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Query: UMLS:C0221002 (
primary hyperparathyroidism
)
4,921
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Bone metabolic homeostasis is regulated by a number of hormones and local modulators, and the study of these factors has been of major help in our understanding of bone disease. However, these parameters do not, in a strict sense reflect the metabolic and biochemical changes in the diseased bone tissue. Thus, there is a great interest in the study of biochemical specific "markers" of bone metabolic processes, namely of bone formation and bone resorption. Alkaline phosphatase, osteocalcin,
osteonectin
, and procollagen type I propeptides are the currently known markers of bone formation, whereas urinary hydroxyproline and hydroxylysine glycosides, plasma tartrate resistant acid phosphatase, and urinary hydroxy-pyridinium crosslinks of collagen are considered markers of bone resorption. In this paper, we review the background work on each of these markers, and subsequently give an overview of the currently available data on their usefulness in metabolic bone diseases, namely in Paget's disease of bone,
primary hyperparathyroidism
, osteoporosis, and renal osteodystrophy.
...
PMID:Biochemical markers of bone metabolism. 192 60
Rapid detection of the exact changes in bone remodelling is exceptionally important. In this paper, the latest bone remodelling biochemical markers are reviewed. Some of them have already been used for a long time, and their utility has been widely demonstrated. The newest ones, in experimental stage, can be used as a complement to the others. The bone remodelling markers reviewed are: 1) Alkaline phosphatase; 2) osteocalcin; 3) Other noncollagen of bone matrix such as
osteonectin
, GLA-protein of the matrix, osteopontine and alpha 2-HS-glycoprotein; 4) Procollagenous and other collagenous peptides of the matrix (C terminal of type-I procollagen and urinary elimination of nondialysis hydroxyproline. Amongst the bone resorption markers studied are: 1) Calcium/creatinine urinary quotient; 2) Tartrate resistant acid phosphatase; 3) Urinary hydroxyproline; 4) Other substances derived from collagen disruption such as hydroxilysin glycoside, piridinolinic intermolecular bridges and the enzymatic activity of proline iminopeptidase. We endeavoured to collect all the most important references on the matter, especially those relating to Paget's disease of the bone,
primary hyperparathyroidism
, tumoral hypercalcemia and postmenopausal osteoporosis.
...
PMID:[The usefulness of biochemical markers of bone remodelling in the diagnosis and follow-up of Paget's disease of bone, primary hyperparathyroidism, tumoral hypercalcemia and postmenopausal osteoporosis. I. The markers of bone formation]. 210 91
Rapid detection of the exact changes in bone remodelling is exceptionally important. In this paper, the latest bone remodelling biochemical markers are reviewed. Some of them have already been used for a long time, and their utility has been widely demonstrated. The newest ones, in experimental stage, can be used as a complement to the others. The bone remodelling markers reviewed are: 1) Alkaline phosphatase; 2) osteocalcin; 3) other noncollagen of bone matrix such as
osteonectin
, GLA-protein of the matrix, osteopontine and alpha 2-HS-glycoprotein; 4) Procollagenous and other collagenous peptides of the matrix (C terminal of type I procollagen and urinary elimination of non-dialysis hydroxyproline. Amongst the bone resorption markers studied are: 1) Calcium/creatinine urinary quotient; 2) Tartrate resistant acid phosphatase; 3) Urinary hydroxyproline; 4) Other substance derived from collagen disruption such as hydroxylysine glycoside, piridinolinic intermolecular bridges and the enzymatic activity of proline iminopeptidase. We endeavored to collect all the most important references on the matter, especially those relating to Paget's disease of the bone,
primary hyperparathyroidism
, tumoral hypercalcemia and postmenopausal osteoporosis.
...
PMID:[Usefulness of bone remodelling biochemical markers in the diagnosis and follow-up of Paget's bone disease, primary hyperparathyroidism, tumor hypercalcemia, and postmenopausal osteoporosis. II. Bone resorption markers]. 210 1
We describe a sinus, referred to as a bone remodeling compartment (BRC), which is intimately associated with cancellous bone remodeling. The compartment is lined on its marrow side by flattened cells and on its osseous side by the remodeling bone surface, resembling a roof of flattened cells covering the bone surface. The flat marrow lining cells are in continuity with the bone lining cells at the margins of the BRC. We examined a large number of diagnostic bone biopsy specimens received during recent years in the department. Furthermore, 10 patients (8 women and 2 men, median age 56 [40-69] years) with the high turnover disease of
primary hyperparathyroidism
who were treated with parathyroidectomy and followed for 3 years were included in the histomorphometric study. Bone samples for the immuno-enzyme staining were obtained from an amputated extremity of child. The total cancellous bone surface covered by BRC decreases by 50% (p < 0.05) following normalization of turnover and is paralleled by a similar 50% decrease in remodeling surface (p < 0.05). The entire eroded surface and two-thirds of the osteoid surface are covered by a BRC. BRC-covered uncompleted walls are 30% (p < 0.05) thinner than those without a BRC. This indicates that the BRC is invariably associated with the early phases of bone remodeling, that is, bone resorption, whereas it closes during the late part of bone formation. Immuno-enzyme staining shows that the flat marrow lining cells are positive for alkaline phosphatase, osteocalcin, and
osteonectin
, suggesting that they are bone cells. The first step in cancellous bone remodeling is thought to be the lining cells digesting the unmineralized matrix membrane followed by their disappearance and the arrival of the bone multicellular unit (BMU). We suggest that the lining cell barrier persists during bone remodeling; that the old lining cells become the marrow lining cells, allowing bone resorption and bone formation to proceed under a common roof of lining cells; that, at the end of bone formation, new bone lining cells derived from the flattened osteoblasts replace the marrow lining cells thereby closing the BRC; and that the two layers of lining cells eventually becomes a single layer. The integrity of the osteocyte-lining cell system is reestablished by the new generation of lining cells. The BRC most likely serves multiple purposes, including efficient exchange of matrix constituents and minerals, routing, monitoring, or modulating bone cell recruitment, and possibly the anatomical basis for the coupling of bone remodeling.
...
PMID:Cancellous bone remodeling occurs in specialized compartments lined by cells expressing osteoblastic markers. 1154 27
