Anatomy of the original short head of biceps-muscular structure / 解剖学报

Objective To analyze and describe the morphological characteristics of the proximal origin of the biceps brachii, and measure the anatomical data of its tendons, so as to provide references for related clinical applications of the biceps brachii. Methods Six adult shoulder specimens (4 on the left and 2 on the right) were dissected to observe the origin, morphology, and course of the biceps brachii tendon and its adjacent relationship with the coracobrachialis muscle, musculocutaneous nerve and other structures. And then the length, width, and thickness of the biceps tendon were measured. Results The origin of the short head of biceps consisted of muscle fibers attaching directly to the tip of the coracoid process, with a thin, tendinous aponeurosis covering its anterior surface, rather than a true tendon as previously described. The mean of length,widths and thickness of the short head of biceps were (107.7±9.6) mm,(20.0±1.5)mm and (5.8±2.0)mm. Conclusion The short head of the biceps brachii is directly from the coracoid process with muscle fibers.

Anatomical continuity between the iliotibial tract and the fibular myofascial fascia / 解剖学报

Objective To provide evidence for the presence of the lower body fascia chain. Methods Totally 20 cases of Chinese adult femur were selected, and the anatomy was performed to observe the continuity on fascia between periosteal fascia and iliotibial tract (ITT). Judging the generic character and the degree of continuity of them. If there was a significant anatomical continuity between them, the tensile strength of the structure is tested by applying a certain tension to both. Results First, an indirect link between the iliotibial tract and the fibular myofascial fascia was found: in all anatomical lower extremity specimens, the iliotibial bundle (ITT) was structurally connected to the fascial fascia, which was almost inseparable from the fibular fascia. Second, the application of tension to the iliotibial tract (ITT) could cause local movement between the fascia of the calf and the periosteal fascia. Conclusion Iliotibial tract and fibular long muscle fascia are connected firmly. The stability of the connection suggests that it may play a role in the conduction of a certain tension.