Abstract
The study of the chondrocyte maturation cycle and endochondral ossification showed that the developing vascular supply has appeared to play a key role in determining the cortical or trabecular structure of the long bones.
The chondrocyte maturation cycle and endochondral ossification were studied in human, foetal cartilage anlagen and in postnatal meta-epiphyses. The relationship between the lacunar area, the inter territorial fibril network variations and CaP nucleation in primary and secondary ossification centres were assessed using light microscopy and SEM morphometry. The anlage topographic, zonal classification derived from the anatomical nomenclature of the completely developed long bone (diaphysis, metaphyses and epiphyses) allowed to follow the development of long bones cartilage model. A significant increase in chondrocyte lacunar area (p<0.001) was documented from the anlage epiphyseal zone 4 and 3 to zone 2 (metaphysis) and zone 1 (diaphysis), with the highest variation from zone 2 to zone 1. An inverse reduction in the intercellular matrix area (p<0.001) and matrix interfibrillar empty space (p<0.001) was also documented. These findings are consistent with the osmotic passage of free cartilage water from the interfibrillar space into the swelling chondrocytes, raising ion concentrations up to the critical threshold for mineral precipitation in the matrix. The mineralised cartilage served as a scaffold for osteoblasts apposition both in primary and secondary ossification centres and in the metaphyseal growth plate cartilage, but at different periods of bone anlage development and with distinct patterns for each zone. They all shared a common initial pathway, but it progressed with different times, modes and organisation in diaphysis, metaphysis and epiphysis. In the ossification phase the developing vascular supply has appeared to play a key role in determining the cortical or trabecular structure of the long bones.