The stable somatostatin analog octreotide has been successfully used for imaging and treatment of a variety of human tumors. In pheochromocytoma, data on somatostatin receptor subtyping have thus far been sparse. Pheochromocytomas often express more than one somatostatin receptor, and it is uncertain by which receptor subtype the functional responses of octreotide are mediated. Here, we have examined somatostatin receptor protein expression in a panel of 52 pheochromocytomas from 35 randomly selected patients by immunostaining with specific polyclonal anti-sst(1-5) and monoclonal mouse anti-SS-14 antibodies. Staining pattern, distribution and subcellular localization of somatostatin receptor subtypes were investigated. Seventeen patients received (111)In-octreotide scintigraphy. Although the vast majority of tumors (90%) showed positive immunohistochemical staining for sst(3), immunoreactive sst(2A) receptors were only seen in 13 tumors (25%). All other somatostatin receptor subtypes were less frequently detected. Interestingly, among sst(3)-positive tumors strikingly different subcellular distributions of immunoreactive sst(3) receptors were observed. In most cases, immunoreactive sst(3) receptors were distributed throughout the cytosol. Scintigraphic localization of tumors larger than 1 cm in diameter was always successful in the presence of immunoreactive sst(2A) receptors. In the absence of sst(2A), true-positive octreotide scintigraphy was only seen in the presence of membrane-associated sst(3) immunoreactivity. Our findings suggest that selective expression of functional membrane-associated sst(3) receptors is sufficient for high tracer uptake during octreotide scintigraphy in a subgroup of human pheochromocytomas. These tumors may represent a potential target treatment with somatostatin receptor agonists with improved sst(3) activity.
Objectives-Catatonia is a psychomotor syndrome with concomittant akinesia and anxiety which both respond almost immediately to benzodiazepines such as lorazepam. The benzodiazepine receptor distribution was therefore investigated in akinetic catatonia with single photon emission tomography (SPECT) using iodine-123-iomazenil ( 123 I Iomazenil). Methods-Ten akinetic catatonic patients, 10 psychiatric controls (similar age, sex, medication, and underlying psychiatric diagnosis but without catatonic syndrome), and 20 healthy controls were investigated with SPECT 2 hours after injection of 123 I Iomazenil. To exclude potential eVects of cerebral perfusion (r-CBF) r-CBF was additionally investigated with Tc-99mECD SPECT. Results-Catatonic patients showed significantly lower iomazenil binding and altered right-left relations in the left sensorimotor cortex compared with psychiatric (p<0.001) and healthy (p<0.001) controls. In addition, there was significantly lower r-CBF in the right lower prefrontal and parietal cortex in catatonia whereas in the left sensorimotor cortex no diVerences in r-CBF between groups were found. Catatonic motor and aVective symptoms showed significant correlations (p<0.05) with benzodiazepine binding in the left sensorimotor cortex as well as with right parietal r-CBF. Conclusions-Reduced iomazenil binding suggests decreased density of GABA-A receptors in the left sensorimotor cortex in akinetic catatonia. In addition to reduced GABA-A receptor density in the left sensorimotor cortex the parietal cortex seems to be involved in pathophysiology of catatonic symptoms. It is concluded that, considering results from correlation analyses, both emotional and motor symptoms in catatonia seem to be closely related to left sensorimotor and right parietal alterations. (J Neurol Neurosurg Psychiatry 1999;67:445-450)
Findings are preliminary but suggest right lower prefronto-parietal cortical dysfunction in catatonia, which may be closely related to psychomotor disturbances.
Included patients benefited subjectively and objectively from the use of rhTSH for diagnostic procedures in the treatment of DTC. A clear preference (127 of 128) of analyzed patients could be identified for exogenous stimulation with rhTSH.
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