The histologic changes induced in the mammary gland of male-to-female transsexuals have not yet been reported in the literature. We studied the histologic changes induced by chemical and surgical castration and estrogen therapy in the breasts of 14 such patients, with particular reference to acinar and lobular formation. To objectify the influence of cross-sex treatment, the histologic findings were compared with those in two men treated hormonally for prostate cancer. The slight increase in the plasma estrogen-to-androgen ratio seen in idiopathic gynecomastia usually does not induce acinar and lobular formation in the male breast. In men treated with nonprogestative antiandrogens for prostate cancer, only moderate acinar and lobular formation occurs. Only in male-to-female transsexuals in whom progestative chemical castration is combined with feminizing estrogen therapy will full acinar and lobular formation occur with hormonally stimulated nuclei and pseudolactational changes. Hence, combined progestative antiandrogens and estrogens are necessary for genetically male breast tissue to mimic the natural histology of the female breast. Orchidectomy does not contribute to this. Apocrine metaplasia may occur in breasts of male-to-female transsexuals, but so far, only four cases of breast cancer in male-to-female transsexuals have been documented.
Tongue-lip adhesion is a good surgical treatment for most children with PRS who have an isolated tongue-base airway obstruction. More invasive procedures such as mandibular distraction can be reserved for patients where a tongue-lip adhesion has not been successful.
Aplasia cutis is a rare skin defect usually presenting over the vertex of the skull. An underlying bone defect is found in approximately 20% of patients. Most skull defects close spontaneously. However, when there are no signs of ossification, closure is mandatory. We present our experience in three patients. Our first patient had an aplasia cutis with a skull defect. The split rib graft procedure was used without complications, and a good cosmetic and functional result was achieved. The second patient was operated on for cerebral bleeding after an arteriovenous aneurysm, and a bony defect could not be closed after that procedure. At a later stage, the defect was filled with split rib grafts, and sufficient protection was achieved and documented after more than 30 years. The third patient was born with an aplasia cutis congenita with a skull defect. The bony defect was filled with split rib grafts without complications at an age of 5 years. Follow-up shows a functional result with a firm skull. Patients with aplasia cutis may have skull defects that will not close by themselves. We present three patients with a bony defect who were reconstructed with split rib grafts. After a long period of follow-up, there remains good cosmetic and functional results. Defects of the skull in children can be reconstructed with split rib grafts that will accommodate the growing skeleton and give good protection of the brain from an early age on.
18F]-2-fluoro-2-deoxy-d-glucose positron emission tomography or magnetic resonance imaging during 90-minute occlusion of the middle cerebral artery and during 60 minutes after reperfusion. Results were correlated to magnetic resonance imaging of cerebral blood flow, diffusion of water, lactate formation, and histological data on cell death and blood-brain barrier breakdown.
Results-We detected an increased [2-18 F]-2-fluoro-2-deoxy-d-glucose uptake within ischemic regions succumbing to infarction and in the peri-infarct region. Magnetic resonance imaging revealed impairment of blood flow to ischemic levels in the infarct and a reduction of cerebral blood flow in the peri-infarct region. Magnetic resonance spectroscopy revealed lactate in the ischemic region and absence of lactate in the peri-infarct region. Immunohistochemical analyses revealed apoptosis and blood-brain barrier breakdown within the infarct.
Conclusions-The increased uptake of [2-18 F]-2-fluoro-2-deoxy-d-glucose in cerebral ischemia most likely reflects hypermetabolism of glucose meeting increased energy needs of ischemic and hypoperfused brain tissue, and it occurs under both anaerobic and aerobic conditions measured by local lactate production. Infarct-related systemic hyperglycemia could serve to facilitate glucose supply to the ischemic brain. Glycemic control by insulin treatment could negatively influence this mechanism.
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