J. W. Newbrey scite author profile

J. W. Newbrey

5Publications

66Citation Statements Received

0Citation Statements Given

How they've been cited

132

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Affiliations

Washington State University, Colorado State University, University of Southern California

Publications

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Bone metabolism during antler growth in female reindeer

Baksi

Newbrey

1989

Calcif Tissue Int

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Two female reindeer (Rangifer tarandus) were investigated for alterations in skeletal metabolism during the annual antler growth cycle. During July and January, rib samples were obtained by biopsy after double tetracycline labeling for gravimetric, chemical, and histomorphometric analyses. Though antler length increased from 8 to 55 cm between April and September, body weight increased from only 56 to 77 kg. Rib bone density (g/cm3) increased from 1.39 +/- 0.01 (mean +/- SEM) in July to 1.53 +/- 0.01 in January, and Ca content (mg/cm3) increased from 213 +/- 8 to 300 +/- 14, respectively. Histomorphometric data indicated that rib bones were more porous and active in July and had a higher turnover rate than did January samples. Plasma 1,25(OH)2D, parathyroid hormone (PTH), and osteocalcin levels were significantly lower and estradiol levels were significantly higher in the January as opposed to the July samples. The data indicate that during antler growth, female reindeer undergo bone loss that corresponds to the changes in plasma calcemic hormones and estradiol levels. This bone loss is eventually repaired when antler growth stops.

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Biotin Deficiency May Alter Tibiotarsal Bone Growth and Modeling in Broiler Chicks

1988

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Forty-eight, day-old male broiler chicks (Hubbard x Hubbard strain) were fed purified diets with two levels of biotin (0 and 400 micrograms/kg) and two levels of linoleate (26.5 and 1.5 g/kg) in a factorially designed experiment to determine the effects of these nutrients on tibiotarsal bone growth and modeling. Chicks fed biotin-deficient diets (0 microgram/kg diet) exhibited varus deformities, footpad dermatitis, shortened tibiotarsi, and significantly higher bone densities and percentage bone ash. Anatomically there were two different bone modeling patterns. The mid-diaphyseal cortex was thickest laterally in chicks fed adequate biotin and thickest medially in biotin-deficient chicks. Periosteal bone appositional and bone formation rates, osteoid perimeter, and osteoid area of perimeter were reduced in tibiotarsi of chicks fed diets deficient in biotin compared with effects in chicks fed adequate biotin. Altered bone modeling patterns and quantitative differences in bone histomorphometry suggest a relationship between the effects of biotin on bone growth and the development of varus limb deformities.

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Mononuclear phagocytes and bone resorption : identification and preliminary characterization of a bone-derived macrophage chemotactic factor

Minkin

Posek

Newbrey

1981

Metabolic Bone Disease and Related Research

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Effects of parathyroid hormone and calcitonin on adenylate cyclase in murine mononuclear phagocytes

Minkin

Blackman

Newbrey

et al. 1977

Biochemical and Biophysical Research Communications

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Characterization of developing antler cartilage matrix

Newbrey

Banks

1975

Calc. Tis Res.

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Cartilage from the main beams and tines of deer antler was examined with the electron microscope. The material studied included prechondroblastic, chondroblastic and chondrocytic matrices. Exdysial microfibrils (5-10 nm in diameter) were observed in the matrix of the prechondroblastic zone. These microfibrils and associated amorphous material were continuous with electron-dense material that probably represented extracellular units of collagen polymers. Matrix (proteoglycan) granules were first observed in the chondroblastic zone. They stained positively with colloidal iron and therefore probably represented proteinpolysaccharides. The matrix granules of the chondroxytic (unmineralized and mineralized) zone were twice the diameter of those in the chondroblastic zone. Matrix vesicles were present in all three stages of development. They were in contact with cellular extensions and also arose directly from cell membranes in the immature zones. As in somatic mineralizing cartilage, these vesicles served as the foci for early mineralization. The initial mineralization process was associated with the membrane of the vesicles.

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J. W. Newbrey

Bone metabolism during antler growth in female reindeer

Biotin Deficiency May Alter Tibiotarsal Bone Growth and Modeling in Broiler Chicks

Mononuclear phagocytes and bone resorption : identification and preliminary characterization of a bone-derived macrophage chemotactic factor

Effects of parathyroid hormone and calcitonin on adenylate cyclase in murine mononuclear phagocytes

Characterization of developing antler cartilage matrix

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