13^th World Drug Delivery Summit June 14-15, 2019 Montreal, Canada

For the target of amplifying knowledge on the current researchers on developing drug delivery systems via novel techniques for Pharmaceutical formulation development, Drug Delivery conference is centered around quality topics including Liposomes, Dendrimer, Targeted Drug Delivery design, versatile polymer in Drug Delivery and Controlled Drug Delivery, Transmucosal Drug Delivery, Blood-Brain Barrier, Optimization of pharmaceutical products, Sustained Drug Delivery Systems, are a uniquely architectured session which plays an important role in the fields of pharmaceutical formulation development and Pharmacology.

Aimed and specially designed session for young and senior researcher from academic on drug dosage formulations through novel routes in drug delivery where researcher interested for developing novel routes to minimize drug interactions occur through common routes by which a drug is brought into contact with the body. Different dosage forms are manufactures by pharmaceutical companies according to drug designing to maximize bioavailability. Session includes different routes of administration like Topical drug delivery via a large range of classes including but not limited to creams, foams, gels, lotions, and ointments. Pulmonary drug delivery system route is gaining much importance in the present day research field as it enables to target the drug delivery directly to lung both for local and systemic treatment. Nasal drug delivery an alternative route restricted to intravenous administration this area has been widely investigated in recent years by academics. Topics like other novel routes wise Vaginal drug delivery covers self-insertion creams, foams, gels, irrigations and tablets, are known to reside in the vaginal cavity. Oral Drug Delivery routes to reaching different parts of the body via the bloodstream. Injectable formulations intended for administration by injection, infusion or implantation and placental development into the body.

Pharmaceutical Nanotechnology for Drug Delivery using Nanotechnology session plays major role in the future of pharmaceutical research. In this session, we will go over several of the most important features of nanotechnology, anticancer drug development , pharmocology of cancer drugs, that will impact our lives but we will also talk about what nanotechnology itself will be like in the future and Investigator specifically from cancer therapy. Interestingly pharmaceutical sciences are using nanoparticles to reduce toxicity and side effects of drugs and up to recently did not realize that carrier systems themselves may impose risks to the patient. Nano technology session includes drug delivery using nanotechnology, Pharmaceutical technology, Nanoparticles permeability to BBB, Cancer drug targets, Nanoparticles application, Pancreatic Cancer, Nanoliposome-mediated delivery, MicroRNA therapeutics, recent breakthroughs in nanoparticle design to demonstrate their high potential as multifunctional drug delivery nanocarrier, Carriers for nanotechnology, various nanostructures, magnetic nanoparticles. In this review Polymer Nanotechnology for Drug Delivery, Nano composite materials, to deliver highly efficient therapeutic compounds to patient a future aspect of Nanotechnology has a vast future ahead of it and we are constantly making breakthroughs in this industry every day. 

Nucleic acids science and technologies experience tremendous progress and changes. The conference will feature prominent experts discussing latest advances in nucleic acids, industrial pharmacy, pharmaceutical design, drug targeting,  anticancer drug development , Nano pharmaceutics,  research and development: TNA for treating cancer and viral diseases in the near future for drug delivery includes novel Rnai-Based Therapy, advances in siRNA delivery, oligonucleotide drug delivery, viral gene therapy and Artificial microRNAs, non-coding RNA (miRNA, piRNA, lncRNA, and lincRNA) this architect session to play an important role in the fields of cancer targeting and pharmaceutical nanotechnology.

To maximize knowledge of the current researcher on developing drug delivery via Pharmaceutical formulation, Smart Drug Delivery conference themed quality topics on Drug Targeting, Drug Designing, Drug evaluation, Drug Delivery and Therapeutics, Biodegradable polymers, Dendrimer a versatile polymer in drug delivery are a uniquely architect session to play an important role in the fields of nanotechnology, pharmaceutical and medicinal chemistry. Major drugs driving growth of the overall smart drug delivery market include Angiomax, Copaxone, Forteo, Sandostatin, Velcade, Victoza and Zoladex

As new product formats progress through development and into the regulatory process, the role of Bio therapeuticsas Novel Technique in Drug Delivery is important scope. The demand for Biopharmaceuticals manufacturing and industry is continuously increasing, because many Therapeutic Agents are reaching later stage clinical trials. Most bio therapeutic drugs are recombinant monoclonal antibodies which are widely produced in mammalian cell lines because of the need for post-translational modifications that should be alike or at least similar to those obtained in humans. Thus, there is an increase in the market for cell line development. Moreover, advancements in upstream processing technologies have led to improvement in speed and efficiency of generating robust and highly productive cell line for large scale production of protein therapeutics and has propelled the market for cell line development. Major drugs driving growth of the overall smart drug delivery market include Angiomax, Copaxone, Forteo, Sandostatin, Velcade, Victoza,  Zoladex, Beckton Dickinson & Company (U.S.), Beckman Coulter (U.S.), Boehringer Ingelheim Group (Germany), Catalent Inc. (U.S.), CMC Biologics A/S (Denmark), Lonza Group Ltd. (Switzerland), EMD Millipore (U.S.), Partec (Sysmex Corporation) (Japan), ProBioGen AG (Germany), Selexis SA (Germany), Sigma-Aldrich Co. LLC.

According to a New Market Research “Bio therapeutics as Novel Technique in Drug Delivery Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2015 - 2022”, the Bio therapeutics as Novel Technique in Drug Delivery was valued at US$56.03 mn in 2015 and is anticipated to expand at a CAGR of 7.5% from 2015 to 2022 to reach US$99.84 mn by 2022.

By focusing on Major challenges in Drug Delivery in the drug-delivery technology market

Session includes: Reducing Patient Compliance, Drug Delivery of poorly soluble drugs, Overcoming challenges in pediatric drug delivery, controlling the addictive nature of drugs, Polymeric enhancement.

There is an increasing demand for effective and, ideally, non-invasive drug-delivery methods. This is especially the case for the biopharmaceutical sector, which has experienced an overwhelming growth due to advances in biotechnology. In 2009, over $12 billion were invested in biologics / biotechnology research and development (R&D), representing a 26% share in the total R&D expenditure. A recent report by the Pharmaceutical Research and Manufacturers of America (PhRMA) states that in 2015 there were 901 biological in development, targeting more than 100 diseases.

This session and track is intended to assist pharmaceutical scientists in the development of stable Medicinal Preparations of Proteins and Peptides during the early stages of the product development process for Pharmaceutical technology providing a comprehensive review of mechanisms and causes of protein instability in formulation development, coverage of accelerated stability testing methods and relevant analytical methods, and an overview of the drug substance manufacturing process. Preformulation and the development of traditional solutions and lyophilized formulations frequently used for intravenous delivery and non-traditional formulations are also addressed.

The drug delivery technology market is expected to reach USD 1,504.7 Billion by 2020 from USD 1,048.1 Billion in 2015, growing at a CAGR of 7.5% from 2015 to 2020. Factors such as rising prevalence of chronic diseases, growth of the biologics market, new product launches, and drug innovation and technological advancements are driving the growth of this market. On the other hand, patent expiry and patent cliff, increase in the injuries and side effects are hindering the growth of this market.

Equipment and Machinery for Drug Delivery session includes major area participants/ Vendors, Engineers in Equipments from Laboratory equipments, Analytical Equipments, Auto Injectors, Semi-Automatic R&D Equipment, Large volume Production Machineries and Drug Delivery Pilot Equipments.

The global market for Business Development of Drug Delivery Technology in 2010 was $131.6 billion and is expected to rise at a compound annual growth rate (CAGR) of 5% and reach nearly $175.6 billion by 2016. The U.S. constituted approximately 59% of the total drug delivery market in 2010 and was $78 billion. It is forecast to reach nearly $103 billion in 2016 at a CAGR of 4.7%. Europe contributed about 27% of the total drug delivery market in 2010 and was $36 billion and is expected to grow to $49 billion by 2016 at a CAGR of 5.6% for 2013, Drug Delivery Global market reached $150.3 billion, according to BCC research. This was an increase from $142 billion the previous year. Given its predicted annual growth the market represents a considerable business opportunity, which has been reflected in the increasing number of drug delivery specialists. Consistent quality and competitive costs of product improves Production performance and continuity of supply and Product and technology auditing and due diligence with minimizing Regulatory Issues, quality control, and business development Business opportunities in drug delivery.

Vaccine is multidisciplinary scientific field that is currently undergoing rapid development. An important component of cancer vaccines is the development of novel vaccine strategies, this session includes Laser technology for Vaccine Adjuvants, Challenges and opportunities For Vaccine Delivery, These advances promise to accelerate the development and testing Jet injectors, micro needles, Needle free drug delivery technology, is an innovative technique to deliver drugs into a person's body without piercing their skin.

In this session we will focus on Medical Devices designed for drug delivery through the pulmonary and nasal routes. These routes are of interest for local delivery, as in asthma, but also for rapid delivery of drugs to the system circulation and direct delivery to the central nervous system. Devices that account for specific anatomical and physiological features of the intranasal and pulmonary routes will be featured.  Drug delivery devices are specialized tools for the delivery of a drug or therapeutic agent via a specific route of administration. Such devices are used as part of one or more medical treatments. Many in the industry have long felt overly burdened by what they consider to be an unnecessarily complex approval process. Critics claim it impedes innovation and delays the availability of better health care. To change that perception, the FDA last year announced $40 million to a new Medical Device Innovation Consortium (MDIC) charged with simplifying the process of designing and testing new technologies. With input from industry, government, and other nonprofit organizations, public-private MDIC will prioritize the regulatory science needs of the medical device community and fund projects to streamline the process.

Current research on femtosecond laser microfabrication of fluidic devices is introduced to present their research to elaborate. The research on microfluidics provides highly sensitive microfluidic sensors for practical applications with significant advantages of portability, efficiency, sensitivity, versatility, and low cost.