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Allied Academies Journals:
Allied Academic Publication is an amalgamation of several esteemed academic and scientific associations known for promoting scientific temperament. This publishing house has been built on the base of esteemed academic and research institutions including The College of Audiologists and Speech Language Pathologists of Ontario (CASLPO), The Association for Public Safety Communications Officials of Canada (APCO), The Canadian Society of Internal Medicine (CSIM), The Canadian Hard of Hearing Association (CHHA), Sonography Canada and The Canadian Association of Neurophysiologic Monitoring (CANM). Starting off with Business and Management Journals, the Allied Academies are on a move to expand in the areas of Science and Technology.
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This meeting makes a stage for Policy-creators, Scientists, agents and leaders in Nanomedicines and drug delivery to display their most recent research and find out about all the innovative advancements in Drug delivery and Nanomedicines. Real subjects talked about are Latest developed nanomedicines, Production and effectiveness of nanotechnology in drug delivery, Nanomedicines for unconventional diseases, drug delivery safety and efficiency, Current research and future challenges in nanotechnology, Society and cultural aspects of nanomedicines.
Why to attend???
Nanoscience Congress 2019 is aimed to give an opportunity that with scholars from around the world focused on learning about Drug Delivery and Nanomedicine and its advances; this is the best opportunity to reach the largest assemblage of participants from the Nanotechnology community. It provides an explicit platform for presentations, distribute information, meet with current and potential scientists, make a splash with new nanomedicine developments, and receive name recognition at this event. World-renowned speakers, the most recent techniques, developments, and the newest updates in Drug delivery and Nanomedicines are hallmarks of this conference.
- Researchers & Scientists related to Nanotechnology R&D
- Deans and Professors
- Directors, CEOs, Presidents and Vice Presidents
- University Faculty
- Medical Schools/Colleges
- Nursing Schools/Colleges
- Associations and Societies related to Nanotechnology R&D
- Nanotechnology Programme Organising Government and Non-government Organisations
- Business Entrepreneurs
- Medical Devices Manufacturing Companies
- Nanomedicines Manufacturing Companies
- Nanomedicines Developers and Investigators
Sessions And Tracks
Track 1: Nanomedicine
The term Nano medicine encompasses a broad scope of technologies and materials. Kinds of Nanomaterials that have been researched for use as drugs, drug carriers or other Non-medical agents. There has been steep growth in development of devices that incorporate Nanomaterials or other Nanotechnology. The nanotechnology-based medical devices market is classified into three major segments, namely, therapeutic applications, diagnostics applications, and research applications. Rising occurrence of lifestyle and age-related disorders (for example cardiovascular and hearing disorders) has contributed essentially to the growth of the nanotechnology-based active implantable devices market. Nanotechnology, or systems/device manufacture at the molecular level, is a multidisciplinary scientific field undergoing explosive development. On the surface, miniaturization provides cost effective and more rapidly functioning biological components. Less obvious though is the fact that Nanometer measured objects also possesses remarkable self-ordering and assembly behaviors under the control of forces quite different from macro objects.
- Reducing infections through Nanotechnology
- A Nanotech Detector for Heart Attacks
- Nano Neurosurgery on a chip
- Biodegradable Electrodes for Medical Devices
- Nanotechnology in the Treatment of Neurodegenerative Disorders
- Nanotech-Enabled Breathalyzer for Diabetics
Track 2: Nanoparticles and Nanomedicine
Nanomedicine is a part of medicine that applies the information and tools of nanotechnology in the prevention and treatment of diseases. Nanomedicine includes the utilization of nanoscale materials, such as biocompatible nanoparticles and Nano robots, for finding, conveyance, detecting or incitation purposes in a living organism. Nanoparticles with ~100 nanometers have been broadly used to improve the drug accumulation, internalization and therapeutic efficacy. The physicochemical and biological properties of the Nanoparticles can also be finely adjusted by tailoring their chemical properties, sizes, shapes, structures, morphologies, and surface properties. Nanomedicine is the medical application of Nanotechnology. Nanotechnology has given the likelihood of conveying medications to particular cells utilizing nanoparticles. Current issues for nanomedicine include understanding the issues identified with harmfulness and ecological effect of nanoscale materials.
Nanomedicine seeks to deliver a valuable set of research tools and clinically useful devices in the near future.The National Nanotechnology Initiative expects new commercial applications in the pharmaceutical industry that may include advanced drug delivery systems, new therapies, and in vivo imaging.
- Regenerative Medicine
- Inorganic Nanoparticles
- Neurodegenerative Disorders
- Nanocarriers for CNS Drug Delivery
Track 3: Nanomedicine and Nanotechnology
Nanomedicine is a branch of medicine that applies the knowledge and tools of nanotechnology in the prevention and treatment of diseases. Nanomedicine involves the use of nanoscale materials, such as biocompatible nanoparticles and Nano robots, for diagnosis, delivery, sensing or actuation purposes in a living organism. Nanoparticles with ~100 nanometers have been widely used to improve the drug accumulation, internalization and therapeutic efficacy. The physicochemical and biological properties of the Nanoparticles can also be finely adjusted by tailoring their chemical properties, sizes, shapes, structures, morphologies, and surface properties. Nanomedicine is the medical application of Nanotechnology. Nanotechnology has provided the possibility of delivering drugs to specific cells using nanoparticles. Current problems for nanomedicine involve understanding the issues related to toxicity and environmental impact of nanoscale materials.
Nanomedicine has been developing rapidly in recent years, particularly in the development of novel nano tools for medical diagnosis and treatment. For instance, a new trend is becoming prevalent in developing Nanosystems for simultaneous tumour diagnosis and therapy. A new terminology "theranostics" has been frequently used and applied in pre-clinical research and trials. A Nanosystem can simultaneously achieve both cell targeted in vivoimaging and photothermal treatment of cancer. While achieving concurrent high spatial and temporal resolution of the lesions via cell targeting; special non-evasive treatments are implemented at the same time by various means, such as localized drug release, hyperthermia, and photo-thermal therapy. Inspired by these challenging problems in biomedical fields, the development of the nanotechnologies will be the key in addressing some of the critical issues in medicine, especially in early cancer diagnosis and treatment S
- Nanotechnology in Nanomedicine
- Explicit and Revolutionary of Nanomedicine
- Development and Application of Ever-Improving Nanotools
- Evolutionary of Nanomedicine
Nanotechnology seems to have gained a widespread interest in the recent years. Nanotechnology has considerably accelerated the growth of regenerative medicine the past few years. Application of Nanotechnology in regenerative medicine has revolutionized the designing of grafts and scaffolds which has resulted in new grafts/scaffold systems having significantly enhanced cellular and tissue regenerative properties. Since the cell–cell and cell-matrix interaction in biological systems takes place at the nanoscale level, the application of nanotechnology gives an edge in modifying the cellular function and/or matrix function in a more desired way to mimic the native tissue/organ. Nanomedicine introduces Nanotechnology concepts into medicine and thus joins two large cross-disciplinary fields with unprecedented societal and economical potential arising from the natural combination of specific achievements in the respective fields
- Antibacterial activity
- Nanomedicine and COPD
- Parkinson Disease
- Role in vaccines
- Treatment of breast cancer
- Autoimmune diseases Atherosclerosis
Track 6: Nanorobots In Medicine
Advances in technology have increased our ability to manipulate the world around us . Nanotechnology is rapidly emerging within the realm of medicine. Nanomedicine is the process of diagnosing, treating, and preventing disease and traumatic injury, of relieving pain, and of preserving and improving human health, using molecular tools and molecular knowledge of the human body. An exciting and promising area of Nanotechnological development is the building of Nanorobots. Highly precise positioning techniques are required in Miniaturing in chip technology, optics, micro mechanic, medicine, gene, and biotechnology. Nanorobots plays a critical role for many applications in the human body, such as targeting tumor lesions for therapeutic purposes, miniaturization of the power source with an effect on board controllable propulsion and steering system have prevented the implementation of such mobile robots.
- Cell repair Nanorobots
- Detection and Treatment of Cancer
- Medical Nanorobots for Diabetes Control
- Positional Nanoassembly
- Nanorobots in Gene Therapy
Track 7: Nanotechnology in Food Science
Nanoscience and nanotechnology are new frontiers of this century and food nanotechnology is an emerging technology. Food technology is regarded as one of the industry sectors where nanotechnology will play an important role in the future. The development of new products and applications involving nanotechnologies holds great promise in different industrial sectors, Nanotechnology stronger age and Nanoencapsulation of bioactive food compounds are few examples of emerging applications of nanotechnology for the food industry
- Antimicrobial activity of NPs
- Eco-toxicity of NPs
Track 8: Nanotechnology in Healthcare
Nano medicine affects almost all the aspects of healthcare. Nanomedicine helps to engineer novel and advanced tools for the treatment of various diseases and the improvement of human biosystems using molecular Nanotechnology. Cardiovascular diseases, Neurodegenerative disorders, Cancer, Diabetes, Infectious diseases, HIV/AIDS are the main diseases whose treatment can be benefitted by using Nano medicine.
· Carbon Nanotubes
- Nanobiomechanics and Nanomedicine
- Bio-inspired materials and drug delivery
- Biosensors and Nanobioelectronics
- Drug targeting
- Image-guided drug delivery
Track 9: Nanotechnology and Surgery
There are various applications and methods where nanotechnology helps or enhances implants and surgical instrument design. Nanotechnology offers a dream for a 'shrewd' medication way to deal with battling tumors: the capacity of nanoparticles to find growth cells and obliterate them with single-cell accuracy. A standout amongst the most critical applications for such nanoparticulate sedate conveyance could be the conveyance of the medication payload into the cerebrum and reconstructive surgery. In any case, crossing the blood-cerebrum obstruction – the brain defensive shield – is an impressive test. With the assistance of extraordinary nanoparticles, this ends up plainly conceivable.
- Reconstructive Surgery
- Implant and Surgical Instrument Design
- Minimizing Surgical Damage
- Post-surgical and Other Wound Healing
- Intracellular Nanosurgery
Track 10: Future Concepts in Nanomedicine
Nanomedicine is promising remarkable things, including great advancements in the treatment of cancer. Imagine a world where there is no donor organ shortage. Where victims of spinal cord injuries can walk, where weakened hearts are replaced. This is the long-term promise of regenerative medicine, a rapidly developing field with the potential to transform the treatment of human disease through the development of innovative new therapies that offer a faster, more complete recovery with significantly fewer side effects or risk of complications.
· Nanorobotics and Nanomedicine
· Personalized Nanomedicine
· Nanoneural Interfaces
· Optical Imaging at the Nanoscale
Track 11: Polymer Nanotechnology
Polymer nanotechnology plays an essential role in synthesizing nanoscale structures and devices. The most important advance in polymer science may be polymers that are doped with nanometre-sized particles to achieve properties superior to conventional polymers. Nanotechnology, polymer matrix based nanocomposites have become a prominent area of current research and development. Research of polymers and nanotechnology primarily focuses on efforts to design materials at a molecular level to achieve desirable properties and applications at a macroscopic level such as polymer-based biomaterials, drug carrier system, nanomedicine, nanoemulsion particles, fuel cell electrode polymer bound catalysts, layer-by-layer self-assembled polymer films, smart polymer, electrospun nanofabrication, imprint lithography, polymer blends, and variety of polymer nanocomposites.
- Polymeric Nanoparticles
- Drug Carrier System
- Polymer Nanocomposites
- Variety of Polymer Nanocomposites
- Smart Polymer
Nanomedicines are an emerging product class in the health sector, hence, they have to comply with the high standards of the medicinal product regulation or other related legislative frameworks such as the medical devices regulation. The application of nanotechnology in health care is widely accepted as a potential driver of biomedical innovation. Nevertheless, the opportunities of nanotechnologies in the health sector are accompanied by challenges in the regulation of these products. Sufficient knowledge on their quality, safety, and efficacy must be gained and standardized methods must be made available to support the regulatory decision making and allow a smooth translation towards clinical applications Current, Future Applications and Regulatory challenges
- Regulatory Policies
- Nanomedicine: Prospects, Risks, and Regulatory Issues
Track 13: Emerging Nanomedicine
Currently, the treatment of HIV requires the regular oral dosage of HIV drugs, and chronic oral dosing has significant complications that arise from the high pill burden experienced by many patients across populations with varying conditions leading to non-adherence to therapies. The recent evaluation of HIV patient groups has shown a willingness to switch to nanomedicine alternatives if benefits can be shown. Research efforts by the Liverpool team have focused on the development of new oral therapies, using Solid Drug Nanoparticle (SDN) technology which can improve drug absorption into the body, reducing both the dose and the cost per dose and enabling existing healthcare budgets to treat more patients.
· Graphene Medicine
· Image-guided drug delivery
· Nanomedicine for Diabetes
· Autoimmune diseases
· Parkinson Disease
Track 14: Nanotechnology in Drug Delivery
Nanoparticles hold tremendous potential as an effective drug delivery system. In this review we discussed recent developments in nanotechnology for drug delivery. To overcome the problems of gene and drug delivery, nanotechnology has gained interest in recent years. Nanosystems with different compositions and biological properties have been extensively investigated for drug and gene delivery applications. To achieve efficient drug delivery it is important to understand the interactions of nanomaterials with the biological environment, targeting cell-surface receptors, drug release, multiple drug administration, stability of therapeutic agents and molecular mechanisms of cell signalling involved in pathobiology of the disease under consideration. Several anti-cancer drugs including paclitaxel, doxorubicin, 5-fluorouracil and dexamethasone have been successfully formulated using nanomaterials. Quantom dots, chitosan, Polylactic/glycolic acid (PLGA) and PLGA-based nanoparticles have also been used for in vitro RNAi delivery. Brain cancer is one of the most difficult malignancies to detect and treat mainly because of the difficulty in getting imaging and therapeutic agents past the blood-brain barrier and into the brain. Anti-cancer drugs such as loperamide and doxorubicin bound to nanomaterials have been shown to cross the intact blood-brain barrier and released at therapeutic concentrations in the brain. The use of nanomaterials including peptide-based nanotubes to target the vascular endothelial growth factor (VEGF) receptor and cell adhesion molecules like integrins, cadherins and selectins, is a new approach to control disease progression.
Track 15: Nanotechnology in Regenerative Medicine
Regenerative medicine is an emerging multidisciplinary field that aims to restore, maintain or enhance tissues and hence organ functions. Regeneration of tissues can be achieved by the combination of living cells, which will provide biological functionality, and materials, which act as scaffolds to support cell proliferation. Mammalian cells behave in vivo in response to the biological signals they receive from the surrounding environment, which is structured by nanometre-scaled components. Therefore, materials used in repairing the human body have to reproduce the correct signals that guide the cells towards a desirable behaviour. Nanotechnology is not only an excellent tool to produce material structures that mimic the biological ones but also holds the promise of providing efficient delivery systems. The application of nanotechnology to regenerative medicine is a wide issue and this short review will only focus on aspects of nanotechnology relevant to biomaterials science. Specifically, the fabrication of materials, such as nanoparticles and scaffolds for tissue engineering, and the nanopatterning of surfaces aimed at eliciting specific biological responses from the host tissue will be addressed.
Track 16: Nanobubble in Nanomedicine
In recent years, microbubble and Nano bubble technologies have drawn great attention due to their wide applications in many fields of science and technology, such as water treatment, biomedical engineering, and nanomaterials. Nanobubbles exhibit unique characteristics; due to their minute size and high internal pressure, they can remain stable in water for prolonged periods of time.
- Waste Water treatment
- Mechanism of Nanobubble
- Nanobubbles in cancer therapy
- Stability of Interfacial Nanobubbles
- Nucleation process in Nanobubbles
Track 17: Advanced Nanomaterials
Nanomedicine seeks to deliver a valuable set of research tools and clinically useful devices. The pharmaceutical industry is developing new commercial applications that may include synthesis and self-assembly of nanomaterials, advanced drug delivery systems, new therapies, and nanomaterials for Imaging and Drug Delivery. Another active and very much related area of research is the investigation of toxicity and environmental impact of nanoscale materials since nanomedicine must be biocompatible for clinical application.
- Synthesis and Self-Assembly of Nanomaterials
- Nanoscale Characterisation
- Nanocomposites and Nanomagnetism
- Molecular Nanotechnology
- Commercialization of Nanotechnology
Track 18: Toxicology of Nanoparticles
Nanotechnology is a rapidly growing field having potential applications in many areas. Nanoparticles have been studied for cell toxicity, immunotoxicity, and genotoxicity. Tetrazolium-based assays such as MTT, MTS, and WST-1 are used to determine cell viability. Different types of cell cultures, including cancer cell lines, have been employed as in vitro toxicity models. Considering the potential applications of NPs in many fields and the growing apprehensions of FDA about the toxic potential of Nano products, it is the need of the hour to look for new internationally agreed, free of bias toxicological models by focusing more on in vivo studies. The system was developed for Nanotoxicity assessment at single and multiple cell levels which can measure and compare the microscopic and macroscopic effects of nanoparticles interact with cells, without interference from neighboring cells' cues and also overall integrative effects produced by nanoparticles and cell-cell communication.
- Neonatal toxicity
- Mitochondrial injuries
· Toxicity to human lymphocytes
- Oral toxicity
- Toxicity due to inhalation of nanoparticles
Track 19: Nanometrics for Cell Culture
3D cell culture, recapitulating the length scale of naturally occurring nanotopographic structures, are now being used to elucidate how physical cues can direct cell behavior and orchestrate complex cellular processes such as stem cell differentiation and tissue organization. Advances in nanotechnology have unlocked our ability to create stimuli-responsive interfaces for spatially and temporally controlling extracellular physical and biochemical cues. Synthetic, natural and cellularized nanofiber scaffolds are used for intracellular sensing and delivery at the sub-cellular level. The field of nanoengineered cell– the material interface is rapidly evolving, carrying with it the potential for major breakthroughs in fundamental cellular studies and regenerative medicine.
- 3D Cell Culture and the Issues of Scale and Purity
- Synthetic Nanofiber Scaffold
- Natural Nanofiber Scaffold
- Cellularized Nanofiber Scaffold
- Other Nanotechnology-based Cell Culture System
- Stem Cell Application
Track 20: Material Science and Engineering
Materials science is vital to nanotechnology since the properties of electronic-photonic and magnetic materials can change significantly when things are made to a great degree little. This perception isn't just that we have to quantify such properties or grow new preparing apparatuses to create nanodevices, nanosensors, and nanosystems. Or maybe, our vision is that the wide (and at times sudden) assortment of wonders related with nanostructured materials enables us to imagine drastically new gadgets and applications that must be made with biocompatible materials.
- Basic Principle and Applications
- Electronic, Photonic and Magnetic materials
- Energy Materials
- Nanosensors and Nanosystems
- Biocompatible Materials
Track 21: Nanomedicine in Cancer Therapeutics
Nanomedicine science opens a new pool of opportunities for emerging new technologies in order to diagnose and treat fatal diseases, one of them being nanotechnology in cancer treatment. New nanotechnology enhanced tools are created at much smaller sizes than one of a human cell. With the help of these tools researchers and clinicians may detect the brutal disease of cancer in an earlier stage and move on with its treatment with fewer side effects; potentially cure it before it causes irreversible damage.
- Nanoparticles and Thermal Ablation
- Non-specific, Localized Use of Nanoparticles for Tumor Ablation
- Targeted Nanoparticle to Specific Sites for Tumor Ablation
- Invivo Anticancer Platform Delivery
Nanobiotechnology is the application of nanotechnology in biological fields. Nanobiotechnology has the huge number of possibilities for propelling restorative science in this manner enhancing human services hones the world over. Numerous novel nanoparticles and nanodevices are relied upon to be utilized, with a gigantic positive effect on human well-being. While genuine clinical uses of nanotechnology are still for all intents and purposes inexistent, a noteworthy number of promising therapeutic undertakings are in a progressed trial organize. Usage of nanotechnology in solution and physiology implies that instruments and gadgets are so actually composed that they can communicate
- Advantages of Nanobiotechnology
- Nanotechnology as a Tool in Imaging
- Biomolecular Engineering
- Nanotechnology in Cardiac Therapy
- Nanotechnology in Dental Care
- Nanotechnology in Orthopedic Applications
- Challenges of Nanobiotechnology
Nanomedicine is the medicinal use of nanotechnology. Nanomedicine ranges from the restorative utilizations of nanomaterials and biological devices to nanoelectronic biosensors, and even conceivable future uses of atomic nanotechnology, for example, biological machines.
· According to the WHO factsheet, the disease is observed to be one of the real reasons for mortality and dreariness around the world, with roughly 14 million new cases in 2012 and 8.2 million growth related passings. Hence, interest for nanomedicine with a specific end goal to control such a high occurrence rate is relied upon to support showcase advance amid the estimated time frame.
· The potential pipeline of items in light of the nanomolecules and related advancements are foreseen to drive the market with potential roads of development. Presence of around 40% of items in stage II of clinical advancement, is foreseen to result in various key commercialization over the coming decade affecting income age over the conjecture time frame. The modified treatment choices accessible for the destruction of hereditary variations from the norm additionally makes this technology a substantial option for precision medicine.
The key players for Nanomedicine Market
· Abraxis Bioscience
· Arrowhead Research
· GE Healthcare
· Epeius Biotechnologies
· Cytimmune Sciences
· Nanospectra Biosciences
Market segment by Type, the product can be split into
· Quantum dots