Lindson Nicola, Chepkin Samantha C, Ye Weiyu, Fanshawe Thomas R, Bullen Chris, Hartmann-Boyce Jamie
Nuffield Department of Primary Care Health Sciences, University of Oxford, Radcliffe Observatory Quarter, Woodstock Road, Oxford, Oxfordshire, UK, OX2 6GG.
Cochrane Database Syst Rev. 2019 Apr 18;4(4):CD013308. doi: 10.1002/14651858.CD013308.
Nicotine replacement therapy (NRT) aims to replace nicotine from cigarettes to ease the transition from cigarette smoking to abstinence. It works by reducing the intensity of craving and withdrawal symptoms. Although there is clear evidence that NRT used after smoking cessation is effective, it is unclear whether higher doses, longer durations of treatment, or using NRT before cessation add to its effectiveness.
To determine the effectiveness and safety of different forms, deliveries, doses, durations and schedules of NRT, for achieving long-term smoking cessation, compared to one another.
We searched the Cochrane Tobacco Addiction Group trials register, and trial registries for papers mentioning NRT in the title, abstract or keywords. Date of most recent search: April 2018.
Randomized trials in people motivated to quit, comparing one type of NRT use with another. We excluded trials that did not assess cessation as an outcome, with follow-up less than six months, and with additional intervention components not matched between arms. Trials comparing NRT to control, and trials comparing NRT to other pharmacotherapies, are covered elsewhere.
We followed standard Cochrane methods. Smoking abstinence was measured after at least six months, using the most rigorous definition available. We extracted data on cardiac adverse events (AEs), serious adverse events (SAEs), and study withdrawals due to treatment. We calculated the risk ratio (RR) and the 95% confidence interval (CI) for each outcome for each study, where possible. We grouped eligible studies according to the type of comparison. We carried out meta-analyses where appropriate, using a Mantel-Haenszel fixed-effect model.
We identified 63 trials with 41,509 participants. Most recruited adults either from the community or from healthcare clinics. People enrolled in the studies typically smoked at least 15 cigarettes a day. We judged 24 of the 63 studies to be at high risk of bias, but restricting the analysis only to those studies at low or unclear risk of bias did not significantly alter results, apart from in the case of the preloading comparison. There is high-certainty evidence that combination NRT (fast-acting form + patch) results in higher long-term quit rates than single form (RR 1.25, 95% CI 1.15 to 1.36, 14 studies, 11,356 participants; I = 4%). Moderate-certainty evidence, limited by imprecision, indicates that 42/44 mg are as effective as 21/22 mg (24-hour) patches (RR 1.09, 95% CI 0.93 to 1.29, 5 studies, 1655 participants; I = 38%), and that 21 mg are more effective than 14 mg (24-hour) patches (RR 1.48, 95% CI 1.06 to 2.08, 1 study, 537 participants). Moderate-certainty evidence (again limited by imprecision) also suggests a benefit of 25 mg over 15 mg (16-hour) patches, but the lower limit of the CI encompassed no difference (RR 1.19, 95% CI 1.00 to 1.41, 3 studies, 3446 participants; I = 0%). Five studies comparing 4 mg gum to 2 mg gum found a benefit of the higher dose (RR 1.43, 95% CI 1.12 to 1.83, 5 studies, 856 participants; I = 63%); however, results of a subgroup analysis suggest that only smokers who are highly dependent may benefit. Nine studies tested the effect of using NRT prior to quit day (preloading) in comparison to using it from quit day onward; there was moderate-certainty evidence, limited by risk of bias, of a favourable effect of preloading on abstinence (RR 1.25, 95% CI 1.08 to 1.44, 9 studies, 4395 participants; I = 0%). High-certainty evidence from eight studies suggests that using either a form of fast-acting NRT or a nicotine patch results in similar long-term quit rates (RR 0.90, 95% CI 0.77 to 1.05, 8 studies, 3319 participants; I = 0%). We found no evidence of an effect of duration of nicotine patch use (low-certainty evidence); 16-hour versus 24-hour daily patch use; duration of combination NRT use (low- and very low-certainty evidence); tapering of patch dose versus abrupt patch cessation; fast-acting NRT type (very low-certainty evidence); duration of nicotine gum use; ad lib versus fixed dosing of fast-acting NRT; free versus purchased NRT; length of provision of free NRT; ceasing versus continuing patch use on lapse; and participant- versus clinician-selected NRT. However, in most cases these findings are based on very low- or low-certainty evidence, and are the findings from single studies.AEs, SAEs and withdrawals due to treatment were all measured variably and infrequently across studies, resulting in low- or very low-certainty evidence for all comparisons. Most comparisons found no evidence of an effect on cardiac AEs, SAEs or withdrawals. Rates of these were low overall. Significantly more withdrawals due to treatment were reported in participants using nasal spray in comparison to patch in one trial (RR 3.47, 95% CI 1.15 to 10.46, 922 participants; very low certainty) and in participants using 42/44 mg patches in comparison to 21/22 mg patches across two trials (RR 4.99, 95% CI 1.60 to 15.50, 2 studies, 544 participants; I = 0%; low certainty).
AUTHORS' CONCLUSIONS: There is high-certainty evidence that using combination NRT versus single-form NRT, and 4 mg versus 2 mg nicotine gum, can increase the chances of successfully stopping smoking. For patch dose comparisons, evidence was of moderate certainty, due to imprecision. Twenty-one mg patches resulted in higher quit rates than 14 mg (24-hour) patches, and using 25 mg patches resulted in higher quit rates than using 15 mg (16-hour) patches, although in the latter case the CI included one. There was no clear evidence of superiority for 42/44 mg over 21/22 mg (24-hour) patches. Using a fast-acting form of NRT, such as gum or lozenge, resulted in similar quit rates to nicotine patches. There is moderate-certainty evidence that using NRT prior to quitting may improve quit rates versus using it from quit date only; however, further research is needed to ensure the robustness of this finding. Evidence for the comparative safety and tolerability of different types of NRT use is of low and very low certainty. New studies should ensure that AEs, SAEs and withdrawals due to treatment are both measured and reported.
尼古丁替代疗法(NRT)旨在替代香烟中的尼古丁,以缓解从吸烟到戒烟的转变过程。它通过降低渴望和戒断症状的强度来发挥作用。虽然有明确证据表明戒烟后使用NRT是有效的,但尚不清楚更高剂量、更长疗程的治疗,或在戒烟前使用NRT是否会增加其有效性。
比较不同形式、给药方式、剂量、疗程和方案的NRT在实现长期戒烟方面的有效性和安全性。
我们检索了Cochrane烟草成瘾小组试验注册库,以及在标题、摘要或关键词中提及NRT的论文的试验注册库。最近一次检索日期:2018年4月。
针对有戒烟意愿的人群进行的随机试验,比较一种NRT使用方式与另一种方式。我们排除了未将戒烟作为结局进行评估、随访时间少于6个月以及各臂之间未匹配额外干预成分的试验。比较NRT与对照,以及比较NRT与其他药物疗法的试验,在其他地方涵盖。
我们遵循Cochrane的标准方法。使用可获得的最严格定义,在至少6个月后测量戒烟情况。我们提取了关于心脏不良事件(AE)、严重不良事件(SAE)以及因治疗导致的研究退出的数据。在可能的情况下,我们计算了每项研究各结局的风险比(RR)和95%置信区间(CI)。我们根据比较类型对符合条件的研究进行分组。在适当情况下,我们使用Mantel-Haenszel固定效应模型进行荟萃分析。
我们识别出63项试验,涉及41,509名参与者。大多数试验招募的是社区或医疗保健诊所的成年人。参与研究的人通常每天至少吸15支烟。我们判断63项研究中的24项存在高偏倚风险,但将分析仅限于那些低或不清楚偏倚风险的研究,除了预加载比较的情况外,并未显著改变结果。有高确定性证据表明,联合NRT(速效剂型+贴片)导致的长期戒烟率高于单一剂型(RR 1.25,95%CI 1.15至1.36,14项研究,11,356名参与者;I² = 4%)。受不精确性限制的中等确定性证据表明,42/44毫克与21/22毫克(24小时)贴片效果相同(RR 1.09,95%CI 0.93至1.29,5项研究,1655名参与者;I² = 38%),且21毫克比14毫克(24小时)贴片更有效(RR 1.48,95%CI 1.06至2.08,1项研究,537名参与者)。中等确定性证据(同样受不精确性限制)还表明,25毫克贴片比15毫克(16小时)贴片有优势,但CI的下限包含无差异情况(RR 1.19,95%CI 1.00至1.41,3项研究,3446名参与者;I² = 0%)。五项比较4毫克口香糖与2毫克口香糖的研究发现高剂量有优势(RR 1.43,95%CI 1.12至1.83,5项研究,856名参与者;I² = 63%);然而,亚组分析结果表明,可能只有高度依赖的吸烟者才会受益。九项研究测试了在戒烟日之前使用NRT(预加载)与从戒烟日开始使用的效果;有中等确定性证据,受偏倚风险限制,预加载对戒烟有有利影响(RR 1.25,95%CI 1.08至1.44,9项研究,4395名参与者;I² = 0%)。八项研究的高确定性证据表明,使用任何一种速效NRT形式或尼古丁贴片导致的长期戒烟率相似(RR 0.90,95%CI 0.77至1.05,8项研究,3319名参与者;I² = 0%)。我们没有发现尼古丁贴片使用时长(低确定性证据)、每日16小时与24小时贴片使用、联合NRT使用时长(低和极低确定性证据)、贴片剂量逐渐减少与突然停止、速效NRT类型(极低确定性证据)、尼古丁口香糖使用时长、速效NRT随意给药与固定给药、免费与购买的NRT、免费NRT提供时长、复吸时停止与继续使用贴片,以及参与者与临床医生选择NRT的效果的证据。然而,在大多数情况下,这些发现基于极低或低确定性证据,且是单研究的结果。各研究中AE、SAE以及因治疗导致的退出测量方式和频率各不相同,导致所有比较的证据确定性低或极低。大多数比较未发现对心脏AE、SAE或退出有影响的证据。总体而言,这些发生率较低。在一项试验中,与使用贴片相比,使用鼻喷雾剂的参与者因治疗导致的退出报告显著更多(RR 3.47,95%CI 1.15至10.46,922名参与者;极低确定性),在两项试验中,与使用21/22毫克贴片相比,使用42/44毫克贴片的参与者因治疗导致的退出报告显著更多(RR 4.99,95%CI 1.60至15.50,2项研究,544名参与者;I² = 0%;低确定性)。
有高确定性证据表明,使用联合NRT与单一剂型NRT,以及4毫克与2毫克尼古丁口香糖,可增加成功戒烟的机会。对于贴片剂量比较,由于不精确性,证据为中等确定性。21毫克贴片导致的戒烟率高于14毫克(24小时)贴片,使用25毫克贴片导致的戒烟率高于使用15毫克(16小时)贴片,尽管在后一种情况下CI包含无差异情况。没有明确证据表明42/44毫克贴片优于21/22毫克(24小时)贴片。使用速效NRT形式,如口香糖或含片,导致的戒烟率与尼古丁贴片相似。有中等确定性证据表明,在戒烟前使用NRT可能比仅从戒烟日开始使用能提高戒烟率;然而,需要进一步研究以确保这一发现的稳健性。不同类型NRT使用的比较安全性和耐受性证据确定性低和极低。新的研究应确保测量并报告AE、SAE以及因治疗导致的退出情况。
