中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
12期
1805-1810
,共6页
张树芳%陈荣春%江建明%朱青安
張樹芳%陳榮春%江建明%硃青安
장수방%진영춘%강건명%주청안
生物材料%骨生物材料%骨水泥%硫酸钙/β-磷酸三钙%骨质疏松%椎体成形术%生物力学%成骨作用%动物实验%国家自然科学基金
生物材料%骨生物材料%骨水泥%硫痠鈣/β-燐痠三鈣%骨質疏鬆%椎體成形術%生物力學%成骨作用%動物實驗%國傢自然科學基金
생물재료%골생물재료%골수니%류산개/β-린산삼개%골질소송%추체성형술%생물역학%성골작용%동물실험%국가자연과학기금
biocompatible materials%vertebroplasty%osteoporosis%biomechanics
背景:新型带负电荷硫酸钙/β-磷酸三钙复合骨水泥具有成骨效应,但目前尚无其应用于椎体成形的相关研究。<br> 目的:通过动物实验评估新型带负电荷硫酸钙/β-磷酸三钙复合骨水泥在体内的生物力学性质及成骨性能。<br> 方法:取30只新西兰大白兔建立骨质疏松模型4周后,在每只兔L 3、L 5椎体中央制造骨缺损,分别注射新型带负电荷硫酸钙/β-磷酸三钙复合骨水泥(实验组)与聚甲基丙烯酸甲酯骨水泥(对照组),L 1椎体为未干预的骨质疏松模型。于术后3,6个月各处死15只,取3组椎体进行Micro-CT分析及生物力学实验。<br> 结果与结论:①MicroCT三维重建显示,术后3个月时,实验组骨小梁三维结构参数明显优于对照组(P<0.05),与骨质疏松模型组无显著差别(P>0.05);术后6个月时,实验组骨小梁三维结构参数明显优于对照组和骨质疏松模型组(P均<0.05)。②术后3个月时,实验组椎体强度明显小于对照组(P <0.05),但高于骨质疏松模型组(P <0.05);椎体刚度小于对照组和骨质疏松模型组(P均<0.05)。术后6个月时,实验组椎体强度与对照组接近(P >0.05),但高于骨质疏松模型组(P <0.05);椎体刚度与对照组和骨质疏松模型组无差异(P >0.05)。表明新型带负电荷硫酸钙/β-磷酸三钙复合骨水泥可以迅速有效地提高椎体生物力学强度,具有诱导成骨效应。
揹景:新型帶負電荷硫痠鈣/β-燐痠三鈣複閤骨水泥具有成骨效應,但目前尚無其應用于椎體成形的相關研究。<br> 目的:通過動物實驗評估新型帶負電荷硫痠鈣/β-燐痠三鈣複閤骨水泥在體內的生物力學性質及成骨性能。<br> 方法:取30隻新西蘭大白兔建立骨質疏鬆模型4週後,在每隻兔L 3、L 5椎體中央製造骨缺損,分彆註射新型帶負電荷硫痠鈣/β-燐痠三鈣複閤骨水泥(實驗組)與聚甲基丙烯痠甲酯骨水泥(對照組),L 1椎體為未榦預的骨質疏鬆模型。于術後3,6箇月各處死15隻,取3組椎體進行Micro-CT分析及生物力學實驗。<br> 結果與結論:①MicroCT三維重建顯示,術後3箇月時,實驗組骨小樑三維結構參數明顯優于對照組(P<0.05),與骨質疏鬆模型組無顯著差彆(P>0.05);術後6箇月時,實驗組骨小樑三維結構參數明顯優于對照組和骨質疏鬆模型組(P均<0.05)。②術後3箇月時,實驗組椎體彊度明顯小于對照組(P <0.05),但高于骨質疏鬆模型組(P <0.05);椎體剛度小于對照組和骨質疏鬆模型組(P均<0.05)。術後6箇月時,實驗組椎體彊度與對照組接近(P >0.05),但高于骨質疏鬆模型組(P <0.05);椎體剛度與對照組和骨質疏鬆模型組無差異(P >0.05)。錶明新型帶負電荷硫痠鈣/β-燐痠三鈣複閤骨水泥可以迅速有效地提高椎體生物力學彊度,具有誘導成骨效應。
배경:신형대부전하류산개/β-린산삼개복합골수니구유성골효응,단목전상무기응용우추체성형적상관연구。<br> 목적:통과동물실험평고신형대부전하류산개/β-린산삼개복합골수니재체내적생물역학성질급성골성능。<br> 방법:취30지신서란대백토건립골질소송모형4주후,재매지토L 3、L 5추체중앙제조골결손,분별주사신형대부전하류산개/β-린산삼개복합골수니(실험조)여취갑기병희산갑지골수니(대조조),L 1추체위미간예적골질소송모형。우술후3,6개월각처사15지,취3조추체진행Micro-CT분석급생물역학실험。<br> 결과여결론:①MicroCT삼유중건현시,술후3개월시,실험조골소량삼유결구삼수명현우우대조조(P<0.05),여골질소송모형조무현저차별(P>0.05);술후6개월시,실험조골소량삼유결구삼수명현우우대조조화골질소송모형조(P균<0.05)。②술후3개월시,실험조추체강도명현소우대조조(P <0.05),단고우골질소송모형조(P <0.05);추체강도소우대조조화골질소송모형조(P균<0.05)。술후6개월시,실험조추체강도여대조조접근(P >0.05),단고우골질소송모형조(P <0.05);추체강도여대조조화골질소송모형조무차이(P >0.05)。표명신형대부전하류산개/β-린산삼개복합골수니가이신속유효지제고추체생물역학강도,구유유도성골효응。
BACKGROUND:A newly developed calcium phosphate/β-tricalcium phosphate composite bone cement with a negative surface charge (genex?) has been reported to possess osteoinductivity properties. However, to our knowledge, no previous literatures have reported genex? for vertebroplasty in the osteoporotic spine. <br> OBJECTIVE:To evaluate the biomechanical properties and osteogenesis of vertebral bodies injected with genex? cement in a rabbit vertebroplasty defect model. <br> METHODS:Thirty New Zealand rabbits were used to establish osteoporosis models. Four weeks after modeling, model rabbits had an iatrogenical y created cavitary lesion at L 3 and L 5 and were injected with either genex? cement (experimental group) or polymethyl methacrylate bone cement (control group). The L 1 vertebral body served as model group without treatment. After 3 and 6 months, 15 rats from each group were executed respectively, and three vertebral samples were taken for Micro-CT analysis and biomechanical tests. <br> RESULTS AND CONCLUSION:(1) The Micro-CT showed better three-dimensional structure parameters of the trabecular bone in the experimental group than the control group (P<0.05) after 3 months, which however had no difference from the model group (P>0.05). After 6 months, the structure parameters in the experimental group were superior to those in the control and model groups (P<0.05). (2) After 3 months, the vertebral body compression strength of the experimental group was lower than that of the control group (P<0.05), but higher than that in the model group (P<0.05). The vertebral stiffness of the experimental group was lower than that in control and model groups (P<0.05). After 6 months, the vertebral body compression strength of the experimental group was not different from that of the control group (P>0.05), but stil higher than that of the model group (P<0.05). The vertebral stiffness showed no difference between three groups (P>0.05). These findings indicate that genex? cement can rapidly repair osteoporotic vertebral defects and improve the bone strength. Verterbroplasty with genex? cement has adequate osteoinductivity, biocompatibility, and adequate compressive strength.
