No abstract available.
Free Tissue Flaps* ; Lower Extremity* ; Soft Tissue Injuries*

Even though several techniques are available for repairing lower extremity skin defects, it is hard to challenge the advantages of local flaps (advancement, rotation, or transposition) due to lack of skin laxity of lower extremities. Modified keystone flap (MKF) is a simple and effective method of closing a large skin defect. It is especially useful for wound closure in circumstances where the defects show limited skin laxity. Compared to the keystone flap (KF), MKF has many advantages, including quick healing time, high flap viability, minimal postoperative pain, and excellent aesthetic results. Here, we report two cases of reconstruction of large skin defects of the lower extremities using MKF with satisfactory results.
Lower Extremity* ; Methods ; Pain, Postoperative ; Skin ; Wounds and Injuries

46 cases of the soft tissue, bone and bone tissue defect in the lower extremities due to the different injuries were received the reconstruction microsurgery with free transplant including 17 of back skin-muscle transplants, 17 of shoulder muscle-skin transplant, one of skin-deltoid muscle transplant... The successful rate is 95%. This is a unique solution for reservation of extremities in the most of patients
Microsurgery ; Surgical Flaps ; therapy ; Abnormalities ; Lower Extremity ; Wounds and Injuries

Athletic injuries of the lower extremities are commonly encountered in clinical practice. While some pathology can be diagnosed on physical exam, others are a clinical dilemma with nonspecific symptomatology. In these situations, ultrasound imaging can be utilized as an exceptional diagnostic tool, offering unique advantages over other imaging modalities. This article will review the imaging characteristics of commonly encountered athletic injuries of the lower extremity.
Athletic Injuries* ; Lower Extremity* ; Musculoskeletal Diseases ; Pathology ; Sports* ; Ultrasonography*

The paper summarizes the academic thought and clinical experience of professor LI De-hua in treatment of facial nerve injury after total parotidectomy with blade needle based on jingjin (muscle region of meridian, sinew/fascia) theory. This disease is located at muscle regions of hand-/foot-three yang meridians; and the sinew/fascia adhesion is its basic pathogenesis, manifested by "transversely-distributed collaterals" and "knotted tendons". In treatment, the knotted tendons are taken as the points. Using the relaxation technique of blade needle, the lesions of sinews/fascia are dissected and removed to release the stimulation or compression to the nerves and vessels so that the normal function of sinews/fascia can be restored.
Humans ; Facial Nerve Injuries/surgery* ; Fascia ; Foot ; Hand ; Lower Extremity

OBJECTIVETo explore the acting mechanism of electrical field in electrical injury.

METHODSThirty-six New Zealand white rabbits were employed in the study and were randomly divided into 7 groups. There were 12 rabbits in group 1 and 4 in each group of other 6 groups. The animal model of nonthermal electrical injury previously replicated was employed in the study. Experiment with paralleled muscular fibers in electrical field was carried out in groups 2 approximately 4, while that of vertical muscular fibers in electrical field in groups 5-7. Anatomical examination was done to determine the index of deep burn injury (IDBI) in all groups of rabbits at 0, 2 and 24 postburn hour (PBH). Histological and ultrastructural examination, gamma picturing and isotope scanning with 99mTc were done in group 1 at 2 PBH.

RESULTSThere was no obvious skin injury in the white rabbits in group 1. Deep tissue necrosis was identified under the small electrode. Constant muscular spasm was observed in the inner side of the thigh. The muscles in paralleled electrical field suffered more severe injury than those in vertical one. Tissue injury was more severe in those areas with higher current density, less soft tissue, and also in the central area of the axis of the electric field. There were obvious changes in the perfusion and blood pool phases in these areas as observed with the aid of 99mTc. Light microscopic examination revealed swelling and necrosis of muscular fibers. Under electron microscopy, it was found that there were edema and dissolution with separation of lipid molecular layers of cell membrane, Shortened nucleus with partial dissolution of nuclear membrane, increased heparin granules within nucleus, swelling of mitochondria and endoplasmic reticulum, myofilament dissolution, expanded gap between myofilament and decreased number of heparin granules.

CONCLUSIONNon-thermal tissue injury in the electrical field, in terms of cell, ultrastructural and molecular levels, was induced and aggravated by all the factors constituting high voltage electrical field.

Biomechanics is the application of mechanical principles to living organisms. Evaluation of sporting techniques such as running biomechanics and swim stroke biomechanics and understanding of the biomechanics of different sporting activities is a vital foundation for the sports medicine practitioners. The purpose of this article is to provide the clinicians with relevant and easily applicable descriptions of the common sporting techniques. The key for the better sports performance and prevention of injury is exercising with correct biomechanics. Understanding normal sporting biomechanics makes the clinician to apply injury prevention strategies. Biomechanics of lower limb including standing, walking, running and biomechanics of upper limb during throwing and overhead activities are described.
Athletic Injuries ; Athletic Performance ; Biomechanics ; Lower Extremity ; Running ; Sports ; Sports Medicine ; Stroke ; Tennis ; Upper Extremity ; Walking

Biomechanics is the application of mechanical principles to living organisms. Evaluation of sporting techniques such as running biomechanics and swim stroke biomechanics and understanding of the biomechanics of different sporting activities is a vital foundation for the sports medicine practitioners. The purpose of this article is to provide the clinicians with relevant and easily applicable descriptions of the common sporting techniques. The key for the better sports performance and prevention of injury is exercising with correct biomechanics. Understanding normal sporting biomechanics makes the clinician to apply injury prevention strategies. Biomechanics of lower limb including standing, walking, running and biomechanics of upper limb during throwing and overhead activities are described.
Athletic Injuries ; Athletic Performance ; Biomechanics ; Lower Extremity ; Running ; Sports ; Sports Medicine ; Stroke ; Tennis ; Upper Extremity ; Walking

This study is to evaluate the abnormalities in the kinetic chain in the players with little league elbow during the medical screening of middle school baseball teams. Ninety-three players were examined with elbow ultrasonography in the field. Using kinetic chain evaluation test, 27 players sonogrphically diagnosed of little league elbow in dominant arm were compared with 25 players who were normal as control. Scapular-spine distance, horizontal flexion test, combined abduction test, and glenohumeral internal rotation deficit were used for evaluating kinetic chain in the upper extremities, while tightness of quadriceps and hamstring muscles, internal rotation of stance leg, and external rotation of stride leg were used for lower extremities. Also, the single leg stance test and finger-floor distance were used for core stability and flexibility. Twenty-five of 27 players (93%) having little league elbow showed kinetic chain abnormalities of either upper or lower extremities or trunk. This rate was significantly higher for the players having the little leaguer's elbow than control (28%) (p=0.017). Each specific tests for evaluating kinetic chain were also more prevalent in little league elbow group than control, and the abnormalities in the upper extremity were more common than those in lower extremity (p=0.026). Combined abduction test (23/27) and limitation of internal rotation of stance leg (16/27) were the most prevalent abnormalities in upper and lower extremity test, respectively. Our findings showed that there are many abnormalities in kinetic chain in players having the little league elbow and it may be associated with pathogenesis of little league elbow.
Arm ; Athletic Injuries ; Baseball ; Elbow* ; Humans ; Leg ; Lower Extremity ; Mass Screening ; Muscles ; Pliability ; Ultrasonography ; Upper Extremity

OBJECTIVES: This study evaluated the status of industrial accidents at a ship-yard in Korea in order to provide the basic materials for preventing further industrial accidents. METHODS: This study reviewed and analyzed the records of 252 industrial accidents that occurred in a ship-yard at Ulsan city from January 1 1997 until December 31st, 2001 according to age, the work career, the job department, the day of the week, the occurrence time, the part of body injured, and the accident type. RESULTS: There were a total of 252 industrial accidents over the five years. The incidence of industrial accidents per year were 17.38, 26.99, 16.44, 11.35, 14.50 per 1,000 persons from 1997 to 2001, respectively. The frequency of industrial accidents per year were 11.56, 11.23, 6.27, 4.42, 5.79 per one million man hours from 1997 to 2001, respectively. The intensity of industrial accidents per year was 1.67, 0.18, 4.32 per 1,000 man hours from 1999 to 2001, respectively. The highest incidence occurred in the over 50 age group (33.87 per 1,000 persons). Regarding the incidence according to the work career, it was highest in those who had worked for less than 1 year (39.76 per 1,000 persons). The incidence in those working in high places and those using heavy materials were higher than the others. The most frequent day of the week was Monday (19.8%), which was followed by Friday (16.7%) and Saturday (15.9%). The most frequent time of an accident was 15:00-16:59(25.8%), which was followed by 08:00-09:59(24.2%), 10:00-11:59(20.2%). The most frequent part of the body injured was the low back (28.6%), which was followed by the lower extremities (24.2%), and the upper extremities (23.0%). The types of industrial accidents were stenosis (27.0%) to have been happened most and upset (19.8%), fall down (14.7%), hard movement (12.3%), and falling (9.1%). CONCLUSIONS: The above results suggests that a more precise system of reporting industrial accidents will be needed in order to enhance the accuracy and reliability of the industrial accident statistics. In addition, the preventive activities for back injury, stenosis, and fall down are needed in order to prevent industrial accidents at ship-yards in Korea. Furthermore, the strengthening of a continuous health education program will be necessary for beginners, older workers, and those working in high places and using heavy materials.
Accidents, Occupational* ; Back Injuries ; Constriction, Pathologic ; Health Education ; Humans ; Incidence ; Korea ; Lower Extremity ; Ulsan ; Upper Extremity