1972
DOI: 10.1111/j.1365-2184.1972.tb00379.x
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Cell Kinetics of Growth Cartilage in the Rat Tibia Ii. Measurements During Ageing

Abstract: A number of cell kinetic techniques using labelled thymidine and autoradiography have been applied to study growth cartilage in the rat tibia during ageing. No change in the duration of the synthesis phase was found from 4 to 13 weeks of age but there was a reduction in cell proliferation rate during this period. Measurements of labelling index, proliferation zone size and height of hypertrophic cells were used to calculate the growth rate of the bone from 7 days to 1 year. The results agreed well with radiogr… Show more

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Cited by 50 publications
(45 citation statements)
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“…The bone loss is even enhanced in this study by the growth of the animals that results in a "flow" of the screw and the surrounding volume of interest towards the less trabecularized diaphyseal region. Normally, the growth of rats slows down and ceases around 26 weeks of age [52], this corresponds in this study with day 31 after screw implantation. When comparing bone resorption with formation in the Control-group, it can be seen that, beside the early bone formation peak, the BRR clearly exceeded the BFR in all bone regions most of the time and leveled out only towards the end of the study.…”
Section: Discussionsupporting
confidence: 77%
“…The bone loss is even enhanced in this study by the growth of the animals that results in a "flow" of the screw and the surrounding volume of interest towards the less trabecularized diaphyseal region. Normally, the growth of rats slows down and ceases around 26 weeks of age [52], this corresponds in this study with day 31 after screw implantation. When comparing bone resorption with formation in the Control-group, it can be seen that, beside the early bone formation peak, the BRR clearly exceeded the BFR in all bone regions most of the time and leveled out only towards the end of the study.…”
Section: Discussionsupporting
confidence: 77%
“…In vivo, the decline in proliferation largely explains the decline in growth rate with age (Walker & Kember 1972), but a decline in cell hypertrophy, matrix production, and possibly an increase in apoptosis may also contribute to the decrease in growth rate (Walker & Kember 1972, Chrysis et al 2002.…”
Section: Figurementioning
confidence: 99%
“…Longitudinal bone growth, in turn, results from chondrocyte proliferation in the growth plates. With age, this proliferation slows down, causing longitudinal bone growth to slow and eventually stop (Walker & Kember 1972). Also with increasing age, the growth plate undergoes structural changes including a decrease in the height of the growth plate, a decrease in the number of chondrocytes in the individual zones, as well as a decrease in the size of the individual hypertrophic chondrocytes.…”
Section: Introductionmentioning
confidence: 99%
“…the time period over which longitudinal bone growth was measured; Walker & Kember, 1972a;Smith et al 1981;Kember, 1983), and it is thus a measure of cell turnover. Mean cell turnover per column per day can thus be calculated from the daily cell elimination rate, which is equal to daily linear growth rate divided by final mean cell height (Steel, 1967;Walker & Kember, 1972b;Kember, 1983 Although the fate of these cells is unknown (Hunziker, Herrmann, Schenk, Muller & Moor, 1984), they certainly do not persist as chondrocytes.…”
Section: Quantification Of Chondrocyte Performancementioning
confidence: 99%