanotechnology for Healthcare Market:

For comprehensive understanding of market dynamics, the global Nanotechnology for Healthcare market is analyzed across key geographies namely: North America (United States, Canada and Mexico), Europe (Germany, France, UK, Russia and Italy), Asia-Pacific (China, Japan, Korea, India and Southeast Asia), South America (Brazil, Argentina, Colombia), Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa). Each of these regions is analyzed on basis of market findings across major countries in these regions for a macro-level understanding of the market.

This study mainly helps to understand which Nanotechnology for Healthcare market segments or Region or Country they should focus in coming years to channelize their efforts and investments to maximize Growth and profitability. The report presents the market competitive landscape and a consistent in depth analysis of the major vendor/Nanotechnology for Healthcare players in the market.

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Influence of the Nanotechnology for Healthcare Market Report:

-Comprehensive assessment of all opportunities and risk in the Nanotechnology for Healthcare market.

-Nanotechnology for Healthcare market recent innovations and major events.

-Detailed study of business strategies for growth of the Nanotechnology for Healthcare market-leading players.

-Conclusive study about the growth plot of Nanotechnology for Healthcare market for forthcoming years.

-In-depth understanding of Nanotechnology for Healthcare market-particular drivers, constraints and major micro markets.

-Favourable impression inside vital technological and market latest trends striking the Nanotechnology for Healthcare market.

Finally, Nanotechnology for Healthcare Market report is the believable source for gaining the Market research that will exponentially accelerate your business. The report gives the principle locale, economic situations with the item value, benefit, limit, generation, supply, request and Market development rate and figure and so on. This report additionally Present new task SWOT examination, speculation attainability investigation, and venture return investigation.

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Research Methodology:

Nanotechnology for Healthcare Marketreport includes the estimation of market size for value (million USD) and volume (M Sqm). Both Top-down and bottom-up approaches have been used to estimate and validate the market size of Nanotechnology for Healthcare Market, to estimate the size of various other dependent submarkets in the overall market.

Key players in the market have been identified through secondary research, and their market shares have been determined through primary and secondary research. All percentage shares, splits, and breakdowns have been determined using secondary sources and verified primary sources.

We also offer customization on reports based on specific client requirement:

1- Freecountry level analysis forany 5 countriesof your choice.

2-FreeCompetitive analysis ofany 5 key market players.

3-Free40 analyst hoursto cover any other data points.

How we have factored the effect of Covid-19 in our report:

All the reports that we list have been tracking the impact of COVID-19 the market. Both upstream and downstream of the entire supplychain has been accounted for while doing this. Also, where possible, we will provide an additional COVID-19 update supplement/report to the report in Q3, please check for with the sales team.

About Us:

MarketInsightsReports provides syndicated market research on industry verticals including Healthcare, Information and Communication Technology (ICT), Technology and Media, Chemicals, Materials, Energy, Heavy Industry, etc. MarketInsightsReports provides global and regional market intelligence coverage, a 360-degree market view which includes statistical forecasts, competitive landscape, detailed segmentation, key trends, and strategic recommendations.

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Nanotechnology for Healthcare Market Global Competitions and Business Outlook 2020 to 2026 - News Collective

INBRAIN Neuroelectronics, a spin-off of the Catalan Institute of Nanoscience and Nanotechnology (ICN2), the Barcelona Institute of Science and Technology (BIST) and ICREA, has received funding from Sabadell Asabys and Alta Life Sciences, as well as ICF and Finaves, which will allow the company to speed up the development of novel graphene-based implants to optimize the treatment of brain disorders, such as Parkinsons and epilepsy.

INBRAIN Neuroelectronics was established in 2019 with the mission of developing brain-implants based on graphene technology for application in patients with epilepsy, Parkinsons, and other neuronal diseases. These smart devices, built around an innovative graphene electrode, will decode with high certainty neural signals from the brain and produce a therapeutic response adapted to the clinical condition of the specific patient.

The company is designing the least invasive and smartest neural interface that, powered by artificial intelligence and the use of Big Data, will have the ability to read and modulate brain activity, detect specific biomarkers, and trigger adaptive responses to deliver optimal results in personalised neurological therapies. So far, the technology has been validated in in-vitro and in-vivo biocompatibility and toxicity tests and has been successfully used to complete studies on small animals. Recently, INBRAIN began tests on large animals with the aim of ensuring that these graphene devices are safe as well as superior to current solutions based on metals such as platinum and iridium. The company also plans to start human studies soon.

INBRAIN was founded, among others, by ICREA Prof. Jose Garrido, leader of the ICN2 Advanced Electronic Materials and Devices Group, Prof. Kostas Kostarelos, leader of the ICN2 Nanomedicine Group, and Dr. Anton Guimer, a researcher at the Spanish National Centre of Microelectronics (IMB-CNM).

Within the framework of the Graphene Flagship, which is a European macroproject, explains Prof. Garrido, we were able to develop this novel graphene-based technology that will allow measuring and stimulating neuronal activity in the brain with a resolution much higher than that of current commercial technologies.

Throughout 2019, the incorporation of INBRAIN was a priority project for the ICN2 Business and Innovation Department, which coordinated the technology transfer process and successfully orchestrated the licensing of this high-potential technology.

Minimally invasive electronic therapies represent a revolutionary alternative with less potential cost for health systems, comments Carolina Aguilar, CEO of INBRAIN and a former global executive at Medtronic in the field of neuro-stimulation. In our case, the application of new 2D materials such as graphene represents a real opportunity to understand the brain workings in order to optimise and personalize the treatment.

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INBRAIN Neuroelectronics receives funding to push forward the development of graphene-based implants for brain disorders - Graphene-Info

Yuan Hong,1 Shaomin Che,2 Beina Hui,2 Xiaoli Wang,2 Xiaozhi Zhang,2 Hailin Ma2

1Department of Medical Imaging, The First Affiliated Hospital of Xian Jiaotong University, Xian, Shaanxi, Peoples Republic of China; 2Department of Oncology Radiotherapy, The First Affiliated Hospital of Xian Jiaotong University, Xian, Shaanxi, Peoples Republic of China

Correspondence: Hailin MaDepartment of Oncology Radiotherapy, The First Affiliated Hospital of Xian Jiaotong University, No. 277 Yanta Xi Road, Xian, Shaanxi 710061, Peoples Republic of ChinaEmail mahlxjtu@sohu.com

Purpose: Lung cancer remains the leading cancer-associated deaths worldwide. Cisplatin (CDDP) was used in combination with curcumin (CUR) for the treatment of non-small cell lung cancer. The aim of this study was to prepare and characterize CDDP prodrug and CUR co-encapsulated layer-by-layer nanoparticles (CDDP-PLGA/CUR LBL NPs) to induce cooperative response, maximize the therapeutic effect, overcome drug resistance, and reduce adverse side effects.Methods: CDDP prodrug (CDDP-PLGA) was synthesized. CDDP-PLGA/CUR LBL NPs were constructed and their physicochemical properties were investigated by particle-size analysis, zeta potential measurement, drug loading, drug entrapment efficiency, and in vitro drug release behavior. In vitro cytotoxicity against human lung adenocarcinoma cell line (A549 cells) was investigated, and in vivo anti-tumor efficiency of CDDP-PLGA/CUR LBL NPs was evaluated on mice bearing A549 cell xenografts.Results: CDDP-PLGA/CUR LBL NPs have a size of 179.6 6.7 nm, a zeta potential value of 29.9 3.2 mV, high drug entrapment efficiency of 85.6 3.9% (CDDP) and 82.1 2.8% (CUR). The drug release of LBL NPs exhibited a sustained behavior, which made it an ideal vehicle for drug delivery. Furthermore, CDDP-PLGA/CUR LBL NPs could significantly enhance in vitro cytotoxicity and in vivo antitumor effect against A549 cells and lung cancer animal model compared to the single drug-loaded LBL NPs and free drug groups.Conclusion: CDDP-PLGA/CUR LBL NPs were reported for the first time in the combination therapy of lung cancer. The results demonstrated that the CDDP-PLGA/CUR LBL NPs might be a novel promising system for the synergetic treatment of lung carcinoma.

Keywords: lung cancer, combination therapy, layer-by-layer, cisplatin prodrug, curcumin

This work is published and licensed by Dove Medical Press Limited. The full terms of this license are available at https://www.dovepress.com/terms.php and incorporate the Creative Commons Attribution - Non Commercial (unported, v3.0) License.By accessing the work you hereby accept the Terms. Non-commercial uses of the work are permitted without any further permission from Dove Medical Press Limited, provided the work is properly attributed. For permission for commercial use of this work, please see paragraphs 4.2 and 5 of our Terms.

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Combination Therapy of Lung Cancer Using Layer-by-Layer Cisplatin Prod | DDDT - Dove Medical Press

EVERGREEN, Colo., June 9, 2020 (SEND2PRESS NEWSWIRE) Combining the use of Eastern and Western philosophy of Holistic Medicine, Dr. Christina Fick, of Evergreen Medical Acupuncture, has created a carefully selected offering of CGMP (certified good manufacturing practice), and organic certified supplements and herbal products that provide a well-balanced approach to healing.

Evergreen Medical Acupuncture, a locally owned and operated Colorado Business located in Evergreen, Colorado, has always offered the best of Eastern and Western Medicine to its customers, and is happy to announce the new online store for these offering, Dr. Ficks Functional Farmacy, at https://www.drchristinafick.com/functional-farmacy.

With a wide variety of hand-picked, quality herbal supplements with a focus on some of the best practices of Eastern Medicine, Dr. Ficks Functional Farmacy provides clients the ease of online information and recommendations, and the ability to order products from home. Products such as Phyto-Multiplex, a multi-vitamin + phytonutrient + trace mineral supplement, Premium Choline for brain, gut, and general health, and Nutra-Absorb for digestive support, are now ready for the online audience.

Dr. Ficks Functional Farmacy is also offering an exclusive cosmetic line, Skin for Life, and a selection of specialty luxury soaps, called My Soap Box. Skin for Lifes ingredient formulas are in a nutritional nano bio-emulsion sphere that delivers vitamins, minerals, and essential lipids to protect the skins immunity integrity, and the beautifully scented, exotic body and facial bar soaps of My Soap Box are a perfect way to provide an escape from the days stresses, or to provide a truly unique gift for someone dear to you.

We offer the best of Eastern and Western Medicine to our clients The Chinese now see the benefit of modern medicine, and how it can be applied to the practice of Traditional Chinese Medicine, stated Dr. Christina Fick. By combining the best of both worlds, we can achieve sustainable results for our clients using Acupuncture, Specialty Needle Techniques, and our custom-built Acupuncture Clinic. These herbal supplements and new products represent some of our best recommendations, and compliment these techniques, and are now available to clients with a mouse-click.

About Evergreen Medical Acupuncture, Dr. Ficks Functional Farmacy, and Dr. Christina Fick

Located in both Evergreen, Colorado, Evergreen Medical Acupuncture is locally owned and operated. The company and its employees live and work in Colorado, and also offer phone or video chat appointments for consultation to anyone in the nation. The acupuncturists on in the Clinic work closely under Dr. Fick, have been hand-selected and vetted, and go through rigorous ongoing training to provide highest standards of service and customer care.

Dr. Christina Fick is the owner and founder of Evergreen Medical Acupuncture, LLC, first opened in 2012. She holds a Doctorate in Acupuncture and Oriental Medicine, a Masters degree in Herbology, and is certified in Functional Medicine. She has worked globally in her specialized field, in hospitals both in China, and in New York.

For more information about Dr. Ficks Functional Farmacy, and Evergreen Medical Acupuncture, including details about their services and new custom built Acupuncture Clinic, please visit the company website: https://www.drchristinafick.com/, or call to book an appointment or learn more at 303-594-8348.

*PHOTO link for media: https://www.Send2Press.com/300dpi/20-0609s2p-evergreen-med-300dpi.jpg

Disclaimer: These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure, or prevent any disease.

News Source: Evergreen Medical Chiropractic and Acupuncture

To view the original post, visit: https://www.send2press.com/wire/evergreen-medical-acupuncture-is-now-offering-its-own-supplement-and-herbal-products-dr-ficks-functional-farmacy/.

This press release was issued by Send2Press Newswire on behalf of the news source, who is solely responsible for its accuracy. http://www.send2press.com.

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Evergreen Medical Acupuncture is now offering its own supplement and herbal products, Dr. Ficks Functional Farmacy! - TippNews DAILY

A new market report by Market Research Intellect on the Nanomedicine Market has been released with reliable information and accurate forecasts for a better understanding of the current and future market scenarios. The report offers an in-depth analysis of the global market, including qualitative and quantitative insights, historical data, and estimated projections about the market size and share in the forecast period. The forecasts mentioned in the report have been acquired by using proven research assumptions and methodologies. Hence, this research study serves as an important depository of the information for every market landscape. The report is segmented on the basis of types, end-users, applications, and regional markets.

The research study includes the latest updates about the COVID-19 impact on the Nanomedicine sector. The outbreak has broadly influenced the global economic landscape. The report contains a complete breakdown of the current situation in the ever-evolving business sector and estimates the aftereffects of the outbreak on the overall economy.

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The report also emphasizes the initiatives undertaken by the companies operating in the market including product innovation, product launches, and technological development to help their organization offer more effective products in the market. It also studies notable business events, including corporate deals, mergers and acquisitions, joint ventures, partnerships, product launches, and brand promotions.

Leading Nanomedicine manufacturers/companies operating at both regional and global levels:

Sales and sales broken down by Product:

Sales and sales divided by Applications:

The report also inspects the financial standing of the leading companies, which includes gross profit, revenue generation, sales volume, sales revenue, manufacturing cost, individual growth rate, and other financial ratios.

The report also focuses on the global industry trends, development patterns of industries, governing factors, growth rate, and competitive analysis of the market, growth opportunities, challenges, investment strategies, and forecasts till 2026. The Nanomedicine Market was estimated at USD XX Million/Billion in 2016 and is estimated to reach USD XX Million/Billion by 2026, expanding at a rate of XX% over the forecast period. To calculate the market size, the report provides a thorough analysis of the market by accumulating, studying, and synthesizing primary and secondary data from multiple sources.

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The market is predicted to witness significant growth over the forecast period, owing to the growing consumer awareness about the benefits of Nanomedicine. The increase in disposable income across the key geographies has also impacted the market positively. Moreover, factors like urbanization, high population growth, and a growing middle-class population with higher disposable income are also forecasted to drive market growth.

According to the research report, one of the key challenges that might hinder the market growth is the presence of counter fit products. The market is witnessing the entry of a surging number of alternative products that use inferior ingredients.

Key factors influencing market growth:

Reasons for purchasing this Report from Market Research Intellect

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Customization of the Report:

Market Research Intellect also provides customization options to tailor the reports as per client requirements. This report can be personalized to cater to your research needs. Feel free to get in touch with our sales team, who will ensure that you get a report as per your needs.

Thank you for reading this article. You can also get chapter-wise sections or region-wise report coverage for North America, Europe, Asia Pacific, Latin America, and Middle East & Africa.

To summarize, the Nanomedicine market report studies the contemporary market to forecast the growth prospects, challenges, opportunities, risks, threats, and the trends observed in the market that can either propel or curtail the growth rate of the industry. The market factors impacting the global sector also include provincial trade policies, international trade disputes, entry barriers, and other regulatory restrictions.

About Us:

Market Research Intellect provides syndicated and customized research reports to clients from various industries and organizations with the aim of delivering functional expertise. We provide reports for all industries including Energy, Technology, Manufacturing and Construction, Chemicals and Materials, Food and Beverage and more. These reports deliver an in-depth study of the market with industry analysis, market value for regions and countries and trends that are pertinent to the industry.

Contact Us:

Mr. Steven Fernandes

Market Research Intellect

New Jersey ( USA )

Tel: +1-650-781-4080

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Nanomedicine Market 2019 Break Down by Top Companies, Countries, Applications, Challenges, Opportunities and Forecast 2026 - Cole of Duty

Products

Marketing Statements

CBD Products

CBD products

CBD products

CBD products

CBD products

CBD products

CBD products

CBD products

Dietary Supplements and Vitamins

Vitamin C product

Vitamin D products

Super C, Vitamin D/K2, Zinc Charge, and Immuno-Strong Berry Liquid

NoronaPak products, including supplement products

Dietary supplements

Grapefruit seed extract, colostrum, and cod liver oil products

Essential Oils

Essential oils and dietary supplements

Essential oil products

Essential oil products

Essential oil products

Essential oil products

Essential oil products

Essential oil products

Essential oils and herbal products

Herbal Products

Herbal products

Herbal products

Herbal products

Herbal tinctures and herbal remedy products

Herbal products including CoronaDefender Herbal Sachet-S

Herbal products, including Carahealth Immune

Coronavirus Protocol (Coronavirus Boneset Tea, Coronavirus Cell Protection, Coronavirus Core tincture, Coronavirus Immune System, and Elderberry Tincture)

Formula #1, Formula #2, Formula #3, and Eupatorium perfoliatum (Boneset)

Homeopathic Products

Homeopathic Genus Epidemicus

Homeopathic drugs and dietary supplement products

Homeopathic drug products

Homeopathic drugs

Sanitizer/Antimicrobial Products

Non-alcohol based hand sanitizer product

Non-alcohol based sanitizer products

Prefense Hand Sanitizers

Germ Stopper products

Sani-Bar GK95 and Sani-Disc GK95D

Products labeled to contain Silver

Colloidal silver products

Colloidal silver products

Colloidal silver products

Products labeled to contain silver

Silver Sol Liquid and products labeled to contain silver

Quicksilver Liposomal Vitamin C w/ Liposomal, Jigsaw Magnesium With SRT, and products labeled to contain silver

Superblue Silver Immune Gargle, SuperSilver Whitening Toothpaste, SuperSilver Wound Dressing Gel and Superblue Fluoride Free Toothpaste

HealthMax Nano-Silver Liquid, Silver Biotics Silver Lozenges with Vitamin C, and Silver Biotics Silver Gel Ultimate Skin & Body Care (collectively, your silver products)

Colloidal silver, vitamins, minerals, herb oils, and a homeopathic drug product

Liquid Silver, Camu Camus Vitamin C, Vitaly C, Immunity Kit, Vitamin D3-K2, and Power Immune

Silver, CBD products, iodine, medicinal mushroom, selenium, zinc, vitamin C, vitamin D3, astragalus, and elderberry

Other Products

Miracle Mineral Solution (MMS) (chlorine dioxide)

Fortify Humic Beverage Concentrate and Electrify Fulvic Beverage Concentrate

Honey product, COVID-19 COUGH Syrup

Salt therapy products

FullerLifeC60

Viral Defense Tincture

Traditional Chinese medicine products

China Oral Nosode, described as AN330 CORONA VIRAL IMMUNE SUPPORT AND/OR ACTIVE RESPIRATORY INFECTION FOR ALL AGES

Kratom products

Ayurvedic products

nCoV19 spike protein vaccine

CORE and IMMUNE SHOT

Defend Patch

NAD+ and NMN sublingual gel products

Corona-Cure Coronavirus Infection Prevention Nasal Spray

Viral Protection Kits

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How FDA Is Monitoring The COVID-19 Product Market - JD Supra

Nanomedicine is one of the applications of nanotechnology used in diagnosis, treatment, monitoring, and control of biological systems. Nanomedicine uses nanoscale manipulation of materials to improve medicine delivery. Thus, nanomedicine has facilitated the treatment against various diseases. Nanomedicine is in nascent stage, as several products are in the development phase. According to Nanobiotix (a nanomedicine company), in 2015, around 230 nanomedicine products were identified, which are either marked or are in the trial phase.

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This report covers Nanomedicines market from the bottom line, starting from its definition. Later, it segments the market on various criteria to give a depth of understanding on the various product types and pricing structures and applications. Each and every segment is examined carefully by factoring in sales, revenue and market size in order to understand the potential of growth and scope.

Various factors are responsible for the markets growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Nanomedicines market. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market. The influence of the latest government guidelines is also analyzed in detail in the report. It studies the Nanomedicines markets trajectory between forecast periods.

Some of the Top Companies Profiled in this Market includes:

Global Nanomedicines Market Segmentation:

Market Segmentation: By Product

Market Segmentation: By Nanomolecule Type

Market Segmentation: By Application

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Key questions answered in the report include:

Table of Contents

Global Nanomedicines Market Research Report

Chapter 1 Nanomedicines Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Nanomedicines Market Forecast

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Nanomedicines Market will touch a new level in upcoming year with Top Key Players like Abbott, GE Healthcare, Johnson & Johnson, Merck, Pfizer,...

Rajasekharreddy Pala,1,2 VT Anju,3 Madhu Dyavaiah,3 Siddhardha Busi,4 Surya M Nauli1,2

1Department of Biomedical and Pharmaceutical Sciences, Harry and Diane Rinker Health Science Campus, Chapman University, Irvine, CA 92618, USA; 2Department of Medicine, University of California Irvine, Irvine, CA 92868, USA; 3Department of Biochemistry and Molecular Biology, School of Life Sciences, Pondicherry University, Puducherry, India; 4Department of Microbiology, School of Life Sciences, Pondicherry University, Puducherry, India

Correspondence: Rajasekharreddy Pala; Surya M Nauli Tel +714-516-5462; +714-516-5480Fax +714-516-5481Email rrpala@chapman.edu; nauli@chapman.edu

Abstract: Cardiovascular diseases (CVDs) are one of the foremost causes of high morbidity and mortality globally. Preventive, diagnostic, and treatment measures available for CVDs are not very useful, which demands promising alternative methods. Nanoscience and nanotechnology open a new window in the area of CVDs with an opportunity to achieve effective treatment, better prognosis, and less adverse effects on non-target tissues. The application of nanoparticles and nanocarriers in the area of cardiology has gathered much attention due to the properties such as passive and active targeting to the cardiac tissues, improved target specificity, and sensitivity. It has reported that more than 50% of CVDs can be treated effectively through the use of nanotechnology. The main goal of this review is to explore the recent advancements in nanoparticle-based cardiovascular drug carriers. This review also summarizes the difficulties associated with the conventional treatment modalities in comparison to the nanomedicine for CVDs.

Keywords: cardiovascular diseases, nanoscience, nanoparticles, nanomedicine, nanocarriers, treatment

This work is published and licensed by Dove Medical Press Limited. The full terms of this license are available at https://www.dovepress.com/terms.php and incorporate the Creative Commons Attribution - Non Commercial (unported, v3.0) License.By accessing the work you hereby accept the Terms. Non-commercial uses of the work are permitted without any further permission from Dove Medical Press Limited, provided the work is properly attributed. For permission for commercial use of this work, please see paragraphs 4.2 and 5 of our Terms.

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Nanoparticle-Mediated Drug Delivery for the Treatment of Cardiovascula | IJN - Dove Medical Press

Nanomedicine Market was valued US$ XX Bn in 2018 and is expected to reach US$ XX Bn by 2026, at CAGR of XX% during forecast period of 2019 to 2026.

Nanomedicine Market Drivers and Restrains:Nanomedicine is an application of nanotechnology, which are used in diagnosis, treatment, monitoring, and control of biological systems. Nanomedicine usages nanoscale manipulation of materials to improve medicine delivery. Therefore, nanomedicine has facilitated the treatment against various diseases. The nanomedicine market includes products that are nanoformulations of the existing drugs and new drugs or are nanobiomaterials. The research and development of new devices as well as the diagnostics will become, more effective, enabling faster response and the ability to treat new diseases are likely to boost the market growth.

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The nanomedicine markets are driven by factors such as developing new technologies for drug delivery, increase acceptance of nanomedicine across varied applications, rise in government support and funding, the growing need for therapies that have fewer side effects and cost-effective. However, long approval process and risks associated with nanomedicine (environmental impacts) are hampering the market growth at the global level. An increase in the out-licensing of nanodrugs and growth of healthcare facilities in emerging economies are likely to create lucrative opportunities in the nanomedicine market.

The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis.

Nanomedicine Market Segmentation Analysis:Based on the application, the nanomedicine market has been segmented into cardiovascular, neurology, anti-infective, anti-inflammatory, and oncology. The oncology segment held the dominant market share in 2018 and is projected to maintain its leading position throughout the forecast period owing to the rising availability of patient information and technological advancements. However, the cardiovascular and neurology segment is projected to grow at the highest CAGR of XX% during the forecast period due to presence of opportunities such as demand for specific therapeutic nanovectors, nanostructured stents, and implants for tissue regeneration.

Nanomedicine Market Regional Analysis:Geographically, the Nanomedicine market has been segmented into North America, the Europe, Asia Pacific, Latin America, and Middle East & Africa. North America held the largest share of the Nanomedicine market in 2018 due to the rising presence of patented nanomedicine products, the availability of advanced healthcare infrastructure and the rapid acceptance of nanomedicine. The market in Asia Pacific is expected to expand at a high CAGR of XX% during the forecast period thanks to rise in number of research grants and increase in demand for prophylaxis of life-threatening diseases. Moreover, the rising investments in research and development activities for the introduction of advanced therapies and drugs are predicted to accelerate the growth of this region in the near future.

Nanomedicine Market Competitive landscapeMajor Key players operating in this market are Abbott Laboratories, CombiMatrix Corporation, General Electric Company, Sigma-Tau Pharmaceuticals, Inc, and Johnson & Johnson. Manufacturers in the nanomedicine are focusing on competitive pricing as the strategy to capture significant market share. Moreover, strategic mergers and acquisitions and technological innovations are also the key focus areas of the manufacturers.

The objective of the report is to present a comprehensive analysis of Nanomedicine Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants by region. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors by region on the market are presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Nanomedicine Market dynamics, structure by analyzing the market segments and project the Nanomedicine Market size. Clear representation of competitive analysis of key players By Type, Price, Financial position, Product portfolio, Growth strategies, and regional presence in the Nanomedicine Market make the report investors guide.

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Scope of the Nanomedicine Market:

Nanomedicine Market by Modality:

Diagnostics TreatmentsNanomedicine Market by Diseases:

Oncological Diseases Infectious Diseases Cardiovascular Diseases Orthopedic Disorders Neurological Diseases Urological Diseases Ophthalmological Diseases Immunological DiseasesNanomedicine Market by Application:

Neurology Cardiovascular Anti-Inflammatory Anti-Infectives OncologyNanomedicine Market by Region:

Asia Pacific North America Europe Latin America Middle East AfricaNanomedicine Market Major Players:

Abbott Laboratories CombiMatrix Corporation General Electric Company Sigma-Tau Pharmaceuticals, Inc Johnson & Johnson Mallinckrodt plc. Merck & Company, Inc. Nanosphere, Inc. Pfizer, Inc. Teva Pharmaceutical Industries Ltd. Celgene Corporation UCB (Union Chimique Belge) S.A. AMAG Pharmaceuticals Nanospectra Biosciences, Inc. Arrowhead Pharmaceuticals, Inc. Leadiant Biosciences, Inc. Epeius Biotechnologies Corporation Cytimmune Sciences, Inc.

MAJOR TOC OF THE REPORT

Chapter One: Nanomedicine Market Overview

Chapter Two: Manufacturers Profiles

Chapter Three: Global Nanomedicine Market Competition, by Players

Chapter Four: Global Nanomedicine Market Size by Regions

Chapter Five: North America Nanomedicine Revenue by Countries

Chapter Six: Europe Nanomedicine Revenue by Countries

Chapter Seven: Asia-Pacific Nanomedicine Revenue by Countries

Chapter Eight: South America Nanomedicine Revenue by Countries

Chapter Nine: Middle East and Africa Revenue Nanomedicine by Countries

Chapter Ten: Global Nanomedicine Market Segment by Type

Chapter Eleven: Global Nanomedicine Market Segment by Application

Chapter Twelve: Global Nanomedicine Market Size Forecast (2019-2026)

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Nanomedicine Market: Industry Analysis and forecast 2026: By Modality, Diseases, Application and... - Azizsalon News

New York, May 27, 2020 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Global Nanotechnology in Drug Delivery Industry" - https://www.reportlinker.com/p05621749/?utm_source=GNW 1 Billion by the end of the analysis period. An unusual period in history, the coronavirus pandemic has unleashed a series of unprecedented events affecting every industry. The Nanocrystals market will be reset to a new normal which going forwards in a post COVID-19 era will be continuously redefined and redesigned. Staying on top of trends and accurate analysis is paramount now more than ever to manage uncertainty, change and continuously adapt to new and evolving market conditions.

As part of the new emerging geographic scenario, the United States is forecast to readjust to a 17% CAGR. Within Europe, the region worst hit by the pandemic, Germany will add over US$4.1 Billion to the regions size over the next 7 to 8 years. In addition, over US$3.7 Billion worth of projected demand in the region will come from Rest of European markets. In Japan, the Nanocrystals segment will reach a market size of US$3 Billion by the close of the analysis period. Blamed for the pandemic, significant political and economic challenges confront China. Amid the growing push for decoupling and economic distancing, the changing relationship between China and the rest of the world will influence competition and opportunities in the Nanotechnology in Drug Delivery market. Against this backdrop and the changing geopolitical, business and consumer sentiments, the worlds second largest economy will grow at 25.2% over the next couple of years and add approximately US$20.2 Billion in terms of addressable market opportunity. Continuous monitoring for emerging signs of a possible new world order post-COVID-19 crisis is a must for aspiring businesses and their astute leaders seeking to find success in the now changing Nanotechnology in Drug Delivery market landscape. All research viewpoints presented are based on validated engagements from influencers in the market, whose opinions supersede all other research methodologies.

Competitors identified in this market include, among others, AbbVie Inc.; Aquanova AG; BlueWillow Biologics; Camurus AB; Celgene, Inc.; Ceramisphere Health Pty Limited; Cristal Therapeutics; CYTIMMUNE SCIENCES, Inc.; EnColl Corporation; EyePoint Pharmaceuticals; Lena Nanoceutics Ltd.; Nanobiotix; NanoCarrier Co., Ltd.; NanOlogy LLC; Nanospectra Biosciences, Inc.; Parvus Therapeutics Inc.; Selecta Biosciences; Starpharma Holdings Limited; Taiwan Liposome Co., ; Tarveda Therapeutics

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NANOTECHNOLOGY IN DRUG DELIVERY MCP-7MARKET ANALYSIS, TRENDS, AND FORECASTS, JUNE 2CONTENTS

I. INTRODUCTION, METHODOLOGY & REPORT SCOPE

II. EXECUTIVE SUMMARY

1. MARKET OVERVIEW Nanotechnology, A Critical Part of Healthcare Reform Recent Market Activity Nanomedicine, Revolutionizing the Basics of Medicine A Peek Into the Evolving Role of Nanoparticles in Nanomedicine Nanocrystals Continue to Gain Momentum as Alternatives to Traditional Nanocarriers Nanocarriers Enable Targeted Drug Delivery Systems to Improve Therapeutic Outcomes Advanced Liposomes Enable Low Soluble Drugs to Achieve Targeted Delivery Multifunctional Dendrimers Present an Ideal Structure for Targeted Drug Delivery High Drug Loading Capacity of PAMAM Dendrimers Bodes Well for Targeted Drug Delivery Systems Nanotechnology-Based Strategies for siRNA Grows in Popularity NEM Devices as Drug Delivery Vehicles Nanotechnology - In Pursuit of Co-Delivery of Drugs Nanoemulsions Begin to Make a Mark Nanotechnology Finds Increasing Role in Fighting Infectious Diseases List of Select Nanotechnology-based Antimicrobial Drugs in Clinical Use Nanotechnology Opening New Avenues in Antiretroviral Therapy Demonstrated Activity of Select Nanotechnology- Delivered Antiretroviral Therapies Nanotechnology in Delivery of CNS Therapeutics Market Outlook Global Competitor Market Shares Nanotechnology in Drug Delivery Competitor Market Share Scenario Worldwide (in %): 2020 & 2029 Impact of Covid-19 and a Looming Global Recession 2. FOCUS ON SELECT PLAYERS AbbVie Inc. (USA) Aquanova AG (Germany) BlueWillow Biologics (USA) Camurus AB (Sweden) Celgene, Inc. (Canada) Ceramisphere Health Pty Limited (Australia) Cristal Therapeutics (The Netherlands) CYTIMMUNE SCIENCES, INC. (Italy) EnColl Corporation (USA) EyePoint Pharmaceuticals (USA) Lena Nanoceutics Ltd. (UK) NanOlogy LLC (USA) NanoCarrier Co., Ltd. (Japan) Nanobiotix (France) Nanospectra Biosciences, Inc (USA) Parvus Therapeutics Inc. (USA) Selecta Biosciences (USA) Starpharma Holdings Limited (Australia) Taiwan Liposome Co. (Taiwan) Tarveda Therapeutics (USA) 3. MARKET TRENDS & DRIVERS Growing Need for Alternative Approaches to Conventional Chemotherapy Creates Opportunities for Nanoparticles Stimuli Responsive Polymeric Micelles Promise Enhanced Therapeutic Effect for Hydrophobic Anticancer Drugs Inorganic Nanocarriers Facilitate High Payload Capacity and Co -Delivery Platforms for MDR Cancer Therapy Solid Lipid Nanoparticles Provide Increased Physical Stability in Targeted Drug Delivery Pulmonary Delivery of Nanoparticle-Based Drugs Receives Increased Interest Inhalable Liposome Formulations Attract Research Interest in Pulmonary Delivery SLNs in Pulmonary Delivery of Drugs Market Challenges Increasing Environmental and Health Concerns Limited Success and Scaling Up Issues Pose a Major Hurdle to Further Advancement Higher Concentration of Research in Academia limits Commercialization Collaborations Assume Importance Nanomedicine Regulation 4. GLOBAL MARKET PERSPECTIVE Table 1: Nanotechnology in Drug Delivery Global Market Estimates and Forecasts in US$ Million by Region/Country: 2020-2027 Table 2: Nanotechnology in Drug Delivery Market Share Shift across Key Geographies Worldwide: 2020 VS 2027 Table 3: Nanocrystals (Technology) World Market by Region/Country in US$ Million: 2020 to 2027 Table 4: Nanocrystals (Technology) Market Share Breakdown of Worldwide Sales by Region/Country: 2020 VS 2027 Table 5: Nanocarriers (Technology) Potential Growth Markets Worldwide in US$ Million: 2020 to 2027 Table 6: Nanocarriers (Technology) Market Sales Breakdown by Region/Country in Percentage: 2020 VS 2027 III. MARKET ANALYSIS GEOGRAPHIC MARKET ANALYSIS UNITED STATES Market Facts & Figures US Nanotechnology in Drug Delivery Market Share (in %) by Company: 2020 & 2025 Market Analytics Table 7: Nanotechnology in Drug Delivery Market in US$ Million in the United States by Technology: 2020-2027 Table 8: United States Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 CANADA Table 9: Nanotechnology in Drug Delivery Market Analysis in Canada in US$ Million by Technology: 2020-2027 Table 10: Canadian Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 JAPAN Table 11: Japanese Medium & Long-Term Outlook for Nanotechnology in Drug Delivery Market in US$ Million by Technology: 2020-2027 Table 12: Japanese Nanotechnology in Drug Delivery Market Percentage Share Distribution by Technology: 2020 VS 2027 CHINA Table 13: Nanotechnology in Drug Delivery Market Estimates and Forecasts in China in US$ Million by Technology: 2020-2027 Table 14: Nanotechnology in Drug Delivery Market in China: Percentage Share Analysis by Technology for 2020 and 2027 EUROPE Market Facts & Figures European Nanotechnology in Drug Delivery Market: Competitor Market Share Scenario (in %) for 2020 & 2025 Market Analytics Table 15: European Nanotechnology in Drug Delivery Market Demand Scenario in US$ Million by Region/Country: 2018-2025 Table 16: European Nanotechnology in Drug Delivery Market Share Shift by Region/Country: 2020 VS 2027 Table 17: European Nanotechnology in Drug Delivery Market Assessment in US$ Million by Technology: 2020-2027 Table 18: Nanotechnology in Drug Delivery Market in Europe: Percentage Breakdown of Sales by Technology for 2020 and 2027 FRANCE Table 19: French Nanotechnology in Drug Delivery Market Estimates and Projections in US$ Million by Technology: 2020-2027 Table 20: French Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 GERMANY Table 21: German Nanotechnology in Drug Delivery Latent Demand Forecasts in US$ Million by Technology: 2020-2027 Table 22: German Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 ITALY Table 23: Nanotechnology in Drug Delivery Market Estimates and Forecasts in Italy in US$ Million by Technology: 2020-2027 Table 24: Nanotechnology in Drug Delivery Market in Italy: Percentage Share Analysis by Technology for 2020 and 2027 UNITED KINGDOM Table 25: United Kingdom Medium & Long-Term Outlook for Nanotechnology in Drug Delivery Market in US$ Million by Technology: 2020-2027 Table 26: United Kingdom Nanotechnology in Drug Delivery Market Percentage Share Distribution by Technology: 2020 VS 2027 SPAIN Table 27: Nanotechnology in Drug Delivery Market Analysis in Spain in US$ Million by Technology: 2020-2027 Table 28: Spanish Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 RUSSIA Table 29: Nanotechnology in Drug Delivery Market in US$ Million in Russia by Technology: 2020-2027 Table 30: Russian Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 REST OF EUROPE Table 31: Rest of Europe Nanotechnology in Drug Delivery Market Assessment in US$ Million by Technology: 2020-2027 Table 32: Nanotechnology in Drug Delivery Market in Rest of Europe: Percentage Breakdown of Sales by Technology for 2and 2027 ASIA-PACIFIC Table 33: Asia-Pacific Nanotechnology in Drug Delivery Market Estimates and Forecasts in US$ Million by Region/Country: 2020-2027 Table 34: Asia-Pacific Nanotechnology in Drug Delivery Market Share Analysis by Region/Country: 2020 VS 2027 Table 35: Asia-Pacific Nanotechnology in Drug Delivery Market Estimates and Projections in US$ Million by Technology: 2020-2027 Table 36: Asia-Pacific Nanotechnology in Drug Delivery Historic Market Analysis in US$ Million by Technology: 2020 VS 2027 AUSTRALIA Table 37: Australian Nanotechnology in Drug Delivery Latent Demand Forecasts in US$ Million by Technology: 2020-2027 Table 38: Australian Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 INDIA Table 39: Nanotechnology in Drug Delivery Market Analysis in India in US$ Million by Technology: 2020-2027 Table 40: Indian Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 SOUTH KOREA Table 41: Nanotechnology in Drug Delivery Market in South Korea: Recent Past, Current and Future Analysis in US$ Million by Technology for the Period 2020-2027 Table 42: Nanotechnology in Drug Delivery Market Share Distribution in South Korea by Technology: 2020 VS 2027 REST OF ASIA-PACIFIC Table 43: Rest of Asia-Pacific Medium & Long-Term Outlook for Nanotechnology in Drug Delivery Market in US$ Million by Technology: 2020-2027 Table 44: Rest of Asia-Pacific Nanotechnology in Drug Delivery Market Percentage Share Distribution by Technology: 2020 VS 2027 LATIN AMERICA Table 45: Latin American Nanotechnology in Drug Delivery Market Trends by Region/Country in US$ Million: 2020-2027 Table 46: Latin American Nanotechnology in Drug Delivery Market Percentage Breakdown of Sales by Region/Country: 2020 and 2027 Table 47: Nanotechnology in Drug Delivery Market Estimates and Forecasts in Latin America in US$ Million by Technology: 2020-2027 Table 48: Nanotechnology in Drug Delivery Market in Latin America : Percentage Analysis by Technology for 2020 and 2027 ARGENTINA Table 49: Argentinean Nanotechnology in Drug Delivery Market Assessment in US$ Million by Technology: 2020-2027 Table 50: Nanotechnology in Drug Delivery Market in Argentina: Percentage Breakdown of Sales by Technology for 2020 and 2027 BRAZIL Table 51: Brazilian Nanotechnology in Drug Delivery Market Estimates and Projections in US$ Million by Technology: 2020-2027 Table 52: Brazilian Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 MEXICO Table 53: Mexican Nanotechnology in Drug Delivery Latent Demand Forecasts in US$ Million by Technology: 2020-2027 Table 54: Mexican Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 REST OF LATIN AMERICA Table 55: Nanotechnology in Drug Delivery Market in US$ Million in Rest of Latin America by Technology: 2020-2027 Table 56: Rest of Latin America Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 MIDDLE EAST Table 57: The Middle East Nanotechnology in Drug Delivery Market Estimates and Forecasts in US$ Million by Region/Country: 2018-2025 Table 58: The Middle East Nanotechnology in Drug Delivery Market Share Breakdown by Region/Country: 2020 and 2027 Table 59: The Middle East Nanotechnology in Drug Delivery Market Analysis in US$ Million by Technology: 2020-2027 Table 60: The Middle East Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 IRAN Table 61: Iranian Medium & Long-Term Outlook for Nanotechnology in Drug Delivery Market in US$ Million by Technology: 2020-2027 Table 62: Iranian Nanotechnology in Drug Delivery Market Percentage Share Distribution by Technology: 2020 VS 2027 ISRAEL Table 63: Israeli Nanotechnology in Drug Delivery Market Assessment in US$ Million by Technology: 2020-2027 Table 64: Nanotechnology in Drug Delivery Market in Israel: Percentage Breakdown of Sales by Technology for 2020 and 2027 SAUDI ARABIA Table 65: Nanotechnology in Drug Delivery Market Estimates and Forecasts in Saudi Arabia in US$ Million by Technology: 2020-2027 Table 66: Nanotechnology in Drug Delivery Market in Saudi Arabia: Percentage Share Analysis by Technology for 2020 and 2027 UNITED ARAB EMIRATES Table 67: Nanotechnology in Drug Delivery Market in the United Arab Emirates: Recent Past, Current and Future Analysis in US$ Million by Technology for the Period 2020-2027 Table 68: Nanotechnology in Drug Delivery Market Share Distribution in United Arab Emirates by Technology: 2020 VS 2027 REST OF MIDDLE EAST Table 69: Rest of Middle East Nanotechnology in Drug Delivery Latent Demand Forecasts in US$ Million by Technology: 2020-2027 Table 70: Rest of Middle East Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 AFRICA Table 71: Nanotechnology in Drug Delivery Market in US$ Million in Africa by Technology: 2020-2027 Table 72: African Nanotechnology in Drug Delivery Market Share Breakdown by Technology: 2020 VS 2027 IV. COMPETITION

Total Companies Profiled: 43 Read the full report: https://www.reportlinker.com/p05621749/?utm_source=GNW

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Amid the COVID-19 crisis and the looming economic recession, the Nanotechnology in Drug Delivery market worldwide will grow by a projected US$124.7...

SALT LAKE CITY, May 26, 2020 /PRNewswire/ -- Clene Nanomedicine, Inc., a clinical-stage biopharmaceutical company, today announcedits Australian subsidiary has completed over 50% of participant randomization in the Phase 2 RESCUE-ALS study with its lead nanocatalytic therapy, CNM-Au8, for the treatment of Amyotrophic Lateral Sclerosis (ALS). The RESCUE-ALS study is substantially funded by FightMND.

The randomized, double-blind, multi-center RESCUE-ALS study is an ongoing study evaluating the efficacy, safety, pharmacokinetics, and pharmacodynamics of CNM-Au8 in early symptomatic ALS patients. The study has to date enrolled 26 subjects of 42 planned participants.

"Enrollment in this Phase 2 study is ahead of schedule and clearly emphasizes the unmet medical need in this devasting disease. In preclinical models of ALS, CNM-Au8 has been shown to promote neuroprotection and reduce neurodegeneration. We believe the unique mechanism of CNM-Au8 provides the potential to be an effective disease-modifying therapy for patients with ALS and we look forward to completing enrollment," said Robert Glanzman, MD, FAAN, Chief Medical Officer of Clene.

"We are excited to achieve this enrollment milestone for our Phase 2 RESCUE-ALS trial and believe we are on track to complete full enrollment in the third quarter of this year," said Rob Etherington, President and CEO of Clene.

About RESCUE-ALS

RESCUE-ALS is Phase 2 multi-center randomized, double-blind, parallel group, placebo-controlled study examining the efficacy, safety, pharmacokinetics, and pharmacodynamics of CNM-Au8 in participants who are newly symptomatic ALS (within 24-months of screening or 12-months from diagnosis) and with a clinically probable or possible or definite ALS diagnosis. Enrolled subjects will be randomized 1:1 to receive either active treatment with CNM-Au8 30 mg or placebo in addition to their current standard of care. Participants will receive their randomized oral treatment daily over 36 consecutive weeks during the Treatment Period. The treatment is taken by mouth once daily first thing every morning. The objective of this study is to assess bioenergetic catalysis with CNM-Au8 to slow disease progression in patients with ALS.

About CNM-Au8

CNM-Au8 is a concentrated, aqueous suspension of clean-surfaced faceted nanocrystalline gold (Au) that acts catalytically to support important intracellular biological reactions. CNM-Au8 consists solely of gold atoms organized into faceted, geometrical crystals held in suspension in sodium bicarbonate buffered, pharmaceutical grade water. CNM-Au8 has demonstrated safety in Phase 1 studies in healthy volunteersand both remyelination and neuroprotection effects in multiple preclinical models. Preclinical data presented at scientific congresses demonstrated that treatment with CNM-Au8 in neuronal cultures improved survival of neurons, protected neurite networks, decreased intracellular levels of reactive oxygen species, and improved mitochondrial capacity in response to cellular stress, induced by multiple disease-relevant neurotoxins. Oral treatment with CNM-Au8 improved functional behaviors in a rodent models of ALS, multiple sclerosis, and Parkinson's disease versus vehicle (placebo). CNM-Au8 has received regulatory approval to proceed to clinical studies for the treatment of remyelination failure in patients with multiple sclerosis and neuroprotection in patients with amyotrophic lateral sclerosis(ALS) and Parkinson's disease.

About Amyotrophic Lateral Sclerosis (ALS)

ALS is a universally fatal neurodegenerative disorder that results in loss of motor neurons in the cerebral cortex, brain stem, and spinal cord. ALS, also known as Lou Gehrig's disease, leads to the death of the neurons controlling voluntary muscles resulting in weakness, muscle atrophy, and progressive paralysis. ALS affects more than 15,000 patients in the United States and is the most prevalent adult-onset progressive motor neuron disease.

About Clene

Clene Nanomedicine, Inc. is a privately-held, clinical-stage biopharmaceutical company, focused on the development of unique therapeutics for neurodegenerative diseases. Clene has innovated a novel nanotechnology drug platform for the development of a new class of orally-administered neurotherapeutic drugs. Founded in 2013, the company is based in Salt Lake City, Utah with R&D and manufacturing operations located in North East, Maryland. For more information, please visit http://www.clene.com.

About FightMND

FightMND is a not-for-profit registered charity, founded in 2014. It was established to raise the awareness of Motor Neurone Disease (MND) in Australia, to increase funding for research to find an effective treatment and cure and to provide care equipment for MND patients. We have a clear objective to a have a world free from MND.

FightMND is Australia's largest independent MND foundation focused on funding large- scale, collaborative research and clinical trials. The generous donations contributed by everyday Australians, right across the country, has enabled FightMND to raise and commit millions to cure and care initiatives.

Investor Contact

Kaitlyn BroscoThe Ruth Group646-536-7032[emailprotected]

Media Contact

Kirsten ThomasThe Ruth Group508-280-6592[emailprotected]

SOURCE Clene Nanomedicine, Inc.

clene.com

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Clene Nanomedicine Announces Over 50% of Subjects Randomized in RESCUE-ALS Clinical Trial for Treatment of Amyotrophic Lateral Sclerosis (ALS) with...

New York City, United States Since the COVID-19 infection flare-up in December 2019, the malady has spread to right around 100 nations around the world with the World Health Organization proclaiming it a general wellbeing crisis. The worldwide effects of the coronavirus sickness 2019 (COVID-19) are now beginning to be felt, and will essentially influence the Healthcare Industry in 2020.

Ongoing advancements in cancer research continue to lead to the introduction of newer and better treatment options including drug therapies. The provision of newer drugs and treatments is expected to improve the diagnostic and treatment rate for triple-negative breast cancer.

Some of the recent clinical efforts are being targeted at the molecular level characterization of triple-negative breast cancer across emerging therapeutic targets such as epigenetic proteins, PARP1, androgen receptors, receptor and non-receptor tyrosine kinases, and immune checkpoints.

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Company Profiles

These initiatives are anticipated to boost revenue growth of the triple-negative breast cancer treatment market. In a new research study, Persistence Market Research estimates the globaltriple-negative breast cancer treatment marketrevenue to cross US$ 720 Mn by 2026 from an estimated valuation of just under US$ 505 Mn in 2018. This is indicative of a CAGR of 4.7% during the period 2018 to 2026.

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Development of generics is another key opportunity area in the triple-negative breast cancer treatment market. With the rapidly expanding number of cancer cases across the world, there is a need for effective cancer management, including the provision of better and more efficient drugs.

Developing economies are faced with challenges on several fronts including paucity of funds and lack of proper treatment options, calling for more innovative approaches to affordable healthcare. The availability of biosimilars and affordable generic anti-cancer drugs in developing regions is expected to significantly reduce the burden of cancer care.

A projected cost reduction to the tune of more than 30% 40% and extended use of generic drugs is expected to reduce overall cancer treatment costs, thereby increasing the treatment rate for triple-negative breast cancer. This is further anticipated to create lucrative growth opportunities in the global triple-negative breast cancer treatment market.

Advances in Cancer Treatment and Introduction of Innovative Cancer Treatment Drugs to Boost Revenue Growth of the Triple-Negative Breast Cancer Treatment Market

Breast cancer is one of the most common types of cancer in women, and over the years, pharmaceutical and life sciences companies have been conducting advanced research and development activities to devise newer treatment options and drugs to treat breast cancer.

Several new drug formulations are currently in the pipeline in different stages of clinical development and this is expected to bode well for the triple-negative breast cancer treatment market. Innovation in oncology therapeutics has shifted focus towards an outcome based approach to cancer care, with an increasing emphasis on combination drugs and newer therapeutic modalities.

This is further likely to put the global triple-negative breast cancer treatment market on a positive growth trajectory in the coming years.

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Combination Therapy and Advancements in Nano Medicine Research Trending the Triple-Negative Breast Cancer Treatment Market

One of the biggest trends being observed in the global market for triple-negative breast cancer treatment is the shift towards combination therapy. Companies in the global triple-negative breast cancer treatment market are conducting clinical trials for combination therapies by collaborating with other players in the market.

Combination therapies are the latest innovation in the field of oncology and the combination of therapeutic drugs with chemotherapy is said to be an effective protocol for the treatment of triple-negative breast cancer.

Another huge trend in the triple-negative breast cancer treatment market is the emergence of nanotechnology as an efficient tool in the clinical management of critical diseases such as triple-negative breast cancer. It has been observed that the combination of gold nanoparticles and folic acid results in higher cell entry rate in both in-vitro and in-vivo models, indicative of the fact that folate receptors are effective targeted therapies for the treatment of triple-negative breast cancer.

Nanoparticles facilitate systematic and efficient delivery of drugs and agents to the site of the tumor. Advanced R&D in nanotechnology and nano medicine is one of the top trends likely to impact the global triple-negative breast cancer treatment market in the years to come.

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To support companies in overcoming complex business challenges, we follow a multi-disciplinary approach. At PMR, we unite various data streams from multi-dimensional sources. By deploying real-time data collection, big data, and customer experience analytics, we deliver business intelligence for organizations of all sizes.

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Triple Negative Breast Cancer Treatment Market Covid-19 Impact In 2026 | In-depth Analysis, Global Market Share, Top Trends, Professional &...

The research report on theNanorobots marketis a specialized and in-depth industry research dealing with all technical and profitable business outlook. In the dossier all the historical and current trends of Nanorobots market is discussed comprehensively. It also showcases the trends that are anticipated for the Nanorobots market during the forecast period.

The industry statistics that are encompassed within this report is not only global but also deals with regional and country analysis. This helps the user acquire an extensive perspective about the Nanorobots market. The statistical data that is provided is further supported with thorough qualitative information. The aspects that directly or indirectly impact the Nanorobots market are exemplified through attributes such as drivers, restraints, opportunities, and the market challenges.

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The research study encompasses all the trusted models and industry analysis which prove useful for the market players to plan out the business strategies that will further help for the market development. The report also offers exhaustive competitive landscape of the market players. The major market players that are incorporated within this report areBruker, Jeol, Thermo Fisher, Ginkgo Bioworks, Oxford Instruments, Ev Group, Imina Technologies, Toronto Nano Instrumentation, Klocke Nanotechnik, Kleindiek Nanotechnik, Xidex, Synthace, Park Systems, Smaract, Nanonics Imaging, Novascan Technologies, Angstrom Advanced, Hummingbird Scientific, Nt-Mdt Spectrum Instruments, Witec.

The market segments that are included in the report are{Nanomanipulator, Bio-Nanorobotics, Magnetically Guided, Bacteria-Based}; {Nanomedicine, Biomedical}. Along with major segments the sub-segments of the Nanorobots market is also included. The regional segmentation of the market includes North America, Latin America, Europe, Asia Pacific, and the Middle East and Africa. The major countries that are included are US, Canada, Germany, UK, China, Japan, Brazil, Mexico, among others. The study evaluates the dominance of the market in each region which helps the clients to evaluate the market demand and share on the global platform.

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Details about the market players are profiled at the end. It includes all the minute information about the organization such as its headquarter location, the sales and the production details, recent product developments, and the company strategies.

Main market perceptions consist of the following:

1. The survey of Nanorobots delivers market size and growth rate for the forecast period 2020-2026.

2. It presents detailed understandings into ongoing industry trends, trend prediction, and growth drivers about the Nanorobots.

3. It offers an independent review of market sectors and the regional outlook of Nanorobots.

4. The report provides a detailed overview of the supplier landscape, combative analysis, and key market strategies to gain an advantage on competing companies.

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Coronavirus (COVID-19) Impact On Global Nanorobots Market 2020 Analysis By Top Key Players Bruker, Jeol, Thermo Fisher, Ginkgo Bioworks, Oxford...

Global Nanorobotics Marketwas valued at US$ 3.7 Bn in 2018 and is expected to reach US$ 9.2Bn by 2026, at a CAGR of 12.06%during a forecast period.

Developments in nanotechnology coupled with demand for minimally aggressive procedures are expected to drive market growth over the forecast period. Nanobots possess likely in the medical sector for destroying cancerous cells at the genetic level. Increasing support for nanomedicine by many nations and the increasing geriatric population are factors which can augur market demand.

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The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis.

Utilization of nanobots in the ranostics can be beneficial for the market in the near future. A rise in miniaturization and demand for automation across various sectors are anticipated to fuel market growth. Training of new personnel to use nanobots can restrain market growth in the upcoming years.Nanomedicine application segment to grow at the highest CAGR during the forecast period. Nanorobotics is widely used in nanomedicine owning to its healthcare features. The large share of this application aspects to the large level of commercialization in the healthcare sector for drug delivery, in vivo imaging, biomaterial, in vitro diagnostic, active implants, and drug therapy.

North America region accounted for the largest share of 12.2%, in terms of value, of the nanorobotics market globally. Presence of many nanotechnology companies, well-developed healthcare infrastructure, and government initiatives to create patient awareness are factors driving the market. The U.S is anticipated to contribute to market revenue owing to the increase in cardiovascular diseases and the rising elderly populace.

Europe follows North America as the second biggest nanorobotics market. Presence of chronic diseases and the burgeoning population are factors expected to indicate the Europe nanobots market. Establishment of organizations to develop standards pertaining to nanotechnology can expand market growth. In 2018, DNA-Robotics, an organization including 12 European companies, has outlined steps to expedite production of nanobots on a large scale. These standards can help scale the market exponentially in the upcoming years.

A recent development in nanorobotics market: In March 2018, Thermo Fisher Scientific acquired Gatan, an exclusively owned subsidiary of Roper Technologies. Gatan is an electron microscopy solutions provider in the U.S, which accompaniments the Thermo Fisher Scientifics electron microscopy solutions business.In March 2017, Oxford Instruments (U.K) Asylum Research introduced its new SurfRider HQ-Series of high quality, budget-priced AFM probes, which are also existing in a model suitable for nanomechanical image mode.

The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding Global Nanorobotics Market dynamics, structure by identifying and analyzing the market segments and project the global market size. Further, the report also focuses on the competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTERs analysis, SWOT analysis to address the question of shareholders to prioritizing the efforts and investment in the near future to the emerging segment in the Global Nanorobotics Market.

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Scope of the Global Nanorobotics Market

Global Nanorobotics Market, By Type

Nanomanipulatoro Electron Microscope (EM) Scanning Electron Microscope (SEM) Transmission Electron Microscope (TEM)o Scanning Probe Microscope (SPM) Atomic Force Microscopes (AFM) Scanning Tunneling Microscope (STM) Bio-Nanorobotics Magnetically Guided Bacteria-BasedGlobal Nanorobotics Market, By Application

Nanomedicine Biomedical Mechanical OthersGlobal Nanorobotics Market, By Region

North America Europe Asia Pacific Middle East and Africa South AmericaKey players operating in Global Nanorobotics Market:

Bruker JEOL Thermo Fisher Scientific Ginkgo Bioworks Oxford Instruments EV Group Imina Technologies Toronto Nano Instrumentation KlockeNanotechnik KleindiekNanotechnik Xidex Synthace Park Systems Smaract Nanonics ImagingKey Innovators:

Novascan Technologies Angstrom Advanced Hummingbird Scientific NT-MDT Spectrum Instruments Witec

MAJOR TOC OF THE REPORT

Chapter One: Nanorobotics Market Overview

Chapter Two: Manufacturers Profiles

Chapter Three: Global Nanorobotics Market Competition, by Players

Chapter Four: Global Nanorobotics Market Size by Regions

Chapter Five: North America Nanorobotics Revenue by Countries

Chapter Six: Europe Nanorobotics Revenue by Countries

Chapter Seven: Asia-Pacific Nanorobotics Revenue by Countries

Chapter Eight: South America Nanorobotics Revenue by Countries

Chapter Nine: Middle East and Africa Revenue Nanorobotics by Countries

Chapter Ten: Global Nanorobotics Market Segment by Type

Chapter Eleven: Global Nanorobotics Market Segment by Application

Chapter Twelve: Global Nanorobotics Market Size Forecast (2019-2026)

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Global Nanorobotics Market : Industry Analysis and Forecast (2019-2026) by Type, Application, and... - Azizsalon News

As the world grapples with the continuing challenges of the Covid-19 pandemic, a multi-institutional initiative has been formed to support a broad range of research aimed at addressing the devastation to global public health, including projects by six MIT faculty.

Called the Massachusetts Consortium on Pathogen Readiness (MassCPR), and based at Harvard Medical School (HMS), it was conceived to both battle the myriad effects of SARS-CoV-2 and prepare for future health crises. Now, MassCPR has announced more than $16.5 million in funding to support 62 research projects, all with the potential for significant impact in fighting the pandemic on several fronts.

MassCPR includes scientists and clinicians from Harvard, MIT, Boston University, Tufts University, and the University of Massachusetts, as well as local biomedical research institutes, biotech companies and academic medical centers. The projects selected in the initial round of funding were based on the MassCPRs primary scientific and clinical focus areas: the development of vaccines, therapies and diagnostic tools, clinical management, epidemiology and understanding how SARS-CoV-2 causes disease.

Of the projects selected, six are led by MIT faculty:

Lee Gehrke, the Hermann von Helmholtz Professor of Health Sciences and Technology, MIT Institute for Medical Engineering and Science (IMES), a professor at HMS and a member of the faculty at the Harvard-MIT Health Sciences and Technology program (HST), will receive funding for work to develop a simple and direct antigen rapid test for SARS-CoV-2 infections. A Cambridge-based startup, E25Bio, which is using technology developed by Gerhke, has been working on a paper-based test that can deliver results in under half an hour. Gehrke, the CTO of E25Bio, says that the funding will help to accelerate the final stages of producing and introducing this test into patient care. We have been working on diagnostic tests overall for over 10 years, Gehrke says. We started working on a Covid test as soon as the news came of potential danger back in January. Gehrke says that the test is manufacturing-ready and that they have conducted small-scale manufacturing runs with a local Massachusetts-based company that will be able to scale up once clinical tests are complete. E25Bio has submitted the test to the FDA for emergency use authorization.

Angela Belcher, head of the Department of Biological Engineering, the James Mason Crafts Professor of Biological Engineering and Materials Science and Engineering, and a member of the Marble Center for Cancer Nanomedicine at the Koch Institute for Integrative Cancer Research, will also receive support for her research proposal, Novel nanocarbon materials for life-development of distributable textiles that filtrate/neutralize dangerous viruses/bacteria to protect medical professional and civilians from virus pandemic disease.

Jianzhu Chen, a professor in the Department of Biology, also a member of the Koch Institute, was selected for a project focusing on enhancing mRNA-based coronavirus vaccines with lymph node-targeted delivery and neutralizing antibody-inducing adjuvant. Chen says that the grant will help fund proposed research aimed at devising an effective vaccine, and that the money will help us to jumpstart our research on SARS-CoV-2, as well as vaccines to address other pathogens.

Bruce Walker, professor of the practice at IMES and the Department of Biology, founding director of the Ragon Institute of MGH, MIT, and Harvard, and Phillip T and Susan M Ragon Professor of Medicine at Harvard Medical School, will receive support for research on A highly networked, exosome-based SARS-CoV-2 vaccine.

Feng Zhangs project, Development of a point-of-care diagnostic for COVID-19, was also selected. Zhang is the James and Patricia Poitras Professor of Neuroscience and a professor of brain and cognitive sciences and biological engineering at MIT, an investigator at the McGovern Institute for Brain Research, and a core member of the Broad Institute of MIT and Harvard.

Siqi Zheng, the Samuel Tak Lee Associate Professor in the Department of Urban Studies and Planning and faculty director of the Center for Real Estate will receive funding for research on quantifying the role of social distancing in shaping the Covid-19 curve: incorporating adaptive behavior and preference shifts in epidemiological models using novel big data in 344 Chinese cities. Zheng calls the funding crucial in research that will compare different regions and how people react to social and physical distancing during a pandemic, and will examine various government policies aimed at controlling the spread of the virus.

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Six from MIT awarded research funding to address Covid-19 - MIT News

The Nano Colloidal Copper market research encompasses an exhaustive analysis of the market outlook, framework, and socio-economic impacts. The report covers the accurate investigation of the market size, share, product footprint, revenue, and progress rate. Driven by primary and secondary researches, the Nano Colloidal Copper market study offers reliable and authentic projections regarding the technical jargon.All the players running in the global Nano Colloidal Copper market are elaborated thoroughly in the Nano Colloidal Copper market report on the basis of proprietary technologies, distribution channels, industrial penetration, manufacturing processes, and revenue. In addition, the report examines R&D developments, legal policies, and strategies defining the competitiveness of the Nano Colloidal Copper market players.The report on the Nano Colloidal Copper market provides a birds eye view of the current proceeding within the Nano Colloidal Copper market. Further, the report also takes into account the impact of the novel COVID-19 pandemic on the Nano Colloidal Copper market and offers a clear assessment of the projected market fluctuations during the forecast period.

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The following manufacturers are covered:Purest ColloidsStarmedSom PhytopharmaNanjing XFNANO MaterialsNatural ImmunogenicsMinerals TechnologiesAma Resources

Segment by RegionsNorth AmericaEuropeChinaJapan

Segment by TypeElectron GradeIndustrial GradeMedicine Grade

Segment by ApplicationLubricating Oil AdditiveFood AdditiveOthers

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Objectives of the Nano Colloidal Copper Market Study:To define, describe, and analyze the global Nano Colloidal Copper market based on oil type, product type, ship type, and regionTo forecast and analyze the Nano Colloidal Copper market size (in terms of value and volume) and submarkets in 5 regions, namely, APAC, Europe, North America, Central & South America, and the Middle East & AfricaTo forecast and analyze the Nano Colloidal Copper market at country-level for each regionTo strategically analyze each submarket with respect to individual growth trends and their contribution to the global Nano Colloidal Copper marketTo analyze opportunities in the market for stakeholders by identifying high growth segments of the global Nano Colloidal Copper marketTo identify trends and factors driving or inhibiting the growth of the market and submarketsTo analyze competitive developments, such as expansions and new product launches, in the global Nano Colloidal Copper marketTo strategically profile key market players and comprehensively analyze their growth strategiesThe Nano Colloidal Copper market research focuses on the market structure and various factors (positive and negative) affecting the growth of the market. The study encloses a precise evaluation of the Nano Colloidal Copper market, including growth rate, current scenario, and volume inflation prospects, on the basis of DROT and Porters Five Forces analyses. In addition, the Nano Colloidal Copper market study provides reliable and authentic projections regarding the technical jargon.

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After reading the Nano Colloidal Copper market report, readers can:Identify the factors affecting the Nano Colloidal Copper market growth drivers, restraints, opportunities and trends.Examine the Y-o-Y growth of the global Nano Colloidal Copper market.Analyze trends impacting the demand prospect for the Nano Colloidal Copper in various regions.Recognize different tactics leveraged by players of the global Nano Colloidal Copper market.Identify the Nano Colloidal Copper market impact on various industries.

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Assessing the Fallout From the Coronavirus Pandemic Nano Colloidal Copper Market Current and Future Trends, Leading Players, Industry Segments and...

CALGARY, Alberta, May 11, 2020 (GLOBE NEWSWIRE) -- Voyageur Pharmaceuticals Ltd. (TSX.V:VM) (USA:VYYRF) (the Company or Voyageur) is pleased to announce it has signed an LOI with an established international mining company (the Counterparty) that has developed a low cost method to extract the natural occurring carbon molecule, C-60 to C-90, from large natural-occurring fullerene resources.

The technology to extract C-60 from natural fullerene deposits is ground-breaking and a first in this industry. Voyageur will be the first company to be able to mass produce C-60 at a low cost, allowing for multiple drug products to be developed, states Brent Willis, CEO of Voyageur Pharmaceuticals.

The barriers for C-60 based drugs has now been broken, which opens up the industry to develop new effective drugs and health care products on an economic scale, continues Brent Willis.

The API, C-60, is a natural, highly effective super antioxidant, like more common antioxidants (Vitamin C, Vitamin A and Selenium). It scavenges toxic free radicals but it stands out as a notable anti-aging innovation because it selectively scavenges the reactive oxygen species that do the most damage to humans as opposed to just working by osmosis like a normal antioxidant. The anti-aging properties are exciting, as studies in animals have shown the potential to significantly extend life span and to slow the aging process.

Voyageur has begun work on its first C-60 product, C-60X, an immune system booster, natural health product, for daily consumption. Voyageur is creating a C-60 R&D Therapeutics division that will be focused on developing natural health products and drugs. For early cash flow, Voyageur will utilize our Calgary-based manufacturing partners for natural health product sales.

Highlights of C-60 Medical Applications

"Thedifficulty inprocessingof fullerenes has presented a major problem in the search for medicinal applications. This is the breakthrough thatour partner hasrecentlyovercome. The patent-pending technology that can recover economic & high volumes of C-60 from natural fullerene mineral ores is a game changer. This opens the door for Voyageur to become the only company to have the capability to develop and mass produce C-60 based drugs and natural health products at a low cost & high volume, says Brent Willis.

Voyageur plans to develop low cost C-60 radiographic contrast drugs, which encapsulate iodine, gadolinium, and other potential molecules. By utilizing C-60, we may be able to enhance the performance and create the safest radiographic contrast media in the marketplace. Studies have shown that MRI C-60 gadolinium contrast media has a gain of a 500-fold sensitivity on intravital MR Contrast Agents.

Essentially, a carbon-60 molecule is comprised of 60 carbon atoms which are arranged in a unique shape that can be thought of as a 'carbon cage' (like a soccer ball). This sphere makes it possible to be a carrier of other molecules creating a protective shield, allowing C-60 to be an excellent drug delivery vehicle in radiology and healthcare.

This drug delivery system is quite unique to the pharmaceutical industry and our company is proud to begin the innovative steps to develop unique new delivery systems, states Brent Willis.

It has long been known that effective delivery systems are of paramount importance in promoting drug efficacy. This is not only a major milestone for our Company, but potentially a major breakthrough for the entire healthcare industry, continues Willis.The significance of the technological breakthrough, to extract natural fullerene from rock, may well pave the way for a low-cost evolution in the carbon-based health care market. Voyageur is the first company to begin to break down the barrier to market. The C-60 therapeutics division will enhance our Companys ability to become more competitive in the radiographic contrast market and become a leader in the C-60 drug & natural health sector. Fullerene is a gateway for Voyageur to become a leader in a new and exciting carbon medicine field. We will continue to build our From The Earth To The Bottle strategy, to become a fully-integrated competitive force in the API mineral based pharmaceutical industry.

The signed LOI for supply exclusivity will allow Voyageur to produce low cost & high-volume natural carbon-60 API for the pharmaceutical industry. This would allow Voyageur to be fully integrated in the C-60 market and become the only low-cost producer of fullerene based health care products. Voyageur is adding C-60 to its portfolio of active pharmaceutical ingredients (API) minerals for use in the radiographic contrast media markets. There are multiple applications for Fullerene based nano medicines in the healthcare industry, which Voyageur will further research and develop.

Due to confidentiality and pending patents, Voyageur cannot disclose at this time, the identity of the Counterparty.

About Voyageur

Voyageur Pharmaceuticals Ltd. is Canadian public company listed on the TSX Venture Exchange under the trading symbol VM. Voyageur is focused on the development of barite, iodine, and fullerene Active Pharmaceutical Ingredient (API) minerals. The near-term focus is developing barium, iodine radio-contrast products and fullerene-based pharmaceutical products.

Voyageurs goal is to initially generate the positive cash flow from operations using third party GMP pharmaceutical manufacturers. Ultimately, Voyageur has plans to build all the required infrastructure to become 100% self-sufficient with all manufacturing.

Voyageur owns a 100% interest in three barium sulfate (barite) projects including two properties suitable in grade for the industrial barite marketplace, including interests in a high-grade iodine, lithium & bromine brine project located in Utah, USA.

Voyageur is moving forward with its business plan of becoming the only fully integrated company in the radio-contrast medical field, by controlling all primary input costs under the motto of:

"From the Earth to the Bottle"

For Further Media Information or to set up an interview, please contact:

Reader Advisory

Neither the TSXV nor its Regulation Services Provider (as that term is defined in the policies of the TSXV) accepts responsibility for the adequacy or accuracy of this news release.

Cautionary Note Regarding Forward-Looking Statements

This news release contains certain statements or disclosures relating to the Company that are based on the expectations of its management as well as assumptions made by and information currently available to the Company which may constitute forward-looking statements or information ("forward-looking statements") under applicable securities laws. All such statements and disclosures, other than those of historical fact, which address activities, events, outcomes, results, or developments that the Companyanticipates may or will occur in the future (in whole or in part) should be considered forward-looking statement and undue reliance should not be placed on any such statements. In some cases, forward-looking statements can be identified by the use of the words "will", "intends", believes, expects, forecasts, "anticipates", "plans" and similar expressions.

In particular, but without limiting the foregoing, this news release contains forward-looking statements pertaining to the following, the certainty of the disclosed LOI being made into a formal binding agreement; the ability of Voyageur to integrate fullerene into marketable pharmaceutical and healthcare markets; the feasibility and expectation of the Company to bring into production those mining assets it has an interest in; the experience of management and directors of Voyageur and its pharmaceutical manufacturingpartners to execute on its business plan and that of its joint venture company; the economics and risks associated with its business plan; future operations and strategies for development, sales and distribution of mineral and pharmaceutical product;; the Companys ability to successfully penetrate either domestic or foreign pharmaceutical markets; the amount, quality and cost of supply of active pharmaceutical ingredients for potential pharmaceutical products; the ability for Voyageur to meet its joint venture obligations; anticipated registrations with Health Canada or similar foreign bodies for various pharmaceutical products the Company plans to develop, produce and sell; and the ability of the Company to attract investment capital to fund operations and capital expenditures.

The forward-looking statements contained in this news release are made as of the date hereof and the Company undertakes no obligations to update publicly or revise any forward-looking statements, whether as a result of new information, future events or otherwise, unless so required by applicable securities laws.

Source Information:

https://www.ncbi.nlm.nih.gov/pubmed/23785493/ https://phys.org/news/2019-09-fullerene-compounds-virus-infections-hiv.html, https://c60-france.com/media_upload/C60-Fullerene-nano-particles-Inhibit-HIV-Replication.pdf https://www.sesres.com/carbon-60-c60-powder/#buy_c60 https://www.sciencedirect.com/science/article/pii/S0142961212003237https://www.hindawi.com/journals/jnm/2015/565638/https://en.wikipedia.org/wiki/Fullerene https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2880842/ https://www.sciencedirect.com/science/article/pii/S0142961212003237 Mitsubishi https://www.azonano.com/article.aspx?ArticleID=47 https://pubs.acs.org/doi/full/10.1021/es801869m https://phys.org/news/2020-03-scientists-water-soluble-fullerene-compounds-medicine.html https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2676811/https://pubs.acs.org/doi/10.1021/acsanm.9b01698

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Voyageur Secures Exclusive Rights To One Of The Worlds Rarest Pharmaceutical Minerals, Creating A New Era In Carbon Based Drug Development -...

May 11, 2020 David Graves, an internationally-known chemical engineer, has been named to lead a new research enterprise that will explore plasma applications in nanotechnology for everything from semiconductor manufacturing to the next generation of super-fast quantum computers.

Graves, a professor at the University of California, Berkeley, since 1986, is an expert in plasma applications in semiconductor manufacturing. He will become the Princeton Plasma Physics Laboratorys (PPPL) first associate laboratory director for Low-Temperature Plasma Surface Interactions, effective June 1. He will likely begin his new position from his home in Lafayette, California, in the East Bay region of San Francisco.

He will lead a collaborative research effort to not only understand and measure how plasma is used in the manufacture of computer chips, but also to explore how plasma could be used to help fabricate powerful quantum computing devices over the next decade.

This is the apex of our thrust into becoming a multipurpose lab, said Steve Cowley, PPPL director, who recruited Graves. Working with Princeton University, and with industry and the U.S. Department of Energy (DOE), we are going to make a big push to do research that will help us understand how you can manufacture at the scale of a nanometer. A nanometer, one-billionth of a meter, is about ten thousand times less than the width of a human hair.

The new initiative will draw on PPPLs expertise in low temperature plasmas, diagnostics, and modeling. At the same time, it will work closely with plasma semiconductor equipment industries and will collaborate with Princeton University experts in various departments, including chemical and biological engineering, electrical engineering, materials science, and physics. In particular, collaborations with PRISM (the Princeton Institute for the Science and Technology of Materials) are planned, Cowley said. I want to see us more tightly bound to the University in some areas because that way we get cross-fertilization, he said.

Graves will also have an appointment as professor in the Princeton University Department of Chemical and Biological Engineering, starting July 1. He is retiring from his position at Berkeley at the end of this semester. He is currently writing a book (Plasma Biology) on plasma applications in biology and medicine. He said he changed his retirement plans to take the position at PPPL and Princeton University. This seemed like a great opportunity, Graves said. Theres a lot we can do at a national laboratory where theres bigger scale, world-class colleagues, powerful computers and other world-class facilities.

Exciting new direction for the Lab

Graves is already working with Jon Menard, PPPL deputy director for research, on the strategic plan for the new research initiative over the next five years. Its a really exciting new direction for the Lab that will build upon our unique expertise in diagnosing and simulating low-temperature plasmas, Menard said. It also brings us much closer to the university and industry, which is great for everyone.

The staff will grow over the next five years and PPPL is recruiting for an expert in nano-fabrication and quantum devices. The first planned research would use converted PPPL laboratory space fitted with equipment provided by industry. Subsequent work would use laboratory space at PRISM on Princeton Universitys campus. In the longer term, researchers in the growing group would have brand new laboratory and office space as a central part the Princeton Plasma Innovation Center (PPIC), a new building planned at PPPL.

Physicists Yevgeny Raitses, principal investigator for the Princeton Collaborative Low Temperature Plasma Research Facility (PCRF) and head of the Laboratory for Plasma Nanosynthesis, and Igor Kavanovich, co-principal investigator of PCRF, are both internationally-known experts in low temperature plasmas who have forged recent partnerships between PPPL and various industry partners. The new initiative builds on their work, Cowley said.

A priority research area

Research aimed at developing quantum information science (QIS) is a priority for the DOE. Quantum computers could be very powerful in solving complex scientific problems, including simulating quantum behavior in material or chemical systems. QIS could also have applications in quantum communication, especially in encryption, and quantum sensing. It could potentially have an impact in areas such as national security. A key question is whether plasma-based fabrication tools commonly used today will play a role in fabricating quantum devices in the future, Menard said. There are huge implications in that area, Menard said. We want to be part of that.

Graves is an expert on applying molecular dynamics simulations to low temperature plasma-surface interactions. These simulations are used to understand how plasma-generated ions, atoms and molecules interact with various surfaces. He has extensive research experience in academia and industry in plasma-related semiconductor manufacturing. That expertise will be useful for understanding how to make very fine structures and circuits at the nanometer, sub-nanometer and even atom-by-atom level, Menard said. Davids going to bring a lot of modeling and fundamental understanding to that process. That, paired with our expertise and measurement capabilities, should make us unique in the U.S. in terms of what we can do in this area.

Graves was born in Daytona Beach, Florida, and moved a lot as a child because his father was in the U.S. Air Force. He lived in Homestead, Florida; near Kansas City, Missouri; and in North Bay Ontario; and finished high school near Phoenix, Arizona.

Graves received bachelors and masters degrees in chemical engineering from the University of Arizona and went on to pursue a doctoral degree in the subject, graduating with a Ph.D. from the University of Minnesota in 1986. He is a fellow of the Institute of Physics and the American Vacuum Society. He is the author or co-author of more than 280 peer-reviewed publications. During his long career at Berkeley, he has supervised 30 Ph.D. students and 26 post-doctoral students, many of whom are now in leadership positions in industry and academia.

A leader since the 1990s

Graves has been a leader in the use of plasma in the semiconductor industry since the 1990s. In 1996, he co-chaired a National Research Council (NRC) workshop and co-edited the NRCs Database Needs for Modeling and Simulation of Plasma Processing. In 2008, he performed a similar role for a DOE workshop on low-temperature plasmas applications resulting in the report Low Temperature Plasma Science Challenges for the Next Decade.

Graves is an admitted Francophile who speaks (near) fluent French and has spent long stretches of time in France as a researcher. He was named Matre de Recherche (master of research) at the cole Polytechnic in Palaiseau, France, in 2006. He was an invited researcher at the University of Perpignan in 2010 and received a chaire dexcellence from the Nanoscience Foundation in Grenoble, France, to study plasma-graphene interactions.

He has received numerous honors during his career. He was appointed the first Lam Research Distinguished Chair in Semiconductor Processing at Berkeley for 2011-2016. More recently, he received the Will Allis Prize in Ionized Gas from the American Physical Society in 2014 and the 2017 Nishizawa Award, associated with the Dry Process Symposium in Japan. In 2019, he was appointed foreign expert at Huazhong University of Science and Technology in Wuhan, China. He served as the first senior editor of IEEE Transactions on Radiation and Plasma Medical Science.

Graves has been married for 35 years to Sue Graves, who recently retired from the City of Lafayette, where she worked in the school bus program. The couple has three adult children. Graves enjoys bicycling and yoga and the couple loves to travel. They also enjoy hiking, visiting museums, listening to jazz music, and going to the theater.

About PPPL

PPPL, on Princeton Universitys Forrestal Campus in Plainsboro, N.J., is devoted to creating new knowledge about the physics of plasmas ultra-hot, charged gases and to developing practical solutions for the creation of fusion energy. The Laboratory is managed by the University for the U.S. Department of Energys Office of Science, which is the largest single supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visitscience.energy.gov(link is external).

Source: Jeanne Jackson DeVoe, PPPL

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David Graves to Head New Research at PPPL for Plasma Applications in Industry and Quantum Information Science - HPCwire

Ming-Chen Sun,1,* Xiao-Ling Xu,1,* Xue-Fang Lou,2 Yong-Zhong Du1

1Institute of Pharmaceutics, College of Pharmaceutical Sciences, Zhejiang University, Hangzhou 310058, Peoples Republic of China; 2School of Medicine, Zhejiang University City College, Hangzhou 310015, Peoples Republic of China

*These authors contributed equally to this work

Correspondence: Yong-Zhong DuInstitute of Pharmaceutics, College of Pharmaceutical Sciences, Zhejiang University, 866 Yu-Hang-Tang Road, Hangzhou 310058, Peoples Republic of ChinaTel +86-571-88208435Fax +86-571-88208439Email duyongzhong@zju.edu.cnXue-Fang LouSchool of Medicine, Zhejiang University City College, 51 Hu-Zhou Street, Hangzhou 310015, Peoples Republic of ChinaTel +86-571-88013011Fax +86-571-88018442Email louxf@zucc.edu.cn

Abstract: Vitiligo is a depigmentation disease that seriously affects the physical health, mental health and quality of life of a patient. Therapeutic aim at control immunoreaction by relieving oxidative stress. Unfortunately, the cuticle barrier function and lack of specific accumulation lead to unsatisfactory therapeutic outcomes and side effects. The introduction and innovation of nanotechnology offers inspiration and clues for the development of new strategies to treat vitiligo. However, not many studies have been done to interrogate how nanotechnology can be used for vitiligo treatment. In this review, we summarize and analyze recent studies involving nano-drug delivery systems for the treatment of vitiligo, with a special emphasis on liposomes, niosomes, nanohydrogel and nanoparticles. These studies made significant progress by either increasing drug loading efficiency or enhancing penetration. Based on these studies, there are three proposed principles for topical nano-drug delivery systems treatment of vitiligo including the promotion of transdermal penetration, enhancement of drug retention and facilitation of melanin regeneration. The presentation of these ideas may provide inspirations for the future development of topical drug delivery systems that will conquer vitiligo.

Keywords: vitiligo, nano-drug delivery system, transdermal penetration, liposomes, skin

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Recent Progress and Future Directions: The Nano-Drug Delivery System f | IJN - Dove Medical Press