Clin Osteol 2003; 8(2): 56-61

The structural and functional pattern of vascular bed of the osteochondral junction in femoral heads of mature rabbitsArticles

E. Klika, S. Havelka

Light and electron microscopical study of osteochondral junction (OCHJ) was carried out in three mature rabbits. The mineralized extracellular mat­ rix (MEM) of the calcified layer of articular cartilage is firmlyjoined with the osseous tissue of bone ends. The firm connection of both components is based on a system of arciform processus of MEM dipped into the subchondral bone. On the other hand, vascular channels penetrate from subchond­ ral bone into the MEM. Vascular channels are encapsulated by a thin mantle of osseous tissue. The terminal vascular net originating in bone marrow and dipped into the MEM of OCHJ is formed by blood sinusoids. The perisinusoidal cleft is on average 20-30 ^m wide and its loose connective tis­ sue is in close contact with extracellular matrix. The structural arrangement of the terminal vascular bed of MEM speaks in favor of a subchondral so­ lute supply to the hyaline joint cartilage. Findings obtained also support the idea of participation of OCHJ in remodeling of articular bone ends in mature age. The loose perisinusoidal and perivascular connective tissue is the source of differentiation of osteogenic cells which take part in the process of endochondral ossification needed for bone remodeling. The predominant parts of the surface of lacunae excavated by vascular channels in MEM of OCHJ are lined by a thin osseous lay­ er separating MEM from the perisinusoidal loose connective tissue. The osseous mantle is considered to be a product of bone neoformation but, on the other hand, a barrier preventing the discoordination of endochondral ossification in the course of bone end remodeling.

Keywords: osteochondral junction, adult rabbit hip, fine structure, role of vascular network.

Published: December 11, 2003  Show citation

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Klika E, Havelka S. The structural and functional pattern of vascular bed of the osteochondral junction in femoral heads of mature rabbits. Osteologický bulletin. 2003;8(2):56-61.
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    References

    1. Clark JM. The 1990;171:105-115.
    2. Havelka S, Horn V. Observations on the tidemark and calcified layer of ar cartilage. In: Archer CW, Caterson B, Benjamin M, Ralphs JR, eds. Biology of the synovial joint. Amsterdam: Harwood Academic Publishers 1999:331-346.
    3. Havelka S, Horn V, Spohrová O, Valouch P. The calcified - noncalcified carti ge interface: the tidemark. Acta Biol Hungarica 1984;35:271-279.
    4. Havelka S, Motl V, Hess L. Nachweis der subchondralen Ernährungsroute im erwachsenen Gelenkknorpel. Aktuelle Rheumatologie 1991;16:10-12. Go to original source...
    5. Havelka S, Motl V, Neužil A. On the subchondr cular cartilage. Osteol Bulletin 2000;5:131-133.
    6. Havelka S, Neužil A. Vascularization of osteochondral junctions ofjoints and s ne. In: Arlet J, Mazieres B, eds. Bone circulation and bone necrosis. Berlin Hei­ delberg: Springer-Verlag 1990:11-15. Go to original source...
    7. Hodge JA, McKibbin B. The nutrition of mature and immature cartilage in rab­ bits. J Bone Jt Surg 1969; 51 (B): 140-147.
    8. Honner R, Thompson RC. The nutritional pathways of articular cartilage. J Bone Jt Surg 1971;53(A):742-748. Go to original source...
    9. Hough AJ, Banfield WD, Mottram FC, Sokoloff L. The osteochondral junctions of mammalian joints. An ultrastructural and microanalytic study. Labor Investiga­ tion 1974;31:685-695.
    10. Lane LB, Bullough PG. Age-related changes in the thickness of the calcified zo­ ne and the number o 1980;62(B):372-375. Go to original source...
    11. Lemperg R. The subchondral bone plate of the femoral head in adult rabbits Spontaneous remodeling studied by microradiography and tetracycline labelling. Virchow's Archive 1971;352:1-13. Go to original source...
    12. Maroudas A, Bullough P, Swanson SAV, Freeman MAR. The permeability of ar­ ticular cartilage. J Bone Jt Surg 1968;52(A):168-177. Go to original source...
    13. Ogston A. On articular cartilage. J Anat Physiol 1875;10:49-74.
    14. Reynolds ES. The use of lead citrate tron microscopy. J Cell Biol 1963;17:203. Go to original source...

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