Cleidocranial dysostosis occurred in the mother and her son: Case Report / 대한정형외과학회잡지

Cleidocranial dysostosis is a rare congenital developmental disorder in which membranous bones fail to ossify sufficiently, particularily in the calvarium and the clavicles where fibrous tissue replaces the bone. Authors report two cases of cleidocranial dysostosis occurred in a 44-year-old woman and her 19-year-old son.

Surgical Treatment of the Trochanteric Fracture of the Femur / 대한정형외과학회잡지

The authors have treated 30 cases of trochanteric fracture of the femur from June 1987, to July 1988 at Dong Suwon General Hospital. The 30 cases included, 8 Condylocephalic Kuentscher nailing, 9 Ender nailing, 7 Multiple pinning, 5 Antegrade Kuentscher nailing and 1 Row plating. 1. The shape of condylocephalic Kuentscher nail should be designed differently, contoured circular arc in anteroposterior and angled in lateral plane. In the anteroposterior plane : The length of the radius of the arc is measured by following way. 1) Design the shape of the nail on the X-ray film of the normal femur which was taken in full internal rotation of the leg. 2) Make three points in the femoral film. One is A, midcentral point of the femoral canal of the isthmus. Point B is center of upper lateral quadrant of the femoral head. Point C is apart from medial cortex 5-7mm at the level of entry portal of the nail. 3) Make point D: Draw the perpendicular lines from the right middle of the AB and AC. These lines meet at the point D. AD is radius of the arc of nail. Draw an arc measuring by the length of AD and mold the nail following the arc. In the lsteral plane ; The nail is bent into three or four segments and the length of the longest segment should not be exceeded the permissible length of straight nail, the latter is distance from entry portal of the nail to anterior cortex of the femur where the tip of the inserted nail is impinged, about 15cm. 2. Two different types of the Ender nailings are used depend on the type of the fracture. In intertrochanteric fracture, the trochanter is remained in the distal fragment and acts as the crane post to fix the proximal fragment(interfragmental compression screw fixation) by horizontal screw inserted through the lateral cortex of the distal fragment into medial cortex of the proximal fragment and fixed with another screw inserted into the distal fragment by tension band wiring. In transtrochanteric frscture, the proximal fragment is fixed by two different kinds of the nails, prior to the nailing medial displacement of the distal fragment is not reduced. The first nail is driven along the medial wall of the medullary canal of the distal fragment, the tip of the nail comes out of the fracture site and impinges to the inferomedeial aspect of the head along the out side of the neck. The nail is inserted into the head after correction of nail direction. The second and third nails are inserted through the medullary canal of the fragments. The proximal fragment is fixed between two nail groups. 3. Antegrade Kuentscher nailing is used for undisplaced trochanteric fracture with segmental fracture or comminuted, segmental subtrochanteric fracture. The open reduction and fixation is preferable in comminuted segmental subtrochanteric fracture for its accurate reduction. The authors msde additional several holes, transverse, sagittal (at the dorsum of the nail) oblique holes around the nail, so the interlocking screw can be easily inserted to the nail when the insertion of the screw through the transverse holes are difficult. 4. It's extremely important to study the fracture carefully when the surgeon plans to use the multiple pinning for trochanteric fracture. The fracture configuration has to be determined in regard to expect stability after local pinning especially in lateral plane. The fracture is fixed by horizontal pin, low angle pin, curved buttress pin(or screw) solidly, not parallel as in neck fracture. The curved buttress rush pin should be inserted as acting as the anteromedial or posteromedial buttress.

Tibia Shaft Fractures Treated with the Hoffmann External Fixation / 대한정형외과학회잡지

The anatomical characteristics of the tibia, which is covered by subcutaneous tissue anteriorly, emphasize the vulnerability of the tibia to trauma and frequently result in open comminuted fracture. Open fractures add to the risk of infection and nonunion and require treatment that prevent infection, provide skin coverage, and maintaine reasonable fixation during the early healing phase. 50 cases of tibia shaft fractures were reviewed from May 1978 to December 1983, managed with the modified Vidal-Adrey frame of Hoffmann extemal fixator, at the Orthopaedic Department of Kyung Hee University Hospital. The results obtained were as follows; 1. In 50 cases of tibia fractures, 46 cases are open injuries and 43 cases (86.0%) among them were Grade II and IU open fractures. 2. 31 operative procedures were performed for the coverage of soft tissue injury; 13 cases of rotation and cross-leg pedicle flaps were effective aids, but futher good results could be expected with the micmvascular free flap. 3. 17 operative procedures for acceleration of bony union and reconstruction of bone defect were performed. In cases of massive bone defect, vascularized fibular transplantation and free vascularized fibular graft should be employed, and additional bone shortening and electric stimulation would contribute to the enhancement of the bony union process. 4. The mean period of extemal immobilization with the frame was 15.4 weeks and that of bone union was 31.7 weeks. The periods of bone union were markedly delayed in cases of Grade II andIII open fracture than those of closed and Grade I open fractures. 5. Nonunion developed in 17 cases (34.0%); 4 cases in Grade II and 13 cases in Grade III injury. 6. 12 cases of wound infection developed. 7. 12 cases of pin tract infection happened. More careful pin tract management could diminish this troublesome complication.