Your search keyword '"VACCINE research"' showing total 3,105 results

1. Exploring future perspectives and pipeline progression in vaccine research and development.

Author

Vecchio, Riccardo, Gentile, Leandro, Tafuri, Silvio, Costantino, Claudio, and Odone, Anna

Subjects

COVID-19 vaccines, MEDICAL care, VACCINATION, VACCINE research, RESEARCH & development

Abstract

Copyright of Annali di Igiene, Medicina Preventiva e di Comunità is the property of Societa Editrice Universo s.r.l. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Defining Nanomedicine Qualities for Optimal Therapeutic Applications

Author

Mankar, Pratishtha, Saggu, Gurpreet Kaur, Nyalkalkar, Kautilya M., Kamble, Swapnil C., Mittal, Smriti, Prasad, Ram, Series Editor, Gautam, Vibhav, editor, Kumar, Rajiv, editor, Das Manandhar, Krishna, editor, and Kamble, Swapnil C., editor

Published

2024

3. A Review of Artificial Intelligence and Machine Learning for Vaccine Research

Author

Thalange, A. V., Patil, A. R., Athavale, V. A., Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Singh, Yashwant, editor, Singh, Pradeep Kumar, editor, Gonçalves, Paulo J. Sequeira, editor, and Kar, Arpan Kumar, editor

Published

2024

4. Prospects and Challenges in Developing mRNA Vaccines for Infectious Diseases and Oncogenic Viruses.

Author

Kutikuppala, Lakshmi Venkata Simhachalam, Kourampi, Islam, Kanagala, Ramya S. D., Bhattacharjee, Priyadarshini, and Boppana, Sri Harsha

Subjects

ONCOGENIC viruses, COMMUNICABLE diseases, VACCINE development, TRANSMISSIBLE tumors, VIRAL genomes

Abstract

mRNA vaccines have emerged as an optimistic technological platform for vaccine innovation in this new scientific era. mRNA vaccines have dramatically altered the domain of vaccinology by offering a versatile and rapid approach to combating infectious diseases and virus-induced cancers. Clinical trials have demonstrated efficacy rates of 94–95% in preventing COVID-19, and mRNA vaccines have been increasingly recognized as a powerful vaccine platform. Although mRNA vaccines have played an essential role in the COVID-19 pandemic, they still have several limitations; their instability and degradation affect their storage, delivery, and over-all efficiency. mRNA is typically enclosed in a transport mechanism to facilitate its entry into the target cell because it is an unstable and negatively charged molecule. For instance, mRNA that is given using lipid-nanoparticle-based vaccine delivery systems (LNPs) solely enters cells through endocytosis, establishing an endosome without damaging the cell membrane. The COVID-19 pandemic has accelerated the development of mRNA vaccine platforms used to treat and prevent several infectious diseases. This technology has the potential to change the future course of the disease by providing a safe and effective way to combat infectious diseases and cancer. A single-stranded genetic sequence found in mRNA vaccines instructs host cells to produce proteins inside ribosomes to elicit immunological responses and prepare the immune system to fight infections or cancer cells. The potential applications of mRNA vaccine technology are vast and can lead to the development of a preferred vaccine pattern. As a result, a new generation of vaccinations has gradually gained popularity and access to the general population. To adapt the design of an antigen, and even combine sequences from different variations in response to new changes in the viral genome, mRNA vaccines may be used. Current mRNA vaccines provide adequate safety and protection, but the duration of that protection can only be determined if further clinical research is conducted. [ABSTRACT FROM AUTHOR]

Published

2024

5. Developing a Nano Platform for Bovine Brucellosis Diagnostic Product.

Author

Tulepova, Gulmira, Makhashov, Edil, Ekateriniadou, Loukia, Nurkhojayev, Nurzhan, and Sadiev, Sagypash

Subjects

*BRUCELLOSIS, *INTRACELLULAR pathogens, *ZOONOSES, *PROKARYOTIC genomes, *VACCINE research

Abstract

Background: Brucellosis is one of the most common zoonoses caused by Brucella species. Brucella is an intracellular pathogen that causes abortion in domestic animals and brucellosis in humans. The disease has no specific pathognomonic signs; hence a prompt and accurate diagnosis of the disease plays a very critical role in preventing brucella transmission and treating the disease. Methods: Research was carried out at the Department of Veterinary Science of Kazakh National Agrarian Research University and in the Molecular Biology laboratory of the Institute for Plant Biology and Biotechnology under the Committee of Science of the Ministry of Education and Science of the Republic of Kazakhstan. Studies were carried out on a killed culture of the vaccine strain Brucella abortus RB19, genomic DNA of B. abortus RB19, Grapevine virus A, plasmid vectors for DNA cloning, a fluorescent nano marker, and Brucella membrane proteins. Results: The research demonstrated that brucellosis remained one of the most common zoonotic diseases worldwide. This disease not only resulted in significant economic losses in agriculture but also posed a serious threat to public health. Conclusions: The study successfully established prokaryotic expression vectors for efficient protein production, validated through sequencing and Western blotting, and proposed a promising nano-platform for plant-based synthesis of brucellosis proteins, with potential implications for diagnostic kit development and vaccine research in agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

6. Current analytical approaches for characterizing nanoparticle sizes in pharmaceutical research.

Author

Chaturvedi, Sachin, Maheshwari, Deep, Chawathe, Ashwini, and Sharma, Nitish

Subjects

*NANOPARTICLE size, *ATOMIC force microscopy, *NANOPARTICLES, *SURFACE chemistry, *RESEARCH personnel

Abstract

Nanotechnologies exploit a material's 10−9 nanometric scale properties, which differ in physicochemical and biological properties. Various biological mechanisms of the human body activate at the nanometric scale. Nanoparticles (NPs) can traverse via natural obstacles to find new delivery targets and engage with DNA or small proteins at various levels, making NPs useful in pharmaceutical, biomaterial, and diagnostic applications. Producing nanomaterials for specific uses requires controlling synthetic NP's size distribution, shape, surface chemistry, dispersion, aggregation stability, elemental, and nanocrystalline content. NPs are becoming increasingly relevant in fundamental research and applications. The size measurement of NPs still poses a challenge for many researchers and pharmaceutical companies. NPs may frequently be assessed using several techniques, including dynamic light scattering, nanoparticle tracking analysis, tunable resistive pulse sensing, atomic force microscopy, and disc centrifugation, but there are advantages and disadvantages associated with each technique. As per regulatory requirements, the particle size of nanoparticles used in biomedical applications requires an orthogonal approach for characterizations. Therefore, a combinatorial characterization approach is needed to measure the sizes of nanoparticles in pharmaceutical formulations. This review provides a piece of detailed knowledge on recent advancements in analytical techniques with their sample preparations, data interpretations, operational principles, and critical strategies of each technique used for measuring nanoparticle size in various pharmaceutical formulations and vaccine research which will help researchers choose the best appropriate techniques for measuring NP's size. [ABSTRACT FROM AUTHOR]

Published

2024

7. An Overview of Future Development Methods of Infectious Bronchitis Vaccines.

Author

Motamed, Najmeh

Subjects

VETERINARY vaccines, VIRAL vaccines, VACCINE development, VACCINE research, POULTRY

Abstract

Vaccines are major disease-controlling tools in human and animal practices. Vaccination controlled or even eradicated a long list of diseases worldwide. Classic viral vaccines are usually composed of live or inactivated whole viruses and have been produced for many years. However, they are unsuccessful, especially in persistent infections, fast-evolving viruses, complex and compound antigens, and emerging agents. Novel vaccine development technologies such as DNA, protein, or viral vector vaccines have revolutionized vaccine development and opened a new horizon for study and research in vaccine research and production vision. Newly-developed vaccines, or even most traditional ones, are based on new technologies, especially in human diseases where cost and complications in production can be ignored. However, in animal health, especially for commercial poultry production, the cost of development, simplicity, and mass application of large-scale production cannot be overlooked. In recent years, the significance of producing novel vaccines has been highlighted in parallel with technological advancement, especially with emerging novel variants of infectious bronchitis viruses--serious poultry pathogens for years. In this review, we will introduce some studies on novel vaccine development techniques and investigate the results of those vaccines in the protection of chickens and their clinical outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

8. Maybe there doesn't need to be a next time.

Author

Barone, Emily, WEN, LEANA S., PANJABI, RAJ, NARAIN, SUNITA, and BERKLEY, SETH

Subjects

PREPAREDNESS, CRISIS management, VACCINE research, LEADERSHIP, PUBLIC health, HOSPITAL administration

Abstract

The article discusses the tips from several experts in areas like public health, infectious diseases and hospital administration on how to prevent the next public health emergency like the Covid-19 pandemic. Among the suggestions are enhancing vaccine research and manufacturing, better leadership and communication strategies, and expanding health care access.

Published

2021

9. Rehoming and Other Refinements and Replacement in Procedures Using Golden Hamsters in SARS-CoV-2 Vaccine Research.

Author

Štrbenc, Malan, Kuhar, Urška, Lainšček, Duško, Orehek, Sara, Slavec, Brigita, Krapež, Uroš, Malovrh, Tadej, and Majdič, Gregor

Subjects

*GOLDEN hamster, *COVID-19 vaccines, *HAMSTERS, *BOOSTER vaccines, *ANIMAL welfare, *ANIMAL handling, *VIRAL antibodies, *VACCINE effectiveness

Abstract

Simple Summary: In 2020, Slovenia joined the global effort to develop effective vaccines and drugs to treat COVID-19. Two vaccine candidates developed in previous studies were selected and tested in the golden hamster model using four different vaccination protocols. We followed the required 3Rs principle when performing the procedures on the animals: we refined animal housing, handling, and measurements, including the introduction of pilot animal infection tests, and we reduced the total number of animals used primarily through the replacement procedure. Replacement was conducted by using a virus neutralisation test on cell cultures prior to infecting and killing the animals. We determined that the antibodies produced by the tested vaccines did not have sufficient neutralising properties, and the project was terminated. Approximately half of the golden hamsters that were no longer needed in the procedures were rehomed and we received very encouraging feedback from adopters. Effective vaccines are needed to fight the COVID-19 pandemic. Forty golden hamsters were inoculated with two promising vaccine candidates and eighteen animals were used in pilot trials with viral challenge. ELISA assays were performed to determine endpoint serum titres for specific antibodies and virus neutralisation tests were used to evaluate the efficacy of antibodies. All tests with serum from vaccinated hamsters were negative even after booster vaccinations and changes in vaccination protocol. We concluded that antibodies did not have sufficient neutralising properties. Refinements were observed at all steps, and the in vitro method (virus neutralisation test) presented a replacement measure and ultimately lead to a reduction in the total number of animals used in the project. The institutional animal welfare officer and institutional designated veterinarian approved the reuse or rehoming of the surplus animals. Simple socialization procedures were performed and ultimately 19 animals were rehomed, and feedback was collected. Recently, FELASA published recommendations for rehoming of animals used for scientific and educational purposes, with species-specific guidelines, including mice, rats, and rabbits. Based on our positive experience and feedback from adopters, we concluded that the rehoming of rodents, including hamsters, is not only possible, but highly recommended. [ABSTRACT FROM AUTHOR]

Published

2023

10. Prospects and Challenges in Developing mRNA Vaccines for Infectious Diseases and Oncogenic Viruses

Author

Lakshmi Venkata Simhachalam Kutikuppala, Islam Kourampi, Ramya S. D. Kanagala, Priyadarshini Bhattacharjee, and Sri Harsha Boppana

Subjects

infectious diseases, mRNA technology, vaccine research, virus induced cancers, Medicine

Abstract

mRNA vaccines have emerged as an optimistic technological platform for vaccine innovation in this new scientific era. mRNA vaccines have dramatically altered the domain of vaccinology by offering a versatile and rapid approach to combating infectious diseases and virus-induced cancers. Clinical trials have demonstrated efficacy rates of 94–95% in preventing COVID-19, and mRNA vaccines have been increasingly recognized as a powerful vaccine platform. Although mRNA vaccines have played an essential role in the COVID-19 pandemic, they still have several limitations; their instability and degradation affect their storage, delivery, and over-all efficiency. mRNA is typically enclosed in a transport mechanism to facilitate its entry into the target cell because it is an unstable and negatively charged molecule. For instance, mRNA that is given using lipid-nanoparticle-based vaccine delivery systems (LNPs) solely enters cells through endocytosis, establishing an endosome without damaging the cell membrane. The COVID-19 pandemic has accelerated the development of mRNA vaccine platforms used to treat and prevent several infectious diseases. This technology has the potential to change the future course of the disease by providing a safe and effective way to combat infectious diseases and cancer. A single-stranded genetic sequence found in mRNA vaccines instructs host cells to produce proteins inside ribosomes to elicit immunological responses and prepare the immune system to fight infections or cancer cells. The potential applications of mRNA vaccine technology are vast and can lead to the development of a preferred vaccine pattern. As a result, a new generation of vaccinations has gradually gained popularity and access to the general population. To adapt the design of an antigen, and even combine sequences from different variations in response to new changes in the viral genome, mRNA vaccines may be used. Current mRNA vaccines provide adequate safety and protection, but the duration of that protection can only be determined if further clinical research is conducted.

Published

2024

11. The Race to Save the World.

Author

Isaacson, Walter

Subjects

VACCINE research, MESSENGER RNA, COVID-19 pandemic, VACCINES, DNA vaccines

Abstract

In the article, the author discusses the efforts by companies like Pfizer and BioNTech to develop COVID-19 vaccines to fight the COVID-19 pandemic. Also cited are how the messenger ribonucleic acid (mRNA) vaccines developed by Pfizer-BioNTech and Moderna work, the work of biochemist Jennifer Doudna on RNA structure, and a comparison of RNA vaccine with deoxyribonucleic acid (DNA) vaccine.

Published

2021

12. 乳酸菌表层蛋白功能研究进展.

Author

王晓萌, 韩张鹏, 李佳乐, 付梦琪, 桑亚新, and 高洁

Subjects

CELLULAR recognition, FERMENTED foods, BACTERIAL cells, NANOBIOTECHNOLOGY, LACTIC acid bacteria, IMMUNOREGULATION, BIOTECHNOLOGY

Abstract

Copyright of Journal of Chinese Institute of Food Science & Technology / Zhongguo Shipin Xuebao is the property of Journal of Chinese Institute of Food Science & Technology Periodical Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

13. Manipulation of host immune defenses by effector proteins delivered from multiple secretion systems of Salmonella and its application in vaccine research.

Author

Guodong Zhou, Yuying Zhao, Qifeng Ma, Quan Li, Shifeng Wang, and Huoying Shi

Subjects

B cells, SALMONELLA food poisoning, T cells, SALMONELLA diseases, SECRETION, CELL migration

Abstract

Salmonella is an important zoonotic bacterial species and hazardous for the health of human beings and livestock globally. Depending on the host, Salmonella can cause diseases ranging from gastroenteritis to life-threatening systemic infection. In this review, we discuss the effector proteins used by Salmonella to evade or manipulate four different levels of host immune defenses: commensal flora, intestinal epithelial-mucosal barrier, innate and adaptive immunity. At present, Salmonella has evolved a variety of strategies against host defense mechanisms, among which various effector proteins delivered by the secretory systems play a key role. During its passage through the digestive system, Salmonella has to face the intact intestinal epithelial barrier as well as competition with commensal flora. After invasion of host cells, Salmonella manipulates inflammatory pathways, ubiquitination and autophagy processes with the help of effector proteins. Finally, Salmonella evades the adaptive immune system by interfering the migration of dendritic cells and interacting with T and B lymphocytes. In conclusion, Salmonella can manipulate multiple aspects of host defense to promote its replication in the host. [ABSTRACT FROM AUTHOR]

Published

2023

14. A research and development (R&D) roadmap for broadly protective coronavirus vaccines: A pandemic preparedness strategy.

Author

Moore, Kristine A., Leighton, Tabitha, Ostrowsky, Julia T., Anderson, Cory J., Danila, Richard N., Ulrich, Angela K., Lackritz, Eve M., Mehr, Angela J., Baric, Ralph S., Baylor, Norman W., Gellin, Bruce G., Gordon, Jennifer L., Krammer, Florian, Perlman, Stanley, Rees, Helen V., Saville, Melanie, Weller, Charlotte L., and Osterholm, Michael T.

Subjects

*COVID-19 vaccines, *COVID-19 pandemic, *RESEARCH & development, *SARS-CoV-2, *PANDEMIC preparedness

Abstract

Broadly protective coronavirus vaccines are an important tool for protecting against future SARS-CoV-2 variants and could play a critical role in mitigating the impact of future outbreaks or pandemics caused by novel coronaviruses. The Coronavirus Vaccines Research and Development (R&D) Roadmap (CVR) is aimed at promoting the development of such vaccines. The CVR, funded by the Bill & Melinda Gates Foundation and The Rockefeller Foundation, was generated through a collaborative and iterative process, which was led by the Center for Infectious Disease Research and Policy (CIDRAP) at the University of Minnesota and involved 50 international subject matter experts and recognized leaders in the field. This report summarizes the major issues and areas of research outlined in the CVR and identifies high-priority milestones. The CVR covers a 6-year timeframe and is organized into five topic areas: virology, immunology, vaccinology, animal and human infection models, and policy and finance. Included in each topic area are key barriers, gaps, strategic goals, milestones, and additional R&D priorities. The roadmap includes 20 goals and 86 R&D milestones, 26 of which are ranked as high priority. By identifying key issues, and milestones for addressing them, the CVR provides a framework to guide funding and research campaigns that promote the development of broadly protective coronavirus vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

15. Improving Middle-Income Countries Access to Vaccines. A Blueprint to Overcome Current Challenges.

Author

Espinal, Carlos, Becerra-Posada, Francisco, and Torres, Jaime R.

Subjects

MIDDLE-income countries, HEALTH services accessibility, POLICY sciences, NONPROFIT organizations, VACCINE development, DIFFUSION of innovations, GOVERNMENT agencies, POPULATION health, HEALTH policy, ACADEMIA, MOTIVATION (Psychology), PUBLIC health administration, DISCUSSION, CONCEPTUAL structures, FINANCIAL management, MEDICAL research, VACCINES, LOW-income countries, GROUP process

Abstract

The Global Health Consortium at Florida International University developed an end-to-end solution framework based on the input of a diverse panel of experts from middle-income country (MIC) government agencies, public health think tanks, academia, and nonprofit organizations to identify mechanisms to help MIC governments and stakeholders increase access to novel vaccines for infectious diseases. The resultant layout can be deployed to improve vaccine discovery and development, strengthen regulatory processes, and boost vaccine production, access, and implementation. Mechanisms include policies and incentives MIC governments can use to stimulate vaccine investment and activity, as well as actions government agencies can take together with other stakeholders to coordinate efforts or build capabilities. Through a series of individual virtual interviews, we engaged diverse experts from MIC government agencies, public health think tanks, academia, and nonprofit organizations who understand the vaccine ecosystem, immunization policies, and population health financing at global, regional, and country levels. Responses were mapped, and in-depth questions were prepared for a group virtual discussion. This paper is the result of such a group discussion. The panel identified clear opportunities for MICs to improve locally-driven innovations and future access to novel vaccines. It proposes a solution framework for countries considering investing in vaccine research and development and innovation to use as a guide to evaluate the steps they could take to improve such an environment and incentivize innovation in vaccine development. It is hoped that this end-to-end solution framework will become a key resource to help MICs strengthen policies and take more actions to make such improvements. [ABSTRACT FROM AUTHOR]

Published

2023

16. A 3D 'lego-like' Atomic Model Represents Viruses and/or m-RNA Vaccines. An Educational Multitasking Tool.

Author

Demetzos, Costas

Subjects

MESSENGER RNA, VACCINE research, PHOSPHOLIPIDS, SOFT skills, CAPSIDS

Published

2023

17. Improving Middle-Income Countries Access to Vaccines. A Blueprint to Overcome Current Challenges

Author

Carlos Espinal, Francisco Becerra-Posada, and Jaime R. Torres

Subjects

vaccine access, vaccine research, vaccine innovation, research and development, Infectious and parasitic diseases, RC109-216, Public aspects of medicine, RA1-1270

Abstract

The Global Health Consortium at Florida International University developed an end-to-end solution framework based on the input of a diverse panel of experts from middle-income country (MIC) government agencies, public health think tanks, academia, and nonprofit organizations to identify mechanisms to help MIC governments and stakeholders increase access to novel vaccines for infectious diseases. The resultant layout can be deployed to improve vaccine discovery and development, strengthen regulatory processes, and boost vaccine production, access, and implementation. Mechanisms include policies and incentives MIC governments can use to stimulate vaccine investment and activity, as well as actions government agencies can take together with other stakeholders to coordinate efforts or build capabilities. Through a series of individual virtual interviews, we engaged diverse experts from MIC government agencies, public health think tanks, academia, and nonprofit organizations who understand the vaccine ecosystem, immunization policies, and population health financing at global, regional, and country levels. Responses were mapped, and in-depth questions were prepared for a group virtual discussion. This paper is the result of such a group discussion. The panel identified clear opportunities for MICs to improve locally-driven innovations and future access to novel vaccines. It proposes a solution framework for countries considering investing in vaccine research and development and innovation to use as a guide to evaluate the steps they could take to improve such an environment and incentivize innovation in vaccine development. It is hoped that this end-to-end solution framework will become a key resource to help MICs strengthen policies and take more actions to make such improvements.

Published

2023

18. Findings on Vaccine Research Reported by Investigators at University of Sydney (Informing the Development of Transmission Modelling Guidance for Global Immunization Decision-making: a Qualitative Needs Assessment).

Published

2025

19. Coming Events.

Subjects

CONFERENCES & conventions, HEALTH care industry, MEDICAL care, VIROLOGY, VACCINE research

Abstract

The article offers information on health care industry conferences and exhibition scheduled in 2025, including the International Conference on Virology 2025 in Dubai, United Arab Emirates (UAE), J.P. Morgan Health Care Conference in San Francisco, California, The MedTech Forum 2025 in Lisbon, Portugal, and Global Summit on Vaccines Research and Development in Rome, Italy.

Published

2025

20. Variation in the dynamics and performance of industrial innovation: what can we learn from vaccines and HIV vaccines?

Author

Yaqub, Ohid

Subjects

AIDS vaccines, MEDICAL innovations, VACCINE research, RESEARCH & development, HIV

Abstract

This article examines contingencies and constraints in problem-solving processes underlying technological change and industry evolution. It shows how learning through practice can help drive technical change but, when this is impeded, the ability to make use of models and engage in experimental learning becomes even more pertinent for explaining variation in the rate and direction of technical change. The article explores HIV as an example of vaccine innovation, and vaccines as an example of medical innovation. I find the absence of these two variables (ability to learn directly in humans, and ability to learn vicariously through animal models) not only make up a large part of how I would characterize “difficulty" in the HIV R&D process, but they also seem to go a long way toward explaining why 33 other diseases have—or have not—had vaccines developed for them. Implications for theory and policy are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

21. Comprehensive analytics of COVID-19 vaccine research: From topic modeling to topic classification.

Author

Rouhani, Saeed and Mozaffari, Fatemeh

Subjects

*VACCINATION complications, *VACCINE manufacturing, *SECONDARY research, *COVID-19 vaccines, *DATA analytics

Abstract

COVID-19 vaccine research has played a vital role in successfully controlling the pandemic, and the research surrounding the coronavirus vaccine is ever-evolving and accruing. These enormous efforts in knowledge production necessitate a structured analysis as secondary research to extract useful insights. In this study, comprehensive analytics was performed to extract these insights, which has moved the boundaries of data analytics in secondary research in the vaccine field by utilizing topic modeling, sentiment analysis, and topic classification based on the abstracts of related publications indexed in Scopus and PubMed. By applying topic modeling to 4803 abstracts filtered by this study criterion, 8 research arenas were identified by merging related topics. The extracted research areas were entitled "Reporting," "Acceptance," "Reaction," "Surveyed Opinions," "Pregnancy," "Titer of Variants," "Categorized Surveys," and "International Approaches." Moreover, the investigation of topics sentiments variations over time led to identifying researchers' attitudes and focus in various years from 2020 to 2022. Finally, a CNN-LSTM classification model was developed to predict the dominant topics and sentiments of new documents based on the 25 pre-determined topics with 75 % accuracy. The findings of this study can be utilized for future research design in this area by quickly grasping the structure of the current research on the COVID-19 vaccine. Through the findings of current research, a classification model was developed to classify the topic of a new article as one of the identified topics. Also, vaccine manufacturing firms will achieve a niche market by having a schema to invest in the gap of fields that have yet to be concentrated in extracted topics. • From 2020 to April 2022 more than 4803 research about COVID-19 Vaccine were published. • COVID-19 Vaccine Research are clustered in the "Reporting," "Acceptance," "Reaction," "Surveyed Opinions," "Pregnancy," "Titer of Variants," "Categorized Surveys," and "International Approaches" topics. • In 2022, more negative topics have been addressed in scientific articles, which mainly relate to the side effects of vaccines and concerns about the effectiveness and safety of additional vaccine doses against highly mutated novel variants. • The proposed classification model can predict the dominant topic and consequently the sentiment of a new research document with 75% accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

22. BRICS and Global Health Diplomacy in the Covid-19 Pandemic: Situating BRICS' diplomacy within the prevailing global health governance context.

Author

Moore, Candice

Subjects

*COVID-19 pandemic, *TRAVEL restrictions, *INTERNATIONAL organization, *PUBLIC health, *DIPLOMACY, *WORLD health, *INTERNATIONAL relations, *VACCINE research

Abstract

BRICS have been cast as a bloc with the potential to make significant changes in Global Health. The management of the Covid-19 pandemic has shown divisions in the bloc and the limits of its ability to formulate policies or even act upon previously agreed positions. This paper employs an examination of BRICS Health Ministerial declarations and an analysis of power in International Relations to reflect on BRICS' Global Health diplomacy during the Covid-19 pandemic, covering the key questions of vaccine research and development, vaccine nationalism, and travel bans. It finds that multiple dimensions of power matter in Global Health leadership. [ABSTRACT FROM AUTHOR]

Published

2022

23. Operation Warp Speed: A Legal Analysis of the Vaccine Development Process and How We Got Here.

Author

Ascencio, Kenia

Subjects

*COVID-19 pandemic, *VACCINES, *VACCINE development, *HUMAN life cycle, *VACCINE research

Abstract

The COVID-19 Pandemic created a need for a vaccine that would need to be rapidly created, tested and approved in order to reduce the pandemic's tremendous impact on human life and the economy. This article discusses the vaccine development process as well as Operation Warp Speed, the United States plan for emergency vaccine development in a pandemic situation. Written before the approval of the currently available COVID-19 vaccines, this article also discusses the implications of a speedier vaccine development process as well as recommendations to the standard process. [ABSTRACT FROM AUTHOR]

Published

2022

24. Leveraging on past investment in understanding the immunology of COVID-19 – the South African experience

Author

Thandeka Moyo-Gwete and Penny L. Moore

Subjects

HIV, SARS-CoV-2, vaccine research, immunology, virology, Science, Science (General), Q1-390, Social Sciences, Social sciences (General), H1-99

Published

2022

25. Willingness to Accept Expedited COVID-19 Vaccine Research for Children Aged <12 Years After Adult Vaccine Approval.

Author

Goldman, Ran D., Bone, Jeffrey N., Gelernter, Renana, Krupik, Danna, Klein, Eileen J., Griffiths, Mark A., and Mater, Ahmed

Published

2022

26. Data on Vaccine Research Detailed by Researchers at University of Hong Kong (The Case Against Compulsory Vaccination: the Failed Arguments From Risk Imposition, Tax Evasion, 'social Liberty', and the Priority of Life).

Abstract

Researchers at the University of Hong Kong have examined arguments for mandatory vaccination, focusing on the coercive infringement of bodily integrity. The study critiques four main arguments - risk imposition, tax evasion, 'social liberty', and the priority of life - and concludes that without stronger justifications, mandatory vaccination should be rejected. This research, published in the Journal of Medical Ethics, highlights the complexities and ethical considerations surrounding compulsory vaccination. [Extracted from the article]

Published

2024

27. Researchers from Indiana University Report New Studies and Findings in the Area of Vaccine Research (Heterogeneity of Hpv16 Virus-like Particles Indicates a Complex Assembly Energy Surface).

Abstract

Researchers from Indiana University have conducted a study on the assembly of Human Papillomavirus serotype 16 (HPV16) capsid protein pentamers, which are essential components of the HPV vaccine. The research found that the assembly of these pentamers results in a mixture of structures of varying sizes, indicating a complex energy surface. Despite the heterogeneity in size, the particles displayed uniform responses to various stimuli, suggesting maturation over time at different rates. The study concluded that there are complex assembly paths to particles of different sizes with locally similar interactions. [Extracted from the article]

Published

2024

28. Reports from University of Claude Bernard Lyon 1 Highlight Recent Findings in Vaccine Research [Oxygen Uptake Rate Analysis To Evaluate the Impact of Hydrodynamic Stress On the Growth of the Avian Cell Line Duckcelt(R)-t17].

Abstract

Researchers at the University of Claude Bernard Lyon 1 in Villeurbanne, France, conducted a study on the impact of hydrodynamic stress on the growth of the avian cell line DuckCelt(R)-T17, which is used in viral vaccine production. The study focused on monitoring oxygen uptake rate (OUR) and oxygen transfer rate (OTR) to assess cell stress and growth parameters. The findings suggest that shear-sensitive cells are affected by stirring conditions, and the study recommends considering shear and tip speed for optimal cell culture in bioreactors. The research was supported by Agence Nationale de la Recherche (ANR) and has been peer-reviewed. [Extracted from the article]

Published

2024

29. Findings from Duke University Has Provided New Data on Vaccine Research (Community Informed Experimental Design).

Abstract

A recent report from Duke University discusses the importance of community-informed experimental design in vaccine research. The study highlights the need to consider social networks and community structures when estimating global treatment effects. Funders for this research include the Statistical and Applied Mathematical Sciences Institute, National Science Foundation, Army Research Institute, and the United States Department of Defense. The findings suggest that community-aware experimental design can reduce bias in estimators and maintain performance even in challenging community detection scenarios. For more information, readers can refer to the article "Community Informed Experimental Design" published in Statistical Methods & Applications. [Extracted from the article]

Published

2024

30. THE PROTEINS OF SARS-CoV-2 AND THEIR FUNCTIONS.

Author

Kangarshahi, Zohreh Taheri, Lak, Shermin, Ghadam, Mona, Motamed, Nasrin, Sardari, Sorosh, and Rahimi, Samin

Subjects

VIRAL nonstructural proteins, CORONAVIRUS diseases, RNA viruses, VIRAL proteins, DRUG development, VACCINE research

Abstract

Coronavirus 2 (SARS-CoV-2) leads to Coronavirus disease 2019, is recognized as a lethal epidemic in 2020. SARS-CoV-2 is an enveloped, non-segmented, positive sense RNA virus that belongs to the beta-corona family of viruses. The genome of this virus is about 30 kb representing 16 non-structural proteins (Nsp1-16), four structural proteins (N, M, E, S) and nine accessory proteins are encoded by its genome, which are involved in survival and pathogenesis the viruses. In order to produce medicines and vaccines for SARS-CoV-2, it is essential to fully understand the genomic structure of the virus and function of its proteins. This review collects and investigates the functional properties of SARS-CoV-2 proteins that have been reported to date. [ABSTRACT FROM AUTHOR]

Published

2021

31. Le vaccin, un médicament devenu l'arme absolue promise contre la COVID-19 : une réglementation adaptée ?

Author

Guerriaud, Mathieu

Subjects

*COVID-19 vaccines, *ADVERSE health care events, *MESSENGER RNA, *CLINICAL trials, *VACCINE research

Abstract

Alors que les premiers vaccins contre la COVID-19 arrivent sur le marché, la question de la sécurité de ces produits émerge dans le débat public. L'inquiétude majeure porte sur l'apparition possible d'effets indésirables, notamment dans le cadre de l'utilisation de technologies pharmaceutiques inédites à l'instar de l'ARNm. Il est important de rappeler aux patients comme aux professionnels qu'un vaccin est non seulement un médicament à part entière, mais aussi un médicament spécial : biologique et immunologique. En conséquence, son encadrement est draconien, et malgré l'urgence, aucune exigence n'a été revue la baisse. La rapidité de mise sur le marché résulte tant des essais cliniques adaptés que de procédures d'évaluation optimisées. As the first vaccines against COVID-19 arrive on the market, the question of the safety of these products arises in the public debate. The major concern is about the possible occurrence of adverse effects, particularly in the context of the use of novel pharmaceutical technologies such as mRNA. It is important to remind both patients and professionals that a vaccine is not only a medicinal product in its own right, but also a special medicinal product: biological and immunological. As a result, its supervision is draconian, and despite the urgency, no requirements have been lowered. The speed of marketing is the result both of adapted clinical trials and optimized evaluation procedures. [ABSTRACT FROM AUTHOR]

Published

2021

32. Enterotoxigenic Escherichia coli (ETEC) vaccines: Priority activities to enable product development, licensure, and global access.

Author

Khalil, Ibrahim, Walker, Richard, Porter, Chad K., Muhib, Farzana, Chilengi, Roma, Cravioto, Alejandro, Guerrant, Richard, Svennerholm, Ann-Mari, Qadri, Firdausi, Baqar, Shahida, Kosek, Margaret, Kang, Gagandeep, Lanata, Claudio, Armah, George, Wierzba, Thomas, Hasso-Agopsowicz, Mateusz, Giersing, Birgitte, and Louis Bourgeois, A.

Subjects

*ESCHERICHIA coli, *NEW product development, *DRINKING water, *VACCINES, *MIDDLE-income countries

Abstract

Diarrhoeal disease attributable to enterotoxigenic Escherichia coli (ETEC) causes substantial morbidity and mortality predominantly in paediatric populations in low- and middle-income countries. In addition to acute illness, there is an increasing appreciation of the long-term consequences of enteric infections, including ETEC, on childhood growth and development. Provision of potable water and sanitation and appropriate clinical care for acute illness are critical to reduce the ETEC burden. However, these interventions are not always practical and may not achieve equitable and sustainable coverage. Vaccination may be the most cost-effective and equitable means of primary prevention; however, additional data are needed to accelerate the investment and guide the decision-making process for ETEC vaccines. First, to understand and quantify the ETEC disease burden, additional data are needed on the association between ETEC infection and physical and cognitive stunting as well as delayed educational attainment. Furthermore, the role of inappropriate or inadequate antibiotic treatment of ETEC-attributable diarrhoea may contribute to the development of antimicrobial resistance (AMR) and needs further elucidation. An ETEC vaccine that mitigates acute diarrhoeal illness and minimizes the longer-term disease manifestations could have significant public health impact and be a cost-effective countermeasure. Herein we review the ETEC vaccine pipeline, led by candidates compatible with the general parameters of the Preferred Product Characteristics (PPC) recently developed by the World Health Organization. Additionally, we have developed an ETEC Vaccine Development Strategy to provide a framework to underpin priority activities for researchers, funders and vaccine manufacturers, with the goal of addressing globally unmet data needs in the areas of research, product development, and policy, as well as commercialization and delivery. The strategy also aims to guide prioritization and co-ordination of the priority activities needed to minimize the timeline to licensure and use of ETEC vaccines, especially in in low- and middle-income countries, where they are most urgently needed. [ABSTRACT FROM AUTHOR]

Published

2021

33. Implementation of accelerated research: strategies for implementation as applied in a phase 1 Ad26.ZEBOV, MVA-BN-Filo two-dose Ebola vaccine clinical trial in Uganda

Author

Jonathan Kitonsa, Abu-Baker Ggayi, Zacchaeus Anywaine, Eva Kisaakye, Laura Nsangi, Vincent Basajja, Mary Nyantaro, Deborah Watson-Jones, Georgi Shukarev, Ine Ilsbroux, Cynthia Robinson, and Pontiano Kaleebu

Subjects

ebola virus disease, expedited approval, accelerated conduct, vaccine research, Public aspects of medicine, RA1-1270

Abstract

Background The 2013–2016 Ebola epidemic in West Africa is the worst ever caused by Ebolaviruses with over 28,000 human cases and 11,325 deaths. The World Health Organisation (WHO) declared the epidemic a public health crisis that required accelerated development of novel interventions including vaccines. The Medical Research Council/Uganda Virus Research Institute and London School of Hygiene and Tropical Medicine Uganda Research Unit (MRC/UVRI & LSHTM Uganda Research Unit) was among the African research sites that implemented the VAC52150EBL1004 Ebola vaccine trial. Objective We report on the strategies utilised by the Unit and sponsor in ensuring expedited clinical trial approval and accelerated conduct. Methods Janssen Vaccines and Prevention B.V. conducted a phase 1 trial to evaluate the safety, tolerability, and immunogenicity of heterologous two-dose vaccination regimens using Ad26.ZEBOV and MVA-BN-Filo, in healthy adults in Africa. Accelerated implementation strategies are hereby presented. Results Strategies included: holding the African Vaccine Regulatory Forum (AVAREF) joint review meeting; expedited review by institutional ethics and country-specific regulatory bodies; competitive recruitment between sites; electronic data capture (EDC); frequent study monitoring schedule; involvement of a community advisory board (CAB); and utilization of a ‘phased’ study information-sharing approach in community engagement and participant recruitment. These strategies enabled the site to acquire approvals within 2 months and enrol 47 participants within a spurn of five. The same milestone is usually acquired in at least 1 year without accelerated implementation. Conclusion The use of well-thought strategies by sponsors and research sites can enable the implementation of accelerated research. We recommend the use of similar strategies in other settings.

Published

2020

34. African Vaccinology Network (AfVANET): an African network by African scientists

Author

David Dazhia Lazarus, Funmilayo Ibitayo Deborah Afolayan, Gezahegne Mamo, Jerome Nyhalah Dinga, Jones Akinbobola, Kwabena Obeng Duedu, Nefefe Tshifhiwa, Tesfaye Kassa, Vish Nene, Yakhya Dieye, and Mustapha Oumouna

Subjects

african network, african scientists, vaccine research, diseases, Medicine

Abstract

Not applicable

Published

2020

35. Promoting versatile vaccine development for emerging pandemics.

Author

Monrad, Joshua T., Sandbrink, Jonas B., and Cherian, Neil G.

Subjects

COVID-19 pandemic, VACCINE development, EMERGENCY medical services, PATHOGENIC microorganisms, VACCINE research

Abstract

The ongoing COVID-19 pandemic has demonstrated the importance of rapid and versatile development of emergency medical countermeasures such as vaccines. We discuss the role of platform vaccines and prototype pathogen research in modern vaccine development, and outline how previous pathogen-specific funding approaches can be improved to adequately promote vaccine R&D for emerging pandemics. We present a more comprehensive approach to financing vaccine R&D, which maximises biomedical pandemic preparedness by promoting flexible vaccine platforms and translatable research into prototype pathogens. As the numerous platform-based SARS-CoV-2 vaccines show, funders can accelerate pandemic vaccine development by proactively investing in versatile platform technologies. For certain emerging infectious diseases, where vaccine research can translate to other related pathogens with pandemic potential, investment decisions should reflect the full social value of increasing overall preparedness, rather than just the value of bringing a vaccine to market for individual pathogens. [ABSTRACT FROM AUTHOR]

Published

2021

36. COVID‐19 vaccine research and development: ethical issues.

Author

Wibawa, T.

Subjects

*COVID-19 vaccines, *VACCINE development, *MORAL development, *COVID-19 pandemic, *RESEARCH & development

Abstract

The achievements of vaccine research and development bring a hope to our societies that we may cope with the COVID‐19 pandemic. There are two aspects that should be maintained in balance: the immediate necessity for speed of vaccine research and the inherent need for protection of research subjects, which is the foremost concern of research ethics. This narrative review highlights ethical issues in COVID‐19 vaccine research and development that every stakeholder needs to be aware of and to consider. [ABSTRACT FROM AUTHOR]

Published

2021

37. SolarWinds Hack Was the Largest and Most Sophisticated Attack Ever.

Author

Davis, Paul

Subjects

INTERNET security, COMPUTER security, PERSONAL protective equipment, VACCINE research, MALWARE

Abstract

The article presents the discussion on SolarWinds cyber hack. Topics include hijacking the very security advice promulgating by computer security professionals in verifying and applying patches; searching for personal protective equipment, worrying about stimulus checks, and conducting vaccine research; and selling malware as a service or by targeting vendors as a way for accessing scores of victims.

Published

2021

38. Researchers from University of Colorado Provide Details of New Studies and Findings in the Area of Vaccine Research (Stabilization of an Infectious Enveloped Virus By Spray-drying and Lyophilization).

Abstract

A recent report from the University of Colorado in Boulder highlights the potential of spray-drying and lyophilization techniques to stabilize enveloped viruses for use in gene therapy, immunotherapy, and vaccines. Enveloped viruses are effective at infecting host cells and delivering genetic information, making them attractive candidates for these applications. However, their instability in liquid formulations can limit their shelf life and require strict temperature control during storage and transportation. The researchers found that embedding the viruses within dry, glassy polysaccharide matrices using spray-drying and lyophilization preserved their infectivity and enhanced their thermal stability, even at elevated temperatures. This research has been peer-reviewed and provides valuable insights for the development of more stable and accessible viral-based therapies and vaccines. [Extracted from the article]

Published

2024

39. Universiti Kebangsaan Malaysia Reports Findings in Vaccine Research (Barriers to Childhood Immunization in Rural and Remote Areas: A Qualitative Exploration From the Perspectives of Community Leaders in Sindh, Pakistan).

Subjects

MEDICAL personnel, BIOLOGICAL products, VACCINATION of children, HEALTH Belief Model, IMMUNIZATION of children

Abstract

A recent study conducted by Universiti Kebangsaan Malaysia explored the barriers to childhood immunization in rural and remote areas of Sindh, Pakistan, from the perspectives of community leaders. The study found that despite improvements in national vaccination coverage rates, there is still a significant disparity between urban and rural regions, particularly in tribal and remote areas. The research identified various barriers, including an unsustainable communication system, discourteous behavior of healthcare personnel, cultural restrictions on women's involvement, economic hardships, limited transportation options, poor knowledge among community leaders, and security concerns. The study suggests that policymakers should involve community leaders and members in the policy-making process to address these issues in remote and rural areas. [Extracted from the article]

Published

2024

40. Researchers from University of Colorado Describe Findings in Vaccine Research (Immunity By As03ation: the Natural Adjuvantage).

Abstract

Researchers from the University of Colorado have found that humans do not respond equally to vaccination. They developed a framework and discovered that high responders to unadjuvanted influenza vaccination have innate immunophenotypes similar to those following AS03-adjuvanted vaccination. This research highlights the biological factors that differentiate high-antibody responders and how adjuvants can enhance humoral immunity. The study was supported by the National Institute of Allergies and Infectious Diseases and has been peer-reviewed. [Extracted from the article]

Published

2024

41. Data on Vaccine Research Reported by Sundus Iftikhar and Colleagues (Evaluating an immunization carpool service for women in rural areas for facilitating routine childhood immunizations in Pakistan -a feasibility study on acceptability, demand,...).

Published

2024

42. Investigators from Hallym University Have Reported New Data on Vaccine Research (Consideration of Future Consequences and Predictability: Examining Six Health Behaviors With Different Levels of Perceived Severity).

Abstract

A recent study conducted by investigators from Hallym University in Seoul, South Korea, examined the relationship between consideration of future consequences and different health behaviors. The study found that consideration of future consequences can successfully predict health behaviors, but the effectiveness depends on the perceived severity of the behavior. The research focused on six behaviors related to vaccination, smoking, and energy drink consumption. The findings suggest that consideration of future consequences is more predictive for behaviors with greater severity. This study provides valuable insights into the factors influencing health behaviors. [Extracted from the article]

Published

2024

43. Baseline mapping of severe fever with thrombocytopenia syndrome virology, epidemiology and vaccine research and development.

Author

Bopp, Nathen E., Kaiser, Jaclyn A., Strother, Ashley E., Barrett, Alan D. T., Beasley, David W. C., Benassi, Virginia, Milligan, Gregg N., Preziosi, Marie-Pierre, and Reece, Lisa M.

Subjects

THROMBOCYTOPENIA, VIROLOGY, EPIDEMIOLOGY, VACCINE research, VACCINE development

Abstract

Severe fever with thrombocytopenia syndrome virus (SFTSV) is a newly emergent tick-borne bunyavirus first discovered in 2009 in China. SFTSV is a growing public health problem that may become more prominent owing to multiple competent tick-vectors and the expansion of human populations in areas where the vectors are found. Although tick-vectors of SFTSV are found in a wide geographic area, SFTS cases have only been reported from China, South Korea, Vietnam, and Japan. Patients with SFTS often present with high fever, leukopenia, and thrombocytopenia, and in some cases, symptoms can progress to severe outcomes, including hemorrhagic disease. Reported SFTSV case fatality rates range from ~5 to >30% depending on the region surveyed, with more severe disease reported in older individuals. Currently, treatment options for this viral infection remain mostly supportive as there are no licensed vaccines available and research is in the discovery stage. Animal models for SFTSV appear to recapitulate many facets of human disease, although none of the models mirror all clinical manifestations. There are insufficient data available on basic immunologic responses, the immune correlate(s) of protection, and the determinants of severe disease by SFTSV and related viruses. Many aspects of SFTSV virology and epidemiology are not fully understood, including a detailed understanding of the annual numbers of cases and the vertebrate host of the virus, so additional research on this disease is essential towards the development of vaccines and therapeutics. [ABSTRACT FROM AUTHOR]

Published

2020

44. Pregnant women's perceptions of risks and benefits when considering participation in vaccine trials.

Author

Jaffe, Elana, Lyerly, Anne Drapkin, and Goldfarb, Ilona Telefus

Subjects

*VACCINE trials, *PREGNANT women, *COVID-19 pandemic, *VACCINE development, *PANDEMICS, *RISK perception

Abstract

Despite historical exclusion, there has been recent recognition of the need to address the health of pregnant women in research on vaccines against emerging pathogens. However, pregnant women's views and decision-making processes about vaccine research participation during infectious disease outbreaks remain underexplored. This study aims to examine women's decision-making processes around vaccine research participation during infectious disease outbreaks. We conducted qualitative semi-structured in-depth interviews with pregnant and recently pregnant women (n = 13), eliciting their views on four hypothetical Zika Virus vaccine research scenarios and probing their decision-making processes around participation. After recorded interviews were transcribed, thematic analysis was conducted based on a priori and emergent themes. Most women interviewed were accepting of vaccine research scenarios. Three broad themes—evidence, risk, and trust—characterized women's decision-making processes. Women varied in how different types and levels of evidence impacted their considerations, which risks were most salient to their decision-making processes, and from whom they trusted recommendations about vaccine research participation. Exemplary quotes from each theme are presented, and lessons for vaccine development during the current COVID-19 pandemic and future outbreaks are discussed. Some pregnant women are accepting of participation in vaccine research during infectious disease outbreaks. Incorporating their priorities into trial design may facilitate their participation and generation of evidence for this important population. [ABSTRACT FROM AUTHOR]

Published

2020

45. Hamster, a close model for visceral leishmaniasis: Opportunities and challenges.

Author

Saini, Sheetal and Rai, Ambak K.

Subjects

*VISCERAL leishmaniasis, *GOLDEN hamster, *HAMSTERS, *PATHOLOGY, *ANIMAL models in research

Abstract

Aim: Visceral leishmaniasis (VL) caused by parasites belonging to genus Leishmania (L.) is classified as a category I disease by the TDR/WHO. The understanding of the pathogenesis of this disease was built from the findings of available experimental models. Among all available models, the Syrian hamster (Mesocricetus auratus) is the most suitable model for the experimental representation of VL. In this review, we have focused on the opportunities and challenges of using the hamster as an experimental model for visceral leishmaniasis. Methods: The studies referenced in this review were based on searches in PubMed and Google Scholar without a specific timeline. We collected study results underlining the clinicopathological response, immunopathogenesis and factors determining the outcome of VL in hamsters. Particular emphasis was given in the context of developing new therapeutics and testing potential candidates for vaccine development. Conclusion: Among all animal models, M. auratus is undoubtedly a better animal model for immunopathogenesis, drug discovery and vaccine development studies of VL infection. But, further optimization of this animal model is required to mimic human VL completely. [ABSTRACT FROM AUTHOR]

Published

2020

46. African Vaccinology Network (AfVANET): an African network by African scientists.

Author

Lazarus, David Dazhia, Afolayan, Funmilayo Ibitayo Deborah, Mamo, Gezahegne, Dinga, Jerome Nyhalah, Akinbobola, Jones, Duedu, Kwabena Obeng, Tshifhiwa, Nefefe, Kassa, Tesfaye, Nene, Vish, Dieye, Yakhya, and Oumouna, Mustapha

Subjects

AFRICAN swine fever, SCIENTISTS, RIFT Valley fever, VETERINARY medicine

Published

2020

47. Antigen Discovery, Bioinformatics and Biological Characterization of Novel Immunodominant Babesia microti Antigens.

Author

Verma, Nitin, Puri, Ankit, Essuman, Edward, Skelton, Richard, Anantharaman, Vivek, Zheng, Hong, White, Siera, Gunalan, Karthigayan, Takeda, Kazuyo, Bajpai, Surabhi, Lepore, Timothy J., Krause, Peter J., Aravind, L., and Kumar, Sanjai

Subjects

*BABESIA, *PARASITE antigens, *IMMUNOSPECIFICITY, *ANTIBODY specificity, *VACCINE research, *BABESIOSIS, *TICK-borne diseases, *ENZYME-linked immunosorbent assay

Abstract

Babesia microti is an intraerythrocytic parasite and the primary causative agent of human babesiosis. It is transmitted by Ixodes ticks, transfusion of blood and blood products, organ donation, and perinatally. Despite its global public health impact, limited progress has been made to identify and characterize immunodominant B. microti antigens for diagnostic and vaccine use. Using genome-wide immunoscreening, we identified 56 B. microti antigens, including some previously uncharacterized antigens. Thirty of the most immunodominant B. microti antigens were expressed as recombinant proteins in E. coli. Among these, the combined use of two novel antigens and one previously described antigen provided 96% sensitivity and 100% specificity in identifying B. microti antibody containing sera in an ELISA. Using extensive computational sequence and bioinformatics analyses and cellular localization studies, we have clarified the domain architectures, potential biological functions, and evolutionary relationships of the most immunodominant B. microti antigens. Notably, we found that the BMN-family antigens are not monophyletic as currently annotated, but rather can be categorized into two evolutionary unrelated groups of BMN proteins respectively defined by two structurally distinct classes of extracellular domains. Our studies have enhanced the repertoire of immunodominant B. microti antigens, and assigned potential biological function to these antigens, which can be evaluated to develop novel assays and candidate vaccines. [ABSTRACT FROM AUTHOR]

Published

2020

48. Some Research Ethics Questions during the COVID-19 Pandemics. What Prospects for the Future?

Author

FRUNZA, Mihaela

Subjects

*RESEARCH ethics, *RESPONSIBILITY, *CLINICAL trials, *QUESTIONING

Abstract

This article attempts to review a few of die most pressing questions that have been discussed in die aftermadi of the COYID-19 outbreak. The general questions concerning research of potentially dangerous viruses, die ediical issued connected to the clinical trials diat are undergone, as well as the relationship between benefits and risks involved in vaccine research are considered. The characteristics of die present emergency situation causes sometimes die ediical principles to be adapted. Therefore, those who chose to modify the ethical principles must act in a responsible way, even if this responsibility is of a moral nature, instead of a juridical one. [ABSTRACT FROM AUTHOR]

Published

2020

49. Advance Market Commitments: Insights from Theory and Experience.

Author

KREMER, MICHAEL, LEVIN, JONATHAN, and SNYDER, CHRISTOPHER M.

Subjects

VACCINE research, VACCINE manufacturing, RESEARCH & development, PNEUMOCOCCAL vaccines, IMMUNIZATION

Abstract

The article examines the economic importance of an advance market commitment (AMC), a binding contract used in the creation of vaccines or other medicine with high development costs. Topic discussed include the importance of AMC to expedite research and development, development of a model for AMC that commits to a subsidy policy, and inception of an AMC which targeted a pneumococcal conjugate vaccine in 2007, and its launch under the Global Alliance for Vaccines and Immunizations in 2009.

Published

2020

50. Vaccine manufacturer’s role in the global vaccine enterprise

Author

Gordon, Daniel M. and Robertson, Corwin A.

Published

2017