B.‐A. Lamberg scite author profile

B.‐A. Lamberg

5Publications

47Citation Statements Received

8Citation Statements Given

How they've been cited

143

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Affiliations

Savonlinna Central Hospital, Minerva Foundation, University of Helsinki

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Inherited Decrease of the Binding Capacity of Thyroxine-Binding Globulin (Tbg)

Op¹,

Lamberg²,

Virtamo³

1970

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A family with a decrease in the binding capacity of thyroxine binding globulin (TBG) is described. The gene was probably transmitted by a female who married twice. Five subjects were considered TBG deficient, with TBG values ranging from 8.4 to 16.8 μg/100 ml. Of these subjects 2 were males and 3 females; the males had the lowest binding capacities. In addition, 1 male and 3 females had TBG values within the low normal range and were considered as possibly affected. The mode of inheritance could not be exactly defined but there were indications that it might be an autosomal dominant. The correlation of TBG to the protein-bound iodine in the serum (PBI), to the triiodothyronine uptake by Sephadex (T3-U), to the ratio between them (T3-U/PBI), and to the proportionate free thyroxine (PFT4) was strongly positive or negative. A gradual change in these variables from the affected to the unaffected subjects was observed. These correlations indicated that in normal subjects TBG is the most important factor governing the PBI and free thyroxine levels. In addition, a strong inverse and statistically significant correlation was observed between the binding capacity of TBG and that of the pre-albumin (TPBA). The difference between affected and unaffected subjects with regard to TPBA was also statistically significant.

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Free thyroxine, free triiodothyronine, and thyrotropin concentrations in hypothyroid and thyroid carcinoma patients receiving thyroxine therapy

Liewendahl

Helenius²,

Lamberg³

et al. 1987

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Free thyroxine (FT4) and free triiodothyronine (FT3) concentrations in serum were measured by direct equilibrium dialysis methods in patients receiving thyroxine replacement or suppression therapy. Four of 50 hypothyroid patients euthyroid on replacement therapy (mean thyroxine dose 120 \g=m\g/day) had supra\x=req-\ normal FT4 concentrations, whereas the FT3 concentrations were normal in all. Forty-one of 56 operated thyroid carcinoma patients on suppressive therapy (mean thyroxine dose 214 \g=m\g/day) had raised FT4 concentrations, whereas the FT3 concentration was elevated in only one patient. There was a large difference in mean FT4 values for hypothyroid and thyroid carcinoma patients (17.2 vs 29.5 pmol/l), whereas the difference in mean FT3 values was small (5.0 vs 6.1 pmol/l), suggesting a decreased peripheral conversion of T4 to T3 with increasing concentrations of FT4. Serum TSH concentrations, as determined by an immunoradiometric assay, varied from < 0.02 to 11.9 mU/l in treated hypothyroid patients; 21 patients (42%) had values outside the reference limits. As a single test, serum TSH is therefore not very useful for the assessment of adequate thyroxine dosage in patients with primary hypothyroidism. In thyroid carcinoma patients, the TSH concentrations were < 0.18 mU/l; 45 patients had values < 0.02 mU/l indicating sufficient suppression of TSH secretion in the majority of cases.On the basis of these results we recommend the combination of FT3 and TSH tests for monitoring thyroxine replacement and suppression therapy. FT4 appears less useful than FT3 for this purpose even if special reference values values were adopted for each patient group.Patients on therapy with thyroxine may have raised serum T4 and free T4 (FT4) concentrations but usually do not appear thyrotoxic unless serum T3 and free T3 (FT3) concentrations are also elevated (Salmon et al. 1982; Brajkovich et al. 1983;Pearce & Himsworth 1984; Mardell et al. 1985; Fraser et al. 1986). In these earlier investi¬ gations the free thyroid hormone levels in serum were studied using free hormone index or ana¬ logue-type methods. It is well-documented that in a number of situations such methods are inaccu¬ rate indicators of the true free hormone concen¬ trations (Ekins 1982; Liewendahl et al. 1984;Wilke 1986).The objective of the present study was there¬ fore to determine the usefulness of serum FT4 and FT3 concentrations, as measured by precise and accurate direct equilibrium dialysis methods, in monitoring thyroxine therapy in patients with primary hypothyroidism and patients operated for differentiated thyroid carcinoma. We also

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Iodine Metabolism of Endemic Goiter on the Åland Islands (Finland)*

Lamberg¹,

Wahlberg²,

Wegelius³

et al. 1958

The Journal of Clinical Endocrinology & Metabolism

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Gastrointestinal Tract in Hyperthyroidism before and after Treatment

Siurala

Julkunen

Lamberg³

1966

Scandinavian Journal of Gastroenterology

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Radiation Induced Free Radicals in Alanine and Some Related Amino Acids. Electron Spin Resonance Studies.

Prydz¹,

Henriksen²,

Lamberg³

et al. 1961

Acta Chem. Scand.

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B.‐A. Lamberg

Inherited Decrease of the Binding Capacity of Thyroxine-Binding Globulin (Tbg)

Free thyroxine, free triiodothyronine, and thyrotropin concentrations in hypothyroid and thyroid carcinoma patients receiving thyroxine therapy

Iodine Metabolism of Endemic Goiter on the Åland Islands (Finland)*

Gastrointestinal Tract in Hyperthyroidism before and after Treatment

Radiation Induced Free Radicals in Alanine and Some Related Amino Acids. Electron Spin Resonance Studies.

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