Biomechanical study of flexor tendon and finger motor function / 生物医学工程学杂志

In order to provide data for clinical approach to Hand-functional rehabilitation, we conducted this study on the relationships among flexor tendon load, tendon excursion and finger joint angle. Using the dynamic biomechanical test, three-dimension motion image analysis and computer analysis, we investigated eight intact normal male cadavers, hand mechanics of flexor tendon load, tendon excursion and joint angle. The results showed that, at the time when the top of finger touched the palm, the mean tendon load of flexor digitorum profundus(FDP) tendon was 7.9 N, the mean tendon excursion 43.4 mm, the mean total range of motion 237.0 degree. When the top of finger touched the palm, the mean tendon load of flexor digitorum superficial(FDS) tendon was 8.9 N, the mean tendon excursion 38.5 mm, and the mean total range of motion 206.3 degree. These findings demonstrated that there are some curvilinear relationships between flexor tendon load, tendon excursion and finger joint motion. When we flex our fists, the proximal interphalangeal(PIP) joint plays an important role in both FDP and FDS tendon.

Three-dimensional modeling of human hands based on hand anatomical structures / 中国组织工程研究

BACKGROUND:The anatomic structures and kinetic characteristics are the bases to establish hand model, and the kinetic characteristics of hand are determined by the anatomic structure. So, numerous scholars have paid close attention to virtual hand models based on the anatomic structures of hand.OBJECTIVE: To construct visible hand model based on anatomic structure.DESIGN: Single sample trial.SETTING: Center Laboratory, Third Military Medical University of Chinese PLA.MATERIALS: This trial was carried out in the Center Laboratory, Third Military Medical University of Chinese PLA in October 2003. Two fresh adult hands, which involved wrist joint, provided by the Department of Anatomy, Third Military Medical University of Chinese PLA, were employed. The two hands had no organic damage by naked observation.METHODS: The specimens were embedded and mill-cut (mill-cut layer thinness 0.2 mm). Cannon (ESO 1OD) digital camera (6.3 million pixel) was used for image collection. Each image was 31.5 MB, Data of 1 200 images were obtained.Adobe Photoshop 7.0 software was used for image treatment and then two-dimensional cross-section images were collected. The bone, flexor tendon and the outline of hand was three-dimensionally reconstructed by using the software,which was developed by the Department of Computer Science and Technology,Tsinghua University and Institute of Computer Medicine, Department of Anatomy, Third Military Medical University of Chinese PLA.MATN OUTCOME MEASURES: Three-dimensional reconstruction of the bone, flexor tendon and outline of hand.RESULTS: ①The outline of hand: After being reconstructed, the outline, which consisted of all fingers and nails, was well displayed, and observed from many directions.② Three-dimensional reconstruction of the bone of hand: The reconstructed bones of hands involved digital bones, metacarpal bones, carpal bones and all joints, and they could be displayed solely or in groups with other reconstructed structures.③ Three-dimensional reconstruction of the flexor tendons of hand:Four superficial flexor tendons, four deep flexor tendons and one flexor pollex Iongus muscle tendon could be seen from the reconstructed images. All the flexor tendons went out together from the carpal canal and went through the palm, then spread out in fan-shape along the direction of each finger. ④ Three-dimensional reconstruction of the metacarpal fascial spaces: It could be observed from the reconstructed three-dimensional models that the proximal end of the thenar space was close, its distal end was open to the 1st web space, and the proximal end of the midpalmar fascial space was open to the posterior space of antebrachial flexor by carpal canal. Its distal end had three little spaces, which were open to the 2nd, 3rd and 4th web space, respectively.CONCLUSION: The visible hand model, which is preliminarily established, can precisely show the main anatomic structure of palm.

Metacarpal fascial spaces of the hands by computerized three-dimensional reconstruction: Applied anatomic characteristics / 中国组织工程研究

BACKGROUND: The metacarpal fascial spaces of hand are the potential structure that is not virtual, so that difficulties are presented in diagnosis and treatment of diseases of the metacarpal fascial spaces of hand. In order to solve the difficulties,anatomical borderline and abut relationship of the metacarpal fascial spaces of hand have to be sufficiently understood. OBJECTIVE: The borderline and abut of the metacarpal fascial spaces of hand were detailedly observed and researched by fresh cadaveric dissection, thin sectional anatomy and computer image recognition technology, and the 3-D reconstruction technology was utilized to reconstructed the metacarpal fascial spaces in this paper, so the abut relationship of the metacarpal fascial spaces of hand could be displayed, and the detailed anatomical data of imaging diagnosis and surgical treatments of disease of the fascial spaces of hand could be provided. DESIGN: Repeated measuring design.SETTING: The 251 Hospital of Chinese PLA and Central Laboratory of the Third Military Medical University of Chinese PLA. MATERIALS: Twelve adult fresh cadaveric hands which involved six right hands and six left hands and wrist joint, had no organic damage by naked observation, provided by the Department of Anatomy, the Third Military Medical University of Chinese PLA, among one right hand and one left hand were waiting for being mill-cut and thin cross-section dissected and imaging reconstructed. Among ten hands were observed by fresh cadaveric anatomy. METHODS: The trial was carried out in the 251 Hospital of Chinese PLA and Central Laboratory and Department of Anatomy of the Third Military Medical University of Chinese PLA from May 2003 to February 2006. Based on the gross anatomy, thin cross-section anatomy, visible human and virtual human technology theory, the metacarpal fascial spaces of hand were three-D reconstructed in microcomputer.MAIN OUTCOME MEASURES: Anatomical borderline and about relation of the metacarpal fascial spaces of hand. RESULTS: Display of observation result of adjacent and dimension of the midpalmar space and the thenar space by fresh cadaveric anatomy combined with thin cross-section anatomy, computer image recognition technology, and the 3-D reconstruction technology: The anterior borderline of the MPS was the digital flexor tendons of middle finger, ring finger, little finger and the 2nd lumbrical muscle (LM), 3rd LM, 4th LM; the posterior borderline was the palmar interosseous fascia before 3rd palmar bone, 4th palmar bone, 5th palmar bone and corresponding interosseous muscles; the lateral borderline was the palmar intermediate septum; the medial borderline of the MPS was the medial intermuscular septum of palm. In addition, the distal section of the MPS which was separated into three little spaces by two septums of connective tissue, and 3rd 4th, 5th digital flexor tendon and 2nd, 3rd, 4th LM were respectively contained by the three little spaces. The proximal of this space opened to the posterior space of antebrachial flexor by the carpal canal; the distal of this space opened to 2nd, 3rd, 4th web space (WS) by 2nd, 3rd, compartment of 4th LM, and continuously the dorsal subcutaneous space and the subaponeurotic space. The anterior borderline of the TS was the 1st digital flexor tendon and the 1st LM; the posterior borderline was the fascia of abductor pollicis; the medial borderline was the palmar intermediate septum (PIMS); the lateral borderline was the tenden sheath of flexor pollicis longus and the lateral intermuscular septum of palm. The distal of this space opened to 1st WS by compartment of the 1st LM, and continuously to the dorsal subcutaneous space and the subaponeurotic space; the proximal of the TS was close.CONCLUSION: The proximal of the thenar space is close, the distal section of the metacarpal fascial spaces is separated into three little spaces, and the computerized three-D renconstruction of the fascial spaces of hand can provide some guidance for imaging diagnosis and surgical treatments.

Effect of decorin on proliferation and cell cycle of rabbit tendon cells in vitro / 第三军医大学学报

Objective To investigate effect of decorin on proliferation and cell cycle of rabbit tendon cells in vitro so as to explore the role of decorin in tendon wound healing.Methods Tendon cells derived from the tissue of rabbits flexor tendon were harvested and cultured in vitro with decorin of 0.25,1.25,2.5,5 ?g/ml.After culture of 12,24 or 48 h,the cell proliferation rate was measured by MTT colorimetric determination.After 24-hour culture with 0.25?g/ml decorin,the morphology of tendon cells was obtained and the cell cycle distribution was detected by flow cytometer.Results The proliferation of tendon cells was inhibited after 12-hour culture and significantly increased after 24-hour culture with 0.25,1.25,2.5 ?g/ml decorin.However,5 ?g/ml decorin could increase the proliferation after 12-hour culture,increase after 24-hour culture,with no significant difference between 24 h and 48 h.decorin at 0.25 ?g/ml could significantly increase the cells at S phase and PI after 24-hour culture(P

MORPHOLOGICAL STUDY OF VIMENTIN IN SYNOVIAL CELL IN VITRO / 解剖学报

The pattern and distribution of vimentin intermediate filament in synovial cell in vitro were observed by means of immunohistochemistry,confocal scanning laser microscopy (CSLM) and three-di-mentional photograph reconstruction on adherent cell analysis and sorting (ACAS 570). The result showed that vimentin presented spongy stero-structure in whole cytoplasmic space. The reconstructed three-dimentional photograph was similar to the appearance of the cultured synovial cell. The relationship between the distribution of vimentin and the morphological change of cultured synovial cell in different growth period was discussed in this paper.

BLOOD SUPPLY OF THE FLEXOR DIGITORUM TENDON AND ITS CLINICAL SIGNIFICANCE / 解剖学报

An applied anatomical study on the blood supply of the flexor tendon was conducted in the upper extremities of fresh cadaver by means of arterial injection, transparence, maerodissection and histological preparation.The flexor digital tendon can be divided into two parts: non-synovial membrane part and synovial membrane part. The intrinsic vaseularization of non-synovial membrane part of the tendon which was wrapped in paratenon was major in the form of the longitudinal vascular bundles, while the transverse anastomotie branches were short and sparse. The vascularity of this part was simple and uniformly distributed. The intrinsic vascularity of the synovial part possessed distinct characteristics of segmentality and partiality. In the synovial sheath, the blood vessels distributed only onto the dorsal aspect, while the velar 1/3 to 1/2 of the tendon was devoid of vessels. The profundus and superfieialis tendons formed an avascular zone at the proximal interphalangeal and metacarpophalangeal joint separately. It was considered that the difference of the vascularization of tendon might be related to the mechanical force to which the tendon was subjected. The nutrition of tendon was discussed and the selection of tendon graft in the operation was suggested.