心血管疾病一级预防的风险评分
Risk scoring for the primary prevention of cardiovascular disease.
作者信息
Karmali Kunal N, Persell Stephen D, Perel Pablo, Lloyd-Jones Donald M, Berendsen Mark A, Huffman Mark D
机构信息
Departments of Medicine (Cardiology), Northwestern University Feinberg School of Medicine, 750 N. Lake Shore Drive, 10th Floor, Chicago, IL, USA, 60611.
Department of Medicine-General Internal Medicine and Geriatrics, Northwestern University, 750 N Lake Shore Drive, Rubloff Building 10th Floo, Chicago, Illinois, USA, 60611.
出版信息
Cochrane Database Syst Rev. 2017 Mar 14;3(3):CD006887. doi: 10.1002/14651858.CD006887.pub4.
BACKGROUND
The current paradigm for cardiovascular disease (CVD) emphasises absolute risk assessment to guide treatment decisions in primary prevention. Although the derivation and validation of multivariable risk assessment tools, or CVD risk scores, have attracted considerable attention, their effect on clinical outcomes is uncertain.
OBJECTIVES
To assess the effects of evaluating and providing CVD risk scores in adults without prevalent CVD on cardiovascular outcomes, risk factor levels, preventive medication prescribing, and health behaviours.
SEARCH METHODS
We searched the Cochrane Central Register of Controlled Trials (CENTRAL) in the Cochrane Library (2016, Issue 2), MEDLINE Ovid (1946 to March week 1 2016), Embase (embase.com) (1974 to 15 March 2016), and Conference Proceedings Citation Index-Science (CPCI-S) (1990 to 15 March 2016). We imposed no language restrictions. We searched clinical trial registers in March 2016 and handsearched reference lists of primary studies to identify additional reports.
SELECTION CRITERIA
We included randomised and quasi-randomised trials comparing the systematic provision of CVD risk scores by a clinician, healthcare professional, or healthcare system compared with usual care (i.e. no systematic provision of CVD risk scores) in adults without CVD.
DATA COLLECTION AND ANALYSIS
Three review authors independently selected studies, extracted data, and evaluated study quality. We used the Cochrane 'Risk of bias' tool to assess study limitations. The primary outcomes were: CVD events, change in CVD risk factor levels (total cholesterol, systolic blood pressure, and multivariable CVD risk), and adverse events. Secondary outcomes included: lipid-lowering and antihypertensive medication prescribing in higher-risk people. We calculated risk ratios (RR) for dichotomous data and mean differences (MD) or standardised mean differences (SMD) for continuous data using 95% confidence intervals. We used a fixed-effects model when heterogeneity (I²) was at least 50% and a random-effects model for substantial heterogeneity (I² > 50%). We evaluated the quality of evidence using the GRADE framework.
MAIN RESULTS
We identified 41 randomised controlled trials (RCTs) involving 194,035 participants from 6422 reports. We assessed studies as having high or unclear risk of bias across multiple domains. Low-quality evidence evidence suggests that providing CVD risk scores may have little or no effect on CVD events compared with usual care (5.4% versus 5.3%; RR 1.01, 95% confidence interval (CI) 0.95 to 1.08; I² = 25%; 3 trials, N = 99,070). Providing CVD risk scores may reduce CVD risk factor levels by a small amount compared with usual care. Providing CVD risk scores reduced total cholesterol (MD -0.10 mmol/L, 95% CI -0.20 to 0.00; I² = 94%; 12 trials, N = 20,437, low-quality evidence), systolic blood pressure (MD -2.77 mmHg, 95% CI -4.16 to -1.38; I² = 93%; 16 trials, N = 32,954, low-quality evidence), and multivariable CVD risk (SMD -0.21, 95% CI -0.39 to -0.02; I² = 94%; 9 trials, N = 9549, low-quality evidence). Providing CVD risk scores may reduce adverse events compared with usual care, but results were imprecise (1.9% versus 2.7%; RR 0.72, 95% CI 0.49 to 1.04; I² = 0%; 4 trials, N = 4630, low-quality evidence). Compared with usual care, providing CVD risk scores may increase new or intensified lipid-lowering medications (15.7% versus 10.7%; RR 1.47, 95% CI 1.15 to 1.87; I² = 40%; 11 trials, N = 14,175, low-quality evidence) and increase new or increased antihypertensive medications (17.2% versus 11.4%; RR 1.51, 95% CI 1.08 to 2.11; I² = 53%; 8 trials, N = 13,255, low-quality evidence).
AUTHORS' CONCLUSIONS: There is uncertainty whether current strategies for providing CVD risk scores affect CVD events. Providing CVD risk scores may slightly reduce CVD risk factor levels and may increase preventive medication prescribing in higher-risk people without evidence of harm. There were multiple study limitations in the identified studies and substantial heterogeneity in the interventions, outcomes, and analyses, so readers should interpret results with caution. New models for implementing and evaluating CVD risk scores in adequately powered studies are needed to define the role of applying CVD risk scores in primary CVD prevention.
背景
目前心血管疾病(CVD)的范例强调绝对风险评估,以指导一级预防中的治疗决策。尽管多变量风险评估工具(即CVD风险评分)的推导和验证已引起广泛关注,但其对临床结局的影响尚不确定。
目的
评估在无CVD病史的成年人中评估并提供CVD风险评分对心血管结局、危险因素水平、预防性药物处方及健康行为的影响。
检索方法
我们检索了Cochrane图书馆(2016年第2期)中的Cochrane对照试验中心注册库(CENTRAL)、MEDLINE Ovid(1946年至2016年3月第1周)、Embase(embase.com)(1974年至2016年3月15日)以及会议论文引文索引-科学版(CPCI-S)(1990年至2016年3月15日)。我们未设语言限制。我们在2016年3月检索了临床试验注册库,并手工检索了原始研究的参考文献列表以识别其他报告。
选择标准
我们纳入了随机和半随机试验,这些试验比较了临床医生、医疗保健专业人员或医疗保健系统系统性提供CVD风险评分与无CVD的成年人常规治疗(即不系统性提供CVD风险评分)的效果。
数据收集与分析
三位综述作者独立选择研究、提取数据并评估研究质量。我们使用Cochrane“偏倚风险”工具评估研究局限性。主要结局包括:CVD事件、CVD危险因素水平变化(总胆固醇、收缩压和多变量CVD风险)以及不良事件。次要结局包括:高危人群中降脂和降压药物的处方。我们使用95%置信区间计算二分数据的风险比(RR)以及连续数据的均值差(MD)或标准化均值差(SMD)。当异质性(I²)至少为50%时,我们使用固定效应模型;当异质性较大(I²>50%)时,我们使用随机效应模型。我们使用GRADE框架评估证据质量。
主要结果
我们从6422篇报告中识别出41项随机对照试验(RCT),涉及194,035名参与者。我们评估这些研究在多个领域存在高或不明确的偏倚风险。低质量证据表明,与常规治疗相比,提供CVD风险评分对CVD事件可能几乎没有影响(5.4%对5.3%;RR 1.01,95%置信区间(CI)0.95至1.08;I² = 25%;3项试验,N = 99,070)。与常规治疗相比,提供CVD风险评分可能会使CVD危险因素水平略有降低。提供CVD风险评分可降低总胆固醇(MD -0.10 mmol/L,95% CI -0.20至0.00;I² = 94%;12项试验,N = 20,437,低质量证据)、收缩压(MD -2.77 mmHg,95% CI -4.16至-1.38;I² = 93%;16项试验,N = 32,954,低质量证据)以及多变量CVD风险(SMD -0.21,95% CI -0.39至-0.02;I² = 94%;9项试验,N = 9549,低质量证据)。与常规治疗相比,提供CVD风险评分可能会减少不良事件,但结果不精确(1.9%对2.7%;RR 0.72,95% CI 0.49至1.04;I² = 0%;4项试验,N = 4630,低质量证据)。与常规治疗相比,提供CVD风险评分可能会增加新的或强化的降脂药物(15.7%对10.7%;RR 1.47,95% CI 1.15至1.87;I² = 40%;11项试验,N = 14,175,低质量证据)以及增加新的或增加剂量的降压药物(17.2%对11.4%;RR 1.51,95% CI 1.08至2.11;I² = 53%;8项试验,N = 13,255,低质量证据)。
作者结论
目前提供CVD风险评分的策略是否影响CVD事件尚不确定。提供CVD风险评分可能会略微降低CVD危险因素水平,并且可能会增加高危人群的预防性药物处方,且无有害证据。在已识别的研究中存在多个研究局限性,干预措施、结局和分析存在大量异质性,因此读者应谨慎解释结果。需要在有足够样本量的研究中采用新的模型来实施和评估CVD风险评分,以确定应用CVD风险评分在CVD一级预防中的作用。
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