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Volume 39 Issue 5
May  2023
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Article Navigation >  CHINESE JOURNAL OF BURNS AND WOUNDS  > 2023  >  39(5): 443-449
Cai Yunpeng, Wu Xiaoyan, Chen Xiaodong. Correlation study of Staphylococcus aureus superantigens and formation of human ear keloid[J]. Chin j Burns, 2021, 37(3): 257-262. DOI: 10.3760/cma.j.cn501120-20200225-00091
Citation: Wu KP,Yuan L,Chen P,et al.Influence of muscle energy technology combined with Maitland joint mobilization surgery on the elbow joint flexion function in patients with deep burn of elbow joint[J].Chin J Burns Wounds,2023,39(5):443-449.DOI: 10.3760/cma.j.cn501225-20220608-00228.
shu

Influence of muscle energy technology combined with Maitland joint mobilization surgery on the elbow joint flexion function in patients with deep burn of elbow joint

doi: 10.3760/cma.j.cn501225-20220608-00228

  • Department of Burns, Tongren Hospital of Wuhan University & Wuhan Third Hospital, Wuhan 430060, China

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  • Corresponding author: Xie Weiguo, Email: wgxie@hotmail.com
  • Received Date: 2022-06-08
    Abstract
  •   Objective   To investigate the influence of muscle energy technology (MET) combined with Maitland joint mobilization surgery on the elbow joint flexion function in patients with deep burn of elbow joint.   Methods   A retrospective controlled clinical trial was conducted. From January 2020 to January 2022, 53 patients with elbow joint flexion dysfunction after deep burns who met the inclusion criteria were treated in Tongren Hospital of Wuhan University & Wuhan Third Hospital, including 32 males and 21 females, aged (37±12) years. According to the treatment method used, the patients were divided into conventional treatment alone group (15 cases), conventional treatment+joint mobilization surgery group (18 cases), and conventional treatment+joint mobilization surgery+MET group (20 cases). Before treatment and 2 months after treatment, the patient's elbow joint range of motion was measured using a protractor, the Mayo elbow joint function score was used to evaluate elbow joint function, a portable muscle strength tester was used to measure elbow extensor muscle strength, and visual analogue scale was used to evaluate pain degree. Data were statistically analyzed with one-way analysis of variance, least significant difference test, paired sample t test, Kruskal-Wallis H test, Wilcoxon signed rank-sum test, chi-square test, Fisher's exact probability test, and Bonferroni correction.   Results   After two months of treatment, the elbow joint range of motion and elbow joint function scores of patients in conventional treatment+joint mobilization surgery group and conventional treatment+joint mobilization surgery+MET group ((103±12)° and 60 (50, 66), (131±14)° and 73 (65, 80)) were significantly larger and higher than those in conventional treatment alone group ((77±15)° and 45 (35, 50), Pvalues all <0.05), respectively. The elbow joint range of motion and elbow joint function scores of patients in conventional treatment+joint mobilization surgery+MET group were significantly larger and higher than those in conventional treatment+joint mobilization surgery group ( Pvalues all <0.05), respectively. After two months of treatment, the elbow extensor muscle strength and pain score of patients in conventional treatment+joint mobilization surgery+MET group were respectively significantly larger and lower than those in conventional treatment alone group and conventional treatment+joint mobilization surgery group ( Pvalues all <0.05). The elbow extensor muscle strength and pain score of patients in conventional treatment+joint mobilization surgery group were similar to those in conventional treatment alone group ( P>0.05). The elbow joint range of motion and elbow extensor muscle strength (with t values of 9.37, 25.54, 28.71, 6.70, 7.20, and 7.01, respectively, P<0.05), elbow joint function scores and pain scores (with Z values of 3.15, 3.63, 3.93, 3.30, 3.52, and 3.84, respectively, P<0.05) of patients in conventional treatment alone group, conventional treatment+joint mobilization surgery group, and conventional treatment+joint mobilization surgery+MET group after two months of treatment were significantly improved compared with those before treatment.   Conclusions   The combination of MET and Maitland joint mobilization surgery can effectively improve elbow joint range of motion, elbow joint function, elbow extensor muscle strength, and pain of patients with deep elbow joint burns, therefore it is worthy of promotion.

     

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    Created with Highcharts 5.0.7Chart context menuAccess Area Distribution其他: 10.0 %其他: 10.0 %其他: 0.3 %其他: 0.3 %Okinawa: 0.5 %Okinawa: 0.5 %Reynoldsburg: 0.1 %Reynoldsburg: 0.1 %上海: 0.8 %上海: 0.8 %丽水: 0.2 %丽水: 0.2 %亚特兰大: 0.1 %亚特兰大: 0.1 %六安: 0.1 %六安: 0.1 %北京: 1.6 %北京: 1.6 %南京: 0.3 %南京: 0.3 %南平: 0.6 %南平: 0.6 %南昌: 0.3 %南昌: 0.3 %厦门: 0.2 %厦门: 0.2 %台北: 0.1 %台北: 0.1 %台州: 0.1 %台州: 0.1 %吉林: 0.2 %吉林: 0.2 %咸阳: 0.6 %咸阳: 0.6 %哥伦布: 0.2 %哥伦布: 0.2 %嘉兴: 0.5 %嘉兴: 0.5 %大连: 0.7 %大连: 0.7 %天津: 0.1 %天津: 0.1 %孟买: 0.3 %孟买: 0.3 %宁德: 0.3 %宁德: 0.3 %宁波: 0.5 %宁波: 0.5 %安康: 0.6 %安康: 0.6 %宜春: 0.1 %宜春: 0.1 %宿迁: 0.6 %宿迁: 0.6 %巴罗达: 0.3 %巴罗达: 0.3 %常德: 0.2 %常德: 0.2 %广安: 0.3 %广安: 0.3 %广州: 1.0 %广州: 1.0 %廊坊: 0.1 %廊坊: 0.1 %张家口: 2.4 %张家口: 2.4 %徐州: 0.2 %徐州: 0.2 %德罕: 0.3 %德罕: 0.3 %德阳: 0.1 %德阳: 0.1 %恩施: 2.0 %恩施: 2.0 %慕尼黑: 0.1 %慕尼黑: 0.1 %成都: 0.2 %成都: 0.2 %扬州: 0.6 %扬州: 0.6 %抚州: 0.6 %抚州: 0.6 %拉瓦尔品第: 0.7 %拉瓦尔品第: 0.7 %无锡: 0.5 %无锡: 0.5 %昆明: 0.5 %昆明: 0.5 %朝阳: 0.5 %朝阳: 0.5 %杭州: 0.6 %杭州: 0.6 %株洲: 0.1 %株洲: 0.1 %格兰特县: 0.7 %格兰特县: 0.7 %梧州: 0.2 %梧州: 0.2 %武汉: 8.7 %武汉: 8.7 %汕头: 0.3 %汕头: 0.3 %江门: 0.1 %江门: 0.1 %池州: 0.2 %池州: 0.2 %泉州: 0.1 %泉州: 0.1 %泰州: 0.1 %泰州: 0.1 %济南: 0.3 %济南: 0.3 %海得拉巴: 0.3 %海得拉巴: 0.3 %海西: 0.1 %海西: 0.1 %淮北: 0.2 %淮北: 0.2 %淮安: 0.1 %淮安: 0.1 %温州: 0.3 %温州: 0.3 %渭南: 0.2 %渭南: 0.2 %湖州: 0.9 %湖州: 0.9 %漯河: 0.9 %漯河: 0.9 %漳州: 0.2 %漳州: 0.2 %牛津: 0.3 %牛津: 0.3 %牡丹江: 0.1 %牡丹江: 0.1 %盘锦: 0.2 %盘锦: 0.2 %石家庄: 0.1 %石家庄: 0.1 %福州: 0.5 %福州: 0.5 %秦皇岛: 0.1 %秦皇岛: 0.1 %绵阳: 0.1 %绵阳: 0.1 %自贡: 0.5 %自贡: 0.5 %舟山: 0.3 %舟山: 0.3 %芒廷维尤: 20.1 %芒廷维尤: 20.1 %芝加哥: 1.9 %芝加哥: 1.9 %苏拉特: 0.3 %苏拉特: 0.3 %荆州: 0.1 %荆州: 0.1 %荆门: 0.5 %荆门: 0.5 %莆田: 0.1 %莆田: 0.1 %葫芦岛: 0.2 %葫芦岛: 0.2 %衡水: 2.2 %衡水: 2.2 %襄阳: 0.6 %襄阳: 0.6 %西宁: 2.5 %西宁: 2.5 %西安: 1.2 %西安: 1.2 %贵阳: 0.5 %贵阳: 0.5 %连云港: 0.3 %连云港: 0.3 %邵阳: 0.2 %邵阳: 0.2 %郴州: 0.2 %郴州: 0.2 %鄂州: 4.5 %鄂州: 4.5 %重庆: 5.0 %重庆: 5.0 %铁岭: 0.2 %铁岭: 0.2 %长春: 0.2 %长春: 0.2 %长沙: 1.3 %长沙: 1.3 %随州: 0.1 %随州: 0.1 %雅安: 0.2 %雅安: 0.2 %鞍山: 1.9 %鞍山: 1.9 %香港: 0.1 %香港: 0.1 %黄冈: 6.9 %黄冈: 6.9 %黄南: 0.1 %黄南: 0.1 %其他其他OkinawaReynoldsburg上海丽水亚特兰大六安北京南京南平南昌厦门台北台州吉林咸阳哥伦布嘉兴大连天津孟买宁德宁波安康宜春宿迁巴罗达常德广安广州廊坊张家口徐州德罕德阳恩施慕尼黑成都扬州抚州拉瓦尔品第无锡昆明朝阳杭州株洲格兰特县梧州武汉汕头江门池州泉州泰州济南海得拉巴海西淮北淮安温州渭南湖州漯河漳州牛津牡丹江盘锦石家庄福州秦皇岛绵阳自贡舟山芒廷维尤芝加哥苏拉特荆州荆门莆田葫芦岛衡水襄阳西宁西安贵阳连云港邵阳郴州鄂州重庆铁岭长春长沙随州雅安鞍山香港黄冈黄南

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      沈阳化工大学材料科学与工程学院 沈阳 110142

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