Abstract
Rabies is one of the oldest known viral zoonosis and remains a serious public health hazard, especially in the developing countries. It is the major viral disease in humans living in the tropics, but it is enzootic worldwide. Though its hundred percent preventable, it is estimated to cause 55,000 deaths annually, at a minimum, because appropriate therapy and preventive measures are not available in most developing countries. Exposure to rabid dogs is responsible for about 90% of reported cases of human rabies in the world each year. Effective control, prevention and eradication of rabies in man and animal can only be realized by immunization. Despite concerted efforts to develop and produce anti-rabies vaccines for protection of man and animal against rabies since 1919 in Nigeria, successful achievement of effective control and prevention of the disease through vaccination is greatly hampered by poor or lack of modern technology and facilities required for development and production of safe and effective vaccines. High cost of development and production, poor electric power supply, poor policy implementation by governments, poverty and gross lack of awareness are other major constraints encountered in rabies vaccinology in developing counties including Nigeria. Recent advances in tissue culture technologies, genetic engineering and peptide chemistry have made it possible to design and produce large quantities of pure antigens. This is a far reaching prospects for the development and production of life-saving vaccines for humans and animals. This approach aims at development and production of safe, effective, potent, and inexpensive anti-rabies vaccines with longer shelf life, greater quantity in terms of volume of vaccines produced and short immunization schedule than the trial and error approach by which vaccines were developed, produced and used in the past.
Highlights
Rabies is a rapidly progressive and uniformly fatal viral meningoencephalitis in humans caused by the rabies or related group of Rhabdoviridae, in the genus Lyssavirus [1]
The Pasteur-derived strains of rabies virus are the most predominantly used for the production of traditional vaccines of the Semple or Suckling Mouse Brain (SMB) types, and for the production of modern cell culture vaccines such as Human Diploid and Purified Vero Cell vaccines (HDCV and PVRV) [4]
Vaccines are categorized into: Attenuated or modified live virus (MLV) vaccine; Killed or inactivated virus vaccine; Vaccine grown in brain tissue of adult sheep, rabbit or brain of new born mice, rats or rabbits; Embryonated chicken or duck egg-based vaccine and modern tissue culture based vaccine (MTCV) [5]
Summary
Rabies is a rapidly progressive and uniformly fatal viral meningoencephalitis in humans caused by the rabies or related group of Rhabdoviridae, in the genus Lyssavirus [1]. The sole cause of low patronage and low vaccination coverage is basically lack of awareness, poverty and sometimes lack of political will by government authorities Another major challenge to be contended with in anti-rabies vaccine development and production in developing countries like Nigeria is absence of enforcement of registration and compulsory vaccination of dogs, free or subsidized vaccine/vaccination cost, regular mass vaccination campaigns and creation of awareness on rabies among the populace [20,21]. These result to low patronage of vaccines, and adversely affect production turnover and impetus to embark on developmental research activities. NTVs are less potent and require a higher number of painful doses
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