痤疮的局部、光疗和补充干预措施:系统评价概述。
Topical, light-based, and complementary interventions for acne: an overview of systematic reviews.
机构信息
Centre for Evidence-Based Chinese Medicine, Beijing University of Chinese Medicine, Beijing, China.
Nottingham Ningbo GRADE Centre, School of Economics, University of Nottingham Ningbo China, Ningbo, China.
出版信息
Cochrane Database Syst Rev. 2024 Oct 23;10(10):CD014918. doi: 10.1002/14651858.CD014918.pub2.
BACKGROUND
Acne is a chronic inflammatory and immune-mediated disease of the pilosebaceous unit (the skin structure consisting of a hair follicle and its associated sebaceous gland). It is characterised by non-inflammatory lesions (open and closed comedones) and inflammatory lesions (papules, pustules, nodules, and cysts). Lesions may be present on the face, thorax, and back, with variable severity. Acne exhibits a global distribution and has a growing prevalence. Acne vulgaris is the most common form. Acne gives rise to complications such as scars and can seriously affect people's mental health, especially those with severe acne. Acne has a huge impact on the quality of life and self-esteem of those affected.
OBJECTIVES
To synthesise the existing evidence on the efficacy and safety of non-systemic pharmacological interventions and non-pharmacological interventions (physical therapy and complementary therapies) in the treatment of acne vulgaris and related skin complications.
METHODS
We searched the Cochrane Database of Systematic Reviews, Epistemonikos, MEDLINE, and Embase to 2 December 2021, and checked the reference lists of included reviews. At least two authors were responsible for screening, data extraction, and critical appraisal. We excluded reviews with high risk of bias as assessed with the ROBIS tool. We evaluated the overall certainty of the evidence according to GRADE (as carried out by the authors of the included reviews or ourselves). We provide comprehensive evidence from the review data, including summary of findings tables, summary of results tables, and evidence maps.
MAIN RESULTS
We retrieved and assessed a total of 733 records; however, only six reviews (five Cochrane reviews and one non-Cochrane review) with low risk of bias met the overview inclusion criteria. The six reviews involved 40,910 people with acne from 275 trials and 1316 people with acne scars from 37 trials. The age of the participants ranged from 10 to 59 years, with an average age range from 18 to 30 years. Four reviews included original trials involving only female participants and three reviews included original trials with only male participants. Main results for clinically important comparisons: Benzoyl peroxide versus placebo or no treatment: In two trials involving 1012 participants over 12 weeks, benzoyl peroxide may reduce the total (mean difference (MD) -16.14, 95% confidence interval (CI) -26.51 to -5.78), inflammatory (MD -6.12, 95% CI -11.02 to -1.22), and non-inflammatory lesion counts (MD -9.69, 95% CI -15.08 to -4.29) when compared to placebo (long-term treatment), but the evidence is very uncertain (very low-certainty evidence). Two trials including 1073 participants (time point: 10 and 12 weeks) suggested benzoyl peroxide may have little to no effect in improving participants' global self-assessment compared to placebo (long-term treatment), but the evidence is very uncertain (risk ratio (RR) 1.44, 95% CI 0.94 to 2.22; very low-certainty evidence). Very low-certainty evidence suggested that benzoyl peroxide may improve investigators' global assessment (RR 1.77, 95% CI 1.37 to 2.28; 6 trials, 4110 participants, long-term treatment (12 weeks)) compared to placebo. Thirteen trials including 4287 participants over 10 to 12 weeks suggested benzoyl peroxide may increase the risk of a less serious adverse event compared to placebo (long-term treatment), but the evidence is very uncertain (RR 1.46, 95% CI 1.01 to 2.11; very low-certainty evidence). Benzoyl peroxide versus topical retinoids: Benzoyl peroxide may increase the percentage change in total lesion count compared to adapalene (long-term treatment), but the evidence is very uncertain (MD 10.8, 95% CI 3.38 to 18.22; 1 trial, 205 participants, 12 weeks; very low-certainty evidence). When compared to adapalene, benzoyl peroxide may have little to no effect on the following outcomes (long-term treatment): percentage change in inflammatory lesion counts (MD -7.7, 95% CI -16.46 to 1.06; 1 trial, 142 participants, 11 weeks; very low-certainty evidence), percentage change in non-inflammatory lesion counts (MD -3.9, 95% CI -13.31 to 5.51; 1 trial, 142 participants, 11 weeks; very low-certainty evidence), participant's global self-assessment (RR 0.96, 95% CI 0.86 to 1.06; 4 trials, 1123 participants, 11 to 12 weeks; low-certainty evidence), investigators' global assessment (RR 1.16, 95% CI 0.98 to 1.37; 3 trials, 1965 participants, 12 weeks; low-certainty evidence), and incidence of a less serious adverse event (RR 0.77, 95% CI 0.48 to 1.25, 1573 participants, 5 trials, 11 to 12 weeks; very low-certainty evidence). Benzoyl peroxide versus topical antibiotics: When compared to clindamycin, benzoyl peroxide may have little to no effect on the following outcomes (long-term treatment): total lesion counts (MD -3.50, 95% CI -7.54 to 0.54; 1 trial, 641 participants, 12 weeks; very low-certainty evidence), inflammatory lesion counts (MD -1.20, 95% CI -2.99 to 0.59; 1 trial, 641 participants, 12 weeks; very low-certainty evidence), non-inflammatory lesion counts (MD -2.4, 95% CI -5.3 to 0.5; 1 trial, 641 participants, 12 weeks; very low-certainty evidence), participant's global self-assessment (RR 0.95, 95% CI 0.68 to 1.34; 1 trial, 240 participants, 10 weeks; low-certainty evidence), investigator's global assessment (RR 1.10, 95% CI 0.83 to 1.45; 2 trials, 2277 participants, 12 weeks; very low-certainty evidence), and incidence of a less serious adverse event (RR 1.27, 95% CI 0.98 to 1.64; 5 trials, 2842 participants, 10 to 12 weeks; low-certainty evidence). For these clinically important comparisons, no review collected data for the following outcomes: frequency of participants experiencing at least one serious adverse event or quality of life. No review collected data for the following comparisons: topical antibiotics versus placebo or no treatment, topical retinoids versus placebo or no treatment, or topical retinoids versus topical antibiotics.
AUTHORS' CONCLUSIONS: This overview summarises the evidence for topical therapy, phototherapy, and complementary therapy for acne and acne scars. We found no high-certainty evidence for the effects of any therapy included. Randomised controlled trials and systematic reviews related to acne and acne scars had limitations (low methodological quality). We could not summarise the evidence for topical retinoids and topical antibiotics due to insufficient high-quality systematic reviews. Future research should consider pooled analysis of data on new emerging drugs for acne treatment (e.g. clascoterone) and focus more on acne complications.
背景
痤疮是一种慢性炎症性和免疫介导的毛囊皮脂腺单位(由毛囊及其相关皮脂腺组成的皮肤结构)疾病。它的特征是无炎症性皮损(开放性和闭合性粉刺)和炎症性皮损(丘疹、脓疱、结节和囊肿)。皮损可发生于面部、胸部和背部,严重程度不一。痤疮分布广泛,患病率不断上升。寻常痤疮是最常见的类型。痤疮会引起疤痕等并发症,严重影响人们的心理健康,尤其是那些痤疮严重的人。痤疮对受影响人群的生活质量和自尊心有巨大影响。
目的
综合现有关于非系统性药物干预和非药物干预(物理治疗和补充疗法)治疗寻常痤疮及其相关皮肤并发症的疗效和安全性的证据。
方法
我们检索了 Cochrane 系统评价数据库、Epistemonikos、MEDLINE 和 Embase,截至 2021 年 12 月 2 日,并检查了纳入综述的参考文献列表。至少有两名作者负责筛选、数据提取和关键评估。我们排除了用 ROBIS 工具评估为高偏倚风险的综述。我们根据 GRADE(由纳入综述的作者或我们自己进行)评估证据的总体确定性。我们从综述数据中提供全面的证据,包括汇总结局表格、汇总结果表格和证据图。
主要结果
我们检索并评估了 733 条记录;然而,只有六项综述(五项 Cochrane 综述和一项非 Cochrane 综述)符合纳入综述的低偏倚标准。这六项综述共纳入了 275 项试验的 40910 名痤疮患者和 37 项试验的 1316 名痤疮疤痕患者。参与者的年龄从 10 岁到 59 岁不等,平均年龄范围从 18 岁到 30 岁不等。四项综述包括仅女性参与者的原始试验,三项综述包括仅男性参与者的原始试验。主要结果是对临床上重要的比较:过氧苯甲酰与安慰剂或无治疗:在两项涉及 1012 名参与者的 12 周试验中,过氧苯甲酰可能会减少总(平均差值(MD)-16.14,95%置信区间(CI)-26.51 至-5.78)、炎症(MD-6.12,95%CI-11.02 至-1.22)和非炎症性皮损计数(MD-9.69,95%CI-15.08 至-4.29)与安慰剂(长期治疗)相比,但证据非常不确定(非常低确定性证据)。两项包括 1073 名参与者的试验(时间点:10 周和 12 周)表明,与安慰剂(长期治疗)相比,过氧苯甲酰对改善参与者的总体自我评估可能影响不大,但证据非常不确定(RR 1.44,95%CI 0.94 至 2.22;非常低确定性证据)。非常低确定性证据表明,过氧苯甲酰可能会改善研究人员的总体评估(RR 1.77,95%CI 1.37 至 2.28;6 项试验,4110 名参与者,长期治疗(12 周))与安慰剂相比。13 项涉及 10 至 12 周的 4287 名参与者的试验表明,与安慰剂相比,过氧苯甲酰可能会增加出现不太严重不良事件的风险,但证据非常不确定(RR 1.46,95%CI 1.01 至 2.11;非常低确定性证据)。过氧苯甲酰与局部用类视黄醇:过氧苯甲酰可能会增加总皮损计数与阿达帕林相比的百分比变化(长期治疗),但证据非常不确定(MD 10.8,95%CI 3.38 至 18.22;1 项试验,205 名参与者,12 周;非常低确定性证据)。与阿达帕林相比,过氧苯甲酰可能对以下结局没有影响或影响不大(长期治疗):炎症性皮损计数的百分比变化(MD-7.7,95%CI-16.46 至 1.06;1 项试验,142 名参与者,11 周;非常低确定性证据)、非炎症性皮损计数的百分比变化(MD-3.9,95%CI-13.31 至 5.51;1 项试验,142 名参与者,11 周;非常低确定性证据)、参与者的总体自我评估(RR 0.96,95%CI 0.86 至 1.06;4 项试验,1123 名参与者,11 至 12 周;低确定性证据)、研究人员的总体评估(RR 1.16,95%CI 0.98 至 1.37;3 项试验,1965 名参与者,12 周;低确定性证据)和较少严重不良事件的发生率(RR 0.77,95%CI 0.48 至 1.25,1573 名参与者,5 项试验,11 至 12 周;非常低确定性证据)。过氧苯甲酰与局部用抗生素:与克林霉素相比,过氧苯甲酰对以下结局可能没有影响或影响不大(长期治疗):总皮损计数(MD-3.50,95%CI-7.54 至 0.54;1 项试验,641 名参与者,12 周;非常低确定性证据)、炎症性皮损计数(MD-1.20,95%CI-2.99 至 0.59;1 项试验,641 名参与者,12 周;非常低确定性证据)、非炎症性皮损计数(MD-2.4,95%CI-5.3 至 0.5;1 项试验,641 名参与者,12 周;非常低确定性证据)、参与者的总体自我评估(RR 0.95,95%CI 0.68 至 1.34;1 项试验,240 名参与者,10 周;低确定性证据)、研究人员的总体评估(RR 1.10,95%CI 0.83 至 1.45;2 项试验,2277 名参与者,12 周;非常低确定性证据)和较少严重不良事件的发生率(RR 1.27,95%CI 0.98 至 1.64;5 项试验,2842 名参与者,10 至 12 周;低确定性证据)。对于这些临床上重要的比较,没有综述收集以下结局的数据:至少一次严重不良事件的频率或生活质量。没有综述收集以下比较的数据:局部用抗生素与安慰剂或无治疗、局部用类视黄醇与安慰剂或无治疗、或局部用类视黄醇与局部用抗生素。
作者结论
本综述总结了治疗痤疮和痤疮疤痕的局部治疗、光疗和补充疗法的证据。我们发现没有任何治疗效果的高确定性证据。与痤疮和痤疮疤痕相关的随机对照试验和系统评价存在局限性(方法学质量低)。我们不能总结局部用类视黄醇和局部用抗生素的证据,因为没有足够高质量的系统评价。未来的研究应考虑对新出现的痤疮治疗药物(如氯司替酮)进行 pooled 分析,并更加关注痤疮并发症。
Zotero 插件