Displaced subcapital fractures of the humerus represent a therapeutic challenge for the surgeon, all the more so because of their high incidence among osteoporotic patients. Open surgical repair involves increased risk of avascular necrosis of the humeral head, while percutaneous reduction and fixation often fails as a result of loosening pins. As a possible solution, a minimally invasive technique was developed in which a dynamic titanium wire helix is inserted into the medullary space of the diaphysis of the humerus and then rotated proximally into the head fragment. This new approach for osteosynthesis was performed in 84 patients, most of whom had suffered two- or three-part fractures. Results were evaluated by the Constant Functional Score, indicating an average 87% rehabilitation. An associated anatomical study of 53 human cadavers investigated the position of the main branches of the axillary nerve relative to the surgical placement of the wire helix. In all cases, the distance between the most vulnerable anterior branch of the axillary nerve (ABAN) and the operative site was sufficient, as long as insertion occurs in the distal third of the distance between the head of the humerus and the deltoid tuberosity. Utilization of the titanium helix results in prompt healing of subcapital fractures while offering minimal risk for the elderly osteoporotic patient and does not endanger branches of the axillary nerve.
Malignant brain edemas are often fatal, regardless of whether they are treated conservatively with sedation, blood pressure management, mannitol-therapy, hyperventilation and hypothermia, or non-conservatively with routine trepanation. Unfortunately, temporal trepanation may result in significant brain damage through herniation of the cerebrum at the edges of the trepanation openings. In one case of a 26-year-old male with severe head injury, a circular posterior-hinged craniotomy (CPHC) was performed after an ineffective unitemporal trepanation for evacuation of an acute subdural hematoma. This ultimately successful operation prompted experimental and morphologic investigations on a new surgical procedure for lowering intracranial pressure (ICP). In 12 of 15 human cadavers, an experimentally ICP was lowered by a CPHC with between 9-21 mm of frontal elevation of the calvaria. Using computer simulation, the frontal elevations of the calvaria were "virtually" performed on 3D reconstructions from CT scans of skulls, and the intracranial volume gained was measured with a computer software program. The volume increase of the cranial cavity showed a relatively constant relation to the cranial capacity and was increased by 6.0% (+/-0.4%) or 78 cm(3) with a 10 mm elevation and by 12.4% (+/-0.7%) or 160 cm(3) with a 20 mm elevation. There were no significant differences with skulls of different ages or ethnic origin; however, a significant effect of gender (F = 7.074; P < or = 0.013) on the gained volume in percent of the cranial capacity for the 20 mm elevation was observed. This difference can be explained by the inverse relationship between volume increase and cranial capacity (r = -0.507; P < or = 0.004).
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