实用骨科杂志
實用骨科雜誌
실용골과잡지
Journal of Practical Orthopaedics
2015年
9期
812-816
,共5页
林坚平%沈宁江%史占军%王健%肖军%吴多能%张武
林堅平%瀋寧江%史佔軍%王健%肖軍%吳多能%張武
림견평%침저강%사점군%왕건%초군%오다능%장무
骨不连%生物标志物%人抗酒石酸酸性磷酸酶5b%Ⅰ型胶原氨基端末肽%骨特异性碱性磷酸酶%生物素双抗体夹心酶联免疫吸附法
骨不連%生物標誌物%人抗酒石痠痠性燐痠酶5b%Ⅰ型膠原氨基耑末肽%骨特異性堿性燐痠酶%生物素雙抗體夾心酶聯免疫吸附法
골불련%생물표지물%인항주석산산성린산매5b%Ⅰ형효원안기단말태%골특이성감성린산매%생물소쌍항체협심매련면역흡부법
nonunion%biomarkers%tartrate-resistant acid phosphatase 5b%N-terminal telopeptide of type I collagen%bone-specific alkaline phosphatase%enzyme-linked immunosorbent assay
目的:建立骨不连的动物模型,发现实验性骨不连的生化指标变化规律。方法选取纯种新西兰大白兔分为两组,实验组在前臂桡骨中段截除1.5 cm(包括骨膜),骨断端用骨蜡封闭髓腔,对照组只是在前臂桡骨中段造成骨折,两组分别于术前、术后2周、3周、4周、5周、6周、7周、8周、10周、12周进行X线检查及抽取血样。骨形成特异标志物选择:骨特异性碱性磷酸酶( bone-specific alkaline phosphatase,BSAP)。骨吸收特异标志物包括Ⅰ型胶原氨基端末肽( N-terminal telopeptide of type I collagen,NTX),人抗酒石酸酸性磷酸酶5b( tartrate-resistant acid phosphatase 5b,TRACP 5b)。检测方法采用生物素双抗体夹心酶联免疫吸附法( enzyme-linked immunosorbent assay,ELISA)。结果实验组第2周3例有少许骨痂形成,但5周后骨痂情况稳定,术后8周仍无一例愈合。骨折组术后2周开始骨折线模糊,术后6~8周骨痂大量生长。两组间的BSAP、NTX有统计学意义( NTX F值187.512,P﹤0.001。BSAP F值16.051,P=0.001),BSAP术前、术后两组内各数值无统计学意义,TRACP 5b术前术后、组间、组内各数值无统计学意义。实验组NTX在术后5周开始出现明显下降,术后5周与术前术后各个时间均有统计学意义,术后7周、8周、10周、12周均与术后3周、4周、5周有统计学意义,术后6周以后NTX水平基本稳定。结论新西兰大白兔骨不连缺损的模型可以选择为前臂桡骨中段,截除1.5 cm(包括骨膜),骨断端用骨蜡封闭髓腔。多个血清生化指标的检测有益于骨折愈合过程的临床评估。术后5周,NTX的显著下降,是否可以早期诊断兔实验性骨不连。
目的:建立骨不連的動物模型,髮現實驗性骨不連的生化指標變化規律。方法選取純種新西蘭大白兔分為兩組,實驗組在前臂橈骨中段截除1.5 cm(包括骨膜),骨斷耑用骨蠟封閉髓腔,對照組隻是在前臂橈骨中段造成骨摺,兩組分彆于術前、術後2週、3週、4週、5週、6週、7週、8週、10週、12週進行X線檢查及抽取血樣。骨形成特異標誌物選擇:骨特異性堿性燐痠酶( bone-specific alkaline phosphatase,BSAP)。骨吸收特異標誌物包括Ⅰ型膠原氨基耑末肽( N-terminal telopeptide of type I collagen,NTX),人抗酒石痠痠性燐痠酶5b( tartrate-resistant acid phosphatase 5b,TRACP 5b)。檢測方法採用生物素雙抗體夾心酶聯免疫吸附法( enzyme-linked immunosorbent assay,ELISA)。結果實驗組第2週3例有少許骨痂形成,但5週後骨痂情況穩定,術後8週仍無一例愈閤。骨摺組術後2週開始骨摺線模糊,術後6~8週骨痂大量生長。兩組間的BSAP、NTX有統計學意義( NTX F值187.512,P﹤0.001。BSAP F值16.051,P=0.001),BSAP術前、術後兩組內各數值無統計學意義,TRACP 5b術前術後、組間、組內各數值無統計學意義。實驗組NTX在術後5週開始齣現明顯下降,術後5週與術前術後各箇時間均有統計學意義,術後7週、8週、10週、12週均與術後3週、4週、5週有統計學意義,術後6週以後NTX水平基本穩定。結論新西蘭大白兔骨不連缺損的模型可以選擇為前臂橈骨中段,截除1.5 cm(包括骨膜),骨斷耑用骨蠟封閉髓腔。多箇血清生化指標的檢測有益于骨摺愈閤過程的臨床評估。術後5週,NTX的顯著下降,是否可以早期診斷兔實驗性骨不連。
목적:건립골불련적동물모형,발현실험성골불련적생화지표변화규률。방법선취순충신서란대백토분위량조,실험조재전비뇨골중단절제1.5 cm(포괄골막),골단단용골사봉폐수강,대조조지시재전비뇨골중단조성골절,량조분별우술전、술후2주、3주、4주、5주、6주、7주、8주、10주、12주진행X선검사급추취혈양。골형성특이표지물선택:골특이성감성린산매( bone-specific alkaline phosphatase,BSAP)。골흡수특이표지물포괄Ⅰ형효원안기단말태( N-terminal telopeptide of type I collagen,NTX),인항주석산산성린산매5b( tartrate-resistant acid phosphatase 5b,TRACP 5b)。검측방법채용생물소쌍항체협심매련면역흡부법( enzyme-linked immunosorbent assay,ELISA)。결과실험조제2주3례유소허골가형성,단5주후골가정황은정,술후8주잉무일례유합。골절조술후2주개시골절선모호,술후6~8주골가대량생장。량조간적BSAP、NTX유통계학의의( NTX F치187.512,P﹤0.001。BSAP F치16.051,P=0.001),BSAP술전、술후량조내각수치무통계학의의,TRACP 5b술전술후、조간、조내각수치무통계학의의。실험조NTX재술후5주개시출현명현하강,술후5주여술전술후각개시간균유통계학의의,술후7주、8주、10주、12주균여술후3주、4주、5주유통계학의의,술후6주이후NTX수평기본은정。결론신서란대백토골불련결손적모형가이선택위전비뇨골중단,절제1.5 cm(포괄골막),골단단용골사봉폐수강。다개혈청생화지표적검측유익우골절유합과정적림상평고。술후5주,NTX적현저하강,시부가이조기진단토실험성골불련。
Objective Purpose The aim of this study was to establish an experimental animal model of fracture nonunion, and investigate the changes in serum biomarker concentrations in fracture nonunion. Methods Twenty purebred New Zealand rabbits were divided into two groups. In the bone defect group,a 15-mm length of bone( including the periosteum)was re-moved from the mid-radius,and the medullary cavities were closed with bone wax. In the bone fracture group,the mid-radius was fractured. X-rays were taken and blood samples were collected preoperatively and at 2,3,4,5,6,7,8,10,and 12 weeks after surgery. The serum concentrations of bone-specific alkaline phosphatase( BSAP)as markers of bone formation,and of N-terminal telopeptide of type I collagen(NTX),and tartrate-resistant acid phosphatase 5b(TRACP 5b)as markers of bone resorption,were measured using biotin double -antibody sandwich enzyme -linked immunosorbent assay. Results In the bone defect group,bone callus was observed on X-ray at 2 weeks in three rabbits and the bone calluses stabilized at 5 weeks, but none of the bones had healed at 8 weeks. In the bone fracture group,the fracture line was blurry at 2 weeks and bone callu-ses formed at 6-8 weeks. In the bone defect group,the serum BSAP and TRACP 5b concentrations increased after surgery, peaked at 4 weeks,began to decrease at 5 weeks,and stabilized after 6 weeks. The serum NTX concentration fluctuated during the first 4 weeks,was significantly lower at 5 weeks than at all other time points,and stabilized after 6 weeks. Conclusion These results show that a bone nonunion model can be established in New Zealand rabbits by resecting a 15-mm length of bone from the mid-radius with bone wax blocking. Measurement of the serum BSAP,NTX,and TRACP 5b concentrations may be useful for the early detection of bone nonunion. The serum NTX concentration changed significantly in rabbits with bone nonunion. Further studies are needed to determine the feasibility of using the serum NTX concentration for the early diagnosis of bone nonunion.