Klinische Bedeutung der Bestimmung der Bindung von Trijodthyronin an Serumproteine mittels Dextran-Gel-Filtration

Neben den bewährten älteren Verfahren zur Bestimmung des proteingebundenen127Jods und des Radiojodumsatzes hat sich die gleichzeitige Bestimmung des sog. freien und des proteingebundenen Anteils an in vitro mit Serum inkubiertem L-Trijodthyronin-131Jod mittels Dextran-Gel-Filtration klinisch zur Differentialdiagnose von Hyperthyreose und Euthyreose bewährt. Bei Ausnützung der Verdrängung von proteingebundenem L-Trijodthyronin-131Jod durch nichtmarkiertes Hormon und bei Variation der Dextran-Gel-Menge in der Säule bietet die Methode gute Differenzierungsmöglichkeiten auch für die Schilddrüsenfunktionszustände Euthyreose und Hypothyreose. Bei dem Verfahren wird der Patient nicht mit radioaktivem Jod belastet, ein für die Kinderklinik wichtiger Gesichtspunkt. Manche Störfaktoren, die den131Jodspeicherungstest und die Bestimmung des proteingebundenen Jods (PB127I) verfälschen, haben keinen Einfluß auf die mit der Dextran-Gel-Filtration untersuchten Proteinbindungsverhältnisse für L-Trijodthyronin-131Jod. So hat sich das Verfahren für die Untersuchung von Patienten mit operativ oder durch131Jodbehandlung verkleinerten Schilddrüsen, mit endokrinem Exophthalmus und in Fällen mit vorausgegangener Jodgabe, z. B. in Form von Kontrastmitteln, besonders bewährt. Mit der Bestimmung des sog. freien L-Trijodthyronin-131Jods wird ein physiologisch und pathogenetisch wichtiger Parameter der Schilddrüsenfunktion ermittelt. Die klinische Bedeutung der Bestimmung der Bindungs-und Transportverhältnisse für Trijodthyronin mittels Dextran-Gel-Filtration wird diskutiert.In addition to conventional methods of assay of protein bound iodine (PB127I) and of131iodine turnover in the thyroid, the simultaneous determination of socalled free and protein bound 1-triiodothyronine-131I, added in vitro to serum, using dextran gel filtration was found to be clinically helpful for diagnosis of euthyroidism and hyperthyroidism. Employing discharge effects of non-labelled triiodothyronine on protein bound 1-triiodothyronine-131I and varying the amount of dextran gel in the columns, the method provides reasonably good differentiation of euthyroid and hypothyroid states. No radioactive iodine is given to patients during this procedure, a fact of importance for pediatriciens. Some factors, that influence131iodine uptake or PB127I levels, do not disturb protein binding of 1-triiodothyronine-131I as determined by dextran gel filtration. The latter method was found to be especially useful for the examination of patients with surgically, or by therapy with131iodine dissected thyroid glands, with endocrine exophthalmos, and in cases of previous iodine administration (e.g. X-ray procedures). Determination of socalled free 1-triiodothyronine-131I provides information about a factor of physiological and pathogenetical significance, its clinical meaning is discussed

Differential Gene Expression from Microarray Analysis Distinguishes Woven and Lamellar Bone Formation in the Rat Ulna following Mechanical Loading

Formation of woven and lamellar bone in the adult skeleton can be induced through mechanical loading. Although much is known about the morphological appearance and structural properties of the newly formed bone, the molecular responses to loading are still not well understood. The objective of our study was to use a microarray to distinguish the molecular responses between woven and lamellar bone formation induced through mechanical loading. Rat forelimb loading was completed in a single bout to induce the formation of woven bone (WBF loading) or lamellar bone (LBF loading). A set of normal (non-loaded) rats were used as controls. Microarrays were performed at three timepoints after loading: 1 hr, 1 day and 3 days. Confirmation of microarray results was done for a select group of genes using quantitative real-time PCR (qRT-PCR). The micorarray identified numerous genes and pathways that were differentially regulated for woven, but not lamellar bone formation. Few changes in gene expression were evident comparing lamellar bone formation to normal controls. A total of 395 genes were differentially expressed between formation of woven and lamellar bone 1 hr after loading, while 5883 and 5974 genes were differentially expressed on days 1 and 3, respectively. Results suggest that not only are the levels of expression different for each type of bone formation, but that distinct pathways are activated only for woven bone formation. A strong early inflammatory response preceded an increase in angiogenic and osteogenic gene expression for woven bone formation. Furthermore, at later timepoints there was evidence of bone resorption after WBF loading. In summary, the vast coverage of the microarray offers a comprehensive characterization of the early differences in expression between woven and lamellar bone formation

Umsatz und Einbau von 14C-Bicarbonat in Glucose beim gesunden Menschen

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