Factors Causing Decreasing Quality of Vaccines: A Systematic Review
(1) Poltekkes Kemenkes Malang, Indonesia
(2) Poltekkes Kemenkes Malang Indonesia
(3) Poltekkes Kemenkes Malang, Indonesia
(4) Universitas Satya Terra Bhinneka
(5) Universitas Indonesia
Abstract
Abstract. Objectives. Vaccines were essential to prevent the spread of disease. The contents would be practical if the storage, distribution, handling, and delivery to the target were carried out correctly and following procedures. Methods. Using guidelines from the PROSPERO platform using the PRISMA flow diagram to select articles. The search keywords are observational studies, experiments, qualitative studies, and grey literature. Studies addressing factors affecting vaccine quality, published between 2009 and 2022 in English, were included. Results. Of the 13 included studies, several factors were identified, all explained due to inaccurate vaccine storage temperature settings. From several studies, it is recommended to carry out consistent SOPs, supervision, training for staff involved in vaccines, innovation of vaccine distribution tools, and policies from local government stakeholders.
Keywords
Full Text:
PDFReferences
Al, F. P. et. (2018). The Importance of Complying with Vaccination Protocols in Developed Countries: “Anti-Vax” Hysteria and the Spread of Severe Preventable Diseases. Bentham Science, 25(42), 6070–6081. https://doi.org/10.2174/0929867325666180518072730.
Al FP et. (2018). The Importance of Complying with Vaccination Protocols in Developed Countries: “Anti-Vax” Hysteria and the Spread of Severe Preventable Diseases. Bentham Sci., 25(42), 70–81.
Alonso-García, S., Aznar-Díaz, I., Cáceres-Reche, M. P., Trujillo-Torres, J. M., & Romero-Rodríguez, J. M. (2019). Systematic Review of Good Teaching Practices with ICT in Spanish Higher Education Trends and Challenges for Sustainability. Sustainability (Switzerland), 11(24). https://doi.org/10.3390/su11247150
Bogale, H.A., Amhare, A.F. and Bogale, A. A. (2019). Assessment of factors affecting vaccine cold chain management practice in public health institutions in east Gojam zone of Amhara region. BMC Public Health, 19(1), 1–6.
Bogale, H. A., Amhare, A. F., & Bogale, A. A. (2019). Assessment of factors affecting vaccine cold chain management practice in public health institutions in east Gojam zone of Amhara region. BMC Public Health, 19(1), 1–6. https://doi.org/10.1186/s12889-019-7786-x
CDC. (2021). Vaccine storage and handling toolkit. [Online].
Chen, D., & Kristensen, D. (2009). Opportunities and challenges of developing thermostable vaccines. Expert Review of Vaccines, 8(5), 547–557. https://doi.org/10.1586/erv.09.20
Dairo, D. M., & Osizimete, O. E. (2016). Dairo DM, Osizimete OE. Factors affecting vaccine handling and storage practices among immunization service providers in Ibadan, Oyo State, Nigeria. Afri Health Sci. 16(2), 576–583.
Das M, Arora N, vaccines T. (2020). Temperature integrity and exposure of vaccines to suboptimal temperatures in cold chain devices at different levels in three states of India. Tdtmvjournal.Biomedcentral.Com [Internet].
Das, M., Arora, N., vaccines, T. M.-… and, & 2020, undefined. (n.d.). Temperature integrity and exposure of vaccines to suboptimal temperatures in cold chain devices at different levels in three states of India. Tdtmvjournal.Biomedcentral.Com. Retrieved April 10, 2022, from https://tdtmvjournal.biomedcentral.com/articles/10.1186/s40794-020-00109-z
Fauza, W., Firdawati, F., & Rasyid, R. (2019). The Analysis of Cold Chain Management of Basic Immunization Vaccine in Health Service Centers, 2018. Jurnal Berkala Epidemiologi, 7(1), 42. https://doi.org/10.20473/jbe.v7i12019.42-50
Feyisa, D., Jemal, A., Aferu, T., Ejeta, F., & Endeshaw, A. (2021). Evaluation of Cold Chain Management Performance for Temperature-Sensitive Pharmaceuticals at Public Health Facilities Supplied by the Jimma Pharmaceuticals Supply Agency Hub, Southwest Ethiopia: Pharmaceuticals Logistic Management Perspective Using a Mult. Advances in Pharmacological and Pharmaceutical Sciences, 2021. https://doi.org/10.1155/2021/5167858
Galazka, A., Milstien, J., & Zaffran, M. (1998). Thermostability of vaccines: global programme for vaccines and immunization. World Health Organization.
Hanson, C. M., George, A. M., Sawadogo, A., & Schreiber, B. (2017). Is freezing in the vaccine cold chain an ongoing issue? A literature review. Vaccine, 35(17), 2127–2133. https://doi.org/10.1016/j.vaccine.2016.09.070
Hatchett, R. (2017). The medicines refrigerator and the importance of the cold chain in the safe storage of medicines. Nursing Standard, 32(6), 53–63. https://doi.org/10.7748/ns.2017.e10960
Huynh K. (2009). Handbook of Stability Testing in Pharmaceutical Development. In E. Media SSB (Ed.), LLC.
Kanja, L. W., Karimi, P. N., Maru, S. M., Kayumba, P. C., & Hitimana, R. (2021). Factors that affect vaccines availability in public health facilities in nairobi city county: A cross-sectional study. Pan African Medical Journal, 38, 1–10. https://doi.org/10.11604/pamj.2021.38.72.21580
Kardani K, B. A. C. 2. 0. (2021). An Available Database of Experimentally Validated Cell-Penetrating Peptides Predicting their Secondary and Tertiary Structures. J Mol Biol, 433(11), 0–22.
Kumraj, G., Pathak, S., Shah, S., Majumder, P., Jain, J., Bhati, D., Hanif, S., Mukherjee, S. and Ahmed, S. (2022). Capacity Building for Vaccine Manufacturing Across Developing Countries: The Way Forward. Human Vaccines & Immunotherapeutics, 18(1), 20–29.
Kumru, O. S., Joshi, S. B., Smith, D. E., Middaugh, C. R., Prusik, T., & Volkin, D. B. (2014). Vaccine instability in the cold chain: Mechanisms, analysis and formulation strategies. Biologicals, 42(5), 237–259. https://doi.org/10.1016/j.biologicals.2014.05.007
Lund W. (1994). The Pharmaceutical Codex 12th Edition. In The Pharmaceutical Press.
Mojtabavi, S., Samadi, N., & Faramarzi, M. A. (2019). Osmolyte-induced folding and stability of proteins: Concepts and characterization. Iranian Journal of Pharmaceutical Research, 18(Special Issue), 13–30. https://doi.org/10.22037/ijpr.2020.112621.13857
Mulatu, S., Tesfa, G., & Dinku, H. (2020). Assessment of Factors Affecting Vaccine Cold Chain Management Practice in Bahir Dar City Health Institutions, 2019. American Journal of Life Sciences, 8(5), 107. https://doi.org/10.11648/j.ajls.20200805.14
Osei, E., Ibrahim, M., & Kofi Amenuvegbe, G. (2019). Effective Vaccine Management: The Case of a Rural District in Ghana. Advances in Preventive Medicine, 2019, 1–8. https://doi.org/10.1155/2019/5287287
Plotkin S. (2014). History of vaccination. Proc Natl Acad Sci U S A., 111(34), 12283–7.
Salisbury, D., Ramsay, M., Noakes, K. (2013). Immunisation Against Infectious Disease, third ed. The Stationery Office under Licence from the Department of Health, London.
Satcher D, Walter Orenstein PA, Hadler SC, Program Office Stephen Thacker EB, Richard Goodman DA, Editor M, et al. (2022). Prevention of varicella; recommendations of the Advisory Committee on Immunization Practices. https://stacks.cdc.gov/view/cdc/6857
Silva, E. (1989). Development and Strategies of the Colombian Vaccination Program. Reviews of Infectious Diseases, 11(Supplement_3), S505–S506. https://doi.org/10.1093/clinids/11.Supplement_3.S505
Sinha, A. K., Verma, A. R., Chandrakar, A., Khes, S. P., Panda, P. S., & Dixit, S. (2017). Evaluation of cold chain and logistics management practice in Durg district of Chhattisgarh: pointer from Central India. International Journal Of Community Medicine And Public Health, 4(2), 390. https://doi.org/10.18203/2394-6040.ijcmph20170260
Staruch, R. M. T., Beverly, A., Sarfo-Annin, J. K., & Rowbotham, S. (2018). Calling for the next WHO Global Health Initiative: The use of disruptive innovation to meet the health care needs of displaced populations. Journal of Global Health, 8(1), 8–11. https://doi.org/10.7189/jogh.08.010303
Sykes C. (2018). Time- and temperature-controlled transport: Supply chain challenges and solutions. P T., 43(3), 154–8.
Sykes, C. (2018). Time- and temperature-controlled transport: Supply chain challenges and solutions. P and T, 43(3), 154–158.
Tambunan, F., Sidabukke, I.R. and Rajagukguk, T. (2022). Pelaksanaan Vaksinasi Massal Dalam Upaya Peningkatan Immunitas Masyarakat Pada Pencegahan Penularan Virus Covid-19. Jurnal Abdimas Mutiara, 31(1), 289-294.
Tan, L. J., Barnett, M. A., Eisenberg, A., Fox Fields, H., Hackell, J. M., Léger, M. M., Meadows, B., Moore, K. L., Rehm, S. J., Rothholz, M. C., Smith, C., Talkington, K., & Wexler, D. L. (2014). From refrigerator to arm: Issues in vaccination delivery. Vaccine, 32(21), 2389–2393. https://doi.org/10.1016/j.vaccine.2014.02.045
Teshnizi, S. H., Aghamolaei, T., Kahnouji, K., Teshnizi, S. M. H., & Ghani, J. (2018). Assessing quality of health services with the SERVQUAL model in Iran. A systematic review and meta-analysis. International Journal for Quality in Health Care, 30(2), 82–89. https://doi.org/10.1093/intqhc/mzx200
Wang, J., Peng, Y., Xu, H., Cui, Z. and Williams, R.O. (2020). The COVID-19 vaccine race: challenges and opportunities in vaccine formulation. AAPS PharmSciTech, 21(6), 1–12.
WHO, U. (2020). Humidity Control for Vaccine Refrigerators, no. August. WHO [Online]. 8, 1–11. https://extranet.who.int/pqweb/sites/default/files/ documents/E003 TPP for Humidity Control.pdf.
WHO, U. (2021). COVID-19 Vaccination : Supply and Logistics Guidance.
Yakum MN, Ateudjieu J, Pélagie FR, W. E. W. (2015). Faktor-faktor yang terkait dengan paparan vaksin terhadap kondisi suhu yang merugikan: kasus wilayah North West, Kamerun. BMC [Internet], 1(8). http://www.biomedcentral.com/%0A1756-0500/8/277
Zeng H, Yang F, Feng Q, Zhang J, Gu J, Jing H, et al. (2020). Rapid and broad immune efficacy of a recombinant five-antigen vaccine against Staphylococcus aureus infection in animal models. Vaccines, 8(1).
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.