Calcium Nutrition and the Aging Process: A Review
Identifieur interne : 00C829 ( Main/Exploration ); précédent : 00C828; suivant : 00C830Calcium Nutrition and the Aging Process: A Review
Auteurs : Louis J. Ramazzotto [États-Unis] ; Frederick A. Curro [États-Unis] ; Paul E. Gates [États-Unis] ; John A. Paterson [États-Unis]Source :
- Gerodontology [ 0734-0664 ] ; 1986-12.
Descripteurs français
English descriptors
- KwdEn :
- Active form, Acute care, Adequate supplies, Alveolar bone, Alveolar bone density, American journal, American society, Binding sites, Biochemical responses, Bone, Bone density, Bone formation, Bone health, Bone loss, Bone maintenance, Bone mass, Bone resorption, Bone states, Bone tissue, Calcitonin, Calcitriol, Calcium, Calcium absorption, Calcium absorption increases, Calcium antagonists, Calcium balance, Calcium carbonate, Calcium intake, Calcium malabsorption, Calcium nutrition, Calcium reabsorption, Calcium requirements, Calcium supplementation, Calcium supplements, Calmodulin, Cellular function, Cellular regulation, Clinical nutrition, Contractile system, Daily intake, Dietary calcium, Dietary calcium intake, Dietary intake, Early recognition, Endogenous estrogens, Endometrial cancer, England journal, Estrogen, Estrogen deficiency, Exchangeable bone compartment, Excretion, Extracellular fluid, Fecal excretion, Fracture, Heaney, High affinity, Hormonal form, Intake, Internal medicine, Intestinal, Intestinal absorption, Intestinal calcium absorption, Intestine, Kidney diseases, Major role, Membrane structure, Menopausal women, Menopause, Metabolism, Mineral research, Molecular mechanisms, Muscle contraction, National institute, National institutes, Negative calcium balance, Normal subjects, Nursing home care, Nutrition board, Ofthe, Older americans, Osteoclastic activity, Osteomalacia, Osteoporitic bone loss, Osteoporosis, Pagetic lesions, Parathyroid, Parathyroid hormone, Periodontal, Periodontal disease, Phalanx bone, Phosphorus, Physical activity, Postmenopausal, Postmenopausal osteoporosis, Postmenopausal women, Proper maintenance, Prosthetic dentistry, Protein factor, Protein structures, Recent data, Recent studies, Residual, Residual ridge, Residual ridge resorption, Residual ridges, Resorption, Severe bone loss, Skeletal integrity, Small intestine, Spinal fractures, Symptomatic osteoporosis, Troponin, Urinary calcium excretion, Urinary excretion, Vitamin.
- Teeft :
- Active form, Acute care, Adequate supplies, Alveolar bone, Alveolar bone density, American journal, American society, Binding sites, Biochemical responses, Bone, Bone density, Bone formation, Bone health, Bone loss, Bone maintenance, Bone mass, Bone resorption, Bone states, Bone tissue, Calcitonin, Calcitriol, Calcium, Calcium absorption, Calcium absorption increases, Calcium antagonists, Calcium balance, Calcium carbonate, Calcium intake, Calcium malabsorption, Calcium nutrition, Calcium reabsorption, Calcium requirements, Calcium supplementation, Calcium supplements, Calmodulin, Cellular function, Cellular regulation, Clinical nutrition, Contractile system, Daily intake, Dietary calcium, Dietary calcium intake, Dietary intake, Early recognition, Endogenous estrogens, Endometrial cancer, England journal, Estrogen, Estrogen deficiency, Exchangeable bone compartment, Excretion, Extracellular fluid, Fecal excretion, Fracture, Heaney, High affinity, Hormonal form, Intake, Internal medicine, Intestinal, Intestinal absorption, Intestinal calcium absorption, Intestine, Kidney diseases, Major role, Membrane structure, Menopausal women, Menopause, Metabolism, Mineral research, Molecular mechanisms, Muscle contraction, National institute, National institutes, Negative calcium balance, Normal subjects, Nursing home care, Nutrition board, Ofthe, Older americans, Osteoclastic activity, Osteomalacia, Osteoporitic bone loss, Osteoporosis, Pagetic lesions, Parathyroid, Parathyroid hormone, Periodontal, Periodontal disease, Phalanx bone, Phosphorus, Physical activity, Postmenopausal, Postmenopausal osteoporosis, Postmenopausal women, Proper maintenance, Prosthetic dentistry, Protein factor, Protein structures, Recent data, Recent studies, Residual, Residual ridge, Residual ridge resorption, Residual ridges, Resorption, Severe bone loss, Skeletal integrity, Small intestine, Spinal fractures, Symptomatic osteoporosis, Troponin, Urinary calcium excretion, Urinary excretion, Vitamin.
Abstract
Adequate supply of calcium is essential for proper maintenance of the skeletal system. Recent studies suggest that, in the United States, dietary calcium in most women is inadequate to maintain skeletal integrity. Additionally, postmenopausal women will lose bone mass more rapidly because of estrogen deficiency and possibly tack of exercise. Severe loss of bone mass can result in several serious skeletal diseases, the most frequent of which is osteoporosis. This disease is a major contributor (25–30%) to hip fractures and spinal compression fractures in elderly people. Indirect sequelae of these fractures are responsible for 12% to 15% mortality in these patients within three months. Recent research indicates that osteoporitic bone loss may directly affect alveolar bone and may, in fact, exacerbate existing periodontally‐induced bone loss. This article will review the literature concerning physiological and biochemical parameters related to the absorption and metabolism of calcium with special emphasis on calcium alterations in the aging process. The following areas will be discussed: Ingestion, Absorption, Factors Effecting Absorption and Bone Maintenance, Calcium/Protein Interactions Affecting the Aging Process, Altered Bone States Associated with the Aging Person, Osteoporosis, Osteomalacia, Paget's Disease, Calcium Affecting Drug Action, and Calcium Affecting Alveolar Bone.
Url:
DOI: 10.1111/j.1741-2358.1986.tb00063.x
Affiliations:
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type="ISSN">0734-0664</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0734-0664</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Active form</term><term>Acute care</term><term>Adequate supplies</term><term>Alveolar bone</term><term>Alveolar bone density</term><term>American journal</term><term>American society</term><term>Binding sites</term><term>Biochemical responses</term><term>Bone</term><term>Bone density</term><term>Bone formation</term><term>Bone health</term><term>Bone loss</term><term>Bone maintenance</term><term>Bone mass</term><term>Bone resorption</term><term>Bone states</term><term>Bone tissue</term><term>Calcitonin</term><term>Calcitriol</term><term>Calcium</term><term>Calcium absorption</term><term>Calcium absorption increases</term><term>Calcium antagonists</term><term>Calcium balance</term><term>Calcium carbonate</term><term>Calcium intake</term><term>Calcium malabsorption</term><term>Calcium nutrition</term><term>Calcium reabsorption</term><term>Calcium requirements</term><term>Calcium supplementation</term><term>Calcium supplements</term><term>Calmodulin</term><term>Cellular function</term><term>Cellular regulation</term><term>Clinical nutrition</term><term>Contractile system</term><term>Daily intake</term><term>Dietary calcium</term><term>Dietary calcium intake</term><term>Dietary intake</term><term>Early recognition</term><term>Endogenous estrogens</term><term>Endometrial cancer</term><term>England journal</term><term>Estrogen</term><term>Estrogen deficiency</term><term>Exchangeable bone compartment</term><term>Excretion</term><term>Extracellular fluid</term><term>Fecal excretion</term><term>Fracture</term><term>Heaney</term><term>High affinity</term><term>Hormonal form</term><term>Intake</term><term>Internal medicine</term><term>Intestinal</term><term>Intestinal absorption</term><term>Intestinal calcium absorption</term><term>Intestine</term><term>Kidney diseases</term><term>Major role</term><term>Membrane structure</term><term>Menopausal women</term><term>Menopause</term><term>Metabolism</term><term>Mineral research</term><term>Molecular mechanisms</term><term>Muscle contraction</term><term>National institute</term><term>National institutes</term><term>Negative calcium balance</term><term>Normal subjects</term><term>Nursing home care</term><term>Nutrition board</term><term>Ofthe</term><term>Older americans</term><term>Osteoclastic activity</term><term>Osteomalacia</term><term>Osteoporitic bone loss</term><term>Osteoporosis</term><term>Pagetic lesions</term><term>Parathyroid</term><term>Parathyroid hormone</term><term>Periodontal</term><term>Periodontal disease</term><term>Phalanx bone</term><term>Phosphorus</term><term>Physical activity</term><term>Postmenopausal</term><term>Postmenopausal osteoporosis</term><term>Postmenopausal women</term><term>Proper maintenance</term><term>Prosthetic dentistry</term><term>Protein factor</term><term>Protein structures</term><term>Recent data</term><term>Recent studies</term><term>Residual</term><term>Residual ridge</term><term>Residual ridge resorption</term><term>Residual ridges</term><term>Resorption</term><term>Severe bone loss</term><term>Skeletal integrity</term><term>Small intestine</term><term>Spinal fractures</term><term>Symptomatic osteoporosis</term><term>Troponin</term><term>Urinary calcium excretion</term><term>Urinary excretion</term><term>Vitamin</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Active form</term><term>Acute care</term><term>Adequate supplies</term><term>Alveolar bone</term><term>Alveolar bone density</term><term>American journal</term><term>American society</term><term>Binding sites</term><term>Biochemical responses</term><term>Bone</term><term>Bone density</term><term>Bone formation</term><term>Bone health</term><term>Bone loss</term><term>Bone maintenance</term><term>Bone mass</term><term>Bone resorption</term><term>Bone states</term><term>Bone tissue</term><term>Calcitonin</term><term>Calcitriol</term><term>Calcium</term><term>Calcium absorption</term><term>Calcium absorption increases</term><term>Calcium antagonists</term><term>Calcium balance</term><term>Calcium carbonate</term><term>Calcium intake</term><term>Calcium malabsorption</term><term>Calcium nutrition</term><term>Calcium reabsorption</term><term>Calcium requirements</term><term>Calcium supplementation</term><term>Calcium supplements</term><term>Calmodulin</term><term>Cellular function</term><term>Cellular regulation</term><term>Clinical nutrition</term><term>Contractile system</term><term>Daily intake</term><term>Dietary calcium</term><term>Dietary calcium intake</term><term>Dietary intake</term><term>Early recognition</term><term>Endogenous estrogens</term><term>Endometrial cancer</term><term>England journal</term><term>Estrogen</term><term>Estrogen deficiency</term><term>Exchangeable bone compartment</term><term>Excretion</term><term>Extracellular fluid</term><term>Fecal excretion</term><term>Fracture</term><term>Heaney</term><term>High affinity</term><term>Hormonal form</term><term>Intake</term><term>Internal medicine</term><term>Intestinal</term><term>Intestinal absorption</term><term>Intestinal calcium absorption</term><term>Intestine</term><term>Kidney diseases</term><term>Major role</term><term>Membrane structure</term><term>Menopausal women</term><term>Menopause</term><term>Metabolism</term><term>Mineral research</term><term>Molecular mechanisms</term><term>Muscle contraction</term><term>National institute</term><term>National institutes</term><term>Negative calcium balance</term><term>Normal subjects</term><term>Nursing home care</term><term>Nutrition board</term><term>Ofthe</term><term>Older americans</term><term>Osteoclastic activity</term><term>Osteomalacia</term><term>Osteoporitic bone loss</term><term>Osteoporosis</term><term>Pagetic lesions</term><term>Parathyroid</term><term>Parathyroid hormone</term><term>Periodontal</term><term>Periodontal disease</term><term>Phalanx bone</term><term>Phosphorus</term><term>Physical activity</term><term>Postmenopausal</term><term>Postmenopausal osteoporosis</term><term>Postmenopausal women</term><term>Proper maintenance</term><term>Prosthetic dentistry</term><term>Protein factor</term><term>Protein structures</term><term>Recent data</term><term>Recent studies</term><term>Residual</term><term>Residual ridge</term><term>Residual ridge resorption</term><term>Residual ridges</term><term>Resorption</term><term>Severe bone loss</term><term>Skeletal integrity</term><term>Small intestine</term><term>Spinal fractures</term><term>Symptomatic osteoporosis</term><term>Troponin</term><term>Urinary calcium excretion</term><term>Urinary excretion</term><term>Vitamin</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Calcium</term><term>Phosphore</term><term>Vitamine</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Adequate supply of calcium is essential for proper maintenance of the skeletal system. Recent studies suggest that, in the United States, dietary calcium in most women is inadequate to maintain skeletal integrity. Additionally, postmenopausal women will lose bone mass more rapidly because of estrogen deficiency and possibly tack of exercise. Severe loss of bone mass can result in several serious skeletal diseases, the most frequent of which is osteoporosis. This disease is a major contributor (25–30%) to hip fractures and spinal compression fractures in elderly people. Indirect sequelae of these fractures are responsible for 12% to 15% mortality in these patients within three months. Recent research indicates that osteoporitic bone loss may directly affect alveolar bone and may, in fact, exacerbate existing periodontally‐induced bone loss. This article will review the literature concerning physiological and biochemical parameters related to the absorption and metabolism of calcium with special emphasis on calcium alterations in the aging process. The following areas will be discussed: Ingestion, Absorption, Factors Effecting Absorption and Bone Maintenance, Calcium/Protein Interactions Affecting the Aging Process, Altered Bone States Associated with the Aging Person, Osteoporosis, Osteomalacia, Paget's Disease, Calcium Affecting Drug Action, and Calcium Affecting Alveolar Bone.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country></list><tree><country name="États-Unis"><noRegion><name sortKey="Ramazzotto, Louis J" sort="Ramazzotto, Louis J" uniqKey="Ramazzotto L" first="Louis J." last="Ramazzotto">Louis J. Ramazzotto</name></noRegion><name sortKey="Curro, Frederick A" sort="Curro, Frederick A" uniqKey="Curro F" first="Frederick A." last="Curro">Frederick A. Curro</name><name sortKey="Gates, Paul E" sort="Gates, Paul E" uniqKey="Gates P" first="Paul E." last="Gates">Paul E. Gates</name><name sortKey="Paterson, John A" sort="Paterson, John A" uniqKey="Paterson J" first="John A." last="Paterson">John A. Paterson</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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