The possible differentiation of osteogenic elements in vitro from chick limb mesodermal cells. I. Morphological evidence

Philip Osdoby; Arnold I. Caplan

doi:10.1016/0012-1606(76)90246-3

The possible differentiation of osteogenic elements in vitro from chick limb mesodermal cells. I. Morphological evidence

Philip Osdoby, Arnold I. Caplan

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Abstract

In the developing chick limb bud, myogenic, fibrogenic, chondrogenic, and osteogenic tissues are derived from embryonic mesenchyme. Previous reports show that when stage 24 limb mesenchymal cells are cultured in vitro, chondrocytes, fibrocytes, and myocytes can be identified on the basis of morphological and biochemical parameters. The studies reported here clearly demonstrate that, in similar cultures, crystalline calcium phosphate material is deposited in the chondrocytic and fibrocytic matrices. Such crystalline material is not observed before Day 10 of culture life. Subsequent to Day 10 of culture, first amorphous, then crystalline calcium phosphate is observed. On the basis of light and electron microscopic analysis, it appears that the in vitro calcification phenomenon closely resembles the morphological and temporal sequence of osteogenesis observed in vivo.

Original language	English
Pages (from-to)	283-299
Number of pages	17
Journal	Developmental Biology
Volume	52
Issue number	2
DOIs	https://doi.org/10.1016/0012-1606(76)90246-3
State	Published - Sep 1976

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title = "The possible differentiation of osteogenic elements in vitro from chick limb mesodermal cells. I. Morphological evidence",

abstract = "In the developing chick limb bud, myogenic, fibrogenic, chondrogenic, and osteogenic tissues are derived from embryonic mesenchyme. Previous reports show that when stage 24 limb mesenchymal cells are cultured in vitro, chondrocytes, fibrocytes, and myocytes can be identified on the basis of morphological and biochemical parameters. The studies reported here clearly demonstrate that, in similar cultures, crystalline calcium phosphate material is deposited in the chondrocytic and fibrocytic matrices. Such crystalline material is not observed before Day 10 of culture life. Subsequent to Day 10 of culture, first amorphous, then crystalline calcium phosphate is observed. On the basis of light and electron microscopic analysis, it appears that the in vitro calcification phenomenon closely resembles the morphological and temporal sequence of osteogenesis observed in vivo.",

author = "Philip Osdoby and Caplan, {Arnold I.}",

note = "Funding Information: Supported by grants from National Institutes of Health No. HD-07209, No. HD-35,609, and No. DE-4008, and the National Foundation, March of Dimes. We are grateful for the expert technical assistance of Ms. Gail Cockrell.",

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AU - Osdoby, Philip

AU - Caplan, Arnold I.

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N2 - In the developing chick limb bud, myogenic, fibrogenic, chondrogenic, and osteogenic tissues are derived from embryonic mesenchyme. Previous reports show that when stage 24 limb mesenchymal cells are cultured in vitro, chondrocytes, fibrocytes, and myocytes can be identified on the basis of morphological and biochemical parameters. The studies reported here clearly demonstrate that, in similar cultures, crystalline calcium phosphate material is deposited in the chondrocytic and fibrocytic matrices. Such crystalline material is not observed before Day 10 of culture life. Subsequent to Day 10 of culture, first amorphous, then crystalline calcium phosphate is observed. On the basis of light and electron microscopic analysis, it appears that the in vitro calcification phenomenon closely resembles the morphological and temporal sequence of osteogenesis observed in vivo.

AB - In the developing chick limb bud, myogenic, fibrogenic, chondrogenic, and osteogenic tissues are derived from embryonic mesenchyme. Previous reports show that when stage 24 limb mesenchymal cells are cultured in vitro, chondrocytes, fibrocytes, and myocytes can be identified on the basis of morphological and biochemical parameters. The studies reported here clearly demonstrate that, in similar cultures, crystalline calcium phosphate material is deposited in the chondrocytic and fibrocytic matrices. Such crystalline material is not observed before Day 10 of culture life. Subsequent to Day 10 of culture, first amorphous, then crystalline calcium phosphate is observed. On the basis of light and electron microscopic analysis, it appears that the in vitro calcification phenomenon closely resembles the morphological and temporal sequence of osteogenesis observed in vivo.

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The possible differentiation of osteogenic elements in vitro from chick limb mesodermal cells. I. Morphological evidence

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