中华肩肘外科电子杂志
中華肩肘外科電子雜誌
중화견주외과전자잡지
Chinese Journal of Shoulder and Elbow (Electronic Edition)
2014年
3期
168-173
,共6页
赵龙%宋有鑫%崔成喜%张宇轩%张宝琦%龚平%武云鹤%尚瑞松%陈宾
趙龍%宋有鑫%崔成喜%張宇軒%張寶琦%龔平%武雲鶴%尚瑞鬆%陳賓
조룡%송유흠%최성희%장우헌%장보기%공평%무운학%상서송%진빈
肱骨骨折,远端%手术治疗%疗效
肱骨骨摺,遠耑%手術治療%療效
굉골골절,원단%수술치료%료효
Humerus fractures,distal%Surgical treatment%Curative effect
目的:评价手术治疗复杂肱骨远端骨折的疗效。方法我院自2004年1月至2013年12月治疗肱骨远端骨折患者24例(AO/OTA 分型为 A3、B1、B2、C3型),根据不同的骨折分型采取个性化治疗,并对手术时间、术中出血量及术后肘关节功能进行评价。结果术后随访3~6个月,平均4.5个月。根据肘关节返修术后功能评价(Mayo Clinic),术后一周肘关节功能评分:良好12例,一般10例,较差2例,优良率为50.0%;术后3个月肘关节功能评分:良好15例,一般7例,较差2例,优良率为62.5%。AO/OTA 分型:A3型平均手术时间(186±45.9)min,平均术中出血量(161.1±69.7)ml,平均引流量(109.4±39.2)ml;B1、B2型平均手术时间(115±42.9)min,平均术中出血量(75.8±66.5)ml;平均引流量(17.0±28.2)ml;C3型平均手术时间(206.7±37.4)min,平均术中出血量(237.8±140.4)ml,平均引流量(132.8±17.9)ml。结论合理的手术入路及内固定方式结合早期功能锻炼有利于肱骨远端骨折患者术后肘关节功能的恢复,可提高肱骨远端骨折患者的治疗效果,减少并发症。
目的:評價手術治療複雜肱骨遠耑骨摺的療效。方法我院自2004年1月至2013年12月治療肱骨遠耑骨摺患者24例(AO/OTA 分型為 A3、B1、B2、C3型),根據不同的骨摺分型採取箇性化治療,併對手術時間、術中齣血量及術後肘關節功能進行評價。結果術後隨訪3~6箇月,平均4.5箇月。根據肘關節返脩術後功能評價(Mayo Clinic),術後一週肘關節功能評分:良好12例,一般10例,較差2例,優良率為50.0%;術後3箇月肘關節功能評分:良好15例,一般7例,較差2例,優良率為62.5%。AO/OTA 分型:A3型平均手術時間(186±45.9)min,平均術中齣血量(161.1±69.7)ml,平均引流量(109.4±39.2)ml;B1、B2型平均手術時間(115±42.9)min,平均術中齣血量(75.8±66.5)ml;平均引流量(17.0±28.2)ml;C3型平均手術時間(206.7±37.4)min,平均術中齣血量(237.8±140.4)ml,平均引流量(132.8±17.9)ml。結論閤理的手術入路及內固定方式結閤早期功能鍛煉有利于肱骨遠耑骨摺患者術後肘關節功能的恢複,可提高肱骨遠耑骨摺患者的治療效果,減少併髮癥。
목적:평개수술치료복잡굉골원단골절적료효。방법아원자2004년1월지2013년12월치료굉골원단골절환자24례(AO/OTA 분형위 A3、B1、B2、C3형),근거불동적골절분형채취개성화치료,병대수술시간、술중출혈량급술후주관절공능진행평개。결과술후수방3~6개월,평균4.5개월。근거주관절반수술후공능평개(Mayo Clinic),술후일주주관절공능평분:량호12례,일반10례,교차2례,우량솔위50.0%;술후3개월주관절공능평분:량호15례,일반7례,교차2례,우량솔위62.5%。AO/OTA 분형:A3형평균수술시간(186±45.9)min,평균술중출혈량(161.1±69.7)ml,평균인류량(109.4±39.2)ml;B1、B2형평균수술시간(115±42.9)min,평균술중출혈량(75.8±66.5)ml;평균인류량(17.0±28.2)ml;C3형평균수술시간(206.7±37.4)min,평균술중출혈량(237.8±140.4)ml,평균인류량(132.8±17.9)ml。결론합리적수술입로급내고정방식결합조기공능단련유리우굉골원단골절환자술후주관절공능적회복,가제고굉골원단골절환자적치료효과,감소병발증。
Background Distal humeral fracture is a severe damage around the elbow joint,and is often seen in young adults.It accounts for 2% of all adult fractures and about 50% of all humerus fractures.It′s one of the fractures that is difficult to deal with.The types of distal humeral fracture are divergent. Distal humerus fractures are often comminuted which make operative reduction difficult.Secondary loss of reduction and elbow ankylosis are common postoperative complications. All these difficulties make the distal humerus fracture one of the unresolved problems in fracture treatment.This study is to evaluate the clinical outcome of complex distal humeral fractures treated by operation.Methods (1)General data:twenty-four cases of operative treated distal humerus fractures in author′s hospital from January 2004 to December 2013 were included in this study.There were 1 5 males and 9 females,aging from 1 7 to 73,averaged 41.AO/OTA Classification:A3:9 cases;B1, B2:6 cases;C3:9 cases.Two cases were combined with nerve injury.Two cases had histories of high blood pressure and diabetes.(2 ) Operative method:The patient was placed in the supine position,and the elbow to be operated on was positioned at 90°of abduction and supported on a lucent operating table.A pneumatic tourniquet was placed as proximally as possible on the arm.With the elbow flexed at about 60°,the first incision was made about 7 cm proximal to the tip of the medial epicondyle.In the initial cases,the ulnar nerve was isolated,released from the ulnar nerve groove, and protected carefully.In later cases,the nerve was only exposed.The medial and anteromedial side of the distal humerus was exposed through the opening between the brachial muscle and the medial intermuscular septum.The common origin of the flexor muscles was partially dissected and reflected distally,leaving a 5-mm strut to be re-sutured in situ at completion of surgery.The anterior capsule was incised.The articular surface of the trochlea was then exposed.A second incision was begun approximately 8 cm proximal to the lateral epicondyle.The space between the triceps posteriorly,the origins of the extensor carpi radialis longus and the brachioradialis anteriorly,and the anterior side of the distal articular surface were exposed.The space between the anconeus and the extensor carpi ulnaris was opened,and the most distal articular surface of the capitulum and the lateral part of the trochlea was exposed.The elbow was then flexed about 80°,and the biceps and brachial - bronchial muscles were retracted anteriorly. Any hematoma among the fragments was debrided, and the number and displacement of articular fragments were identified.The main medial articular fragment, usually associated with the metaphyseal fragment, was first reduced to the medial column and temporally fixed with K-wires.Definitive fixation with a reconstruction plate (usually 6 holes)could be completed if the metaphyseal fragment was anatomically reduced. Displaced small articular fragments were reduced to the main lateral fragment and fixed with 0.8 K-wires.The main lateral articular fragment was then reduced medially to the medial articular fragment and proximally to the lateral column and maintained temporarily with K-wires.The reduction in the articular surfaces was then checked under direct vision and using a C-arm.Any step or gap between the lateral and the medial articular fragment was abolished by abduction or adduction of the elbow and compression with forceps while keeping the medial fragment in situ.Simultaneous adjustment of the lateral column was also performed.If the articular fracture was anatomically reduced,a 1.25-mm guide wire was then inserted into the trochlea from the lateral condyle,passed through the fracture and then to the medial condyle,parallel with the distal articular surface and located in the bone between the olecranal fossa and the articular surface as confirmed by C-arm.A 4.0-mm cannulated screw was then inserted along the guide wire.As described above,the medial column could be definitely fixed with a plate if anatomical reduction was achieved.In most cases,the plate was positioned on the anteromedial side of the distal humerus.The distal end of the plate should not extend beyond the medial epicondyle and should be fixed to the bone with 2-3 screws according to the location of the fracture line.The best option was to insert the most distal two screws into the medial trochlea.If the fracture line was too low to be fixed with a plate,a tension band wire or screw fixation was used.The reconstruction plate for fixing the lateral column was carefully contoured,allowing the proximal end to be placed on the anterolateral side,and the distal end with the two most distal holes placed on the lateral side of the distal humerus.At least two screws were used to fix the plate to the lateral articular fragment,with one long screw implanted from lateral to medial side and parallel to the articular surface.Inserting the most proximal screws of the lateral and medial plates at the same level should be avoided.The reduction in the articular surface and the length of the screws were checked by C-arm.No excessive movement of the fracture fragments under the motion of the elbow was confirmed under direct vision. The dissected common origin of the flexor muscles was repaired. (3 ) Tips and tricks during operation:the nerves and blood vessels should be carefully protected during operation.Yi Jiangying et al reported that the anteversion of distal humerus and carrying angle of upper limb should be well reconstructed. For type C3, the first thing is to reduce intercondylar fragments, changing intercondylar fracture to supracondylar fracture,then restore the lateral column of distal humerus,in the end is to focus on the recovery of the trochlea articular surface.(4 )Postoperative treatment:Antibiotics were routinely used in 3-5 d.The drainage tube was removed in 48-72 h.The stitches would be removed after two weeks.Plaster cast or hinged splint was properly applied to protect the elbow according to the classification of the fracture and the actual situation of patients. Early functional exercise was conducted.After a week or so,patients would be encouraged to do elbow flexion and extension.Rehabilitation protocol should be individualized according to fracture type and patients status.The intensity of rehabilitation also should be increased gradually.Proper upper limb weight bearing was allowed after 6-8 weeks.Results All 24 patients were successfully operated. Operation time varied from 55 to 270 minutes,and averaged in 143 min.Blood loss was ranged from 50 to 400 ml,and averaged in 183 ml.All 24 patients achieved Stage I healing.No swelling,effusion, or infection was observed.Postoperative follow-up was 3-6 months (averaged 4.5 months).Callus formation was observed in fracture end. No internal fixation loosening, myositis ossifications, malunion,delayed union or nonunion was observed in follow-ups. The outcome was evaluated according to Mayo Clinic Elbow Score. Good and excellent rate was 62.5% at 3 months postoperatively.Conclusions Classifying the distal humeral fractures using the imaging data is important for choosing appropriate surgery method.The satisfied reduction,rigid internal fixation and early exercise are critical for the functional recovery of the elbow.
