骨髓单个核干细胞移植治疗非缺血性扩张型心肌病患者的疗效——一项荟萃分析
The efficacy of bone marrow mononuclear stem cell transplantation in patients with non-ischemic dilated cardiomyopathy-a meta analysis.
作者信息
Nso Nso, Bookani Kaveh Rezaei, Enoru Sostanie Takota, Radparvar Farshid, Gordon Robert
机构信息
Department of Medicine, Icahn School of Medicine At Mount Sinai (Queens Hospital Center), Queens, 17004 Henley Rd Unit 4B, NY, 11432, Jamaica, USA.
Division of Cardiovascular Disease, University of Chicago (Northshore Program), IL, Evanston, USA.
出版信息
Heart Fail Rev. 2022 May;27(3):811-820. doi: 10.1007/s10741-021-10082-0. Epub 2021 Feb 15.
Cardiomyopathy refers to a wide spectrum of heart pathologies that interfere with normal heart function. Management options of patients with cardiomyopathy depended mainly on the severity of the condition. Lifestyle modifications and regular exercise together with a healthy diet is compatible for mild conditions. Severe conditions, however, rely on medications or surgery. Here, we aim to investigate the efficacy of bone marrow mononuclear stem cell transplantation in patients with dilated cardiomyopathy. We searched PubMed, Scopus, and Cochrane CENTRAL for relevant clinical trials and excluded observational studies. We performed the quality assessment of this study following GRADE guidelines. The assessment of the risk of bias was performed by the Cochrane's risk of bias tool. We present an analysis of the following outcomes: left ventricular ejection fraction (LVEF), left ventricular end-diastolic diameter (LVEDD), and six minutes walking test. Data were pooled as mean differences (MD) and relative confidence intervals (CI). The analysis of 667 patients from 11 studies receiving autologous bone marrow cell therapy for non-ischemic dilated cardiomyopathy is presented. A total of 338 patients were allocated to the treatment group, and 329 participants entered the control group. The mean age of the patients in the treatment group is 52.4 ± 4.3 years, while that of the control is 53.7 ± 3.7 years. Seven studies (14.18-23) reported transplantation through the intracoronary route. Table 1 shows a summary of the baseline characteristics of the included studies and participants, the number of injected cells, and the type of injected cells in each trial. Table 2 summarizes and illustrates the previous treatment history of included patients in each trial, as well as the baseline values of different scores used as outcome measures in this analysis. We found that bone marrow mononuclear stem cell therapy leads to significantly increased LVEF (MD = 4.54%, 95% CI [3.52, 5.56], P < 0.0001). Patients in the transplant group experienced less left ventricular end-diastolic diameter (millimeter) than the control arm (MD = -1.86 mm, 95% CI [-4.01, 0.29], P = 0.09). Additionally, Patients in the transplant group could walk 28.53 m more than the controls (MD = 28.53 m, 95% CI [2.51, 54.55], P = 0.03). Transplantation of bone marrow stem cells yields acceptable results regarding left ventricular ejection fraction and lowers the left ventricular end-diastolic diameter. Additionally, the six minutes walking test is improved in the transplant group. Table 1 Demographic data about the included participants Study Year Sample size Age, years Males, n (%) Diabetics, n (%) Route of administration Number of injected cells Type of injected cells TTT Control TTT Control TTT Control TTT Control Bartolucci 2015 12 11 58 ± 14 57 ± 11 8 (66.7) 9 (81.8) 2 (16.7) 1 (9.1) Intracoronary 1.94 × 10^6 CD34 + Bocchi 2010 8 15 51 ± 15 NR NR NR NR Intracoronary NR NR Frljak 2018 30 30 56 ± 9 54 ± 11 27 (90) 26 (87) 3 (10) 2 (6) Trans-endocardial NR CD34 + Hamshere 2015 15 14 57.67 ± 12.32 56.79 ± 9.8 10 12 9(59.9%) 8(57.1%) Intracoronary 4.91 × 10^6 CD34 + Hu 2011 31 29 56.61 ± 9.72 58.27 ± 8.86 NR NR NR NR NR NR NR Matrino 2015 82 78 51 ± 11.1 49.6 ± 11.1 73.1 68.3 NR NR Intracoronary 10^8 TTT, CD45, CD105, and CD133 Sant'Anna 2014 20 10 48.3 ± 8.71 51.6 ± 7.79 13(65) 5 (50%) NR NR Intra-myocardial 1.06 × 108 CD3, CD4, CD14, CD34, CD38, and CD45 Seth 2010 41 40 45 ± 15 49 ± 9 33 35 NR NR NR 168 × 10^6 Bone marrow mononuclear cells Vrtovec 2011 28 27 52 ± 8 54 ± 7 26 (93) 23 (85) NR NR Intracoronary 123 × 10^6 CD34 + Vrtovec 2013 55 55 53 ± 8 55 ± 7 45 (82) 44 (80) NR NR Intracoronary NR NR Xiao 2017 16 20 49.5 ± 11.6 54.4 ± 11.6 9 (56.3) 14 (70.0) 6 (37.5) 5 (29.4) Intracoronary infusion (4.9 ± 1.7) × 108 (CD29, CD34, CD44, CD45, and CD166) Data are reported as mean ± SD or n (%) unless proved otherwise TTT treatment group, NR not reported Table 2 Previous history of treatment and drug intake by the patients Study Year Medical therapy, n (%) Baseline scores, mean (SD) Beta blockers ACE inhibitors Digoxin Diuretics LVEF, % LVEDD, mm Six minutes-walk test TTT Control TTT Control TTT Control TTT Control TTT Control TTT Control TTT Control Bartolucci 2015 10 (83.3) 8 (72.7) NR NR 3 (25) 3 (27.3) 11 (91.6) 10 (90.9) 26.8 ± 4.9 30.3 ± 6.3 NR NR NR NR Bocchi 2010 NR NR NR NR NR NR NR NR 21.8 ± 3.8 30.6 ± 7.3 79 (10) 78 (12) NR NR Frljak 2018 30 (100) 30 (100) 31 (100) 32 (100) 2 (7) 3 (10) 32 (100) 33 (100) 32.2 ± 9.3 31.1 ± 7.8 NR NR NR NR Hamshere 2015 13 14 15 13 6 2 9 8 32.93 ± 16.46 29.75 ± 9.2 NR NR NR NR Hu* 2011 NR NR NR NR NR NR NR NR NR NR NR NR 466 (402, 495) 448 (383, 497) Matrino 2015 9 (11) 8 (10.2) 53 (64.1) 48 (61.1) 63 (77) 62 (79) 74 (89.7) 69 (88.9) 23.8 ± 7.2 24.7 ± 7.0 NR NR 347.3(146.7) 349.8(139.7) Sant'Anna 2014 NR NR NR NR NR NR NR NR NR NR NR NR 358.5 (88.69) 353 (86.67) Seth 2010 29 (70) 29 (72) 41 (100) 40 (100) NR NR NR NR NR NR NR NR NR NR Vrtovec 2011 21 (75) 22 (81) NR NR 5 (18) 6 (22) 26 (93) 24 (88) 25.6 ± 5.1 26.7 ± 3.9 69 ± 10 70 ± 7 NR NR Vrtovec 2013 43 (79) 46 (84) 51 (93) 54 (98) 9 (16) 11 (20) 51 (93) 20 (91) 24.3 ± 6.5 25.7 ± 4.1 69 ± 10 70 ± 7 NR NR Xiao 2017 16 (100) 20 (100) 16 (100) 19 (95) 4 (25.0) 8 (40.0) 5 (31.3) 6 (30.0) 33.1 ± 3.9 33.7 ± 4.0 NR NR 355.0 ± 91.2 323.3 ± 89.4 Data are reported as mean ± SD or n (%) unless proved otherwise TTT treatment group, NR not reported Data are reported as median (IQR).
心肌病指的是一系列影响心脏正常功能的心脏病变。心肌病患者的治疗方案主要取决于病情的严重程度。对于轻症患者,改变生活方式、定期锻炼并搭配健康饮食即可。然而,重症患者则需依靠药物治疗或手术。在此,我们旨在研究骨髓单个核干细胞移植对扩张型心肌病患者的疗效。我们在PubMed、Scopus和Cochrane CENTRAL数据库中检索了相关临床试验,并排除了观察性研究。我们按照GRADE指南对本研究进行了质量评估。采用Cochrane偏倚风险工具对偏倚风险进行评估。我们对以下结果进行了分析:左心室射血分数(LVEF)、左心室舒张末期内径(LVEDD)和六分钟步行试验。数据合并为平均差(MD)和相对置信区间(CI)。本文呈现了对11项研究中667例接受自体骨髓细胞治疗的非缺血性扩张型心肌病患者的分析。共有338例患者被分配至治疗组,329例参与者进入对照组。治疗组患者的平均年龄为52.4 ± 4.3岁,而对照组为53.7 ± 3.7岁。七项研究(14.18 - 23)报告了通过冠状动脉途径进行的移植。表1展示了纳入研究和参与者的基线特征、每个试验中注入细胞的数量以及注入细胞的类型的总结。表2总结并说明了每个试验中纳入患者的既往治疗史,以及在此分析中用作结局指标的不同评分的基线值。我们发现,骨髓单个核干细胞治疗可使LVEF显著提高(MD = 4.54%,95% CI [3.52, 5.56],P < 0.0001)。移植组患者的左心室舒张末期内径(毫米)比对照组小(MD = -1.86 mm,95% CI [-4.01, 0.29],P = 0.09)。此外,移植组患者比对照组多走28.53米(MD = 28.53 m,95% CI [2.51, 54.55],P = 0.03)。骨髓干细胞移植在左心室射血分数方面取得了可接受的结果,并减小了左心室舒张末期内径。此外,移植组的六分钟步行试验结果有所改善。
表1 纳入参与者的人口统计学数据
|研究|年份|样本量|年龄(岁)|男性(n,%)|糖尿病患者(n,%)|给药途径|注入细胞数量|注入细胞类型|治疗组|对照组|治疗组|对照组|治疗组|对照组|治疗组|对照组|
|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|
|Bartolucci|2015|12|11|58 ± 14|57 ± 11|8 (66.7)|I9 (81.8)|2 (16.7)|1 (9.1)|冠状动脉内|1.94 × 10^6|CD34 +|
|Bocchi|2010|8|15|51 ± 15|NR|NR|NR|NR|冠状动脉内|NR|NR|
|Frljak|2018|30|30|56 ± 9|54 ± 11|27 (90)|26 (87)|3 (10)|2 (6)|经心内膜|NR|CD34 +|
|Hamshere|2015|15|14|57.67 ± 12.32|56.79 ± 9.8|1|2|9(59.9%)|8(57.1%)|冠状动脉内|4.91 × 10^6|CD34 +|
|Hu|2011|31|29|56.61 ± 9.72|58.27 ± 8.86|NR|NR|NR|NR|NR|NR|NR|
|Matrino|2015|82|78|51 ± 11.1|49.6 ± 11.1|73.1|68.3|NR|NR|冠状动脉内|1^8|TTT、CD45、CD105和CD133|
|Sant'Anna|2014|20|10|48.3 ± 8.71|51.6 ± 7.79|13(65)|5 (50%)|NR|NR|心肌内|1.06 × 108|CD3、CD4、CD14、CD34、CD38和CD45|
|Seth|2010|41|40|45 ± 15|49 ± 9|33|35|NR|NR|NR|168 × 10^6|骨髓单个核细胞|
|Vrtovec|2011|28|27|52 ± 8|54 ± 7|26 (93)|23 (85)|NR|NR|冠状动脉内|123 × 10^6|CD34 +|
|Vrtovec|2013|55|55|53 ± 8|55 ± 7|45 (82)|44 (80)|NR|NR|冠状动脉内|NR|NR|
|Xiao|2017|16|20|49.5 ± 11.6|54.4 ± 11.6|9 (56.3)|I4 (70.0)|6 (37.5)|5 (29.4)|冠状动脉内注入|(4.9 ± 1.7) × 108|(CD29、CD34、CD44、CD45和CD166)|
除非另有说明,数据以均值 ± 标准差或n(%)表示
TTT治疗组,NR未报告
表2 患者的既往治疗史和药物摄入情况
|研究|年份|药物治疗(n,%)|基线评分,均值(标准差)|β受体阻滞剂|血管紧张素转换酶抑制剂|地高辛|利尿剂|左心室射血分数(%)|左心室舒张末期内径(mm)|六分钟步行试验|治疗组|对照组|治疗组|对照组|治疗组|对照组|治疗组|对照组|治疗组|对照组|治疗组|对照组|
|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|--|
|Bartolucci|2015|10 (83.3)|8 (72.7)|NR|NR|3 (25)|3 (27.3)|11 (91.6)|10 (90.9)|26.8 ± 4.9|30.3 ± 6.3|NR|NR|NR|NR|
|Bocchi|2010|NR|NR|NR|NR|NR|NR|NR|NR|21.8 ± 3.8|30.6 ± 7.3|79 (10)|78 (12)|NR|NR|
|Frljak|2018|30 (100)|30 (100)|31 (100)|32 (100)|2 (7)|3 (10)|32 (100)|33 (100)|32.2 ± 9.3|31.1 ± 7.8|NR|NR|NR|NR|
|Hamshere|2015|13|14|15|13|6|2|9|8|32.93 ± 16.46|29.75 ± 9.2|NR|NR|NR|NR|
|Hu*|2011|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|466 (402, 495)|448 (383, 497)|
|Matrino|2015|9 (11)|8 (10.2)|53 (64.1)|48 (61.1)|63 (77)|62 (79)|74 (89.7)|69 (88.9)|23.8 ± 7.2|24.7 ± 7.0|NR|NR|347.3(146.7)|349.8(139.7)|
|Sant'Anna|2014|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|358.5 (88.69)|353 (86.67)|
|Seth|2010|29 (70)|29 (72)|41 (100)|40 (100)|NR|NR|NR|NR|NR|NR|NR|NR|NR|NR|
|Vrtovec|2011|21 (75)|22 (81)|NR|NR|5 (18)|6 (22)|26 (93)|24 (88)|25.6 ± 5.1|26.7 ± 3.9|69 ± 10|70 ± 7|NR|NR|
|Vrtovec|2013|43 (79)|46 (84)|51 (93)|54 (98)|9 (16)|11 (20)|51 (93)|20 (91)|24.3 ± 6.5|25.7 ± 4.1|69 ± 10|70 ± 7|NR|NR|
|Xiao|2017|16 (100)|20 (100)|16 (100)|19 (95)|4 (25.0)|8 (40.0)|5 (31.3)|6 (30.0)|33.1 ± 3.9|33.7 ± 4.0|NR|NR|355.0 ± 91.2|323.3 ± 89.4|
除非另有说明,数据以均值 ± 标准差或n(%)表示
TTT治疗组,NR未报告
数据以中位数(四分位数间距)表示
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