Normal view MARC view ISBD view

In Process Quality Control Factors Affecting Potency Of Inactivated Black Quarter Vaccine

By: Kashif Hanif | Prof. Dr. Khushi Muhammad.
Contributor(s): Dr. Aftab Ahmad Anjum | Prof. Dr.
Material type: materialTypeLabelBookPublisher: 2013Subject(s): Department of MicrobiologyDDC classification: 1586,T Dissertation note: Black quarter (BQ) is a majorbacterial disease of cattle and buffalocharacterized by loss of appetite, lameness, depression, fever, swelling of the skeletal muscles, crepitating sounds followed by sudden death without any clear signs of disease. It results in irrecoverable economic losses. The disease prevails in all provinces of Pakistan especially in District Dera Ismail Khan,Cholistan and Chakwal etc. Morbidity losses comprise of losses due to reduced milk production, work hindrance, treatment charges etc. The survey revealed that 15.91% losses were due to morbidity and 84.09% losses occurred due to mortality caused by black quarter in cattle and buffalo. Reliable diagnosis, mass scale vaccination and clamping strict bio-security measures are the only ways to control the disease.The present study was aimed to optimize the PCR for prompt and reliable diagnosis of BQ and to evaluate the inactivated whole culture vaccine with variable biological titer to induce protective immune response in calves. The comparative antibody response of animals to adjuvanted (Aluminium hydroxide gel & Montanide ISA 70) and non adjuvanted vaccine and duration of immunity was also studied. Effect of boosting on the humoral immune response of animals as well as shelf life of various vaccines was also evaluated. All of the vaccines were inoculated in a group of four animals. Serum samples were collected at specified time intervals and antibody levels were detected through antihemolytic units. The PCR was optimized for diagnosis of C. chauvoei in clinical specimens from infected carcasses. Study of factors (temperature, media composition, pH, incubation time and anaerobic agents)for biomass production of bacteria and its hemolytic toxins revealed that certain growth parameters can be improved to enhance the bacterial growth and its hemolytic toxins. Like use of RCM medium for vaccine production enhances the growth of C. chauvoei and its toxins under in vitro conditions. Supplementation of nitrogen gas in culture medium can enhance the bacterial growth and hemolysin. Proper incubation time, temperature and pH can be very helpful factors for the growth and biomass production of C. chauvoei under in vitro conditions. Finally, biomass production of the organism using manual biofermentor is a very cheap and cost effective method for concentrated vaccine production in our country where commercial biofermentor cannot be afforded. So by using these techniques we can make more no. of vaccine doses from less quantity of bacterial culture. It will also help us in developing bivalent, trivalent or multivalent vaccine. Study of in process quality control factors (bacterial biomass and toxins) production and "in process quality control" factors (biological titer, bacterial count, hemolytic units, adjuvants and storage time) that affect antibody response of vaccinatesrevealed that vaccine with 250 HU / dose showed relatively similar antibody titer in calves as the vaccine with 500 HU or 750 HU per dose. So this can be helpful to produce more doses of vaccine with same culture. The Montanide ISA 70 gave best result for development of good and prolonged immunity but gel based vaccine also produce satisfactory results.So in future oil based vaccine may be used to attain long term and effective immunity. Effect of priming and boosting revealed that boosting give better results as compared to primed group by producing prolonged immunity. The results were very encouraging. Effect of storage showed that the quality of immunogen was not affectedwith the passage of time if the vaccine is properly stored at 4 °C upto three months.
Tags from this library: No tags from this library for this title. Add tag(s)
Log in to add tags.
    average rating: 0.0 (0 votes)

Black quarter (BQ) is a majorbacterial disease of cattle and buffalocharacterized by loss of appetite, lameness, depression, fever, swelling of the skeletal muscles, crepitating sounds followed by sudden death without any clear signs of disease. It results in irrecoverable economic losses. The disease prevails in all provinces of Pakistan especially in District Dera Ismail Khan,Cholistan and Chakwal etc. Morbidity losses comprise of losses due to reduced milk production, work hindrance, treatment charges etc. The survey revealed that 15.91% losses were due to morbidity and 84.09% losses occurred due to mortality caused by black quarter in cattle and buffalo.
Reliable diagnosis, mass scale vaccination and clamping strict bio-security measures are the only ways to control the disease.The present study was aimed to optimize the PCR for prompt and reliable diagnosis of BQ and to evaluate the inactivated whole culture vaccine with variable biological titer to induce protective immune response in calves. The comparative antibody response of animals to adjuvanted (Aluminium hydroxide gel & Montanide ISA 70) and non adjuvanted vaccine and duration of immunity was also studied. Effect of boosting on the humoral immune response of animals as well as shelf life of various vaccines was also evaluated. All of the vaccines were inoculated in a group of four animals. Serum samples were collected at specified time intervals and antibody levels were detected through antihemolytic units.
The PCR was optimized for diagnosis of C. chauvoei in clinical specimens from infected carcasses. Study of factors (temperature, media composition, pH, incubation time and anaerobic agents)for biomass production of bacteria and its hemolytic toxins revealed that certain growth parameters can be improved to enhance the bacterial growth and its hemolytic toxins. Like use of RCM medium for vaccine production enhances the growth of C. chauvoei and its toxins under in vitro conditions. Supplementation of nitrogen gas in culture medium can enhance the bacterial growth and hemolysin. Proper incubation time, temperature and pH can be very helpful factors for the growth and biomass production of C. chauvoei under in vitro conditions. Finally, biomass production of the organism using manual biofermentor is a very cheap and cost effective method for concentrated vaccine production in our country where commercial biofermentor cannot be afforded. So by using these techniques we can make more no. of vaccine doses from less quantity of bacterial culture. It will also help us in developing bivalent, trivalent or multivalent vaccine.
Study of in process quality control factors (bacterial biomass and toxins) production and "in process quality control" factors (biological titer, bacterial count, hemolytic units, adjuvants and storage time) that affect antibody response of vaccinatesrevealed that vaccine with 250 HU / dose showed relatively similar antibody titer in calves as the vaccine with 500 HU or 750 HU per dose. So this can be helpful to produce more doses of vaccine with same culture. The Montanide ISA 70 gave best result for development of good and prolonged immunity but gel based vaccine also produce satisfactory results.So in future oil based vaccine may be used to attain long term and effective immunity. Effect of priming and boosting revealed that boosting give better results as compared to primed group by producing prolonged immunity. The results were very encouraging. Effect of storage showed that the quality of immunogen was not affectedwith the passage of time if the vaccine is properly stored at 4 °C upto three months.

There are no comments for this item.

Log in to your account to post a comment.


Implemented and Maintained by UVAS Library.
For any Suggestions/Query Contact to library or Email:rehana.kousar@uvas.edu.pk Phone:+91 99239068
Website/OPAC best viewed in Mozilla Browser in 1366X768 Resolution.