Objective To investigate the blood supply of the ulnar nerve in the elbow region and to design the procedure of anterior transposition of ulnar nerve accompanied with arteries for cubital tunnel syndrome.Methods The vascularity of the ulnar nerve was observed and measured in20adult cadaver upper limb specimens. And the clinical surgical procedure was imitated in 3 adult cadaver upper limb specimens. Results There were three major arteries to supply the ulnar nerve at the elbow region: the superior ulnar collateral artery, the inferior ulnar collateral artery and the posterior ulnar recurrent artery. The distances from arterial origin to the medial epicondyle were 14.2±0.9, 4.2±0.6 and 4.8±1.1 cm respectively. And the total length of the vessels travelling alone with the ulnar nerve were 15.0±1.3,5.1±0.3 and 5.6±0.9 cm. The external diameter of the arteries at the beginning spot were 1.5±0.5, 1.2±0.3 and 1.4±0.5 mm respectively. The perpendicular distance of the three arteries were 1.2±0.5,2.7±0.9 and 1.3±0.5 cm respectively.Conclusion It is feasible to perform anterior transposition of the ulnar nerve accompanied with arteries for cubital tunnel syndrome. And the procedure preserves the blood supply of the ulnar nerve following transposition.
Objective To investigate the anatomic foundation of using main branch of posterior femoral nerve to restore the sensation function of distal basedsural island flap. Methods Thirty cases of adult human cadaver legs fixed by 4%formaldehyde were used. Anatomical investigation of the posterior femoral nerves of lower legs was conducted under surgical microscope to observe their distribution, branches and their relationship with small saphenous vein. Nerve brancheswith diameter more than 0.1 mm were dissected and accounted during observation.The length and diameter of the nerves were measured. Results The main branch of posterior femoral nerve ran downwards from popliteal fossa within superficial fascia along with small saphenous vein. 70% of the main branch of the posterior femoral nerves lay medially to small saphenous vein, and 30% laterally. They wereclassified into 3 types according to their distribution in lower legs: typeⅠ (33.3%) innervated the upper 1/4 region of lower leg (region Ⅰ), type Ⅱ (43.3%) had branches in upper 1/2 region (region Ⅰ and Ⅱ), and type Ⅲ (23.3%) distributed over the upper 3/4 region (region Ⅰ, Ⅱ and Ⅲ). In type Ⅱ, the diameter of the main branches of posterior femoral nerves in the middle of popliteal tossa was 10±04 mm and innervated the posterior upper-middle region (which was the ordirary donor region of distal based sural island flaps) of lower legs with 2.0±0.8 branches, whose diameter was 0.3±0.2 mm and length was 3.5±2.7 mm. The distance between the end of these branches and small saphenous vein was 0.8±0.6 mm. In type Ⅲ, their diameter was 1.2±0.3 mm and innervated the posterior upper-middle region of lower legs with 3.7±1.7 branches, whose diameter was 0.4±0.1 mm and length was 3.7±2.6 mm. The distancebetween the end of these branches and small saphenous vein was 0.8±0.4 mm. Conclusion 66.6% of human main branch of posteriorfemoral nerves (type Ⅱ and type Ⅲ) can be used to restore the sensation of distal based sural island flap through anastomosis with sensor nerve stump of footduring operation.
目的:通过对滑车神经行经小脑幕侧方区域的应用解剖学研究,寻找小脑幕侧方区域手术时避免损伤滑车神经的临床解剖标志。方法:对15例(男10例,女5例)防腐固定无畸形、无病变的成人头颅标本用红色乳胶灌注后,10倍手术显微镜下观察滑车神经在小脑幕侧方区域的行径,及其与周围重要神经、血管结构的毗邻关系,测量滑车神经长度、宽度、厚度及其与周围标志点的距离,并对所得结果进行统计学分析。结果:滑车神经在小脑上动脉和大脑后动脉之间向前行,进入小脑幕侧方区域,在动眼神经三角的后部穿越游离缘硬膜,其长度为(6.78±1.87)mm,宽度为(1.09±0.21)mm,厚度为(0.78±0.11)mm。滑车神经进入小脑幕侧方区域的入口处位于前床突、颈内动脉床突上段起始部、动眼神经入口后方,位于后床突后外方;距离前床突(23.24±3.18)mm、颈内动脉床突上段起始部(17.57±3.26)mm、动眼神经入口(11.42±3.32)mm;距离后床突(14.21±3.25)mm。结论:行小脑幕侧方区域手术时,为避免损伤滑车神经,前床突、后床突、颈内动脉床突上段起始部和动眼神经入口可以作为寻找滑车神经入口的重要标志,同时注意区分小脑上动脉和大脑后动脉。