Longini Ira M, Nizam Azhar, Ali Mohammad, Yunus Mohammad, Shenvi Neeta, Clemens John D
Vaccine and Infectious Disease Institute, Fred Hutchinson Cancer Research Center, Seattle, Washington, United States of America.
PLoS Med. 2007 Nov 27;4(11):e336. doi: 10.1371/journal.pmed.0040336.
Although advances in rehydration therapy have made cholera a treatable disease with low case-fatality in settings with appropriate medical care, cholera continues to impose considerable mortality in the world's most impoverished populations. Internationally licensed, killed whole-cell based oral cholera vaccines (OCVs) have been available for over a decade, but have not been used for the control of cholera. Recently, these vaccines were shown to confer significant levels of herd protection, suggesting that the protective potential of these vaccines has been underestimated and that these vaccines may be highly effective in cholera control when deployed in mass immunization programs. We used a large-scale stochastic simulation model to investigate the possibility of controlling endemic cholera with OCVs.
We construct a large-scale, stochastic cholera transmission model of Matlab, Bangladesh. We find that cholera transmission could be controlled in endemic areas with 50% coverage with OCVs. At this level of coverage, the model predicts that there would be an 89% (95% confidence interval [CI] 72%-98%) reduction in cholera cases among the unvaccinated, and a 93% (95% CI 82%-99%) reduction overall in the entire population. Even a more modest coverage of 30% would result in a 76% (95% CI 44%-95%) reduction in cholera incidence for the population area covered. For populations that have less natural immunity than the population of Matlab, 70% coverage would probably be necessary for cholera control, i.e., an annual incidence rate of < or = 1 case per 1,000 people in the population.
Endemic cholera could be reduced to an annual incidence rate of < or = 1 case per 1,000 people in endemic areas with biennial vaccination with OCVs if coverage could reach 50%-70% depending on the level of prior immunity in the population. These vaccination efforts could be targeted with careful use of ecological data.
尽管补液疗法的进步已使霍乱在具备适当医疗护理的环境中成为一种病死率较低的可治疗疾病,但霍乱在世界上最贫困的人群中仍造成相当高的死亡率。国际许可的、基于全细胞灭活的口服霍乱疫苗(OCV)已上市十多年,但尚未用于霍乱控制。最近,这些疫苗显示出显著水平的群体保护作用,这表明这些疫苗的保护潜力被低估了,并且当在大规模免疫计划中使用时,这些疫苗在霍乱控制方面可能非常有效。我们使用大规模随机模拟模型来研究用OCV控制地方性霍乱的可能性。
我们构建了一个孟加拉国Matlab的大规模随机霍乱传播模型。我们发现,在OCV覆盖率达到50%的流行地区,霍乱传播可以得到控制。在这个覆盖率水平下,模型预测未接种疫苗者中的霍乱病例将减少89%(95%置信区间[CI]72%-98%),整个人口中的霍乱病例总体减少93%(95%CI 82%-99%)。即使覆盖率仅为更适度的30%,也会使所覆盖人口地区的霍乱发病率降低76%(95%CI 44%-95%)。对于自然免疫力低于Matlab人群的群体,可能需要70%的覆盖率来控制霍乱,即人群中每年发病率≤每1000人1例。
如果覆盖率能根据人群先前的免疫水平达到50%-70%,通过每两年接种一次OCV,地方性霍乱在流行地区的年发病率可降至≤每1000人1例。这些疫苗接种工作可以通过谨慎利用生态数据来进行针对性实施。
