计算影响数值的置信区间。
Calculating confidence intervals for impact numbers.
作者信息
Hildebrandt Mandy, Bender Ralf, Gehrmann Ulrich, Blettner Maria
机构信息
Department of Medical Biometry, Institute for Quality and Efficiency in Health Care (IQWiG), Dillenburger Str, 27, 51105 Cologne, Germany.
出版信息
BMC Med Res Methodol. 2006 Jul 12;6:32. doi: 10.1186/1471-2288-6-32.
BACKGROUND
Standard effect measures such as risk difference and attributable risk are frequently used in epidemiological studies and public health research to describe the effect of exposures. Recently, so-called impact numbers have been proposed, which express the population impact of exposures in form of specific person or case numbers. To describe estimation uncertainty, it is necessary to calculate confidence intervals for these new effect measures. In this paper, we present methods to calculate confidence intervals for the new impact numbers in the situation of cohort studies.
METHODS
Beside the exposure impact number (EIN), which is equivalent to the well-known number needed to treat (NNT), two other impact numbers are considered: the case impact number (CIN) and the exposed cases impact number (ECIN), which describe the number of cases (CIN) and the number of exposed cases (ECIN) with an outcome among whom one case is attributable to the exposure. The CIN and ECIN represent reciprocals of the population attributable risk (PAR) and the attributable fraction among the exposed (AFe), respectively. Thus, confidence intervals for these impact numbers can be calculated by inverting and exchanging the confidence limits of the PAR and AFe.
EXAMPLES
We considered a British and a Japanese cohort study that investigated the association between smoking and death from coronary heart disease (CHD) and between smoking and stroke, respectively. We used the reported death and disease rates and calculated impact numbers with corresponding 95% confidence intervals. In the British study, the CIN was 6.46, i.e. on average, of any 6 to 7 persons who died of CHD, one case was attributable to smoking with corresponding 95% confidence interval of [3.84, 20.36]. For the exposed cases, the results of ECIN = 2.64 with 95% confidence interval [1.76, 5.29] were obtained. In the Japanese study, the CIN was 6.67, i.e. on average, of the 6 to 7 persons who had a stroke, one case was attributable to smoking with corresponding 95% confidence interval of [3.80, 27.27]. For the exposed cases, the results of ECIN = 4.89 with 95% confidence interval of [2.86, 16.67] were obtained.
CONCLUSION
The consideration of impact numbers in epidemiological analyses provides additional information and helps the interpretation of study results, e.g. in public health research. In practical applications, it is necessary to describe estimation uncertainty. We have shown that the calculation of confidence intervals for the new impact numbers is possible by means of known methods for attributable risk measures. Therefore, estimated impact numbers should always be complemented by appropriate confidence intervals.
背景
风险差和归因风险等标准效应量在流行病学研究和公共卫生研究中经常用于描述暴露因素的效应。最近,有人提出了所谓的影响数,它以特定的人数或病例数的形式来表示暴露因素对人群的影响。为了描述估计的不确定性,有必要计算这些新效应量的置信区间。在本文中,我们提出了在队列研究情况下计算新影响数置信区间的方法。
方法
除了与众所周知的治疗所需人数(NNT)相当的暴露影响数(EIN)外,还考虑了另外两个影响数:病例影响数(CIN)和暴露病例影响数(ECIN),它们分别描述了因暴露导致一例发病的病例数(CIN)和暴露病例数(ECIN)。CIN和ECIN分别代表人群归因风险(PAR)和暴露人群归因比例(AFe)的倒数。因此,这些影响数的置信区间可以通过反转和交换PAR和AFe的置信限来计算。
实例
我们考虑了一项英国队列研究和一项日本队列研究,前者分别调查了吸烟与冠心病(CHD)死亡之间的关联,后者调查了吸烟与中风之间的关联。我们使用报告的死亡率和发病率,并计算了相应的95%置信区间的影响数。在英国的研究中,CIN为6.46,即平均而言,每6至7名死于冠心病的人中,有1例可归因于吸烟,相应的95%置信区间为[3.84, 20.36]。对于暴露病例,得到的ECIN结果为2.64,95%置信区间为[1.76, 5.29]。在日本的研究中,CIN为6.67,即平均而言,每6至7名中风患者中,有1例可归因于吸烟,相应的95%置信区间为[3.80, 27.27]。对于暴露病例,得到的ECIN结果为4.89,95%置信区间为[2.86, 16.67]。
结论
在流行病学分析中考虑影响数可提供额外信息,并有助于解释研究结果,例如在公共卫生研究中。在实际应用中,有必要描述估计的不确定性。我们已经表明,通过已知的归因风险测量方法可以计算新影响数的置信区间。因此,估计的影响数应始终辅以适当的置信区间。
Zotero 插件