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HIGHLIGHTS & BENEFITS

Keynote Sessions on Nano medicine

Oral presentations on Nano medicine

Young Researcher Forums

Poster Presentations on Nano medicine

Video Presentations on Nano medicine

E-poster Presentations on Nano medicine

Honorable Guests Presentations

Exhibitions on Nano medicine

Free Abstract Publication & DOI

Free Lunch and Networking

Questionnaires on Nano medicine

Theme:Exchange of Technological Advances in the field of Nanomedicine & Technology

EuroSciCon Ltd is back with its 3rdEdition ofNanomedicine&Technology 2019and this time it focusesaroundthe advancements in the strategies and researches that are going ahead in the field ofNanoscience.

TheNanomedicine 2019aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results about all aspects ofNanomedicine. It also provides the premier interdisciplinary forum for researchers, practitionersandeducators to present and discuss the most recent innovations, trends, and concerns, practical challenges encountered, and the solutions adopted in the field ofDrug Delivery.

Whats New?

NanomedicineandTechnology 2019includes international attendee workshops, lecturesandsymposia, including a designated registration area, a refreshment break and gala lunch.Nanomedicineeducators can join the EuroSciCon as an international member to receive discounts on registration. The core aim ofNanomedicine andTechnology 2019conference is to provide an opportunity for the delegates to meet, interact and exchange new ideas in the various areas ofNanoscience. We invite students to attend the conference and gain more knowledge about nanoscience and technology from eminent researchers of the world. So, come and join leading experts and allied professionals from April 11-12, 2019 in Paris, Franceto discuss the ways to develop better technologies that will aid in the development of Nanomedicine andTechnology.

WhatisNanomedicine And Technology?

Nanomedicineis a branch of medicine (ranges from 10-100nm) that applies the knowledge and tools of nanotechnology to the prevention and treatment of disease. It also involves the use of nanoscale materials such as biocompatiblenanoparticlesandnanorobots, for diagnosis, drug delivery, sensing or actuation purposes in a living organism.

There is a strong market for Nanomedicine andTechnologyin Europe. Itseeks to deliver a valuable set of research tools and clinically useful devices in the near future. The NationalNanotechnologyInitiative expects new commercial applications in thepharmaceutical industry that may include advanceddrug delivery systems, new therapies, and in vivo imagingNanomedicinesresearch is receiving funding from the US National Institutes of Health Common Fund program, supporting fourNanomedicinesdevelopment centers.

Nanomedicinessales reached$16billionin2015, with a minimum of$3.8 billioninnanotechnologyR&D being invested every year. Global funding for emerging nanotechnology increased by 45% per year in recent years, with product sales exceeding$1 trillionin2013. As the Nanomedicines industry continues to grow, it is expected to have a significantimpact on the economy.

Technology is the branch of technology that deals with dimensions and tolerances of less than 100 nanometres, especially the manipulation of individual atoms and molecules.

The globalmedicine market is projected to reach USD 1,669.40 Billion by 2021 from USD 1,179.20 Billion in2016, at a CAGR of 7.2% during the forecast period. This market is segmented based on the route of administration, facility of use, and region. Theglobal nano medicinemarket was valued at US$ 41,062.5 Mn in 2014 and is projected to reach US$ 118,527.2 Mn by 2023, expanding at a CAGR of 12.5% from 2015 to2023.

Whytoattend our conference

This event will provide an opportunity to build and expand your network with various people and gives chance to make collaboration with other universities and research labs. It also helps you to meet the experts in the relevant field of study. It givesthe accessto novel instruments in the market. This conference plays a major role in your business development and maximizes the profit.

Target Audience

Nano Medicine 2019keenly focuses on the following people:

Opportunities for ConferenceAttendees

For Researchers & Faculty:

For Universities, Associations & Societies:

For Students & Research Scholars:

For Business Delegates:

For Companies:

WhyExhibit?

Who shouldSponsor?

About Paris, France

Paris is the capital and most populous city of France, with an area of 105 square kilometers. It is located in northern central France with a western European Oceanic climate. Since the 17thcentury, Paris has been one of Europes major centers of finance, commerce, fashion, science, musicandpainting. It is especially known for its museums and architectural landmarks. The citys top tourist attractions are Notre Dame Cathedral, Louvre Museum, Eiffel Tower, Arc de Triomphe..As its leading role duringAgeof Enlightenment, it is often also referred to asThe City Of Light.

Nanomedicine and Drug Delivery:

Medication conveyance characterizes as thebestapproach to take pharmaceutical from the diverse course oforganizationshow in a human body and in addition creature. At the point when the medication is gone intohumanor creature body begins to demonstrate some helpful impact, which mends our body, experience the ill effects of particularinfection or sick. Medication willbegingo frompharmacokineticsframework which containadsorption, digestion, disseminationanddischargeand after that goes into the circulatory framework, where theparticularmedicationreachto particular receptors and tie with the receptors, which begin recuperate tobody. Medication conveyance has done fromvariouscourse, e.g.; oral course, intravenous course, intramuscular course, transdermal patches, intraocular course, intra-peritoneal,suppositories, and so on.

Drug Design and Drug Development:

Medication Design, regularly specific to as prudentpharmaceuticallayout or just sensible arrangement, is that the imaginative system for finding new drugs maintained the data of a natural sciences target. The medication is mostgenerallyrelate degree regular little particle that establishes or frustrates the perform ofa biomoleculeslike amacromolecules, thatcontinuouslyends up in a supportive advantage to the patient. Inside the unassuming sense, calm diagram incorporates the organizing of particles that are reverse in casing and charge to the biosub-nuclear concentrationwith that they move and along these lines can attach to that. Solution blueprint of times anyway not fundamentally depends upon convenient workstation showing systems. This sort ofshowingis routinely observed as PC supportedmedicationoutline

Synthesis and Characterisation of Nanomaterials:

The objective of any engineered technique for preparation ofnanoparticlesis to fabricate nanomaterials which have the unique properties for applications that are a result of their characteristic length scale being in the nanometer run (1 100 nm). Likewise, the manufactured strategy should show control of size in this range with the goal that one or the other property can be attained. There are two general strategies for synthesis of nanomaterials and the fabrication of nanostructures: Bottom Up and Top Down.

Bottom upapproach refers to the build-up of a material from the bottom: start with atoms or molecules and build up tonanostructures. The starting material is either gaseous state or liquid state of matter for bottom up method.

Top downapproach refers to cutting of a bulk material to get nano sized particle: begin with a pattern generated on a larger scale, then reduced tonanoscale. The starting material is in solid state for top down method.

Pharmacokinetics and Pharmacodynamics:

Pharmacodynamicsis the importance that medications have on the fundamental part; while pharmacokinetics is the investigation of the manner by which drugs travel through the body amid assimilation, conveyance, digestionanddischarge.Pharmacokineticsimpacts choices over the course oforganization. For medications to create their belongings they should interface with the body. This can result in a few practices and relies upon the properties of themedication,and will be talked about later in this section.Pharmacokineticsimpacts choices over the course oforganization. The procedures that happen after medicationadministratorcan be divided down into four particular zones (known as ADME).

Nanomedicine in Pre-Clinical Research:

Preclinical advancement wrapsthe activities that association quietexposurein the lab tobeginningof humanclinical trials.Preclinical examinationscan be planned to recognize a lead confident from a couple of hits; develop the best strategy for new medicine scale-up;select thebest detailing; choose the course, repeat, and traverse of presentation; and finally help the proposed clinical trial design. Concurrentpreclinical advancement practicesjoin developing a clinical course of action and setting up the newprescription thing, including related documentation to meet stringent FDA Great Assembling Practices and managerial standards

Advanced NanomaterialsandNanoparticles

Nanomaterialsare described as materials with no short of what one outside estimation in the size degree from around 1-100 nanometers.Nanoparticlesare things with every one of the three outside estimations at the nano-scale. Built nanoparticles are deliberately delivered and arranged with specific properties related to shape, estimate, surface properties and science. These properties are reflected in fog concentrates, colloids, or powders. Routinely, the direct of nanomaterials may depend more on surface district than atom plan itself. The control of organization, size, shape, and morphology ofnanomaterialsandnanoparticlesis a basic establishment for the improvement and use of Nano scale gadgets in everywhere throughout the world.

Nanoparticlescan be built with unmistakable pieces, sizes, shapes, and surface sciences to empower novel procedures in an extensive variety of natural applications. The one of a kind property of nanoparticles and their conduct in organic milieu likewise empower energizing and integrative ways to deal with concentrate essential natural inquiries.

Nano devicesandNano sensors:

TheNanodevicesandNanostructureshave presented a super trade of humankind with its Nano lifestyle machines. Nano scale materials are an extensively characterized set of substances that have no less than one basic measurement under 100 nanometers and have one of a kind electrical, magnetic, or optical properties. Ultrafine particulate matter is an outstanding case ofnanoscale particlesfound in the earth.Nanodeviceswill finally have a huge impact on our capacity to enhance food production, improve human health, energy conversion and control pollution.

Nano sensorsconvey data about nanoparticles. Numerous logical achievements in Nanotechnology has been contributed byNano sensors. Diverse kinds of sensors are developed fromnanomaterialsto distinguish a scope of substance vapors, to detect microbes or infections, to recognize single atoms to help pharmaceutical organizations in the generation of medications.

Nanomedicine in Drug Delivery Research :

Medication conveyance depicts the technique and way to deal with conveying medications orpharmaceuticalsand different xenobiotic to their site of activity inside a living being, with the objective of accomplishing a restorative result. Issues of pharmacodynamics and pharmacokinetics are vital contemplations for sedate conveyance. Outlining and creating novel medication conveyance frameworks, with an emphasis on their application to sickness conditions. Preclinical and clinical information identified with medicate conveyance frameworks.Medication Deliveryand Translational Research is a diary distributed by CRS, giving a one of a kind gathering tologicalproduction oftop notchinquire about that is solely centered around Drug Development and translational parts of medication conveyance.Medicationappropriation, pharmacokinetics, freedom, withtranquilizeconveyance frameworks when contrasted with customary dosing to exhibit helpful results. Here and now andlong haulbiocompatibility of medication conveyance frameworks, havereaction. Biomaterials with development factors for immaturemicroorganism separationin regenerative solution and tissue designing.Gadgetsfor sedate conveyance and medication/gadget blend items.

Novel Drug Delivery Systems:

TheNovel Drug Delivery Systemsare the technique by which a medication is conveyed can significantly affect itsadequacy. A few medications have an ideal focus go inside which greatest advantage is inferred, and fixations above or beneath this range can be poisonous or create no Local Drug Delivery Systems advantage by any means. Then again, the moderate advance in the adequacy of the treatment of extremeinfections,has proposed a developing requirement for a multidisciplinary way to deal with the conveyance of therapeutics to focuses in tissues. From this, new thoughts on controlling the pharmacokinetics, pharmacodynamics, non-particular danger, immunogenicity, bio acknowledgment, and viability of medications were produced. These newtechniques,regularly called medicate conveyance frameworks(DDS),depend oninterdisciplinarymethodologiesthat join polymer science, pharmaceutics,bio conjugatescience, and sub-atomic science. Then again, this reference examinesprogressesin the plan, enhancement, and adjustment of quality conveyance frameworks for the treatment oftumour, cardiovascular, aspiratory, hereditary, andirresistible maladies, and considers evaluation and audit methodology engaged with the advancement of quality based pharmaceuticals.

Synthesis of Nanoparticles for Drug Delivery:

Orchestrating nanoparticlesfor pharmaceutical purposes, for example, tranquilize arrangement should be possible in two strategies.Baseprocess, for example, pyrolysis, inactive gas build-up, solvothermal response, sol-gel creation and organized media in whichhydrophobiccompound, for example,liposomesare utilized as bases to mount themedication.Topdownprocess, for example, whittling down/processing in which themedicationis etched down to frame a nanoparticle.

Nanorobotics:

Ananoroboticsis a machine that can build and manipulate things precisely at an atomic level. Nanorobotics is the innovation of making machines or robots at or near the tiny size of a nanometre.Nanorobotswould regularly be gadgets running in measure from 0.1-10 micrometers. The fundamental component utilized will be carbon as precious stone/fullerene nanocomposites in view of the quality and compound idleness of these structures. The other indispensable utilization of Nanotechnology in connection to medicinal research and diagnostics arenanorobots.Nanorobots, working in the human body, could screen levels of various mixes and record the data in their interior memory.

Nanobiotechnology:

The termNanobiotechnologyrefers to the combination ofnanotechnologyandbiology. The concepts that are enhanced throughnanobiologyinclude: Nanoparticle, Nano device and Nano scale phenomena that occurs within the discipline ofnanotechnology. This approach to biology allows scientists to imagine and create systems that can be used for biological research. Revolutionary opportunities and future scope ofnanobiotechnologyare gaining its utmost importance in nano life sciences.

Applications in pharmaceuticals and molecular diagnostics, include drug delivery, drug discovery and drug development.Nanobiotechnologyhas extending the limits of detection to single molecules by refining the current molecular diagnostics. Nanoparticles play a vital role in the delivery of biological treatments, which include gene therapy, RNA interference, cell therapy, vaccines, and antisense therapeutics. The most promising application ofnanobiotechnologyis for the development of customized drugs. The combination of diagnostics with therapeutics, refinement of molecular diagnostics, and targeted drug delivery play important roles in this application. At last, the safety issues of nanoparticles are discussed including measures to address these. The prospects ofnanobiotechnologyare incredible.

Nanotechnology in Drug Delivery Heart Diseases:

Nanoparticlesthat are both manufacturedHDLand containaMRIdiverse operator(press oxide). The scientists are presently directing creature concentrates to decide how well the counterfeit HDL (high thickness lipoprotein) treatsbloodvessel plaque.Nanoparticlethat can convey medications to tablet on the mass of a conduit. They append a protein called a peptide to a nanoparticle, which at that point ties with thesurfaceof the plaque.

Future of Nanotechnology:

Certain highlights ofnanotechnologyhave been observed that are probably going to be important in determining its impact in the future. All the more essentially, reacting to the test ofnanotechnologywill require going up against "philosophical" inquiries regarding the kind of society we wish to make and the part that innovation may play in making it.Nanotechnologyis rapidly picking up traction over a scope of industries, from energy storage to agriculture to water treatment. Today,nanotechnologyis a standout amongst innovative, cutting-edge areas of scientific study and it keeps on progressing at amazing rates. From researchers at technology-centered companies and institutions to students pursuing a nanotechnology degree, pioneers innanotechnologyare making the latest breakthroughs in the field.

Biopharmaceutics and Biologic Drugs:

Biopharmaceuticsis defined as the study of factors that influencing rate and amount of drug which reaches the systemic circulation and use of this information to optimize the therapeutic efficacy of the drug products. The process of movement of drug from site of administration to systemic circulation is called asabsorption. The concentration of drug in plasma, onset of action, intensity and duration of response depend upon thebioavailability of drug from its dosage form. Bioavailability is defined as the rate and extent (amount) of drug absorption which indicates active effect.

Personalized Nanomedicine:

Personalized medicineaims to individualize chemotherapeutic interventions on the basis of ex vivo and in vivo information on patient- and disease-specific characteristics. By noninvasively visualizing how well image-guided nanomedicines-that is, submicrometer-sized drug delivery systems containing both drugs and imaging agents within a single formulation, and designed to more specifically deliver drug molecules to pathologic sites-accumulate at the target site, patients likely to respond to nanomedicine-based therapeutic interventions may be preselected. In addition, by longitudinally monitoring how well patients respond to nanomedicine-based therapeutic interventions, drug doses and treatment protocols can be individualized and optimized during follow-up. Furthermore,noninvasive imaginginformation on the accumulation ofnanomedicine formulationsin potentially endangered healthy tissues may be used to exclude patients from further treatment. Consequently, combining noninvasive imaging withtumor-targeted drug deliveryseems to hold significant potential for personalizing nanomedicine-based chemotherapeutic interventions, to achieve delivery of the right drug to the right location in the right patient at the right time.

Design of Nanodrugs:

To date, variousnanodrug systemshave been developed for different routes of administration, which include dendrimers,nanocrystals, emulsions, liposomes, solid lipid nanoparticles, micelles, and polymeric nanoparticles. Nanodrug systems have been employed to improve the efficacy, safety, physicochemical properties, and pharmacokinetic/pharmacodynamic profile of pharmaceutical substances. In particular, functionalized nanodrug systems can offer enhancedbioavailabilityof orally taken drugs, prolonged half-life of injected drugs (by reducing immunogenicity), andtargeted deliveryto specific tissues. Thus,nanodrug systemsmight lower the frequency of administration while providing maximized pharmacological effects and minimized systemic side effects, possibly leading to better therapeutic compliance and clinical outcomes. In spite of these attractive pharmacokinetic advantages, recent attention has been drawn to the toxic potential of nanodrugs since they often exhibit in vitro and in vivo cytotoxicity, oxidative stress, inflammation, and genotoxicity.

Recent Nanomaterials for Drug Delivery:

Medication conveyance frameworks advertise is extending quickly. The same number of newMedicationrequires novel and inventive medication conveyance procedures. Theadvancementofsuchmedicationconveyance frameworks can enhance existing medications' helpful viability, easing their reactions, and decreasing the cost. Being advantageous from the fast advance of nanotechnologies and nanomaterials amid a decades ago, numerouspropelledtranquilize conveyance frameworks have been made conceivable.

Smart Drug Delivery Technology:

With SmartDrugDelivery Technology the extraordinary advances of biomedical nanotechnology amidthe previouscouple of decades, ordinary medication conveyance frameworks (DDSs) have been includedintobrilliant DDSs with jolts responsive qualities. To improve their helpful impacts and diminish the related reactions, dynamic medication particles ought to specifically collect in the ailment territory for a delayed period with high controllability. Medication conveyance alludes to the methodologies, details, innovations, and frameworks for transporting therapeutics in the body as expected to securely and effectively accomplish their coveted restorative impacts.Traditionalmedication conveyance frameworks(DDSs)are regularly joined by fundamental symptoms that for the most part owing to their nonspecific bio-appropriation and wildmedicationdischarge qualities. To beat these restrictions, progressed controlled DDSs have been created to accomplish the arrival of payloads at the objective destinations in aspatialcontrolled way. In contrast with the regular DDSs, the brilliant controlled DDSs can adequately lessen the dose recurrence, while keeping up the medication focus in focused organs/tissues for a more drawn out timeframe. In this sense, the controlled DDSs give wide bits of knowledge and interesting properties for diminishing medication focus variance, decreasing medication toxicities and enhancingremedial viability.

Nano Geo Science:

The learning of nanoscale insights accompanied with geological systems isNanogeoscience. Predominantly, this is interviewed by considering environmental nanoparticles size from 1 to 100 nanometers. The NanoGeoSciences team works closely with X-ray physical sciences in theNano-Science Center. Nanoscience is alarmed with inspecting material properties that alter as physical measurement approach the atomic scale and quantum properties become essential. The physical and chemical possessions of the Earth and several other terrestrial planets are subjected on the atomic to a nanoscale structure of their constituent rocks, minerals and fluids. Nanogeoscience encompasses the incorporation of microscopy, spectroscopy, and theoretical modelling comprised of experimental and fieldwork learning on the bulk manner connected with nanoscale mechanisms. Electron microscopy and allied spectroscopy approaches have been key techniques in this field for decades.

Green Nanotechnology:

Green nanotechnology alludes to the utilization of nanotechnology to improve the ecological supportability of procedures creating negative externalities. It additionally alludes to the utilization of the results of nanotechnology to improve maintainability. It incorporates making green nano-items and utilizing nano-items in the help of supportability.Green nanotechnologyhas been depicted as the advancement of clean innovations, "to limit potential ecological and human wellbeing dangers related with the fabricating and utilization of nanotechnology items and to empower supplanting of existing items with new nano items that are all the more naturally cordial all through their lifecycle.

Quantum Dots and Nanomagnetism:

Quantum Dots and Magnetic Nanoparticles have bunches of uses in explanatory strategies.Quantum Dotsare semiconductor nanoparticles whose electronic vitality levels are impressively controlled by the molecule measurements. This control occurs because of quantum repression. QDs are helpful as an investigative device because of its extraordinary optical properties. These optical properties comprise of restricted outflow spectra, wide absorbance spectra, discharge wavelength which is flexible by changing the extent of the molecule, high quantum effectiveness and low photobleaching rates.MNPsare made of magnetite (Fe3O4) or maghemite (Fe2O3). These materials are commonly superparamagnetic in the nanoscale extend. The attractive properties of these nanomaterials enable them to be controlled by attractive fields. the generally low poisonous quality of iron oxides takes into consideration their utilization in vivo applications.

Carbon Nanotechnology:

Carbon nanotube (CNT)is the allotropes of carbon with a cylindrical nanostructure. These cylindrical carbon molecules have unfamiliar properties, which are valuable for nanotechnology, electronics, optics and other fields of materials science and technology. Owing to the material's exceptional strength and rigidness, nanotubes have been constructed with length-to-diameter ratio of up to 132,000,000:1, significantly larger than for any other material.

In addition, owing to their remarkable thermal conductivity, mechanical, and electrical properties, carbon nanotubes find applications as additives to various structural materials. For instance, nanotubes form a nanoscopic portion of the material(s) in some (primarily carbon fibre) baseball bats, golf clubs, car parts orDamascus steel.

Pharmaceutical Nanotechnology:

Nanotechnology is the science which manages the procedures that happen at a molecular level and of nano-length scale size. The real investigations in the nanotechnology incorporate nanosized particles, their capacity and conduct as for different frameworks. The enormous capacities of nanoparticles have changed the viewpoint and extent of nanotechnology towards improvement into an adjuvant field for the rest of the fields of life sciences. Nanotechnology is the capacity to understand and control materials at the extremely littlest scales, from around 100 nm to the measurements of single molecules; At thisNanoscale, the properties of these nanosized particles differ from the customary medications.

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