多组分策略联合去中心化分子检测在结核病中的应用。
Multicomponent Strategy with Decentralized Molecular Testing for Tuberculosis.
机构信息
From the Division of Pulmonary and Critical Care Medicine and the Center for Tuberculosis, San Francisco General Hospital (A.C., T.F.R., P.B.S.), the Partnerships for Research in Implementation Science for Equity Center (A.C., P.B.S., M.A.H.), and the Departments of Epidemiology and Biostatistics (M.A.H.) and Social and Behavioral Sciences (S.A.), University of California, San Francisco, San Francisco; the Uganda Tuberculosis Implementation Research Consortium (A.C., T.N., M.N., D.O., S.N., D.B., S.T., P.B.S., D.A.J.M., J.L.D., D.W.D., A.K.), National Tuberculosis and Leprosy Program, Uganda Ministry of Health (S.T.), and the Schools of Biomedical Sciences (M.J.) and Medicine (A.K.), Makerere University College of Health Sciences - all in Kampala, Uganda; the Implementation Science Program (K.A.) and the Department of Epidemiology (A.T., H.S., O.F., R.T., D.W.D.), Johns Hopkins Bloomberg School of Public Health, Baltimore; the Faculties of Infectious and Tropical Diseases (D.A.J.M.) and Epidemiology and Population Health (K.F.) and the TB Centre (D.A.J.M., K.F.), London School of Hygiene and Tropical Medicine, London; the Department of Epidemiology of Microbial Diseases and the Center for Methods in Implementation and Prevention Sciences, Yale School of Public Health, and the Section of Pulmonary, Critical Care, and Sleep Medicine, Yale School of Medicine - both in New Haven, CT (J.L.D.).
出版信息
N Engl J Med. 2021 Dec 23;385(26):2441-2450. doi: 10.1056/NEJMoa2105470.
BACKGROUND
Effective strategies are needed to facilitate the prompt diagnosis and treatment of tuberculosis in countries with a high burden of the disease.
METHODS
We conducted a cluster-randomized trial in which Ugandan community health centers were assigned to a multicomponent diagnostic strategy (on-site molecular testing for tuberculosis, guided restructuring of clinic workflows, and monthly feedback of quality metrics) or routine care (on-site sputum-smear microscopy and referral-based molecular testing). The primary outcome was the number of adults treated for confirmed tuberculosis within 14 days after presenting to the health center for evaluation during the 16-month intervention period. Secondary outcomes included completion of tuberculosis testing, same-day diagnosis, and same-day treatment. Outcomes were also assessed on the basis of proportions.
RESULTS
A total of 20 health centers underwent randomization, with 10 assigned to each group. Of 10,644 eligible adults (median age, 40 years) whose data were evaluated, 60.1% were women and 43.8% had human immunodeficiency virus infection. The intervention strategy led to a greater number of patients being treated for confirmed tuberculosis within 14 days after presentation (342 patients across 10 intervention health centers vs. 220 across 10 control health centers; adjusted rate ratio, 1.56; 95% confidence interval [CI], 1.21 to 2.01). More patients at intervention centers than at control centers completed tuberculosis testing (adjusted rate ratio, 1.85; 95% CI, 1.21 to 2.82), received a same-day diagnosis (adjusted rate ratio, 1.89; 95% CI, 1.39 to 2.56), and received same-day treatment for confirmed tuberculosis (adjusted rate ratio, 2.38; 95% CI, 1.57 to 3.61). Among 706 patients with confirmed tuberculosis, a higher proportion in the intervention group than in the control group were treated on the same day (adjusted rate ratio, 2.29; 95% CI, 1.23 to 4.25) or within 14 days after presentation (adjusted rate ratio, 1.22; 95% CI, 1.06 to 1.40).
CONCLUSIONS
A multicomponent diagnostic strategy that included on-site molecular testing plus implementation supports to address barriers to delivery of high-quality tuberculosis evaluation services led to greater numbers of patients being tested, receiving a diagnosis, and being treated for confirmed tuberculosis. (Funded by the National Heart, Lung, and Blood Institute; XPEL-TB ClinicalTrials.gov number, NCT03044158.).
背景
在结核病负担较高的国家,需要采取有效的策略来促进结核病的及时诊断和治疗。
方法
我们进行了一项整群随机试验,将乌干达社区卫生中心分配到多组分诊断策略(现场分子检测、临床工作流程的指导重构以及每月质量指标反馈)或常规护理(现场痰涂片显微镜检查和基于转诊的分子检测)。主要结局是在 16 个月的干预期间,在卫生中心就诊评估后 14 天内治疗确诊结核病的成年人数量。次要结局包括完成结核病检测、当天诊断和当天治疗。结果还基于比例进行了评估。
结果
共有 20 个卫生中心接受了随机分组,每组 10 个。在评估数据的 10644 名合格成年人(中位年龄 40 岁)中,60.1%为女性,43.8%感染了人类免疫缺陷病毒。干预策略导致更多的患者在就诊后 14 天内接受确诊结核病的治疗(10 个干预卫生中心的 342 例患者与 10 个对照卫生中心的 220 例患者相比;校正率比,1.56;95%置信区间[CI],1.21 至 2.01)。干预中心完成结核病检测的患者多于对照组(校正率比,1.85;95%CI,1.21 至 2.82),当天获得诊断的患者多于对照组(校正率比,1.89;95%CI,1.39 至 2.56),当天接受确诊结核病治疗的患者也多于对照组(校正率比,2.38;95%CI,1.57 至 3.61)。在 706 例确诊结核病患者中,干预组中有更高比例的患者当天(校正率比,2.29;95%CI,1.23 至 4.25)或在就诊后 14 天内(校正率比,1.22;95%CI,1.06 至 1.40)接受治疗。
结论
包括现场分子检测和实施支持措施以解决高质量结核病评估服务提供障碍的多组分诊断策略,使更多患者接受检测、获得诊断并接受确诊结核病的治疗。(由美国国立心肺血液研究所资助;XPEL-TB ClinicalTrials.gov 编号,NCT03044158。)
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