ABSTRACT
Foot and mouth disease is a highly contagious viral disease that poses a significant economic threat to cloven-hoofed animals, including cattle and sheep. The emergence of a novel foot and mouth disease virus-A isolate, FMDV-A-Egy-AHRI-RL385-Ven-2022, in Egypt in 2022 has raised concerns about its potential impact on existing vaccination programs. Given that vaccination is a key strategy for foot and mouth disease virus control, the present study was aimed to assess the cross-protective efficacy of both local and imported inactivated vaccines against this new threat. Through challenge experiments and serum neutralization tests, we observed limited effectiveness of both vaccine types. The calculated r1-values at 28 days post-vaccination indicated a minimal immune response to FMDV-A-Egy-AHRI-RL385-Ven-2022 (0.176 and 0.175 for local and imported vaccines, respectively). Challenge experiments further confirmed these findings, revealing 0percent protection from the local vaccine and only 20percent rotection from imported vaccines by day 7 post-challenge. These results underscore the urgent need to update existing foot and mouth disease virus vaccines in Egypt by incorporating the newly circulating FMDV-A-Egy-AHRI-RL385-Ven-2022 strain. This proactive measure is crucial to prevent future outbreaks and ensure effective disease control(AU)
La fiebre aftosa es una enfermedad vírica muy contagiosa que supone una importante amenaza económica para los animales biungulados, entre ellos el ganado vacuno y ovino. La aparición de un nuevo aislado del virus A de la fiebre aftosa, el FMDV-A-Egy-AHRI-RL385-Ven-2022, en Egipto en 2022 ha suscitado preocupación por su posible impacto en los programas de vacunación existentes. Dado que la vacunación es una estrategia clave para el control del virus de la fiebre aftosa, el objetivo del presente estudio fue evaluar la eficacia protectora cruzada de las vacunas inactivadas locales e importadas frente a esta nueva amenaza. Mediante experimentos de desafío y pruebas de seroneutralización, observamos una eficacia limitada de ambos tipos de vacuna. Los valores r1 calculados a los 28 días posvacunación indicaron una respuesta inmunitaria mínima frente a FMDV-A-Egy-AHRI-RL385-Ven-2022 (0,176 y 0,175 para las vacunas local e importada, respectivamente). Los experimentos de provocación confirmaron aún más estos resultados, revelando un 0 por ciento de protección de la vacuna local y sólo un 20 por ciento de protección de las vacunas importadas al séptimo día después de la provocación. Estos resultados subrayan la urgente necesidad de actualizar las vacunas existentes contra el virus de la fiebre aftosa en Egipto incorporando la nueva cepa circulante FMDV-A-Egy-AHRI-RL385-Ven-2022. Esta medida proactiva es crucial para prevenir futuros brotes y garantizar un control eficaz de la enfermedad(AU)
Subject(s)
Animals , Disease Outbreaks , Livestock , Foot-and-Mouth Disease/epidemiology , Vaccines , EgyptABSTRACT
The present work aims to establish a new alternative protocol to evaluate in vitro potency of inactivated Newcastle disease virus vaccine using Real Time PCR. Aqueous phases of seven inactivated Newcastle disease virus vaccines batches of different manufacturers were extracted by isopropyl myristate. The Newcastle disease virus antigen of each vaccine sample was determined by a standard Real Time PCR assay. Vaccines were inoculated into separate groups of 3-week-old specific pathogen free chickens using the recommended dose of vaccine. The immunogenicity was assessed for each vaccine by the Newcastle disease virus hemagglutination inhibition antibody titers. Individual serum samples were collected 4 weeks post vaccination, then vaccine efficacy and protection rates were recorded after challenge test of birds vaccinated with the virulent Newcastle disease virus. There is the possibility of using the Real Time PCR as an in vitro assay for vaccine evaluation. The Cycle Threshold values were ranged between 21.17 and 25.23. On the other hand, the hemagglutination inhibition titers ranged between 7.1 log2 to 6.2. The comparison between the Cycle Threshold values of the antigen extracts and the corresponding results of challenge test and in vivo hemagglutination inhibition assays using sera of vaccinated birds proved a strong correspondence between the in vitro and in vivo results(AU)
El presente trabajo pretende establecer un nuevo protocolo alternativo para la evaluación in vitro de la potencia de la vacuna de virus inactivado contra la enfermedad de Newcastle mediante PCR en tiempo real. Las fases acuosas de siete lotes de vacunas inactivadas contra el virus de la enfermedad de Newcastle de distintos fabricantes se extrajeron mediante miristato de isopropilo. El antígeno del virus de la enfermedad de Newcastle de cada muestra de vacuna se determinó mediante un ensayo estándar de PCR en tiempo real. Las vacunas se inocularon en grupos separados de pollos libres de patógenos específicos de 3 semanas de edad utilizando la dosis recomendada de vacuna. La inmunogenicidad se evaluó para cada vacuna mediante los títulos de anticuerpos de inhibición de la hemaglutinación del virus de la enfermedad de Newcastle. Se recogieron muestras individuales de suero 4 semanas después de la vacunación y, a continuación, se registraron la eficacia de la vacuna y los índices de protección tras la prueba de reto de las aves vacunadas con el virus virulento de la enfermedad de Newcastle. Existe la posibilidad de utilizar la PCR en tiempo real como ensayo in vitro para la evaluación de vacunas. Los valores del umbral de ciclo oscilaron entre 21,17 y 25,23. Por otra parte, los títulos de anticuerpos inhibidores de la hemaglutinación oscilaron entre 7,1 log2 y 6,2. La comparación entre los valores del umbral de ciclo de los extractos de antígeno con los resultados correspondientes de la prueba de reto y los ensayos de inhibición de la hemaglutinación in vivo, utilizando sueros de aves vacunadas, demostró una fuerte correspondencia entre los resultados in vitro e in vivo(AU)
Subject(s)
Animals , In Vitro Techniques/methods , Vaccines, Inactivated , Polymerase Chain Reaction , Newcastle Disease/epidemiologyABSTRACT
El virus de la fiebre aftosa es un patógeno altamente infeccioso y contagioso. Recientemente, el topotipo VII, linaje Lib-12 del serotipo SAT2 se describió en brotes en Egipto durante 2018. La vacunación es una forma eficaz de controlar y combatir los brotes del virus de la fiebre aftosa, especialmente en áreas endémicas como Egipto. El presente estudio tuvo como objetivo evaluar la eficacia de la vacuna contra la fiebre aftosa que se produce actualmente, frente a la cepa de campo recientemente aislada del virus de la fiebre aftosa SAT2 topotipo VII, linaje Lib-12 (SAT2 Libia), mediante la aplicación de estudios in vitro e in vivo. Se inocularon en terneros, dos lotes de la vacuna actual contra el virus de la fiebre aftosa. A los 28 días posteriores a la vacunación, se recolectaron muestras de suero y se analizaron contra el virus de la fiebre aftosa SAT2 Libia adaptado a cultivo de tejidos y SAT2/EGY/2/2012 utilizando una prueba de neutralización viral para determinar la relación serológica (valor r1). El ensayo de reto en terneros vacunados se llevó a cabo empleando una cepa virulenta de la fiebre aftosa SAT2 Libia. Se encontró que los títulos de anticuerpos neutralizantes inducidos por los dos lotes de vacuna (1 y 2) y los de animales no vacunados, fueron 0,48, 0,39 y 0,15 log10 DICT50/mL, respectivamente, mientras que la prueba reveló valores de protección de 20 por ciento, 0 por ciento y 0 por ciento, respectivamente. Además, los valores de r1 fueron 0,195 y 0,186 para los lotes de vacuna (1 y 2), respectivamente. Se llegó a la conclusión de que los lotes de vacunas locales comerciales inactivadas disponibles actualmente (SAT2 SAT2/EGY/2/2012) no protegen a los terneros contra el virus circulante de la fiebre aftosa SAT2 topotipo VII, linaje Lib-12 que se aisló recientemente, por lo que es recomendable actualizar las vacunas existentes con la cepa aislada actualmente(AU)
Foot and mouth disease virus is a highly infectious and contagious pathogen. Recently the topotype VII, Lib‐12 lineage of serotype SAT2 was reported through outbreaks in Egypt during 2018. Vaccination is an effective way to control and combat the foot and mouth disease virus outbreaks especially in endemic areas like Egypt. The present study was aimed to evaluate the efficacy of the current produced foot and mouth disease vaccine, against the recently isolated field strain foot and mouth disease virus SAT2 topotype VII, Lib-12 lineage (SAT2 Libya), by applying in vitro and in vivo studies. Two batches of the current foot and mouth disease virus vaccine were inoculated in calves. At the 28th day post-vaccination serum samples were collected and tested against tissue culture adapted foot and mouth disease virus SAT2 Libya and SAT2/EGY/2/2012 using virus neutralization test to determine serological relationship (r1-value). The challenge test for vaccinated calves was carried out against the virulent foot and mouth disease virus SAT2 Libya. It was found that neutralizing antibody titers induced by the two vaccine batches (1 and 2) and those in unvaccinated animals were 0.48, 0.39 and 0.15 log10 TCID50/mL, respectively, while the challenge revealed protection values of 20 percent, 0 percent and 0 percent, respectively. Furthermore, the r1 values were 0.195 and 0.186 for vaccine batches (1 and 2), respectively. It was concluded that the available local commercial inactivated foot and mouth disease virus vaccine batches (SAT2 SAT2/EGY/2/2012) are unable to protect calves against the current circulating foot and mouth disease virus field isolate SAT2 topotype VII, Lib-12 lineage, thus it is highly recommended to update the existing vaccines with the present isolated strain(AU)
Subject(s)
Animals , Livestock , Vaccine Potency , Foot-and-Mouth Disease/prevention & control , Foot-and-Mouth Disease/epidemiologyABSTRACT
Foot and mouth disease is a highly contagious viral disease of cloven-hoofed animals that has a significant economic impact on livestock. A recent outbreak was detected and recorded as exotic strain of foot and mouth disease virus SAT2 (Serotype SAT2, topotype VII, Lib-12 lineage). The emergency vaccine was produced and assessed in vivo and large number of vaccine batches were urgently needed. The present work was aimed to provide a rapid evaluation of inactivated foot and mouth disease SAT2 oily vaccine to exclude the unsatisfactory batches during emergency circumstances and to reduce time, effort and cost. The extraction of foot and mouth disease antigen content from oily adjuvanted vaccine was carried out using isopropyl myristate and benzyl alcohol methods. The extracted viral antigen was identified by foot and mouse disease serotyping ELISA and 146S content was quantified using sucrose density gradient analysis. Evaluations were carried out instantly and at 2h, 6h and 24h. The results indicated the efficiency of benzyl alcohol to breakdown the oil emulsion either MONTANIDE™ ISA 206 VG or MONTANIDE™ ISA 50 V2, while the isopropyl myristate was efficient for MONTANIDE™ ISA 50 V2 only. The identification and quantification of 146S for extracted antigen using benzyl alcohol indicated significant stable records at different time intervals for the vaccine batches, while the extraction using isopropyl myristate indicated unstable records at different time intervals. It was concluded that the evaluation of monovalent foot and mouse disease vaccine could be conducted in vitro, using serotyping ELISA and quantification of 146S for the extracted antigen, either using benzyl alcohol or isopropyl myristate (MONTANIDE™ ISA50 V2 only), with the consideration that 146S content should not less than 4 μg/mL(AU)
La fiebre aftosa es una enfermedad viral altamente contagiosa de los animales de pezuña hendida que tiene un impacto económico significativo en el ganado. Se detectó un brote reciente que se registró como causado por una cepa exótica del virus de la fiebre aftosa (serotipo SAT2, topotipo VII, linaje Lib-12). La vacuna de emergencia se elaboró y evaluó in vivo, existiendo una urgente necesidad de contar con un gran número de lotes de la misma. El presente trabajo tuvo como objetivo proporcionar una evaluación rápida de la vacuna oleosa inactivada (SAT2) contra la fiebre aftosa, para excluir los lotes insatisfactorios durante circunstancias de emergencia, reduciendo tiempo, esfuerzo y costo. La extracción del contenido de antígeno de fiebre aftosa, de la vacuna oleosa adyuvada, se llevó a cabo utilizando miristato de isopropilo y alcohol bencílico. El antígeno viral extraído se identificó utilizando un ELISA de serotipificación y se cuantificó el contenido de 146S mediante análisis de gradiente de densidad de sacarosa. Las evaluaciones se realizaron de forma instantánea y a las 2h, 6h y 24h. Los resultados indicaron la eficacia del alcohol bencílico para separar la emulsión de aceite para MONTANIDE ™ ISA 206 VG o MONTANIDE™ ISA 50 V2, mientras que el miristato de isopropilo fue eficaz para MONTANIDE™ ISA 50 V2 únicamente(AU)
Subject(s)
Animals , Enzyme-Linked Immunosorbent Assay/methods , Foot-and-Mouth Disease , Vaccines , EgyptABSTRACT
Listeria monocytogenes (Lm) is zoonotic pathogen that can cause listeriosis, and vaccine is one of the effective methods to prevent this pathogen infection. In this study, we developed a novel vaccine that is a mixture of inactivated bacteria and Montanide™ ISA 61 VG, a mineral oil adjuvant, and evaluated the safety and immune response characteristics of this vaccine. The mice immunized with the ISA 61 VG adjuvant had high safety, and it could induce significantly higher titer of anti-listeriolysin O (LLO) antibody and higher value of IgG2a/IgG1 ratio compared with the group without the adjuvant. In particular, it could provide 100% immune protection against lethal doses of Lm challenge in mice. In summary, ISA 61VG adjuvant significantly enhanced the ability of inactivated listeria vaccine to induce humoral and cellular immune responses, thereby enhanced the protective immune response in the host, and it is a potential vaccine candidate for the prevention of Lm infection in humans and animals.
Subject(s)
Animals , Mice , Adjuvants, Immunologic , Pharmacology , Hemolysin Proteins , Allergy and Immunology , Pharmacology , Immunity, Cellular , Listeria monocytogenes , Allergy and Immunology , Listeriosis , Mice, Inbred BALB C , Vaccines, Inactivated , Allergy and ImmunologyABSTRACT
Objective To investigate the effects of different concentrations and adsorption methods of aluminum hydroxide adjuvant produced by different manufacturers on the immunogenicity of the diphtheria-tetanus-acellular pertussis and inactivated poliovirus combined vaccine ( DTaP-sIPV) . Methods Five anti-gens of DTaP were adsorbed onto different concentrations (0. 42 mg/ml, 0. 47 mg/ml and 0. 52 mg/ml) of aluminum hydroxide from different manufacturers through sequential and separate adsorption. Adsorbability, anti-pertussis toxin ( PT)/filamentous hemagglutinin ( FHA)/pertactin ( PRN)/diphtheria toxoid ( DT)/tet-anus toxoid ( TT) antibodies and the potency of vaccines were detected. Results The adsorbability of alu-minum hydroxide adjuvant slightly decreased with the reduction of concentration. No significant difference in potency and antibody level was observed between sequential and separate adsorption. Moreover, no signifi-cant difference in antibody level was observed between vaccines prepared with aluminum hydroxide adjuvant produced by General Chemical Corp and our institute. Conclusion Aluminum hydroxide adjuvant produced by our institute at the concentration of 0. 52 mg/ml and separate adsorption method are suitable for prepara-tion of DTaP-sIPV.
ABSTRACT
Candid#1 es la primera vacuna a virus vivo atenuado producida y registrada en Argentina. Se produce en el INEVH desde 2003 para prevenir la fiebre hemorrágica argentina y se obtiene mediante cosecha de sobrenadantes de cultivos de células diploides infectadas con una cepa atenuada del virus Junín, formulación y posterior liofilización. Su estabilidad es crucial para asegurar su efectividad. El objetivo de este trabajo fue evaluar la estabilidad de Candid#1 exponiéndola a distintas condiciones de temperatura y tiempo. Tres lotes producidos en 2003 fueron sometidos al siguiente esquema de almacenamiento: (a) vacuna reconstituida conservada entre 2 °C y 8 °C durante 8 días, (b) vacuna liofilizada conservada entre 2 °C y 8 °C durante 6 meses, y (c) vacuna liofilizada conservada entre -18 °C y -20 °C durante 10 años. La potencia fue evaluada en monocapa de células Vero bajo agar. Los resultados fueron: (a) Candid#1 reconstituida fue estable 8 días entre 2 °C y 8 °C, (b) Candid#1 liofilizada fue estable 2 meses entre 2 °C y 8 °C y (c) Candid#1 liofilizada fue estable 9 años entre -18 °C y -20 °C manteniendo todos sus atributos. Estos resultados permitieron establecer las siguientes condiciones de almacenamiento: reconstituida 12 horas entre 2 °C y 8 °C, liofilizada 30 días entre 2 °C y 8 °C y 9 años entre -18 °C y -20 °C. A la luz de estos resultados, se generaron cambios favorables en las condiciones de transporte, almacenamiento y distribución de la vacuna. Se implementó la instalación de freezers domésticos en centros estratégicamente distribuidos, permitiendo preservar stocks de vacuna y distribuir las dosis necesarias a vacunatorios.
Candid#1 is the first live attenuated vaccine produced and registered in Argentina. Produced since 2003 at the INEVH to prevent Argentine hemorrhagic fever, it is obtained by harvesting supernatants of diploid cells infected with an attenuated strain of Junin virus and subsequent lyophilization. The stability of this vaccine is crucial to ensure its effectiveness. This study was aimed to evaluate the stability of Candid#1 by exposing it to different time and temperature conditions. Three vaccine batches produced in 2003 were analysed according to the following storage scheme: (a) reconstituted vaccine at 2 °C to 8°C for 8 days; (b) lyophilized vaccine at 2 °C to 8 °C for 6 months; (c) lyophilized vaccine at -18 °C to -20 °C for 10 years. The potency was assessed in Vero cell monolayers under agar. The results were: (a) reconstituted vaccine was stable between 2 °C and 8 °C for 8 days, (b) lyophilized vaccine was stable between 2 °C and 8 °C for 2 months, and (c) lyophilized vaccine was stable 9 years between -18 °C and -20 °C, keeping all its properties. These results allowed us to establish the following storage conditions and expiration times for Candid#1: (a) reconstituted: 12 hours between 2 °C and 8 °C, (b) lyophilized: 30 days between 2 °C and 8 °C and (c) lyophilized: 9 years between -18 °C and -20 °C. Based on our results, favorable changes were made in the conditions of transport, storage and distribution of the vaccine. Domestic freezers in strategically located centers were installed, allowing the preservation of vaccine stocks for distribution to secondary vaccination centers.
Subject(s)
Humans , Viral Vaccines/immunology , Arenaviruses, New World/immunology , Drug Storage/methods , Hemorrhagic Fever, American/prevention & control , Antibodies, Viral/immunology , Argentina , Vaccines, Attenuated/immunology , Drug StabilityABSTRACT
OBJECTIVES: To circumvent the limitations of the current golden standard method, colony-forming unit (CFU) assay, for viability of Bacille Calmette–Guérin (BCG) vaccines, we developed a new method to rapidly and accurately determine the potency of BCG vaccines. METHODS: Based on flow cytometry (FACS) and fluorescein diacetate (FDA) as the most appropriate fluorescent staining reagent, 17 lots of BCG vaccines for percutaneous administration and 5 lots of BCG vaccines for intradermal administration were analyzed in this study. The percentage of viable cells measured by flow cytometry along with the total number of organisms in BCG vaccines, as determined on a cell counter, was used to quantify the number of viable cells. RESULTS: Pearson correlation coefficients of FACS and CFU assays for percutaneous and intradermal BCG vaccines were 0.6962 and 0.7428, respectively, indicating a high correlation. The coefficient of variation value of the FACS assay was less than 7%, which was 11 times lower than that of the CFU assay. CONCLUSION: This study contributes to the evaluation of new potency test method for FACS-based determination of viable cells in BCG vaccines. Accordingly, quality control of BCG vaccines can be significantly improved.
Subject(s)
Administration, Cutaneous , BCG Vaccine , Cell Count , Flow Cytometry , Fluorescein , Methods , Mycobacterium bovis , Quality Control , Stem Cells , Vaccine Potency , VaccinesABSTRACT
Background & objectives: Stabilized live attenuated oral polio vaccine (OPV) is used to immunize children up to the age of five years to prevent poliomyelitis. It is strongly advised that the cold-chain should be maintained until the vaccine is administered. It is assumed, that vaccine vial monitors (VVMs) are reliable at all temperatures. VVMs are tested at 37°C and it is assumed that the labels reach discard point before vaccine potency drops to >0.6 log10. This study was undertaken to see if VVMs were reliable when exposed to high temperatures as can occur in field conditions in India. Methods: Vaccine vials with VVMs were incubated (10 vials for each temperature) in an incubator at different temperatures at 37, 41, 45 and 49.5°C. Time-lapse photographs of the VVMs on vials were taken hourly to look for their discard-point. Results: At 37 and 41°C the VVMs worked well. At 45°C, vaccine potency is known to drop to the discard level within 14 h whereas the VVM discard point was reached at 16 h. At 49.5°C the VVMs reached discard point at 9 h when these should have reached it at 3 h. Conclusion: Absolute reliance cannot be placed on VVM in situation where environmental temperatures are high. Caution is needed when using ‘outside the cold chain’ (OCC) protocols.
Subject(s)
Poliomyelitis , Poliovirus Vaccine, Oral , Refrigeration/methods , Specimen Handling/methodsABSTRACT
Background: Measles vaccine was the only vaccine in the expanded vaccination program still must be imported. Center for research and production of vaccines and biologicals \ufffd?Ha Noi was conducting the first stages of measles vaccine manufacturing technology transfer from the Kitasato Institute in Japan. The Center received semi-finished vaccine to set up finished vaccine production process as well as the testing process. Potency test and its consistency is very essential in quality control. Objectives: In order to identify standard potency assessment methods and potency of 13 lots of finished measles vaccine produced in Viet Nam from imported semi-finished products. Subjects and method: 13 lots of the finished vaccine were determined potency by plaque method based on 13 samples of semi-finished vaccine and the standard sample M16-6 had potency from 4.2 to 4.6 lg PFU/0.5 ml provided by the Kitasato Institute. Results: The result of 13 lots show that the reduction of potency during freeze-drying is within the range (0-0.76 lg); and 4 last consecutive lots are met WHO criteria on heat stability. Conclusion: This shows that the measles vaccine freeze-drying process in Vietnam was officially set up to use for the measles vaccine production in 2007.
Subject(s)
Measles VaccineABSTRACT
Background: Trivalent poliomyelitis vaccine was produced from strains which had been supported by Japan. One of the standards of vaccine quality required by WHO is potency and thermostability. Follow that potency at 370C and within 48 hours is not less effective than potency at -200C exceedingly 0,5 lgCCID50. Objectives: To assess the potency of Trivalent poliomyelitis vaccine and the thermostability of mokey vaccine preserved at 370C within 48 hours. Subjects and method: 12 lots of trivalent poliomyelitis vaccine (included 3 types) produced in January 2007 were evaluated by microneutralization technique. Results: Potency of 12 type I lots were all 106,0 CCID50/0,1ml and the disparity of potency at two temperatures were all < 0,5 lgCCID50/0,1ml. Potency of 12 type II lots were all 105,0 CCID50/0,1ml and the disparity of potency at two temperatures were all < 0,5 lgCCID50/0,1ml. Potency of 12 type III lots were all 105,5 CCID50/0,1ml and the disparity of potency at two temperatures were all < 0,5 lgCCID50/0,1ml. Conclusion: 12 final poliovaccine lots produced in Center for research and production of vaccines and biologicals \ufffd?Ha Noi in 2007 met WHO requirements for potency and thermostability.