H. T. Thaler scite author profile

We prospectively evaluated 15 adult cancer patients being treated with adrenocorticosteroids (steroids) to determine the frequency and time course of "steroid myopathy." Nine (60%) developed clinically detectable proximal muscle weakness that, in six, was severe enough to interfere with activities of daily living. Proximal muscle weakness developed within 15 days in eight of nine patients and was significantly related to the cumulative dose of steroid. Eight of nine patients with proximal muscle weakness, and two of six without such weakness, experienced a significant decline in respiratory function, leading to symptomatic dyspnea in four patients of the former group. In three patients who could be followed for more than 3 months off steroids, there was either improvement or resolution of the weakness and, when present, of the respiratory impairment. Steroid myopathy is a common complication among cancer patients receiving steroids. It can often affect respiratory function even when proximal limb muscles remain strong. Clinical recognition is important since steroid myopathy can lead to increased morbidity and may be reversible with reduction or discontinuation of steroids.

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Prostaglandins in breast cancer: Relationship to disease stage and hormone status

Karmali¹,

Welt²,

Thaler³

et al. 1983

Br J Cancer

117

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Association of cell cycle expression of Ia-like antigenic determinations on normal human multipotential (CFU-GEMM) and erythroid (BFU-E) progenitor cells with regulation in vitro by acidic isoferritins

Lü

Meyers

et al. 1983

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An association has been established between human Ia-like antigenic determinants, expression during DNA synthesis on multipotential (CFU- GEMM) and erythroid (BFU-E) progenitor cells, and the regulatory action of acidic isoferritins in vitro. Treatment of human bone marrow cells with monoclonal anti-Ia (NE1–011) plus complement inhibited colony formation of CFU-GEMM) and BFU-E by 50%-70%. Reduction of colonies was similar whether bone marrow cells were exposed to anti-Ia plus complement, high specific tritiated thymidine (3HTdr), or acidic isoferritins. No further decrease was apparent with 3HTdr or acidic isoferritins after Ia-antigen+ CFU-GEMM or BFU-E were removed, or with anti-Ia plus complement or acidic isoferritins after S-phase CFU-GEMM or BFU-E were removed. Anti-Ia, in the absence of complement, had no effect on colony formation but blocked the inhibition of CFU-GEMM and BFU-E by acidic isoferritins. Demonstration of Ia-antigens on BFU-E and inhibition of BFU-E by acidic isoferritins appeared to require the presence of phytohemmagglutinin leukocyte conditioned medium (PHA-LCM) in the culture medium during the 14-day incubation period. these results implicate Ia-antigen+ cells, acidic isoferritins, and PHA-LCM in the regulation of multipotential and erythroid progenitor cells in vitro.

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Proliferative potential of subpopulations of granulocyte-macrophage progenitor cells in normal subjects and chronic myelogenous leukemia patients

Strife¹,

Lambek²,

Wisniewski³

et al. 1983

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The studies described compare the subpopulations of granulocyte- macrophage progenitor cells present in normal marrow with those derived from the marrow of patients with Ph1-positive chronic myelogenous leukemia (CML). The subpopulations were separated on the basis of size by velocity sedimentation and measured for their proliferative capacity by the colony formation technique. A pattern of development of colonies in the individual fractions was obtained by assaying the absolute number of colonies present at time intervals from 3 to 21 days. The number of colonies present at 3 days was taken as 100%, and the percentage of increase or decrease from this value was determined on subsequent days. In the fractions containing the most rapidly sedimenting large cells, the pattern of development of colonies derived from normal and CML marrow was similar. The CML colony-forming units in culture (CFU-C) began to show a deviation from the normal CFU-C pattern of development in the fractions containing CFU-C intermediate in size, and this deviation became progressively more pronounced in the slowest sedimenting small cell fractions. In these latter fractions, the CFU-C derived from CML marrow decreased in number at a rate similar to those arising from the more rapidly sedimenting fractions. This is in contrast to CFU-C derived from normal marrow, which increased in number in the more slowly sedimenting fractions and in the intermediate fractions, remained constant in number, or decreased at a rate slower than those arising from the more rapidly sedimenting fractions. The most likely explanation for these findings is accelerated maturation of the early small granulocyte-macrophage progenitor cells in CML so that these cells show the same limited proliferative capacity as do the later larger progenitor cells.

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Prostaglandins in carcinomas of the head and neck

et al. 1984

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H. T. Thaler

Steroid myopathy in cancer patients

Prostaglandins in breast cancer: Relationship to disease stage and hormone status

Association of cell cycle expression of Ia-like antigenic determinations on normal human multipotential (CFU-GEMM) and erythroid (BFU-E) progenitor cells with regulation in vitro by acidic isoferritins

Proliferative potential of subpopulations of granulocyte-macrophage progenitor cells in normal subjects and chronic myelogenous leukemia patients

Prostaglandins in carcinomas of the head and neck

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