Swayne David E, Slemons Richard D
Southeast Poultry Research Laboratory, Agricultural Research Service, U.S. Department of Agriculture, 934 College Station Road, Athens, GA 30605, USA.
Avian Dis. 2008 Sep;52(3):455-60. doi: 10.1637/8229-012508-Reg.1.
The mean infectious doses of selected avian influenza virus (AIV) isolates, determined in domestic poultry under experimental conditions, were shown to be both host-dependent and virus strain-dependent and could be considered one measure of the infectivity and adaptation to a specific host. As such, the mean infectious dose could serve as a quantitative predictor for which strains of AIV, given the right conditions, would be more likely transmitted to and maintained in a given species or subsequently cause an AI outbreak in the given species. The intranasal (IN) mean bird infectious doses (BID50) were determined for 11 high-pathogenicity AIV (HPAIV) isolates of turkey and chicken origin for white leghorn (WL) chickens, and for low-pathogenicity AIV (LPAIV) isolates of chicken (n = 1) and wild mallards (n = 2) for turkeys, and WL and white Plymouth rock (WPR) chickens, domestic ducks and geese, and Japanese quail. The BID50 for HPAIV isolates for WL chickens ranged from 10(1.2) to 10(4.7) mean embryo infectious dose (EID50) (median = 10(2.9)). For chicken-origin HPAIV isolates, the BID50 in WL chickens ranged from 10(1.2) to 10(3.0) EID50 (median = 10(2.6)), whereas for HPAIV isolates of turkey origin, the BID50 in WL chickens was higher, ranging from 10(2.8) to 10(4.7) EID50 (median = 10(3.9)). The BID50 of 10(4.7) was for a turkey-origin HPAIV virus that was not transmitted to chickens on the same farm, suggesting that, under the specific conditions present on that farm, there was insufficient infectivity, adaptation, or exposure to that virus population for sustained chicken transmission. Although the upper BID50 limit for predicting infectivity and sustainable transmissibility for a specific species is unknown, a BID50 < 10(4.7) was suggestive of such transmissibility. For the LPAIVs, there was a trend for domestic ducks and geese and Japanese quail to have the greatest susceptible and for WL chickens to be the most resistant, but turkeys were susceptible to two LPAIV tested when used at moderate challenge doses. This suggests domestic ducks and geese, turkeys, and Japanese quail could serve as bridging species for LPAIVs from wild waterfowl to chickens and other gallinaceous poultry. These data do provide support for the commonly held and intuitive belief that mixing of poultry species during rearing and in outdoor production systems is a major risk factor for interspecies transmission of AIVs and for the emergence of new AIV strains capable of causing AI outbreaks because these situations present a more diverse host population to circumvent the natural host dependency or host range of circulating viruses.
在实验条件下,对家禽体内选定的禽流感病毒(AIV)分离株的平均感染剂量进行测定,结果表明其既依赖宿主,也依赖病毒株,可被视为感染性及对特定宿主适应性的一种度量。因此,平均感染剂量可作为一种定量预测指标,用于判断在适当条件下哪些AIV毒株更有可能传播至某一特定物种并在其中维持传播,或随后在该物种中引发禽流感疫情。对11株来自火鸡和鸡的高致病性禽流感病毒(HPAIV)分离株,测定了其对白来航鸡(WL)的经鼻平均禽感染剂量(BID50);对1株鸡源和2株野鸭源的低致病性禽流感病毒(LPAIV)分离株,测定了其对火鸡、WL鸡和白普利茅斯岩鸡(WPR)、家鸭、家鹅及日本鹌鹑的BID50。WL鸡对HPAIV分离株的BID50范围为10(1.2)至10(4.7)平均胚胎感染剂量(EID50)(中位数 = 10(2.9))。鸡源HPAIV分离株在WL鸡中的BID50范围为10(1.2)至10(3.0)EID50(中位数 = 10(2.6)),而火鸡源HPAIV分离株在WL鸡中的BID50更高,范围为10(2.8)至10(4.7)EID50(中位数 = 10(3.9))。BID50为10(4.7)的毒株来自一株火鸡源HPAIV病毒,该病毒未在同一农场的鸡中传播,这表明在该农场的特定条件下,该病毒群体的感染性、适应性或暴露程度不足以实现持续的鸡间传播。尽管预测特定物种感染性和持续传播能力的BID50上限尚不清楚,但BID50 < 10(4.7)提示可能具有这种传播能力。对于LPAIV,家鸭、家鹅和日本鹌鹑往往最易感,WL鸡最具抗性,但在中等攻毒剂量下,火鸡对两种测试的LPAIV易感。这表明家鸭、家鹅、火鸡和日本鹌鹑可能作为LPAIV从野生水禽传播至鸡及其他鸡形目家禽的桥梁物种。这些数据确实支持了一种普遍且直观的观点,即在饲养过程中以及户外生产系统中家禽物种的混养是AIV跨物种传播以及出现能够引发禽流感疫情的新AIV毒株的主要风险因素,因为这些情况会呈现出更多样化的宿主群体,从而规避循环病毒的自然宿主依赖性或宿主范围。
