Cellular Technology Limited USA
Morehouse School of Medicine USA
Biologic Resources LLC USA
Morehouse School of Medicine, USA USA
Alan D T Barrett
University of Texas Medical Branch USA
Emory University School of Medicine USA
VA Palo Alto Health care system USA
Morehouse School of Medicine USA
Pulsus Group.invites all the participants from all over the world to attend “24th International Conference on Vaccine Design, Production & Safety” to be held on May 21-22, 2018, Vienna, Austria. Vaccine Design 2018 focuses on the theme “Deliberation on modern vaccine research and development focusing on vaccine design delivery and evaluation “which aims in gathering the eminent research communities catalyzing information exchange and networking between researchers and business entrepreneurs of diverse backgrounds fostering advancements in Vaccine Design research
PULSUS has acknowledged you as a world class expert capable of providing deep insight into the latest developments in your field. Basing on your eminence and expertise in the field, we are honored to invite as an Organizing Committee Member for Vaccine Design 2018 this will allow reflecting on the Vaccine Design, Production & Safety at 360 degrees, all-round by expanding the knowledge of everyone.
Pulsus Group invites all the participants from all over the world to attend “24th International Conference on Vaccine Design, Production & Safety” to be held on May 21-22, 2018, Vienna, Austria. Vaccine Design 2018 is based on the theme “Deliberation on modern vaccine research and development focusing on vaccine design, delivery and evaluation”. This includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
The aim of Vaccine Design 2018 is to bring together leading academic Scientists, Researchers, professors, Business delegates, talented student communities and research scholars to commerce and share their experiences and research conclusion about all aspects of Vaccine Design & Development and its safety.
Vaccine Design 2018 hosting presentations from Global Leaders in the field across the Globe and bringing together vaccine stakeholders including academic researchers, public health clinicians, vaccine policy makers, corporate and vaccine manufacturers.
Why to attend???
Vaccine Design 2018 is intended to provide a notable opening to the experts in the field of Vaccine Research & Development & its Safety to discuss latest research and challenges in the arena. Vaccine Design 2018 is planned to provide a special podium for health-care professionals, researchers, Business delegates and students working in the arena to consciously, exchange visions and their understandings in front of a large intercontinental listeners. This Vaccine Design, Production & Safety conferences, Vaccine events and Vaccine meetings will help in interaction with different brains in Vaccine Research & Development, B2B construction between specialists and academicians. The companies dealing with Vaccine products and supplements can exhibit their products in the Vaccine exhibition and expo.
Medical Colleges Faculty, Students
Immunology Associations and Societies
Vaccines Training Institutes
Software developing companies
Manufacturing Medical Devices Companies
Clinical Data Management Companies
Machinery Manufacturing Companies
Pulsus Group invites all the participants from all over the world to attend “24th International Conference on Vaccine Design, Production & Safety” to be held on May 21-22, 2018, Vienna, Austria.which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
Vaccines Research and Production Technology With the emergence and growth of new diseases, the need and demand for innovative vaccines continues to grow. But vaccine development is a complex, laborious, and expensive process. It involves a demand of multiple technologies, sufficient funds for clinical trials and manufacturing facilities, sophisticated scale-up processes, knowledge in navigating demanding regulatory environments in various regions, and managing vital safety monitoring.
Vaccines Design & Development have been used against infectious disease, so it is basically required a revolution in the approach to vaccine design and development. Particular vaccines are involved to act against specific diseases. For example polio vaccines are recommended for vaccination against polio virus. New technologies such as genomics, proteomics, functional genomics, and synthetic chemistry can be used for the rational identification of antigens, the synthesis of complex glycans, the generation of engineered carrier proteins, and much more that are needed in designing vaccines. Vaccine design and development services help to reduce the cost of failure and increase the chance of clinical success.
Track 3: Conjugate Vaccines
Conjugate vaccines target several leading causes of vaccine-preventable deaths. Conjugate vaccines also have antigens or toxoids, often from the same bacteria, linked to the sugar molecules. Conjugate vaccines only use a small part of a bacterium linked to carrier protein. Conjugate vaccines are primarily used for the prevention of bacterial infections. Polysaccharide protein conjugate vaccines comprise of polysaccharides, generally from the surface coat of bacteria, linked to protein carriers. The advantages of the conjugate vaccines are their capacity to create immunological memory and to decrease asymptomatic carriage of the microbes, resulting in marked herd immunity. Conjugate vaccines can reduce complexity and increase coverage.
Vaccine Development is a complex and time-consuming process that differs from the development of conventional drugs. Vaccine clinical trials focus on demonstrating prevention of a disease which implies that a higher number of subjects will be required than for traditional drug trials. The researchers will test the candidate vaccine for the first time in humans in order to evaluate its safety, determine a safe dosage range, and identify vaccine-related side effects. Once a vaccine has been marketed, pharmacovigilance activities take place in order to carry on a strict safety supervision of the vaccines and detect, assess, understand, prevent and communicate any adverse events following immunisation, or of any other vaccine- or immunisation-related issues.
Vaccines have helped to save millions and millions of lives. Infectious disease has always impacted humanity but with the development of vaccines the occurrence of infectious disease has been decreases. Vaccines made life more comfortable and hence various researches are still going on to cure various vaccine preventable diseases. Polio infection is on its way to eradication from all the countries and we will discuss more on the steps to eradicate polio. Polio eradication is a greatest achievement in field vaccine development. Public Health's Immunization Program aims to assist all in attaining optimal health through knowledge of and access to immunizations.
A vaccine is a biological preparation that provides active acquired immunity to a particular disease and dates it uses back from a long time. Infections are always better if prevented then trying to cure them at later stages and the best way to ensure we are protected is to ask our healthcare provider if our vaccinations are up to date. Proper timing of vaccination is another key point to be noted and we would discuss various vaccines available for infants, adolescents and adults along with their schedules and risks factors involved.
Track 7: Vaccines Storage and Handling
Immunizations help save lives, prevent serious illnesses, and are recognized as one of the most effective public health interventions available today. Vaccines immunology programs are among the most cost-effective ways to prevent disease. The success of these programs depends heavily upon the high immunization coverage of the target group and vaccine inventory management, including proper storage and handling of vaccines. This document is intended to assist all health care providers with how to properly store and handle provincially funded vaccines. Prior to storing vaccine, health care providers are required to understand and meet with the vaccine storage and handling requirements indicated in this document.
Track 8: Bacterial Vaccines
A drug may be classified by the chemical type of the active ingredient or by the way it is used to treat a particular condition. Each drug can be classified into one or more drug classes. Bacterial Vaccines is a preparation of killed or attenuated bacteria used as an active immunizing agent and a large number of deaths could be reduced by increased use of present vaccines and even more deaths can be prevented by the future use of new vaccines being developed. We would be glad to welcome and bring together the Global leaders in Immunology and relevant fields to present their research at this exclusive scientific program. Vaccine design 2018 Organizing Committee also invites Young investigators at every career stage to submit abstracts reporting their latest scientific findings in oral and poster sessions.
Track 9: Vaccine Efficacy and Safety
Vaccines have significantly reduced the burden of infectious diseases. Recognized vaccine safety issues are commonly reported while reviews of vaccine adjuvants are few. Vaccines are developed in accordance with the highest standards of safety because vaccines must be safe for use by as many people as possible. Individuals respond differently to vaccines, and there is no way to absolutely guess the reaction of a specific individual to a particular vaccine. Immunization is the safest and most effective public health tool available for preventing disease and death. Efficacious vaccines protect individuals if administered before exposure.
Track 10: Vaccine Adjuvants
Vaccine Adjuvants is a part of a vaccine that helps to create a stronger immune response in the patient’s body. Some vaccines prepared from weakened or dead germs contain naturally occurring adjuvants and aid the body produce a strong protective immune response. With the advancement of new and less reactogenic vaccine antigens, additionally comes the requirement for more viable adjuvants that will encourage the acceptance of adaptive immune responses. Vaccines made with adjuvants ensure the body to produce an immune response to protect the patient from the germ he or she is being vaccinated against. Vaccine adjuvants improve the body's immune response and often allow for smaller amounts of an inactivated virus or bacteria to be used in a vaccine. Aluminium salts, such as aluminium hydroxide, aluminium phosphate, and aluminium potassium sulphate have been used safely as adjuvant in vaccines.
Track 11: Plant derived Vaccines
Plant-determined immunizations show another option to traditional vaccine by encouraging sheltered and viable oral delivery through utilization of eatable plant tissue. Numerous infectious diseases enter the body through mucosal surfaces, for example, the gut, and accordingly, vaccines expressed in the form of edible plant tissues offer a select preferred advantage. The plant tissues can secure the antigen as it goes through the digestive tract. Vaccines derived from transgenic plants are convenient and inexpensive source for various bacterial, viral, protozoan and autoimmune diseases with lower capital costs.
Track 12: Vaccines and Vaccination
Vaccines and Vaccination is generally considered to be the most effective method of preventing infectious diseases. All vaccinations work by presenting a foreign antigen to the immune system in order to evoke an immune response. The purpose of every vaccination is to present a particular antigen or set of antigens to the immune system in order to evoke a relevant immune response. Vaccines help make you immune to serious diseases without getting sick first. Without a vaccine, you must actually get a disease in order to become immune to the germ that causes it. Vaccines work best when they are given at certain ages. Proper timing of vaccination is key point to be noted and we would discuss various vaccines available for infants, adolescents and adults along with their schedules and risks factors involved.
Vaccine is a biological product that improves and develops immunity to a given disease. A vaccine comprises a disease-causing microorganism, or portion of it, and is often made from either live-attenuated or inactivated (killed) forms of the microbe, its toxin or one of its surface proteins. Vaccines used in national immunization programmes are extremely safe and effective. Public health are required know about both protection from infectious diseases and protection from chronic health conditions. Public alertness regarding vaccine safety has increased through awareness and increased access to information through the internet. Various vaccination programmes are also organised to have immunized from vaccine preventable diseases. Vaccines are normally programmed early in life when infections and other illnesses are new.
Track 14: Vaccine Industries
Vaccine Industries is the fastest–growing part of business all over the world. A great deal of medical research into vaccines is undertaken by scientists working directly or indirectly for the pharmaceutical companies. New technologies and research works are still on process for vaccine design and development for the new infectious diseases. Vaccines should be safe and more effective against the particular diseases.
First we are assured that, thanks to vaccines, some diseases are almost gone from the U.S. But we are also warned to immunize our children, ourselves as adults, and the elderly. Unless we can "stop the leak" (eliminate the disease), it is important to keep immunizing. Even if there are only a few cases of disease today, if we take away the protection given by vaccination, more and more people will become infected and will spread disease to others as well the vaccination schedule is an important key for eradication a diseases. Soon we will undo the progress we have made over the years.
DNA vaccination is a technique for protecting an animal against disease by injecting it with genetically engineered DNA so cells directly produce an antigen, resulting in a protective immunological response.
Vaccination consists of stimulating the immune system with an infectious agent, or components of an infectious agent, modified in such a manner that no harm or disease is caused, but ensuring that when the host is confronted with that infectious agent, the immune system can adequately neutralize it before it causes any ill effect. For over a hundred years vaccination has been effected by one of two approaches: either introducing specific antigens against which the immune system reacts directly; or introducing live attenuated infectious agents that replicate within the host without causing disease synthesize the antigens that subsequently prime the immune system.
The field of DNA vaccination is developing rapidly. Vaccines currently being developed use not only DNA, but also include adjuncts that assist DNA to enter cells, target it towards specific cells, or that may act as adjuvants in stimulating or directing the immune response. Ultimately, the distinction between a sophisticated DNA vaccine and a simple viral vector may not be clear. Many aspects of the immune response generated by DNA vaccines are not understood. However, this has not impeded significant progress towards the use of this type of vaccine in humans, and clinical trials have begun.
Track 17: HPV Vaccines:
Human Papillomavirus (HPV) vaccine is an inactivated (not live) vaccine which protects against four major types of HPV.
These include two types that cause about 70% of cervical cancer and two types that cause about 90% of genital warts. HPV vaccine can prevent most genital warts and most cases of cervical cancer. Protection from HPV vaccine is expected to be long-lasting. But vaccinated women still need cervical cancer screening because the vaccine does not protect against all HPV types that cause cervical cancer.
Routine HPV Vaccination
It is important for girls to get HPV vaccine before their first sexual contact -- because they have not been exposed to HPV. For these girls, the vaccine can prevent almost 100% of disease caused by the four types of HPV targeted by the vaccine. However, if a girl or woman is already infected with a type of HPV, the vaccine will not prevent disease from that type. The vaccine is also recommended for girls and women 13 through 26 years of age who did not receive it when they were younger.
Track 18: Plant-based vaccines:
Plant-based vaccines are recombinant protein subunit vaccines. Ideally, the choice of plant species used to produce the selected antigen should allow for oral drug delivery in the form of an edible vaccine. To date, the most advanced human vaccine projects have successfully completed phase I clinical trials, and animal vaccine projects have given promising data in early phase trials targeting specific animal species.
The plant-based vaccine production method works by isolating a specific antigen protein, one that triggers a human immune response from the targeted virus. A gene from the protein is transferred to bacteria, which are then used to “infect” plant cells. The plants then start producing the exact protein that will be used for vaccinations. The flexibility of the plant expressed vaccine system, combined with its low cost and ability to massively scale may provide vaccine protection not only to citizens of the United States, but to many parts of the world that cannot currently afford vaccines. Other uses of plant expressed vaccines including the successful creation of edible bananas that protect against the Norwalk virus.
Vaccine Design 2018
Theme: “Deliberation on modern vaccine research and development focusing on vaccine design, delivery and evaluation”.Summary
Traditionally Vaccines have been used to eradicate infectious diseases, which started with Small Pox. Apparently In the last few years there is great advancement towards vaccine design and its development. In the Era of Molecular biology the innovative technologies such as genomics, proteomics, and functional genomics are used for the rational identification of antigens, generation of engineered carrier proteins and much more. The research in this area has always been more exciting with ever new outbreak the nature throws from influenza to Zika.
Vaccine Design 2018 is an ideal forum for the researchers and Healthcare professionals to discuss on the current advancements in Vaccine design towards the most precise way of immunization.
For more details please visit- http://vaccinedesign.cmesociety.com/
Millions of people across the world are affected by vaccine disorders some minor others critical. As per (W.H.O.) research, more than 50 million people have epilepsy, Diphtheria (DTaP), influenza (TIV) polio (ipv), Mumps (MMR, MMRV) disease affects almost 35.6 million. Vaccine Young Investigator Grant provides $30,000 per year on research in vaccine and behavior disorders such as Pneumococcal Disease, Pertussis, Mumps, Bacterial Meningitis disorders. According to market study, Market Value for Vaccine Design
Vaccine design Market:
The vaccines Design market is expected to reach 48.03 Billion by 2021 from USD 32.24 Billion in 2017 at a CAGR of 8.3%. Going on the basis of technology, the vaccines market is segmented into conjugate vaccines, inactivated and sub-unit vaccines live attenuated vaccines, toxoid vaccines, and recombine vaccines. The conjugate vaccines segment is expected to account for the largest share of the global market in 2016. Increasing the government support for vaccine development and rising business &investments will drive the growth of this market segment.
Importance and Scope
“24th International Conference on Vaccine Design, Production & Safety” to be held on May 21-22, 2018, Vienna, Austria hosted by Pulsus Group, the conference will explore the advances in Vaccine Research, Development & Design. This conference could be an exceptional event that brings along a novel and International mixture of giant and medium cognizance on Vaccines and its safety, leading universities engendering the conference an ideal platform to apportion expertise, foster collaborations across trade and world, and assess elevating technologies across the world.
Vienna is the capital and largest city, situated in the North-East of Austria and lies on the banks of the majestic Danube River. Vienna is also said to be “The City of Dreams”, Surrounded by the natural beauty of the Wachau region, Vienna woods and numerous green expanses and with various superb parks. The city is known for its most famous palaces like Schönbrunn, Spanish Riding School, and the Habsburgs’ summer residence. It is having more than 100 art museums, which together attract over eight million visitors per year. The German name of Vienna is Wien, popularly known as Austria’s most famous dish. Vienna having 1.8 million people with its cultural, economic and political center. Vienna is that city, which not only holds on to its traditions, but it also incorporates in everything from high-fashion women’s traditions with pop-art motifs to handmade “Sachertorte”–flavoured doughnuts chocolate cake. Vienna is Austria’s main centre of education and home to many professional colleges, reputed universities, and a very good place for many sports person and gymnasiums. The Austria Centre Vienna (ACV) is situated next to the United Nations Headquarters. Vienna organises International Conferences and it is world’s number one destination for international congresses and conventions. Vienna has been voted the world’s most livable city of Austria. Vienna has a relation with International Atomic Energy Agency (IAEA), the United Nations Industrial Development Organization (UNIDO), the United Nations Office on Drugs and Crime (UNODC), the most popular Organization of Petroleum Exporting Countries (OPEC) and many more. There are many charitable organizations in the city of Vienna. Vienna is having the best reputation when compared with the hundred major global cities. Vienna is the city of very high quality of life living that is mostly appreciated by the many visitors who come to the Austrian capital to visit Vienna.
Major Hospital in Vienna:
Major Hospital in Austria :
Major Hospitals around the World:
Major Vaccines Associations and Societies in Europe:
Major Vaccines Associations and Societies Globally:
Industries Associated with Vaccines in Vienna:
Industries Associated with Vaccines in Austria:
Industries Associated with Vaccines Worldwide:
Universities Associated with Vaccine Research:
Market Value and Market Growth on Vaccines Research in the Past and Upcoming Ten Years:
The global vaccine market is one of the fastest growing segments and new predictions estimate the value of the market to reach between $48 billion and more than $70 billion over the next five to eight years.
According to a new report released by Transparency Market Research, the value of the global human vaccines market is expected to grow from a $28.3 billion in 2015 to $72.5 billion in 2024. The projection would represent a compound annual growth rate (CAGR) of 11.2 percent from 2016 to 2024. Even though the dollar figure is large and growing, vaccines still only account 3 percent of the market share within the global pharmaceutical industry.
The report broke down expectations by segments. By age group, paediatric vaccines accounted for 57.5 percent of the share in 2015, but adult vaccines are expected to grow at a 13.2 percent CAGR during the forecast period.
When the research group analysed the market by product, they found the pneumococcal segment to have the majority share in 2015, but expect hepatitis products to demonstrate strong growth through 2024. By vaccine type, the conjugate vaccines held the majority share in 2015, but the combination vaccines were expected to have the largest CAGR.
North America dominates the vaccine market with an anticipated value of $28 billion by 2024. Four companies control 74 percent of the global market—Pfizer, Merck, Sanofi and GlaxoSmithKline.
Estimated Impact of Immunization on Vaccines Preventable Diseases:
Funding for Vaccine Design Research:
Austria In 2007, the Medical Research Council reviewed its vaccine research portfolio and concluded that it needed to strengthen its translational research by accelerating basic vaccine research into product development and clinical practice and using vaccine research to inform immunisation policies. Five projects have received funding, including a study to monitor the effectiveness of HPV vaccines in teenage girls. There are some academic centres which focus on vaccine research. Some, such as the Jenner Institute in Oxford, specialise in researching novel candidate vaccines. The limiting step for such institutes is the expense of producing batches of novel vaccines and testing them in clinical trials. In 2005, in an effort to encourage UK based pharmaceutical manufacture (including vaccines) the government invested £30m in establishing a National Bio-manufacturing Centre. This facility can produce a wide variety of biopharmaceuticals (including vaccines) under contract from the private sector and academia.
The conference discusses the latest research outcomes and technological advancements in the field and brings together leading Pediatrics, Immunologists, Physicians, Research Scholars, Students along with Industrial and Vaccines Research professionals to exchange share their views on critical aspects of Vaccines research. The event is designed in a way to provide an exclusive platform for new researchers, scholars and educators to present and discuss the most recent innovations, trends, and concerns, practical challenges encountered and the solutions adopted in the field of Vaccination. Children Vaccines-2017 will comprise leading keynote speakers, session speakers, poster presenters who will be presenting their research on the topics Smallpox vaccine Polio Vaccine, Maternal Immunity, Bacterial Vaccines, Meningococcal Vaccines, Chicken pox (Varicella) Vaccines, Standard Immunizations for vaccine design etc.
Projections: Growth by next 5-10 years:
Vaccination protects not only individuals, but also entire communities from diseases spread by person-to-person transmission. The high growth rates and successful launch of several recent products have kept interest in the global vaccine market high. The World Market looks at the market for immunizations utilized as a part of people to avert different sorts of illness. Assessments are accommodated the 2013 to 2018 period and conjectures are given through 2022. The worldwide market for human immunizations experienced solid development through 2015. Through 2022, development will be powered by proceeded with new item presentations, sign extensions for a few items and rising use, especially in South America, Europe, India and China.
The global vaccines market is expected to reach USD 48.03 Billion by 2021 from USD 32.24 Billion in 2016 at a CAGR of 8.3% from 2016 to 2021. The global human vaccines market to grow at a CAGR of 11.69% during the period 2016-2020.
From global pharmaceutical market sale injections occupied very small size of market 2/3% but there is remarkable growth rate 10-15% per year when compare to pharmaceuticals which was 5-7% only. Trebled in value from USD 5B in 2000 to almost USD 24 B in 2013.Big pharmaceutical companies like GSK, Pfizer, Merck etc. are struggling to maintain their revenue and operating incomes amidst patent cliffs of blockbuster drugs.
The cancer application division is expected to fastest growth with a CAGR of over 11.8% in the vaccinations market in related to the need for immunization against cancer along with the increasing occurrence of various types of cancer, such as cervical and colorectal cancers.