Ngim Chin Fang, Lai Nai Ming, Hong Janet Yh, Tan Shir Ley, Ramadas Amutha, Muthukumarasamy Premala, Thong Meow-Keong
Jeffrey Cheah School of Medicine and Health Sciences, Monash University Malaysia, Johor Bahru, Malaysia.
School of Medicine, Taylor's University, Subang Jaya, Malaysia.
Cochrane Database Syst Rev. 2020 May 28;5(5):CD012284. doi: 10.1002/14651858.CD012284.pub3.
Thalassaemia is a recessively-inherited blood disorder that leads to anaemia of varying severity. In those affected by the more severe forms, regular blood transfusions are required which may lead to iron overload. Accumulated iron from blood transfusions may be deposited in vital organs including the heart, liver and endocrine organs such as the pituitary glands which can affect growth hormone production. Growth hormone deficiency is one of the factors that can lead to short stature, a common complication in people with thalassaemia. Growth hormone replacement therapy has been used in children with thalassaemia who have short stature and growth hormone deficiency. This review on the role of growth hormone was originally published in September 2017 and updated in April 2020.
To assess the benefits and safety of growth hormone therapy in people with thalassaemia.
We searched the Cochrane Haemoglobinopathies Trials Register, compiled from electronic database searches and handsearching of journals and conference abstract books. Date of latest search: 14 November 2019. We also searched the reference lists of relevant articles, reviews and clinical trial registries. Date of latest search: 06 January 2020.
Randomised and quasi-randomised controlled trials comparing the use of growth hormone therapy to placebo or standard care in people with thalassaemia of any type or severity.
Two authors independently selected trials for inclusion. Data extraction and assessment of risk of bias were also conducted independently by two authors. The certainty of the evidence was assessed using GRADE criteria.
We included one parallel trial conducted in Turkey. The trial recruited 20 children with homozygous beta thalassaemia who had short stature; 10 children received growth hormone therapy administered subcutaneously on a daily basis at a dose of 0.7 IU/kg per week and 10 children received standard care. The overall risk of bias in this trial was low except for the selection criteria and attrition bias which were unclear. The certainty of the evidence for all major outcomes was moderate, the main concern was imprecision of the estimates due to the small sample size leading to wide confidence intervals. Final height (cm) (the review's pre-specified primary outcome) and change in height were not assessed in the included trial. The trial reported no clear difference between groups in height standard deviation (SD) score after one year, mean difference (MD) -0.09 (95% confidence interval (CI) -0.33 to 0.15 (moderate-certainty evidence). However, modest improvements appeared to be observed in the following key outcomes in children receiving growth hormone therapy compared to control (moderate-certainty evidence): change between baseline and final visit in height SD score, MD 0.26 (95% CI 0.13 to 0.39); height velocity, MD 2.28 cm/year (95% CI 1.76 to 2.80); height velocity SD score, MD 3.31 (95% CI 2.43 to 4.19); and change in height velocity SD score between baseline and final visit, MD 3.41 (95% CI 2.45 to 4.37). No adverse effects of treatment were reported in either group; however, while there was no clear difference between groups in the oral glucose tolerance test at one year, fasting blood glucose was significantly higher in the growth hormone therapy group compared to control, although both results were still within the normal range, MD 6.67 mg/dL (95% CI 2.66 to 10.68). There were no data beyond the one-year trial period.
AUTHORS' CONCLUSIONS: A small single trial contributed evidence of moderate certainty that the use of growth hormone for a year may improve height velocity of children with thalassaemia although height SD score in the treatment group was similar to the control group. There are no randomised controlled trials in adults or trials that address the use of growth hormone therapy over a longer period and assess its effect on final height and quality of life. The optimal dosage of growth hormone and the ideal time to start this therapy remain uncertain. Large well-designed randomised controlled trials over a longer period with sufficient duration of follow up are needed.
地中海贫血是一种隐性遗传的血液疾病,会导致不同严重程度的贫血。在病情较重的患者中,需要定期输血,这可能会导致铁过载。输血积累的铁可能沉积在包括心脏、肝脏和垂体等内分泌器官在内的重要器官中,进而影响生长激素的分泌。生长激素缺乏是导致身材矮小的因素之一,身材矮小是地中海贫血患者常见的并发症。生长激素替代疗法已用于患有身材矮小和生长激素缺乏的地中海贫血儿童。本关于生长激素作用的综述最初发表于2017年9月,并于2020年4月更新。
评估生长激素治疗对地中海贫血患者的益处和安全性。
我们检索了Cochrane血红蛋白病试验注册库,该注册库通过电子数据库检索以及对期刊和会议摘要书籍的手工检索编制而成。最新检索日期:2019年11月14日。我们还检索了相关文章、综述和临床试验注册库的参考文献列表。最新检索日期:2020年1月6日。
比较生长激素治疗与安慰剂或标准治疗在任何类型或严重程度的地中海贫血患者中应用的随机和半随机对照试验。
两位作者独立选择纳入试验。数据提取和偏倚风险评估也由两位作者独立进行。使用GRADE标准评估证据的确定性。
我们纳入了在土耳其进行的一项平行试验。该试验招募了20名身材矮小的纯合子β地中海贫血儿童;10名儿童接受每周皮下注射0.7 IU/kg的生长激素治疗,10名儿童接受标准治疗。除选择标准和失访偏倚不明确外,该试验的总体偏倚风险较低。所有主要结局的证据确定性为中等,主要问题是由于样本量小导致估计值不精确,置信区间较宽。纳入试验未评估最终身高(厘米)(该综述预先设定的主要结局)和身高变化。试验报告两组在一年后的身高标准差(SD)评分无明显差异,平均差(MD)为-0.09(95%置信区间(CI)为-0.33至0.15(中等确定性证据)。然而,与对照组相比,接受生长激素治疗的儿童在以下关键结局方面似乎有适度改善(中等确定性证据):基线至末次访视时身高SD评分的变化,MD为0.26(95%CI为0.13至0.39);身高增长速度,MD为2.28厘米/年(95%CI为1.76至2.80);身高增长速度SD评分,MD为3.31(95%CI为2.43至4.19);基线至末次访视时身高增长速度SD评分变化,MD为3.41(95%CI为2.45至4.37)。两组均未报告治疗的不良反应;然而,虽然两组在一年时的口服葡萄糖耐量试验无明显差异,但生长激素治疗组的空腹血糖显著高于对照组,尽管两个结果仍在正常范围内,MD为6.67毫克/分升(95%CI为2.66至10.68)。一年试验期之后没有相关数据。
一项小型单中心试验提供了中等确定性的证据,表明使用生长激素一年可能改善地中海贫血儿童的身高增长速度,尽管治疗组的身高SD评分与对照组相似。目前尚无针对成人的随机对照试验,也没有涉及长期使用生长激素治疗并评估其对最终身高和生活质量影响的试验。生长激素的最佳剂量和开始治疗的理想时间仍不确定。需要进行设计良好的大型随机对照试验,随访时间足够长。
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