中国临床康复
中國臨床康複
중국림상강복
CHINESE JOURNAL OF CLINICAL REHABILITATION
2005年
25期
214-215
,共2页
何静杰%张蕴忱%崔利华%杨雅琴
何靜傑%張蘊忱%崔利華%楊雅琴
하정걸%장온침%최리화%양아금
偏瘫%骨密度%骨质疏松
偏癱%骨密度%骨質疏鬆
편탄%골밀도%골질소송
背景:脑卒中及脑损伤所致偏瘫后易造成继发性骨质疏松,其骨密度值和骨矿含量是预测骨质疏松骨折的危险性的有效参数.目的:通过对偏瘫患者骨密度值及骨矿含量的测定与分析,探讨偏瘫患者骨质疏松发生的特点.设计:病例分析.对象:选择1999-03/2002-05在北京博爱医院神经康复科住院的偏瘫患者156例.男87例,女69例;年龄17~65岁,平均年龄(47.0±5.3)岁;病程19 d~1年,平均病程(5.0±3.5)个月;疾病类型:脑梗死89例,脑出血67例;瘫痪侧别:左侧79例,右侧77例.方法:所有患者使用LUNAR双能X射线骨密度仪从头部至足部进行全身扫描,测量骨密度和骨矿含量.主要观察指标:①不同病程偏瘫患者中骨质疏松发生率.②不同部位瘫痪患者的骨矿含量.结果:156例患者全部进入结果分析.①病程在3~6个月骨质疏松发生率最高(44%,16/36),病程在9~12个月骨质疏松发生率最低(21%,7/33),总体骨质疏松发生率为31%(48/156).②病程在3个月内:47例患者中有9例为弛缓性瘫,均患有骨质疏松,其中2例发生骨折.病程3~6个月:36例患者中有3例为弛缓性瘫,也患有骨质疏松.③上肢患侧的骨矿含量明显低于健侧[(154.76±43.91)g,(172.59±43.78)g,(t=3.591,P<0.001)].下肢患侧的骨矿含量与健侧基本接近[(463.41±309.28)g,(464.11±86.45)g,(t=0.027,P>0.05)].结论:偏瘫患者的骨量变化随偏瘫时间的不同有不同的变化.上肢患侧的骨矿含量低,下肢患侧骨矿含量接近正常,这是由于下肢较早的进行功能锻炼,说明骨量的大小与运动有密切关系.
揹景:腦卒中及腦損傷所緻偏癱後易造成繼髮性骨質疏鬆,其骨密度值和骨礦含量是預測骨質疏鬆骨摺的危險性的有效參數.目的:通過對偏癱患者骨密度值及骨礦含量的測定與分析,探討偏癱患者骨質疏鬆髮生的特點.設計:病例分析.對象:選擇1999-03/2002-05在北京博愛醫院神經康複科住院的偏癱患者156例.男87例,女69例;年齡17~65歲,平均年齡(47.0±5.3)歲;病程19 d~1年,平均病程(5.0±3.5)箇月;疾病類型:腦梗死89例,腦齣血67例;癱瘓側彆:左側79例,右側77例.方法:所有患者使用LUNAR雙能X射線骨密度儀從頭部至足部進行全身掃描,測量骨密度和骨礦含量.主要觀察指標:①不同病程偏癱患者中骨質疏鬆髮生率.②不同部位癱瘓患者的骨礦含量.結果:156例患者全部進入結果分析.①病程在3~6箇月骨質疏鬆髮生率最高(44%,16/36),病程在9~12箇月骨質疏鬆髮生率最低(21%,7/33),總體骨質疏鬆髮生率為31%(48/156).②病程在3箇月內:47例患者中有9例為弛緩性癱,均患有骨質疏鬆,其中2例髮生骨摺.病程3~6箇月:36例患者中有3例為弛緩性癱,也患有骨質疏鬆.③上肢患側的骨礦含量明顯低于健側[(154.76±43.91)g,(172.59±43.78)g,(t=3.591,P<0.001)].下肢患側的骨礦含量與健側基本接近[(463.41±309.28)g,(464.11±86.45)g,(t=0.027,P>0.05)].結論:偏癱患者的骨量變化隨偏癱時間的不同有不同的變化.上肢患側的骨礦含量低,下肢患側骨礦含量接近正常,這是由于下肢較早的進行功能鍛煉,說明骨量的大小與運動有密切關繫.
배경:뇌졸중급뇌손상소치편탄후역조성계발성골질소송,기골밀도치화골광함량시예측골질소송골절적위험성적유효삼수.목적:통과대편탄환자골밀도치급골광함량적측정여분석,탐토편탄환자골질소송발생적특점.설계:병례분석.대상:선택1999-03/2002-05재북경박애의원신경강복과주원적편탄환자156례.남87례,녀69례;년령17~65세,평균년령(47.0±5.3)세;병정19 d~1년,평균병정(5.0±3.5)개월;질병류형:뇌경사89례,뇌출혈67례;탄탄측별:좌측79례,우측77례.방법:소유환자사용LUNAR쌍능X사선골밀도의종두부지족부진행전신소묘,측량골밀도화골광함량.주요관찰지표:①불동병정편탄환자중골질소송발생솔.②불동부위탄탄환자적골광함량.결과:156례환자전부진입결과분석.①병정재3~6개월골질소송발생솔최고(44%,16/36),병정재9~12개월골질소송발생솔최저(21%,7/33),총체골질소송발생솔위31%(48/156).②병정재3개월내:47례환자중유9례위이완성탄,균환유골질소송,기중2례발생골절.병정3~6개월:36례환자중유3례위이완성탄,야환유골질소송.③상지환측적골광함량명현저우건측[(154.76±43.91)g,(172.59±43.78)g,(t=3.591,P<0.001)].하지환측적골광함량여건측기본접근[(463.41±309.28)g,(464.11±86.45)g,(t=0.027,P>0.05)].결론:편탄환자적골량변화수편탄시간적불동유불동적변화.상지환측적골광함량저,하지환측골광함량접근정상,저시유우하지교조적진행공능단련,설명골량적대소여운동유밀절관계.
BACKGROUND: Hemiplegia caused by stroke or brain injury may lead to secondary osteoporosis. Under the circumstance, bone mineral density (BMD) and Bone Mineral Content (BMC) are two effective factors for predicting the risk of osteoporosis-related fracture OBJECTIVE: To investigate the characteristics of secondary osteoporosis in stroke patients with hemiplegia by measuring and analyzing BMD and BMC.DESIGN: A case study.PARTICIPANTS: From March 1999 to May 2002, 156 hemiplegia patients at the Neurorehabilitation Department of Peking Boai Hospital were selected, 87 males and 69 females, with an age ranging from 17 to 65 years old, in average of (47.0±5.3) years old and having a course of diseases ranging (5.0±3.5) months. The types of their illness: 89 had cerebral infarction, 67 had cerebral hemorrhage. Hemiplegia sides: 79 patients had hemiplegia in the left and 77 in the right.METHODS: Using LUNAR Dual Energy X-Ray densitometers, all the patients underwent a fro-top-to-toe scan to assess the BMD and BMC status.MAIN OUTCOME MEASURES: ① The occurrence rate of osteoporosis in patients with various course of hemiplegia. ② The BMC in patients with hemiplegia in various part.RESULTS: All the 156 patients entered the statistical analysis procedure.① The occurrence rate of osteoporosis was highest in patients with 3 to 6 months of hemiplegia (44%, 16/36) and was lowest in those with 9 to 12 months of disease (21%,7/33). The total occurrence rate of osteoporosis was 31% (48/156). ② For those with a less-than-3-month course of hemiplegia: Of all the 47 patients, 9 had dystonic hemiplegia, all suffering from osteoporosis and 2 of whom having fracture. For those with a 3-to-6-month course of hemiplegia: Of all the 36 patients, 3 had dystonic hemiplegia and osteporosis as well. ③ BMC in the affect side of upper limb was signifi cantly lower than that in healthy side [(154.76±43.91) g, (172.59±43.78) g,t=3.591, P< 0.001]. BMC in the affect side of lower extremity was close to that in healthy side [(463.41±30928) g, (464.11±86.45) g, t=0.027, P> 0.05].CONCLUSION: In patients with hemiplegia, changes in bone mass fluctuate with the length of hemiplegia. BMC in the affect side of upper limb is low while that in the healthy side is nearly normal. It may be explained that upper extremities start the functional exercises at an early time. This indicated that bone mass has a close relationship with excercises.
