持续性哮喘儿童吸入皮质类固醇:对生长的影响

Linjie Zhang, Sílvio OM Prietsch, Francine M Ducharme
{"title":"持续性哮喘儿童吸入皮质类固醇:对生长的影响","authors":"Linjie Zhang,&nbsp;Sílvio OM Prietsch,&nbsp;Francine M Ducharme","doi":"10.1002/ebch.1988","DOIUrl":null,"url":null,"abstract":"<div>\n \n \n <section>\n \n <h3> Background</h3>\n \n <p>Treatment guidelines for asthma recommend inhaled corticosteroids (ICS) as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, the potential systemic adverse effects related to regular use of these drugs have been and continue to be a matter of concern, especially the effects on linear growth.</p>\n </section>\n \n <section>\n \n <h3> Objectives</h3>\n \n <p>To assess the impact of ICS on the linear growth of children with persistent asthma and to explore potential effect modifiers such as characteristics of available treatments (molecule, dose, length of exposure, inhalation device) and of treated children (age, disease severity, compliance with treatment).</p>\n </section>\n \n <section>\n \n <h3> Search methods</h3>\n \n <p>We searched the Cochrane Airways Group Specialised Register of trials (CAGR), which is derived from systematic searches of bibliographic databases including CENTRAL, MEDLINE, EMBASE, CINAHL, AMED and PsycINFO; we handsearched respiratory journals and meeting abstracts. We also conducted a search of ClinicalTrials.gov and manufacturers' clinical trial databases to look for potential relevant unpublished studies. The literature search was conducted in January 2014.</p>\n </section>\n \n <section>\n \n <h3> Selection criteria</h3>\n \n <p>Parallel-group randomised controlled trials comparing daily use of ICS, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.</p>\n </section>\n \n <section>\n \n <h3> Data collection and analysis</h3>\n \n <p>Two review authors independently performed study selection, data extraction and assessment of risk of bias in included studies. We conducted meta-analyses using the Cochrane statistical package RevMan 5.2 and Stata version 11.0. We used the random-effects model for meta-analyses. We used mean differences (MDs) and 95% CIs as the metrics for treatment effects. A negative value for MD indicates that ICS have suppressive effects on linear growth compared with controls. We performed a priori planned subgroup analyses to explore potential effect modifiers, such as ICS molecule, daily dose, inhalation device and age of the treated child.</p>\n </section>\n \n <section>\n \n <h3> Main results</h3>\n \n <p>We included 25 trials involving 8471 (5128 ICS-treated and 3343 control) children with mild to moderate persistent asthma. Six molecules (beclomethasone dipropionate, budesonide, ciclesonide, flunisolide, fluticasone propionate and mometasone furoate) given at low or medium daily doses were used during a period of three months to four to six years. Most trials were blinded and over half of the trials had drop out rates of over 20%.</p>\n \n <p>Compared with placebo or non-steroidal drugs, ICS produced a statistically significant reduction in linear growth velocity (14 trials with 5717 participants, MD -0.48 cm/y, 95% CI -0.65 to -0.30, moderate quality evidence) and in the change from baseline in height (15 trials with 3275 participants; MD -0.61 cm/y, 95% CI -0.83 to -0.38, moderate quality evidence) during a one-year treatment period.</p>\n \n <p>Subgroup analysis showed a statistically significant group difference between six molecules in the mean reduction of linear growth velocity during one-year treatment (Chi<sup>2</sup> = 26.1, degrees of freedom (df) = 5, P value &lt; 0.0001). The group difference persisted even when analysis was restricted to the trials using doses equivalent to 200 μg/d hydrofluoroalkane (HFA)-beclomethasone. Subgroup analyses did not show a statistically significant impact of daily dose (low vs medium), inhalation device or participant age on the magnitude of ICS-induced suppression of linear growth velocity during a one-year treatment period. However, head-to-head comparisons are needed to assess the effects of different drug molecules, dose, inhalation device or patient age. No statistically significant difference in linear growth velocity was found between participants treated with ICS and controls during the second year of treatment (five trials with 3174 participants; MD -0.19 cm/y, 95% CI -0.48 to 0.11, P value 0.22). Of two trials that reported linear growth velocity in the third year of treatment, one trial involving 667 participants showed similar growth velocity between the budesonide and placebo groups (5.34 cm/y vs 5.34 cm/y), and another trial involving 1974 participants showed lower growth velocity in the budesonide group compared with the placebo group (MD -0.33 cm/y, 95% CI -0.52 to -0.14, P value 0.0005). Among four trials reporting data on linear growth after treatment cessation, three did not describe statistically significant catch-up growth in the ICS group two to four months after treatment cessation. One trial showed accelerated linear growth velocity in the fluticasone group at 12 months after treatment cessation, but there remained a statistically significant difference of 0.7 cm in height between the fluticasone and placebo groups at the end of the three-year trial.</p>\n \n <p>One trial with follow-up into adulthood showed that participants of prepubertal age treated with budesonide 400 μg/d for a mean duration of 4.3 years had a mean reduction of 1.20 cm (95% CI -1.90 to -0.50) in adult height compared with those treated with placebo.</p>\n </section>\n \n <section>\n \n <h3> Authors' conclusions</h3>\n \n <p>Regular use of ICS at low or medium daily doses is associated with a mean reduction of 0.48 cm/y in linear growth velocity and a 0.61-cm change from baseline in height during a one-year treatment period in children with mild to moderate persistent asthma. The effect size of ICS on linear growth velocity appears to be associated more strongly with the ICS molecule than with the device or dose (low to medium dose range). ICS-induced growth suppression seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. However, additional studies are needed to better characterise the molecule dependency of growth suppression, particularly with newer molecules (mometasone, ciclesonide), to specify the respective role of molecule, daily dose, inhalation device and patient age on the effect size of ICS, and to define the growth suppression effect of ICS treatment over a period of several years in children with persistent asthma.</p>\n </section>\n \n <section>\n \n <h3> PLAIN LANGUAGE SUMMARY</h3>\n \n <p><b>Do inhaled corticosteroids reduce growth in children with persistent asthma?</b></p>\n \n <p><b>Review question</b>: We reviewed the evidence on whether inhaled corticosteroids (ICS) could affect growth in children with persistent asthma, that is, a more severe asthma that requires regular use of medications for control of symptoms.</p>\n \n <p><b>Background</b>: Treatment guidelines for asthma recommend ICS as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, parents and physicians always remain concerned about the potential negative effect of ICS on growth.</p>\n \n <p><b>Search date</b>: We searched trials published until January 2014.</p>\n \n <p><b>Study characteristics</b>: We included in this review trials comparing daily use of corticosteroids, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.</p>\n \n <p><b>Key results</b>: Twenty-five trials involving 8471 children with mild to moderate persistent asthma (5128 treated with ICS and 3343 treated with placebo or non-steroidal drugs) were included in this review. Eighty percent of these trials were conducted in more than two different centres and were called multi-centre studies; five were international multi-centre studies conducted in high-income and low-income countries across Africa, Asia-Pacifica, Europe and the Americas. Sixty-eight percent were financially supported by pharmaceutical companies.</p>\n \n <p>Meta-analysis (a statistical technique that combines the results of several studies and provides a high level of evidence) suggests that children treated daily with ICS may grow approximately half a centimeter per year less than those not treated with these medications during the first year of treatment. The magnitude of ICS-related growth reduction may depend on the type of drug. Growth reduction seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. Evidence provided by this review allows us to conclude that daily use of ICS can cause a small reduction in height in children up to 18 years of age with persistent asthma; this effect seems minor compared with the known benefit of these medications for asthma control.</p>\n \n <p><b>Quality of evidence</b>: Eleven of 25 trials did not report how they guaranteed that participants had an equal chance of receiving ICS or placebo or non-steroidal drugs. All but six trials did not report how researchers were kept unaware of the treatment assignment list. However, this methodological limitation may not significantly affect the quality of evidence because the results remained almost unchanged when we excluded these trials from the analysis.</p>\n </section>\n </div>","PeriodicalId":12162,"journal":{"name":"Evidence-based child health : a Cochrane review journal","volume":"9 4","pages":"829-930"},"PeriodicalIF":0.0000,"publicationDate":"2014-12-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1002/ebch.1988","citationCount":"97","resultStr":"{\"title\":\"Inhaled corticosteroids in children with persistent asthma: effects on growth\",\"authors\":\"Linjie Zhang,&nbsp;Sílvio OM Prietsch,&nbsp;Francine M Ducharme\",\"doi\":\"10.1002/ebch.1988\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n \\n <section>\\n \\n <h3> Background</h3>\\n \\n <p>Treatment guidelines for asthma recommend inhaled corticosteroids (ICS) as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, the potential systemic adverse effects related to regular use of these drugs have been and continue to be a matter of concern, especially the effects on linear growth.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Objectives</h3>\\n \\n <p>To assess the impact of ICS on the linear growth of children with persistent asthma and to explore potential effect modifiers such as characteristics of available treatments (molecule, dose, length of exposure, inhalation device) and of treated children (age, disease severity, compliance with treatment).</p>\\n </section>\\n \\n <section>\\n \\n <h3> Search methods</h3>\\n \\n <p>We searched the Cochrane Airways Group Specialised Register of trials (CAGR), which is derived from systematic searches of bibliographic databases including CENTRAL, MEDLINE, EMBASE, CINAHL, AMED and PsycINFO; we handsearched respiratory journals and meeting abstracts. We also conducted a search of ClinicalTrials.gov and manufacturers' clinical trial databases to look for potential relevant unpublished studies. The literature search was conducted in January 2014.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Selection criteria</h3>\\n \\n <p>Parallel-group randomised controlled trials comparing daily use of ICS, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Data collection and analysis</h3>\\n \\n <p>Two review authors independently performed study selection, data extraction and assessment of risk of bias in included studies. We conducted meta-analyses using the Cochrane statistical package RevMan 5.2 and Stata version 11.0. We used the random-effects model for meta-analyses. We used mean differences (MDs) and 95% CIs as the metrics for treatment effects. A negative value for MD indicates that ICS have suppressive effects on linear growth compared with controls. We performed a priori planned subgroup analyses to explore potential effect modifiers, such as ICS molecule, daily dose, inhalation device and age of the treated child.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Main results</h3>\\n \\n <p>We included 25 trials involving 8471 (5128 ICS-treated and 3343 control) children with mild to moderate persistent asthma. Six molecules (beclomethasone dipropionate, budesonide, ciclesonide, flunisolide, fluticasone propionate and mometasone furoate) given at low or medium daily doses were used during a period of three months to four to six years. Most trials were blinded and over half of the trials had drop out rates of over 20%.</p>\\n \\n <p>Compared with placebo or non-steroidal drugs, ICS produced a statistically significant reduction in linear growth velocity (14 trials with 5717 participants, MD -0.48 cm/y, 95% CI -0.65 to -0.30, moderate quality evidence) and in the change from baseline in height (15 trials with 3275 participants; MD -0.61 cm/y, 95% CI -0.83 to -0.38, moderate quality evidence) during a one-year treatment period.</p>\\n \\n <p>Subgroup analysis showed a statistically significant group difference between six molecules in the mean reduction of linear growth velocity during one-year treatment (Chi<sup>2</sup> = 26.1, degrees of freedom (df) = 5, P value &lt; 0.0001). The group difference persisted even when analysis was restricted to the trials using doses equivalent to 200 μg/d hydrofluoroalkane (HFA)-beclomethasone. Subgroup analyses did not show a statistically significant impact of daily dose (low vs medium), inhalation device or participant age on the magnitude of ICS-induced suppression of linear growth velocity during a one-year treatment period. However, head-to-head comparisons are needed to assess the effects of different drug molecules, dose, inhalation device or patient age. No statistically significant difference in linear growth velocity was found between participants treated with ICS and controls during the second year of treatment (five trials with 3174 participants; MD -0.19 cm/y, 95% CI -0.48 to 0.11, P value 0.22). Of two trials that reported linear growth velocity in the third year of treatment, one trial involving 667 participants showed similar growth velocity between the budesonide and placebo groups (5.34 cm/y vs 5.34 cm/y), and another trial involving 1974 participants showed lower growth velocity in the budesonide group compared with the placebo group (MD -0.33 cm/y, 95% CI -0.52 to -0.14, P value 0.0005). Among four trials reporting data on linear growth after treatment cessation, three did not describe statistically significant catch-up growth in the ICS group two to four months after treatment cessation. One trial showed accelerated linear growth velocity in the fluticasone group at 12 months after treatment cessation, but there remained a statistically significant difference of 0.7 cm in height between the fluticasone and placebo groups at the end of the three-year trial.</p>\\n \\n <p>One trial with follow-up into adulthood showed that participants of prepubertal age treated with budesonide 400 μg/d for a mean duration of 4.3 years had a mean reduction of 1.20 cm (95% CI -1.90 to -0.50) in adult height compared with those treated with placebo.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Authors' conclusions</h3>\\n \\n <p>Regular use of ICS at low or medium daily doses is associated with a mean reduction of 0.48 cm/y in linear growth velocity and a 0.61-cm change from baseline in height during a one-year treatment period in children with mild to moderate persistent asthma. The effect size of ICS on linear growth velocity appears to be associated more strongly with the ICS molecule than with the device or dose (low to medium dose range). ICS-induced growth suppression seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. However, additional studies are needed to better characterise the molecule dependency of growth suppression, particularly with newer molecules (mometasone, ciclesonide), to specify the respective role of molecule, daily dose, inhalation device and patient age on the effect size of ICS, and to define the growth suppression effect of ICS treatment over a period of several years in children with persistent asthma.</p>\\n </section>\\n \\n <section>\\n \\n <h3> PLAIN LANGUAGE SUMMARY</h3>\\n \\n <p><b>Do inhaled corticosteroids reduce growth in children with persistent asthma?</b></p>\\n \\n <p><b>Review question</b>: We reviewed the evidence on whether inhaled corticosteroids (ICS) could affect growth in children with persistent asthma, that is, a more severe asthma that requires regular use of medications for control of symptoms.</p>\\n \\n <p><b>Background</b>: Treatment guidelines for asthma recommend ICS as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, parents and physicians always remain concerned about the potential negative effect of ICS on growth.</p>\\n \\n <p><b>Search date</b>: We searched trials published until January 2014.</p>\\n \\n <p><b>Study characteristics</b>: We included in this review trials comparing daily use of corticosteroids, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.</p>\\n \\n <p><b>Key results</b>: Twenty-five trials involving 8471 children with mild to moderate persistent asthma (5128 treated with ICS and 3343 treated with placebo or non-steroidal drugs) were included in this review. Eighty percent of these trials were conducted in more than two different centres and were called multi-centre studies; five were international multi-centre studies conducted in high-income and low-income countries across Africa, Asia-Pacifica, Europe and the Americas. Sixty-eight percent were financially supported by pharmaceutical companies.</p>\\n \\n <p>Meta-analysis (a statistical technique that combines the results of several studies and provides a high level of evidence) suggests that children treated daily with ICS may grow approximately half a centimeter per year less than those not treated with these medications during the first year of treatment. The magnitude of ICS-related growth reduction may depend on the type of drug. Growth reduction seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. Evidence provided by this review allows us to conclude that daily use of ICS can cause a small reduction in height in children up to 18 years of age with persistent asthma; this effect seems minor compared with the known benefit of these medications for asthma control.</p>\\n \\n <p><b>Quality of evidence</b>: Eleven of 25 trials did not report how they guaranteed that participants had an equal chance of receiving ICS or placebo or non-steroidal drugs. All but six trials did not report how researchers were kept unaware of the treatment assignment list. However, this methodological limitation may not significantly affect the quality of evidence because the results remained almost unchanged when we excluded these trials from the analysis.</p>\\n </section>\\n </div>\",\"PeriodicalId\":12162,\"journal\":{\"name\":\"Evidence-based child health : a Cochrane review journal\",\"volume\":\"9 4\",\"pages\":\"829-930\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2014-12-15\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"https://sci-hub-pdf.com/10.1002/ebch.1988\",\"citationCount\":\"97\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Evidence-based child health : a Cochrane review journal\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://onlinelibrary.wiley.com/doi/10.1002/ebch.1988\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Evidence-based child health : a Cochrane review journal","FirstCategoryId":"1085","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/ebch.1988","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 97

摘要

背景:哮喘治疗指南推荐将吸入皮质类固醇(ICS)作为儿童持续性哮喘的一线治疗。虽然ICS治疗在儿童中通常被认为是安全的,但与经常使用这些药物相关的潜在全身不良反应一直是并将继续是一个令人关注的问题,特别是对线性生长的影响。目的评估ICS对持续性哮喘儿童线性生长的影响,并探讨潜在的影响调节因素,如现有治疗方法(分子、剂量、暴露时间、吸入装置)和治疗儿童(年龄、疾病严重程度、治疗依从性)的特征。检索方法检索Cochrane Airways Group specialized Register of trials (CAGR),该数据库来源于CENTRAL、MEDLINE、EMBASE、CINAHL、AMED和PsycINFO等文献数据库的系统检索;我们手工检索呼吸期刊和会议摘要。我们还对ClinicalTrials.gov和制造商的临床试验数据库进行了搜索,以寻找潜在的相关未发表的研究。文献检索于2014年1月进行。选择标准:平行组随机对照试验比较18岁以下持续性哮喘儿童每日使用ICS(通过任何类型的吸入装置输送)与安慰剂或非甾体类药物至少三个月的疗效。两位综述作者独立进行了纳入研究的研究选择、数据提取和偏倚风险评估。我们使用Cochrane统计软件包RevMan 5.2和Stata version 11.0进行meta分析。我们使用随机效应模型进行meta分析。我们使用平均差异(md)和95% ci作为治疗效果的指标。MD为负值表明与对照相比,ICS对线性生长有抑制作用。我们进行了一个先验的计划亚组分析,以探索潜在的效果调节剂,如ICS分子、日剂量、吸入装置和治疗儿童的年龄。我们纳入了25项试验,涉及8471例(5128例ics治疗组和3343例对照组)轻度至中度持续性哮喘儿童。六种分子(二丙酸倍氯米松、布地奈德、环莱索内德、氟尼索内德、丙酸氟替卡松和糠酸莫米松)每日低剂量或中等剂量,使用时间为3个月至4至6年。大多数试验是盲法的,超过一半的试验退出率超过20%。与安慰剂或非甾体类药物相比,ICS在线性生长速度(14项试验,5717名受试者,MD -0.48 cm/y, 95% CI -0.65至-0.30,中等质量证据)和身高从基线变化(15项试验,3275名受试者;MD为-0.61 cm/y, 95% CI为-0.83至-0.38,证据质量中等)。亚组分析显示,6个分子治疗1年期间线性生长速度的平均降低量组间差异有统计学意义(Chi2 = 26.1,自由度(df) = 5, P值&lt;0.0001)。即使分析仅限于使用相当于200 μg/d的氢氟烷烃(HFA)-倍氯米松剂量的试验,组间差异仍然存在。亚组分析显示,在一年的治疗期间,日剂量(低剂量vs中剂量)、吸入装置或参与者年龄对ics诱导的线性生长速度抑制的程度没有统计学意义。然而,需要进行头对头比较来评估不同药物分子、剂量、吸入装置或患者年龄的影响。在治疗的第二年,接受ICS治疗的参与者和对照组之间的线性生长速度没有统计学上的显著差异(5项试验,3174名参与者;MD -0.19 cm/y, 95% CI -0.48 ~ 0.11, P值0.22)。在两项报告治疗第三年线性生长速度的试验中,一项涉及667名参与者的试验显示布地奈德组和安慰剂组之间的生长速度相似(5.34 cm/y vs 5.34 cm/y),另一项涉及1974名参与者的试验显示布地奈德组的生长速度比安慰剂组低(MD -0.33 cm/y, 95% CI -0.52至-0.14,P值0.0005)。 在四个报告治疗停止后线性增长数据的试验中,三个没有描述ICS组在治疗停止后2至4个月的统计学显著追赶增长。一项试验显示,在停止治疗12个月后,氟替卡松组的线性生长速度加快,但在三年试验结束时,氟替卡松组和安慰剂组的身高仍有0.7厘米的统计学差异。一项随访至成年期的试验显示,与接受安慰剂治疗的参与者相比,接受布地奈德400 μg/d治疗平均持续4.3年的青春期前参与者的成人身高平均降低1.20厘米(95% CI -1.90至-0.50)。作者的结论是,在轻度至中度持续性哮喘儿童的一年治疗期间,定期使用低或中等日剂量的ICS与线性生长速度平均降低0.48 cm/y和身高较基线变化0.61 cm相关。ICS对线性生长速度的影响大小似乎与ICS分子的关系比与装置或剂量(低至中剂量范围)的关系更强。ics诱导的生长抑制似乎在治疗的第一年是最大的,在随后的几年治疗中不太明显。然而,需要进一步的研究来更好地描述生长抑制的分子依赖性,特别是新分子(莫米松、环莱奈德),以明确分子、日剂量、吸入装置和患者年龄对ICS效应大小的各自作用,并确定持续哮喘儿童数年的ICS治疗的生长抑制效果。吸入糖皮质激素是否会降低持续性哮喘患儿的生长发育?回顾问题:我们回顾了吸入皮质类固醇(ICS)是否会影响患有持续性哮喘的儿童生长的证据,持续性哮喘是指需要定期使用药物控制症状的更严重的哮喘。背景:哮喘治疗指南推荐ICS作为儿童持续性哮喘的一线治疗。虽然ICS治疗通常被认为对儿童是安全的,但家长和医生总是担心ICS对生长的潜在负面影响。检索日期:我们检索了2014年1月之前发表的试验。研究特点:我们纳入了本综述试验,比较了18岁以下持续性哮喘儿童每日使用皮质类固醇(通过任何类型的吸入装置给予至少三个月)与安慰剂或非类固醇药物的疗效。主要结果:本综述纳入了25项试验,涉及8471例轻中度持续性哮喘儿童(5128例接受ICS治疗,3343例接受安慰剂或非甾体类药物治疗)。80%的试验在两个以上不同的中心进行,被称为多中心研究;五项是在非洲、亚太、欧洲和美洲的高收入和低收入国家进行的国际多中心研究。68%的人得到了制药公司的财政支持。荟萃分析(一种结合多项研究结果并提供高水平证据的统计技术)表明,在治疗的第一年,每天接受ICS治疗的儿童每年的生长可能比未接受这些药物治疗的儿童少大约半厘米。ics相关生长减少的幅度可能取决于药物的类型。生长减少似乎在治疗的第一年是最大的,在随后的几年治疗中不太明显。本综述提供的证据使我们得出这样的结论:对于18岁以下患有持续性哮喘的儿童,每天使用ICS可导致身高的小幅下降;与这些药物对哮喘控制的已知益处相比,这种效果似乎微不足道。证据质量:25项试验中有11项没有报告他们如何保证参与者有相同的机会接受ICS或安慰剂或非甾体类药物。除了6项试验外,其他试验都没有报告研究人员如何不知道治疗分配清单。然而,这种方法学上的限制可能不会显著影响证据的质量,因为当我们从分析中排除这些试验时,结果几乎没有变化。
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Inhaled corticosteroids in children with persistent asthma: effects on growth

Background

Treatment guidelines for asthma recommend inhaled corticosteroids (ICS) as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, the potential systemic adverse effects related to regular use of these drugs have been and continue to be a matter of concern, especially the effects on linear growth.

Objectives

To assess the impact of ICS on the linear growth of children with persistent asthma and to explore potential effect modifiers such as characteristics of available treatments (molecule, dose, length of exposure, inhalation device) and of treated children (age, disease severity, compliance with treatment).

Search methods

We searched the Cochrane Airways Group Specialised Register of trials (CAGR), which is derived from systematic searches of bibliographic databases including CENTRAL, MEDLINE, EMBASE, CINAHL, AMED and PsycINFO; we handsearched respiratory journals and meeting abstracts. We also conducted a search of ClinicalTrials.gov and manufacturers' clinical trial databases to look for potential relevant unpublished studies. The literature search was conducted in January 2014.

Selection criteria

Parallel-group randomised controlled trials comparing daily use of ICS, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.

Data collection and analysis

Two review authors independently performed study selection, data extraction and assessment of risk of bias in included studies. We conducted meta-analyses using the Cochrane statistical package RevMan 5.2 and Stata version 11.0. We used the random-effects model for meta-analyses. We used mean differences (MDs) and 95% CIs as the metrics for treatment effects. A negative value for MD indicates that ICS have suppressive effects on linear growth compared with controls. We performed a priori planned subgroup analyses to explore potential effect modifiers, such as ICS molecule, daily dose, inhalation device and age of the treated child.

Main results

We included 25 trials involving 8471 (5128 ICS-treated and 3343 control) children with mild to moderate persistent asthma. Six molecules (beclomethasone dipropionate, budesonide, ciclesonide, flunisolide, fluticasone propionate and mometasone furoate) given at low or medium daily doses were used during a period of three months to four to six years. Most trials were blinded and over half of the trials had drop out rates of over 20%.

Compared with placebo or non-steroidal drugs, ICS produced a statistically significant reduction in linear growth velocity (14 trials with 5717 participants, MD -0.48 cm/y, 95% CI -0.65 to -0.30, moderate quality evidence) and in the change from baseline in height (15 trials with 3275 participants; MD -0.61 cm/y, 95% CI -0.83 to -0.38, moderate quality evidence) during a one-year treatment period.

Subgroup analysis showed a statistically significant group difference between six molecules in the mean reduction of linear growth velocity during one-year treatment (Chi2 = 26.1, degrees of freedom (df) = 5, P value < 0.0001). The group difference persisted even when analysis was restricted to the trials using doses equivalent to 200 μg/d hydrofluoroalkane (HFA)-beclomethasone. Subgroup analyses did not show a statistically significant impact of daily dose (low vs medium), inhalation device or participant age on the magnitude of ICS-induced suppression of linear growth velocity during a one-year treatment period. However, head-to-head comparisons are needed to assess the effects of different drug molecules, dose, inhalation device or patient age. No statistically significant difference in linear growth velocity was found between participants treated with ICS and controls during the second year of treatment (five trials with 3174 participants; MD -0.19 cm/y, 95% CI -0.48 to 0.11, P value 0.22). Of two trials that reported linear growth velocity in the third year of treatment, one trial involving 667 participants showed similar growth velocity between the budesonide and placebo groups (5.34 cm/y vs 5.34 cm/y), and another trial involving 1974 participants showed lower growth velocity in the budesonide group compared with the placebo group (MD -0.33 cm/y, 95% CI -0.52 to -0.14, P value 0.0005). Among four trials reporting data on linear growth after treatment cessation, three did not describe statistically significant catch-up growth in the ICS group two to four months after treatment cessation. One trial showed accelerated linear growth velocity in the fluticasone group at 12 months after treatment cessation, but there remained a statistically significant difference of 0.7 cm in height between the fluticasone and placebo groups at the end of the three-year trial.

One trial with follow-up into adulthood showed that participants of prepubertal age treated with budesonide 400 μg/d for a mean duration of 4.3 years had a mean reduction of 1.20 cm (95% CI -1.90 to -0.50) in adult height compared with those treated with placebo.

Authors' conclusions

Regular use of ICS at low or medium daily doses is associated with a mean reduction of 0.48 cm/y in linear growth velocity and a 0.61-cm change from baseline in height during a one-year treatment period in children with mild to moderate persistent asthma. The effect size of ICS on linear growth velocity appears to be associated more strongly with the ICS molecule than with the device or dose (low to medium dose range). ICS-induced growth suppression seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. However, additional studies are needed to better characterise the molecule dependency of growth suppression, particularly with newer molecules (mometasone, ciclesonide), to specify the respective role of molecule, daily dose, inhalation device and patient age on the effect size of ICS, and to define the growth suppression effect of ICS treatment over a period of several years in children with persistent asthma.

PLAIN LANGUAGE SUMMARY

Do inhaled corticosteroids reduce growth in children with persistent asthma?

Review question: We reviewed the evidence on whether inhaled corticosteroids (ICS) could affect growth in children with persistent asthma, that is, a more severe asthma that requires regular use of medications for control of symptoms.

Background: Treatment guidelines for asthma recommend ICS as first-line therapy for children with persistent asthma. Although ICS treatment is generally considered safe in children, parents and physicians always remain concerned about the potential negative effect of ICS on growth.

Search date: We searched trials published until January 2014.

Study characteristics: We included in this review trials comparing daily use of corticosteroids, delivered by any type of inhalation device for at least three months, versus placebo or non-steroidal drugs in children up to 18 years of age with persistent asthma.

Key results: Twenty-five trials involving 8471 children with mild to moderate persistent asthma (5128 treated with ICS and 3343 treated with placebo or non-steroidal drugs) were included in this review. Eighty percent of these trials were conducted in more than two different centres and were called multi-centre studies; five were international multi-centre studies conducted in high-income and low-income countries across Africa, Asia-Pacifica, Europe and the Americas. Sixty-eight percent were financially supported by pharmaceutical companies.

Meta-analysis (a statistical technique that combines the results of several studies and provides a high level of evidence) suggests that children treated daily with ICS may grow approximately half a centimeter per year less than those not treated with these medications during the first year of treatment. The magnitude of ICS-related growth reduction may depend on the type of drug. Growth reduction seems to be maximal during the first year of therapy and less pronounced in subsequent years of treatment. Evidence provided by this review allows us to conclude that daily use of ICS can cause a small reduction in height in children up to 18 years of age with persistent asthma; this effect seems minor compared with the known benefit of these medications for asthma control.

Quality of evidence: Eleven of 25 trials did not report how they guaranteed that participants had an equal chance of receiving ICS or placebo or non-steroidal drugs. All but six trials did not report how researchers were kept unaware of the treatment assignment list. However, this methodological limitation may not significantly affect the quality of evidence because the results remained almost unchanged when we excluded these trials from the analysis.

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