北京体育大学学报
北京體育大學學報
북경체육대학학보
Journal of Beijing University of Physical Education
2013年
4期
58~61
,共null页
去卵巢大鼠 骨密度 全身振动 micro-CT 松质骨结构
去卵巢大鼠 骨密度 全身振動 micro-CT 鬆質骨結構
거란소대서 골밀도 전신진동 micro-CT 송질골결구
ovariectomized rats ; bone mineral density; whole-body vertical vibration; micro-CT; trabecular bonemicroarehitecture
旨在观察全身垂直振动对去卵巢骨质疏松大鼠松质骨微结构的影响。将36只3月龄雌性SD大鼠按体重分层后随机分为假手术、去卵巢静止和去卵巢振动3个组。去卵巢10周时,去卵巢振动组大鼠开始在振动台上每天接受2次振动频率为90Hz的振动刺激,每次15min,每周7次。振动7周后,按解剖位置截取所有大鼠左股骨和第5腰椎,随机取6只大鼠的左股骨和第5腰椎进行micro-CT扫描及三维结构重建。选取股骨远端距生长板远端1mm处,2.0mm×3.5mm,厚1mm的骨组织以及腰椎生长板下1mm处,1.5mm×4.0mm/1,厚lmm的骨组织为感兴趣区域,进行骨形态计量学分析。结果显示:去卵巢静止组股骨远端和第5腰椎体积骨密度(vBMD)、骨体积分数(BV/TV)、骨小梁数F1(Tb.N)、骨小梁厚度(rrb.Th)显著低于假手术组,而骨小梁分离度(11).sp)和结构模拟指数(SMI)显著高于假手术组;与去卵巢静止组比较,去卵巢振动组股骨vBMD、Bv/TV和Tb.N显著增加,Tb.sp显著下降,而rIb.Th和SMI差异无显著性。去卵巢振动组第5腰椎和去卵巢静止组所有检测指标差异均无显著性。以上结果表明,全身垂直振动能改善去卵巢骨质疏松大鼠股骨松质骨的微结构,但不能改善其腰椎松质骨的微结构。
旨在觀察全身垂直振動對去卵巢骨質疏鬆大鼠鬆質骨微結構的影響。將36隻3月齡雌性SD大鼠按體重分層後隨機分為假手術、去卵巢靜止和去卵巢振動3箇組。去卵巢10週時,去卵巢振動組大鼠開始在振動檯上每天接受2次振動頻率為90Hz的振動刺激,每次15min,每週7次。振動7週後,按解剖位置截取所有大鼠左股骨和第5腰椎,隨機取6隻大鼠的左股骨和第5腰椎進行micro-CT掃描及三維結構重建。選取股骨遠耑距生長闆遠耑1mm處,2.0mm×3.5mm,厚1mm的骨組織以及腰椎生長闆下1mm處,1.5mm×4.0mm/1,厚lmm的骨組織為感興趣區域,進行骨形態計量學分析。結果顯示:去卵巢靜止組股骨遠耑和第5腰椎體積骨密度(vBMD)、骨體積分數(BV/TV)、骨小樑數F1(Tb.N)、骨小樑厚度(rrb.Th)顯著低于假手術組,而骨小樑分離度(11).sp)和結構模擬指數(SMI)顯著高于假手術組;與去卵巢靜止組比較,去卵巢振動組股骨vBMD、Bv/TV和Tb.N顯著增加,Tb.sp顯著下降,而rIb.Th和SMI差異無顯著性。去卵巢振動組第5腰椎和去卵巢靜止組所有檢測指標差異均無顯著性。以上結果錶明,全身垂直振動能改善去卵巢骨質疏鬆大鼠股骨鬆質骨的微結構,但不能改善其腰椎鬆質骨的微結構。
지재관찰전신수직진동대거란소골질소송대서송질골미결구적영향。장36지3월령자성SD대서안체중분층후수궤분위가수술、거란소정지화거란소진동3개조。거란소10주시,거란소진동조대서개시재진동태상매천접수2차진동빈솔위90Hz적진동자격,매차15min,매주7차。진동7주후,안해부위치절취소유대서좌고골화제5요추,수궤취6지대서적좌고골화제5요추진행micro-CT소묘급삼유결구중건。선취고골원단거생장판원단1mm처,2.0mm×3.5mm,후1mm적골조직이급요추생장판하1mm처,1.5mm×4.0mm/1,후lmm적골조직위감흥취구역,진행골형태계량학분석。결과현시:거란소정지조고골원단화제5요추체적골밀도(vBMD)、골체적분수(BV/TV)、골소량수F1(Tb.N)、골소량후도(rrb.Th)현저저우가수술조,이골소량분리도(11).sp)화결구모의지수(SMI)현저고우가수술조;여거란소정지조비교,거란소진동조고골vBMD、Bv/TV화Tb.N현저증가,Tb.sp현저하강,이rIb.Th화SMI차이무현저성。거란소진동조제5요추화거란소정지조소유검측지표차이균무현저성。이상결과표명,전신수직진동능개선거란소골질소송대서고골송질골적미결구,단불능개선기요추송질골적미결구。
The aim of this study was to investigate the effects of whole-body vertical vibration on trabecular bone mi- croarchitecture of ovariectomized osteoporosis rats. 36 healthy three-month old female SD rats were randomly divided into the following three groups by body weight: sham-operation (Sham), ovariectomized (OVX), and OVX whole- body vertical vibration (WBVV) groups. After ten weeks of OVX, the WBVV group rats were vibrated on a vibra- tion platform twice per day for 7 weeks according to the following schedule : 90 hertz a minute and 15 min a time. At the end of 7 weeks vibration, the trabecular bone microarchitecture was detected by micro-CT in vitro. As revealed by the results of micro-CT, the volume bone mineral density (vBMD), the fraction of bone tissues (BV/TV), as well as the number of trabecular bone(Tb. N) and thickness of trabecular bone (Tb. Th) in both distal femur and the fifth lumbar vertebrae of OVX group were significantly lower than that of in the Sham group whereas the separa- tion of trabecular bone ( Tb. Sp) and the bone structure index (SMI) was significantly higher than that of in the sham group. The vBMD and the Tb. N in distal femur of the WBVV group was significantly higher than that of in OVX group while the Tb. Sp in WBVV group was significantly lower than that of in OVX group, however, there was no difference in the Tb. Th and SMI between the WBVV group and the OVX group. There were no difference in all detected parameters of the fifth lumbar vertebrae between the WBVV group and the OVX group. These results sug- gested that whole-body vertical vibration could improve the trabecular bone microarchitecture of femur in OVX osteo- porosis rats, but had no effects on the trabecular bone microarchitecture of lumbar vertebrae.
