The aim of the Vaccine is to promote quality research and real-world impact in an atmosphere of true international cooperation between scientists by bringing together the world class researchers, International Communities and Industrial heads to discuss the latest developments and innovations in the fields of Vaccines and Immunology.

Human Vaccines - Infectious & Non Infectious Diseases

A vaccine is an inactivated form of bacteria or virus that is injected into the body to simulate an actual infection. Because the injected microorganisms are 'dead,' they don't cause a person to become sick. Instead, vaccines stimulate an immune response by the body that will fight off that type of illness. It covers infectious disease targets and non-infectious disease targets. To generate vaccine-mediated protection is a complex challenge. Currently available vaccines have largely been developed empirically, with little or no understanding on how they activate the immune system. Their early protective efficacy is primarily conferred by the induction of antigen-specific antibodies. However, there is more to antibody-mediated protection than the peak of vaccine-induced antibody titers.

Vaccine Research & Development

Vaccine Development is an activity that focuses on a variety of technological initiatives and applied research, which enhance and promote improved systems and practices for vaccine safety. In the past year, the unprecedented Ebola disease outbreak galvanized research and industry response and as we continue to search for solutions, we must review the lessons learned in order to overcome the current challenges. Vaccines development is a long, complex process, often lasting 10-15 years and involving a combination of public and private involvement. The current system for developing, testing, and regulating vaccines developed during the 20th century as the groups involved standardized their procedures and regulations.

Next-Generation Vaccine Delivery Technologies

Drug delivery systems are engineered technologies for the targeted delivery and/or controlled release of therapeutic agents. Drugs have long been used to improve health and extend lives. The practice of drug delivery has changed dramatically in the last few decades and even greater changes are anticipated in the near future. Biomedical engineers have not only contributed substantially to our understanding of the physiological barriers to efficient drug delivery—such as transport in the circulatory system and drug movement through cells and tissues—they have contributed to the development of a number of new modes of drug delivery that have entered clinical practice.  Role of vaccine delivery technologies includes rational development of vaccines, achieving immunization goals, supporting best clinical practice.

Vaccines continue to revolutionize our ability to prevent disease and improve health. With every technological advance, we are able to extend the benefits of vaccines to more people and provide better protection from life-threatening infectious diseases.

Vaccines Safety & Efficacy

Vaccines are the best defence we have against serious, preventable, and sometimes deadly contagious diseases. Vaccines are some of the safest medical products available, but like any other medical product, there may be health risk. Accurate information about the value of vaccines as well as their possible side-effects helps people to make informed decisions about vaccination. The safety of vaccines is carefully monitored, starting early in the product development and continuing for as long as the vaccine is being used. Find out about what is done before and after vaccines are approved for use and what is known about the benefits and safety of specific vaccines. There is a lot of false information about vaccines safety on the Internet. This can be confusing. Discover the answers to common questions and concerns about vaccines.

 Open access planning to release a year end special issue has announced almost 50% discount on article publication charges to celebrate its journey for publishing articles with in the short time.

 A standard editorial manager system is utilized for manuscript submission, review, editorial processing and tracking which can be securely accessed by the authors, reviewers and editors for monitoring and tracking the article processing.

Manuscripts can be forwarded to the Editorial Office at autoimmunedis@eclinicalsci.com

How we work:

• After submission, an acknowledgement with manuscript number is sent to the corresponding author within 7 working days.
• A 21 day window time frame is allotted for peer-review process wherein multiple experts are contacted.
• Author proof is generated within 7 working days after the acceptance decision.

Benefits on Publication:

Open Access: Permanent free access to your article upon publication ensures extensive global reach and readership.

Easy Article Sharing: Our open access enables you to share your article directly with colleagues through email and on social media via a single link, permitting third party reuse with appropriate citation in addition to the retention of content copyright by the author.

Global Marketing: Through promotion in a targeted global email announcement or press release, your article will be seen by thousands of the top-most thought-leaders in your field.

Color Art: In a world of black & white journal articles, high-quality full-color images make your article stand out from the crowd and tell a complete story, increasing readers and citations.

Social Media Exposure: Extended reach for your article through links on Twitter accounts provides maximum visibility worldwide.

Reprints: Distribute your work to colleagues and at conferences as we provide hard copy color reprints of your article on order.

Media Contact:
John Kimberly
Editorial Manager
Journal of Vaccines & Vaccination
Email: jvv@scholarlypub.com
Whatsapp: +44-1470-490003