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The discrepancy in the carbonate found in fish bone and blood (1968)

Neuman, W. F. ; Mulryan, B. J.

Springer

Calcified tissue international 2 (1968), S. 237-241

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ISSN: 1432-0827

Keywords: Carbonate ; Bone ; Fish ; Apatite

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Description / Table of Contents: Résumé D'après la littérature, il semble que les poissons soient obligées d'hyperventiler en CO2, pour recevoir suffisamment d'oxygène. Ils présenteraient par suite une quantité faible de bicarbonate circulant. Dans cet ordre d'idée, les arêtes de truites et de carpes ont été analysés pour établir si la composition du minéral osseux traduit la faible concentration en bicarbonate sérique. Le contenu en CO2 d'arêtes de poissons n'est pas significativement différent de celui des os normaux de mammifères. Des crîstaux d'apatite synthétique, préparés dans des conditions identiques de T, μ et (HCO 3 − ), ne contiennent que 1/7ème à 1/8ème du CO2 d'arêtes de poissons. Ces résultats indiquent que la composition des liquides dans l'os ne réfléchit pas simplement la composition du sérum circulant, ainsi qu'on l'admet généralement.

Abstract: Zusammenfassung Es ist in der Literatur berichtet worden, daß Fische, um genügend Sauerstoff zu erhalten, einen Überschuß von Kohlensäure einatmen müssen und folglich einen niedrigen Gehalt an Bicarbonaten im Kreislauf aufweisen. Knochen von Forellen und Karpfen wurden analysiert, um festzustellen, ob ihre Mineralsalzzusammensetzungen die niedrigen Serum-bicarbonate-konzentrationen wiederspiegeln. Die Resultate zeigten keinen wesentlichen Unterschied zwischen dem Carbonatgehalt der Knochen von Fischen und Säugetieren. Synthetische Apatitkristalle, die unter ähnlichen Bedingungen von T, μ und HCO3 bereitet wurden, wiesen nur 1/7–1/8 des Carbonatgehaltes der Fischknochen auf. Diese Ergebnisse deuten zweifellos darauf hin, daß zwischen der Zusammensetzung der Gewebeflüssigkeit der Knochen und des Serums kein einfacher Zusammenhang besteht.

Notes: Abstract It has been reported in the literature that fish, to get sufficient oxygen, must overventilate with respect to CO2 and therefore exhibit a low circulating level of bicarbonate. Accordingly, the bones of trout and carp were analyzed to learn if the composition of their bone mineral reflects the low serum level of bicarbonate. It was found that the CO2 content of fish bone is not significantly different from that of normal mammalian bone. Synthetic apatite crystals, made under comparable conditions of T, μ, and (HCO 3 − ) were found to contain only 1/7th to 1/8th the CO2 of fish bone. These data strongly suggest that the composition of the fluids in bone does not reflect, in a simple way, the composition of the circulating serum as is generally assumed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02279211

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The cycling concept of exchange in bone (1968)

Neuman, W. F. ; Terepka, A. R. ; Canas, F. ; [et al.]

Springer

Calcified tissue international 2 (1968), S. 262-270

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ISSN: 1432-0827

Keywords: Bone ; Exchange ; Radioisotopes ; Ions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Description / Table of Contents: Résumé Une hypothèse, destinée à rendre compte de façon semi-quantitative, des grandes variations de temps nécessaire à équilibrer, au niveau du squelette, divers produits radioactifs, introduits dans le torrent circulatoire, est mise au point. Cette hypothèse est basée sur le fait que 3 facteurs interviennent dans les échanges osseux: a) la vitesse de perfusion de l'os, b) la concentration ionique du plasma, et c) la concentration ionique de l'os. Partant de cette hypothèse et de résultats publiés dans la littérature, “des temps de cyclage” sont calculés par Cl−, Na+, K+ et Ca++. Ils varient selon quatre ordres de grandeur (de 10 min pour Cl− à 64 jours Ca++, chez le rat). Ces résultats ont été vérifiés pour des échanges de22Na et de45Ca dans une colonne d'apatite minéralin vitro. Des échanges de36Cl et de42K ont été étudiésin vivo au niveau du fémur de rat. La disparition sanguine du22Na a été suivie chez l'Homme. Enfin des résultats d'échanges de45Ca, au niveau de molaires de rat, publiés dans la littérature, ont été recalculés. Dans chaque cas, les résultats expérimentaux ont confirmé les prédictions de l'hypothèse du cyclage.

Abstract: Zusammenfassung Es wurde eine Hypothese aufgestellt, um auf semi-quantitative Weise die breite Variabilität der Zeit zu erklären, die benötigt wird, um im Skelett ein Gleichgewicht von verschiedenen radioaktiven in den Kreislauf eingeführten Substanzen herzustellen. Diese Hypothese beruht auf der Annahme, daß der geschwindigkeitsbeschränkende Faktor beim Knochenaustausch durch 3 Variablen definiert ist: a) das Maß der Knochenperfusion, b) die Konzentration der Ionen im Plasma und c) die Konzentration der Ionen im Knochen. Auf Grund dieser Annahme und gestützt auf Angaben aus der Literatur wurden die “cycling times” für Cl−, Na+, K+ und Ca++ berechnet. Diese variieren in 4 Größenordnungen, beispielsweise von 10 min für Cl− bis zu 64 Tagen für Ca++ bei der Ratte. Diese Annahmen wurden für den Austauschin vitro von22Na und45Ca in Apatitmineral in einer Säule geprüft. Der Austausch von36Cl und von42K wurdein vivo am Rattenfemur studiert. Die Abnahme von22Na im menschlichen Blut wurde ebenfalls verfolgt. Schließlich wurden Literaturangaben über den Austausch von45Ca in Rattenbackenzähnen überprüft. Die Versuchsresultate kamen dabei sehr nahe an die auf Grund des “cycling concept” erwarteten. Einige der Zusammenhänge dieser Befunde werden kurz besprochen.

Notes: Abstract An hypothesis has been developed to explain in a semi-quantitative fashion the wide variations in time required for the equilibration in the skeleton of various radioactive substances when they are introduced into the circulation. The basis for the hypothesis rests on the assumption that three variables define the rate-limiting step in bone exchange: a) the rate of perfusion of bone, b) the concentration of the ion plasma, and c) the concentration of the ion in bone. Using this idea and data from the literature, “cycling times” were calculated for Cl−, Na+, K+, and Ca++. They were found to vary by four orders of magnitude (from 10 min for Cl− to 64 days for Ca++ in the rat). These predictions were tested for22Na- and45Ca-exchange in a column of apatite mineralin vitro. In vivo 36Cl- and42K-exchange in rat femur was studied. The blood disappearance of22Na in man was also examined. Finally, data in the literture of45Ca-exchange in the rat molar was redrawn. In every case, experimental results closely approximated the predictions of the cycling concept. Some of the implications of these findings are briefly discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02279214

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The glycosaminoglycans of dog compact bone and epiphyseal cartilage in the normal state and in experimental hyperparathyroidism (1968)

Hjertquist, Sven-Olof ; Verjlens, Lars

Springer

Calcified tissue international 2 (1968), S. 314-333

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ISSN: 1432-0827

Keywords: Bone ; Glycosaminogloycans ; Hyperparathyroidism

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Description / Table of Contents: Résumé Les glycosaminoglycanes de l'os compact ont été identifiés, par la méthode de précipitation au chlorure de cetylpyridinium, chez le chien normal et des chiens soumis à 20 ou 30 U.S.P. d'extrait parathyroïdien pendant 5 et 3–4 jours. Les concentrations d'héxosamines totales ainsi que les héxosamines, en rapport avec les glycoaminoglycanes acides, précipités par chlorure de cetylpyridinium, sont déterminées. En outre, la répartition du glycosaminoglycane de la zone d'ossification épiphysaire ainsi que l'incorporation du35S-sulfate dans les glycosaminoglycanes du tissu osseux et du cartilage épiphysaire, après administration de35S-sulfatein vivo, ont été étudiées. Dans l'os compact, les héxosamines, en rapport avec les glycosaminoglycances acides, constitutent environ un tiers de la concentration totale en héxosamine et environ 0,05–0,06% du poids sec total. Le constituant principal des glycosaminoglycances acides osseux est formé par le chondroitine-4-sulfate. Ce dernier est plus riche en sulfate et présente un poids moléculaire plus élevé que le chondroitine sulfate du cartilage épiphysaire, qui, selon des travaux antérieurs, présente des caractéristiques infra-rouges du chondroitine-4-sulfate et du chondroitine-6-sulfate, avec prédominance du premier. Les poids moléculaires du chondroitine sulfate osseux varient surtout d'environ 45000 et 56000. L'acide hyaluronique constitute une faible fraction des glycosaminoglycanes osseux. Des différences marquées de l'activité spécifique des fractions de cohondroitine sulfate de l'os et du cartilage épiphysaire, à poids moléculaires variables, on tété notées de façon répétée. L'administration d'extrait parathyroïdien à des chiens n'a pas d'effet sur les poids moléculaires en chondroitine sulfate de l'os ou du cartilage épiphysaire. Elle n'influence pas non plus les concentrations en héxosamines totales ou en glycosaminoglycances acides. Dans ces tissus, il ne se produit pas d'effect de stimulation ou de dépression concernant l'incorporation de35S-sulfate dans le chondroitine sulfate our sur la séparation moléculaire de molécules transformées en sulfates et/ou de molécules synthétiques de sulfate chondroitine.

Abstract: Zusammenfassung An normale Hunden und an Hunden die unter 5 respektive 3–4 Tagen 20 oder 30 U.S.P./kg Parathyreoidea-Extract erhalten hatten, wurden im kompakten Knochen die Glykosaminoglykane unter Anwendung der Cetylpyridiniumchlorid-Fällungsmethode identifiziert und die Konzentration des Total-Hexosamins und des Hexosamins, entsprechend den Cetylpyridiniumchlorid fällbaren sauren Glykosaminoglykanen, wurde bestimmt. Außerdem wurden das Glykosaminoglykanmuster der Epiphysenplatte und der Einbau von35S-Sulfat in die Glykosaminoglykane des Knochengewebes und des Epiphysenknorpels nach Zufuhr von35S-Sulfatin vivo studiert. Im kompakten Knochengewebe macht des Hexosamin, entsprechend den sauren Glykosaminoglykanen, ungefähr ein Drittel der totalen Hexosaminkonzentration und ungefähr 0,05–0,06% des totalen Trockengewichtes aus. Der Hauptanteil der sauren Glykosaminoglykane im Knochen war Chondroitin-4-Sulfat. Dieses war in höherem Grad sulfatiert und hatte ein höheres Molekülgewicht als das Chondroitinsulfat der Epiphysenplatte, welches, in Übereinstimmung mit früheren Untersuchungen, Infrarot spektra kennzeichnend für sowohl Chondroitin-4-sulfat als auch für Chondroitin-6-sulfat, das Erstere überwiegend, hatte. Das Molekülgewicht des Hauptanteiles des Knochen-Chondroitinsulfates lag zwischen ungefähr 45000–56000. Ein kleiner Teil der Knochen-Glykosaminoglykane war Hyaluronsäure. Sowohl im Knochengewebe als auch im Epiphysenknorpel wurde in verschiedenen Fraktionen des Chondroitinsulfates, mit unterschiedlichem Molekülgewicht, grße und regelmäßig reproduzierbare Unterschiede in der spezifischen Aktivität gefunden. Behandlung der Hunde mit Parathyreoideaextrakt gab keinen Ausschlag in den Molekülgewichten des Chondroitinsulfates, weder des Knochens noch des Epiphysenknorpels. Ebenso wurde kein eindeutiger Effekt auf die Konzentration des totalen Hexosamins oder der sauren Glykosaminoglykane gefunden. Kein offenbarer, weder anregender noch senkender, Effekt auf den Einbau von35S-Sulfat in das Chondroitinsulfat oder in der molekularen Verteilung der neulich sulfatierten und/oder synthetisierten Moleküle des Chondroitinsulfates dieser Gewebe wurde gefunden.

Notes: Abstract In normal dogs and in dogs treated with 20 or 30 U.S.P. parathyroid extract for 5 and 3–4 days, respectively, the glycosaminoglycans of compact bone tissue were identified using the cetylpyridinium chloride precipitation method, and the concentrations of total hexosamines and the hexosamines corresponding to cetylpyridinium chloride precipitable acid glycosaminoglycans were determined. Further, the glycosaminoglycan pattern of the epiphyseal plate and the incorporation of35S-sulphate into the glycosaminoglycans of bone tissue and epiphyseal cartilage after administration of35S-sulphatein vivo was studied. In compact bone tissue, the hexosamines corresponding to acid glycosaminoglycans constuted approximately one third of the total hexosamine concentration and approximately 0.05–0.06% of the total dry weight. The main component of the acid glycosaminoglycans in bone was chondroitin-4-sulphate. This was sulphated to a higher degree and also of a higher molecular weight than thechondroitin sulphate of the epiphyseal cartilage, which in accordance with earlier investigations was found to have infrared characteristics of both chondroitin-4-sulphate and chondroitin-6-sulphate, with the former dominating. The molecular weights of the main part of bone chondroitin sulphate ranged from approximately 45,000 to 56,000. A small component of the bone glycosaminoglycans was hyaluronic acid. Large regularly recurring differences in the specific activity of fractions with differences in molecular weight in the condroitin sulphate of bone tissue and epiphyseal cartilage were noted. Treatment of the dogs with parathyroid extract gave no effect on the molecular weights of the chondroitin sulphate of the bone matrix or of the epiphyseal cartilage. Nor was there any unequivocal effect on the concentrations of total hexosamines or on the acid glycosaminoglycans. No evident stimulatory or depressant effect on the incorporation of35S-sulphate into the chondroitin sulphate or in the molecular distribution of newly sulphated and/or synthesized molecules of the condroitin sulphate within these tissues occurd.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02279220

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Autoradiographic localization of target cells for 1α, 25-dihydroxyvitamin D3 in bones from fetal rats (1983)

Narbaitz, R. ; Stumpf, W. E. ; Sar, M. ; [et al.]

Springer

Calcified tissue international 35 (1983), S. 177-182

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ISSN: 1432-0827

Keywords: Vitamin D ; Bone ; Osteoblasts ; Receptors ; 1,25-dihydroxyvitamin D3

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Thaw-mount autoradiographic studies after injection of3H-1,25-D3 were conducted on 18-and 20-day-old rat fetuses. In maxillary bones, ribs, and tibia, nuclear concentration of radioactivity was found in osteoprogenitor cells and osteoblasts. Osteocytes and chondrocytes in epiphyseal plates were either unlabeled or weakly labeled. In competition experiments, nuclear concentration of radioactivity was blocked by the injection of a high dose of nonradioactive 1,25-D3 prior to the administration of the labeled hormone, but not by a similar dose of nonradioactive 25-D3. The results are interpreted as indicating that osteoprogenitor cells and osteoblasts are target cells for the direct action of 1,25-D3 on fetal bone.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405028

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Studies on the role of vitamin D in early skeletal development, mineralization, and growth in rats (1983)

Miller, Scott C. ; Halloran, Bernard P. ; DeLuca, Hector F. ; [et al.]

Springer

Calcified tissue international 35 (1983), S. 455-460

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ISSN: 1432-0827

Keywords: Vitamin D ; Vitamin D deficiency ; Bone ; Cartilage ; Bone development

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary The role of vitamin D in early skeletal development was studied by measuring serum calcium and phosphorus, osseous tissue quantity and mineralization, and endochondral bone elongation in rat fetuses and pups from vitamin D-replete and vitamin D-deficient mothers. At the 20th day of pregnancy there was a slight, yet significant, increase in the amount of osteoid on trabecular bone surfaces in fetuses from vitamin D-deficient mothers. The fetal bones otherwise appeared normal in spite of severe skeletal changes in the vitamin D-deficient mothers. After parturition, the importance of vitamin D in skeletal development becomes progressively more obvious. Serum calcium levels were slightly, yet significantly, lower in vitamin D-deficient than in vitamin D-replete pups and these levels continued to fall in the vitamin D-deficient pups through lactation and after weaning. At 3 days postpartum, there was a small, yet significant, increase in the amount of osteoid on bone surfaces of the vitamin D-deficient pups. The relative amounts of osteoid in the vitamin D-deficient pups continued to increase through lactation and after weaning when compared with vitamin D-replete pups. By the 14th day of lactation and at later periods, there were significant reductions in metaphyseal mineralized tissues in the vitamin D-deficient pups when compared with the vitamin D-replete pups. At weaning and after weaning, there were substantial increases in growth plate thickness and decreases in longitudinal bone growth in the vitamin D-deficient pups when compared with the vitamin D-replete pups. The results from this study indicate that vitamin D does not appear to play a major role in fetal skeletal development. However, after birth, vitamin D becomes progressively more important with age for normal bone development, mineralization, and endochondral growth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405076

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Identification of a bone matrix-derived chemotactic factor (1983)

Somerman, M. ; Hewitt, A. T. ; Varner, H. H. ; [et al.]

Springer

Calcified tissue international 35 (1983), S. 481-485

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ISSN: 1432-0827

Keywords: Chemotaxis ; Bone ; Osteoblasts ; Bone proteins

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary When demineralized bone matrix powder is implanted subcutaneously in the rat, the early responses involve the appearance and proliferation of mesenchymal cells at the site of implantation, followed by cartilage and bone formation. The ability of cells to migrate to the implant suggests that chemotaxis may be a critical event in this process. Therefore, using the modified Boyden chamber assay, we tested extracts of demineralized bone matrix for chemotactic activity. We have identified and partially purified, on molecular sieve chromatography, a heat labile and trypsin-sensitive protein (Mr=60,000–70,000) that is a potent chemoattractant for mouse calvaria, osteoblast-like cells (MMB-1), but not for monocytes (putative osteoclast precursors). These findings suggest that chemotactic protein(s) have a significant role in the recruitment of osteoprogenitor cells to a site of bone repair.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405081

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Cyclical uptake pattern of tetracycline in post-secretory maturation phase enamel demonstrated in rooted teeth (1983)

Boyde, Alan ; Reith, Edward J.

Springer

Calcified tissue international 35 (1983), S. 762-766

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ISSN: 1432-0827

Keywords: Enamel ; Maturation cycles ; Tetracycline ; Dentine ; Bone

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Uptake of tetracycline by enamel in the short-term was studied at an advanced stage of crown formation and after completion of crown formation in deciduous molars in the cat. Both secretory phase enamel and bands of postsecretory, maturation phase enamel labeled rapidly. The pattern of labeling mimicked that seen in the continuously growing, rootless incisor teeth of the rat, with narrow doublets fusing to form narrow bands with wide unlabeled intervals in the short term. This is a physiological demonstration which indicates that cyclical activity and changes may occurin vivo during the maturation phase of amelogenesis in rooted teeth. It is also noted that dentine did not, and that some circumscribed patches of bone did label in the same animals in the same time interval. Short-term tetracycline labels are lost following conventional histological processing, but are retained after freeze-drying or air-drying.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405120

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8

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Bone remodeling due to continuously applied loads (1984)

Meade, J. B. ; Cowin, S. C. ; Klawitter, J. J. ; [et al.]

Springer

Calcified tissue international 36 (1984), S. S25

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ISSN: 1432-0827

Keywords: Remodeling ; Bone ; Stress

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary It has long been known that the stress history of bone tissue influences its structure; however, the nature of this relationship remains largely uncharacterized. The objective of this work was to induce a quantifiable change in the stress history ofin vivo bone tissue and examine subsequent changes in structural and material properties that might occur. Continuous compressive loads were applied to the diaphysis of adult mongrel dogs for 2 months. The loads, ranging from 12–130 N, were superposed on the normal activity of the animals by implanting spring loading devices on the diaphysis of the femur. After the animals were sacrificed, mid-diaphysial specimens were subjected to compression testing to determine a structural bulk stiffness. The cross-sectional areas of original bone tissue and new bone deposition were then determined. The ash weights of selected specimens were also determined. The results indicate that a positive correlation between the increase in cross-sectional area and the superposed stress does exist. The new bone apposition was found almost entirely on the periosteal surface. Very little evidence of internal remodeling or endosteal movement was observed. The new tissue was found to have a lower ash weight and appeared to have a disorganized microstructure. Mechanical testing also suggests that the newly deposited tissue is far less stiff than the mature original bone.

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URL: http://dx.doi.org/10.1007/BF02406130

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Errors in measuring trabecular bone by computed tomography due to marrow and bone composition (1983)

Mazess, Richard B.

Springer

Calcified tissue international 35 (1983), S. 148-152

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ISSN: 1432-0827

Keywords: Bone ; Computed tomography ; Densitometry ; Osteoporosis ; Osteomalacia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary The linear attenuation coefficient (μ in cm1) of trabecular bone was modeled for different conditions of bone and marrow composition in order to assess their influence on computed tomography (CT) quantitation. A large relative change (10% of TBV at 15% TBV) of bone concentration resulted in small changes of μ: 2.3% at 60 keV, 3.4% at 44 keV, 5.2% at 29 keV. Relative changes of trabecular bone volume (TBV) on the order of 3% could be detectedin vivo by CT were it not for errors of relocation and for compositional influences on accuracy. The μ (and density) depended critically not only on amounts of bone substance and marrow but on their compositions. Normal variation in the composition of bone substance produced an uncertainty in μ equivalent to 0.5 to 1% TBV. Increases of yellow marrow produced a decrease of μ which could be mistaken for a decrease of bone concentration. The biological variation (90% confidence limit) of marrow composition gives an uncertainty at 15% TBV of about 2.4% TBV at 60 keV, 1.7% at 44 keV, and 1.3% at 29 keV. These correspond to relative uncertainities of 16, 11, and 9% respectively. These factors help explain the large accuracy errors (30%) observed in all studies of trabecular bone where single-energy CT was used. Marrow composition also can affect precision of bone measurement. Systematic shifts of red and yellow marrow could mask biological changes such as those occurring with aging or treatment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02405022

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A comparative study of the exchangein vivo of major constituents of bone mineral (1968)

Triffitt, J. T. ; Terepka, A. R. ; Neuman, W. F.

Springer

Calcified tissue international 2 (1968), S. 165-176

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ISSN: 1432-0827

Keywords: Mineral ; Exchange ; Bone ; Isotope ; Radioactive-Autoradiography

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Description / Table of Contents: Résumé Des produits marqués variés (urée, Cl−, K+, Na+, HCO 3 − , PO 1 3− , Ca++) sont administrés à des groupes de rats jeunes et âgés. Les résultats pour Mg++ sont empruntés à ceux trouvés dans la littérature. Une heure et demic plus tard, des fragments d' os longs sont prélevés et nettoyés minutieusement. La concentration de ces substances marquées et non marquées est déterminée. L'intervalle de temps choisi est utilisé afin de permettre l'équilibre de la phase aqueuse de l'os, tout en réduisant les échanges de surface, la recristallisation, la diffusion solide et la croissance ou la résorption. Avec des intervalles de temps fixes, avec les mêmes espèces ainsi que des specimens osseux et des techniques identiques, une comparaison des échanges entre les divers es substances dans l'os a pu être effectuée. Les résultats ont pu être répartis en trois groupes: a) échange total (urée, Cl− et K+); b) échange partiel, diminuant de façon variable avec l'âge (Na+, CO2 et Mg++); et c) échange faible (Ca++ et PO 4 3− ). La classification classique de sequelette «accessible» et «non accessible» parait peu conforme et dépend des conditions et de la nature de la substance étudiée. Un concept général des échanges osseuxin vivo devrait être élaboré. Des calculs concernant la concentration apparente des divers electrolytes au niveau de la phase aqueuse de l'os montrent qu'elle a une concentration nettement différente de celle du plasma. La concentration du potassium y est, en particulier, remarquablement élevée.

Abstract: Zusammenfassung Gruppen von jungen und alten Ratten erhielten Injektionen von verschiedenen markierten Substanzen (Harnstoff, Cl−, K+, Na+, HCO 3 − , PO 4 3− , Ca++). Die Angaben für Mg++ wurden der Literatur entnommen. 11/2 Std später wurden die Diaphysen der behandelten Tiere gewonnen, sorgfältig gereinigt und deren Gehalt an kalten und radioaktiven Substanzen bestimmt. Dieser Zeitpunkt wurde gewählt, um ein Gleichgewicht innerhalb der wäßrigen Phase des Knochens sicherzustellen und ein gleichzeitiges Mitwirken des Oberflächenaustausches, der Rekristallisation, der festen Diffusion, des Wachstums oder der Resorption möglichst einzuschränken. Wurden Variablen wie Zeit, Rattenart, Knochenproben und Methodik festgelegt, so konnten eindeutige Vergleiche hinsichtlich des Austausches dieser verschiedenen Substanzen im Knochen gezogen werden. Die erhaltenen Resultate konnten in drei Kategorien eingeteilt werden: a) vollständiger Austausch (Harnstoff, Cl−, K+); b) teilweiser Austausch, je nach Alter unterschiedlich abnehmend (Na+, CO2 und Mg++); c) minimaler Austausch (Ca++ und PO 4 3− ). Offenbar ist die klassische Einteilung in “verfügbares” und “nichtverfügbares” Skelet zweideutig und abhängig von den Bedingungen sowie von den Ionen oder Substanzen, die für den Versuch gewählt wurden. Es liegt auf der Hand, daß ein neues, allgemeingültiges Konzept für den Knochenaustauschin vivo dringend benötigt wird. Berechnungen der scheinbaren Konzentration der verschiedenen Elektrolyte in der Knochenflüssigkeit ergaben, daß die wäßrige Phase des Knochens eine deutlich andere Zusammensetzung als die Plasmaflüssigkeit hat. Insbesondere konnte in der Knochenflüssigkeit eine bemerkenswert hohe Kaliumkonzentration festgestellt werden.

Notes: Abstract Groups of young and old rats were injected with a variety of labelled substanzes (urea, Cl−, K+, Na+, HCO 3 − , PO 4 3− , Ca++). Data for Mg++ were taken from the literature. One and a half hours later, compact shafts of long bones were removed and cleaned scrupulously, and analyses were performed for both “cold” and isotopic concentrations of substances. This time point was chosen to insure equilibration of the aqueous phase of bone while minimizing contributions from surface exchange, recrystallization, solid diffusion, growth or resorption. With fixed variables of time, species, bone specimen, and methodology, uambiguous comparisons of the exchange in bone could be made between the many substances studied. The exchange data could be divided into three categories: a) complete exchange (urea Cl−, and K+); b) partial exchange, decreasing variably with age (Na+, CO2, and Mg++); and c) minimal exchange (Ca++ and PO 4 3− ). Clearly the traditional classification of “available” and “unavailable” skeleton is ambiguous and determined by the conditions and the ion or substance chosen for study. Clearly also, a new overall concept of bone exchangein vivo is badly needed. Calculations of the apparent concentration of the various electrolytes in bone water reveal that the aqueous phase of bone has a composition markedly different from plasma water. In particular, the concentration of potassium in bone water was found to be remarkably high.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02279205

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