Gharaibeh Saad, Amareen Shadi
A Department of Pathology and Public Health, Jordan University of Science and Technology, Irbid 22110, Jordan.
B Jordan Bio-industries Center (JOVAC), Amman 11941, Jordan.
Avian Dis. 2015 Dec;59(4):508-11. doi: 10.1637/11123-050615-Reg.
Avian influenza subtype H9N2 is endemic in many countries in the Middle East. The reported prevalence of infection was variable between countries and ranged from 28.7% in Tunisia to 71% in Jordan. Several commercial killed whole-virus vaccine products are used as monovalent or bivalent mixed with Newcastle disease virus. Recently, we have noticed that many of the vaccinated broiler flocks did not show a production advantage over nonvaccinated flocks in the field. A new avian influenza field virus (H9N2) was isolated from these vaccinated and infected broiler flocks in 2013. This virus had 89.1% similarity of its hemagglutinin (HA) gene to the classical virus used for manufacturing the classical vaccine. Inactivated autogenous vaccine was manufactured from this new field isolate to investigate its serological response and protection in specific-pathogen-free (SPF) and breeder-male chickens compared to the classical vaccine. Oropharyngeal virus shedding of vaccinated breeder-male chickens was evaluated at 3, 9, 10, and 14 days postchallenge (DPC). Percentage of chickens shedding the virus at 3 DPC was 64%, 50%, and 64% in the classical vaccine group, autogenous vaccine group, and the control challenged group, respectively. At 7 DPC percentage of virus shedding was 42%, 7%, and 64% in the classical vaccine group, autogenous vaccine group, and the control challenged group, respectively. At 10 DPC only 9% of classical vaccine group was shedding the virus and there was no virus shedding in any of the groups at 14 DPC. There was statistical significance difference (P < 0.05) in shedding only at 7 DPC between the autogenous vaccine group and the other two groups. At 42 days of age (14 DPC), average body weight was 2.720, 2.745, 2.290, and 2.760 kg for the classical vaccine group, autogenous vaccine group, control challenged group, and control unchallenged group, respectively. Only the control challenged group had significantly (P < 0.05) lower average body weight. In another experiment, vaccinated SPF chicks had hemagglutination inhibition (HI) geometric mean titers (GMTs), with classical antigen, of 8.7 and 3.1 log 2 for classical and autogenous vaccine groups, respectively. When the autogenous antigen was used for HI, GMTs were 6.0 and 8.1 log 2, respectively. Both vaccines protected against body weight suppression after challenge. However, autogenous vaccine elicited significantly higher HI titer and reduced viral shedding at 7 DPC. In conclusion, it is important to revise the vaccine virus strains used in each region to protect against and control infection from new field strains. Further field experiments are needed to demonstrate the efficacy of new vaccines under field conditions.
甲型流感病毒H9N2亚型在中东许多国家呈地方流行。各国报告的感染率各不相同,在突尼斯为28.7%,在约旦为71%。几种商业化的全病毒灭活疫苗产品被用作单价疫苗或与新城疫病毒混合的二价疫苗。最近,我们注意到,在实际生产中,许多接种过疫苗的肉鸡群相比未接种疫苗的鸡群并未表现出生产优势。2013年,从这些接种过疫苗且受到感染的肉鸡群中分离出一种新型甲型流感病毒(H9N2)。该病毒的血凝素(HA)基因与用于生产传统疫苗的经典病毒有89.1%的相似性。用这种新的野外分离株制备了灭活自体疫苗,以研究其与传统疫苗相比在无特定病原体(SPF)鸡和种公鸡中的血清学反应及保护效果。在攻毒后第3、9、10和14天评估接种疫苗的种公鸡的口咽病毒排毒情况。在攻毒后第3天,传统疫苗组、自体疫苗组和攻毒对照组中排毒鸡的百分比分别为64%、50%和64%。在攻毒后第7天,传统疫苗组、自体疫苗组和攻毒对照组的病毒排毒百分比分别为42%、7%和64%。在攻毒后第10天,只有9%的传统疫苗组鸡排毒,在攻毒后第14天,所有组均未出现病毒排毒。仅在攻毒后第7天,自体疫苗组与其他两组之间的排毒情况存在统计学显著差异(P<0.05)。在42日龄(攻毒后第14天)时,传统疫苗组、自体疫苗组、攻毒对照组和未攻毒对照组的平均体重分别为2.720、2.745、2.290和2.760千克。只有攻毒对照组的平均体重显著较低(P<0.05)。在另一项实验中,接种疫苗的SPF雏鸡针对传统抗原的血凝抑制(HI)几何平均滴度(GMT),传统疫苗组和自体疫苗组分别为8.7和3.1 log₂。当使用自体抗原进行HI检测时,GMT分别为6.0和8.1 log₂。两种疫苗在攻毒后均能防止体重下降。然而,自体疫苗诱导产生的HI滴度显著更高,且在攻毒后第7天病毒排毒减少。总之,重要的是修订各地区使用的疫苗病毒株,以预防和控制新的野外毒株感染。需要进一步的野外实验来证明新疫苗在野外条件下的有效性。
