Fetal and postnatal development of the patella, patellar tendon and suprapatella in the rabbit; changes in the distribution of the fibrillar collagens

YVETTE S. BLAND; DOREEN E. ASHHURST

doi:10.1046/j.1469-7580.1997.19030327.x

Abstract

The development of the patella, its associated tendons, and suprapatella of the rabbit knee joint is described from the 17 d fetus to the mature adult. The patellar tendon (ligament) with the patella on its posterior surface is seen in the 17 d fetus and is fully developed by 1 postnatal wk. It is composed of bundles of types I and V collagens separated by endotenons of types III and V collagens. Anteriorly there is an epitenon of types III and V collagens while synovium and a fat pad cover its posterior surface. In the 25 d fetus, the patella is cartilaginous and is separated from the femoral condyles. The cartilage contains type II collagen, but types I, III and V collagens are found along the articular surface. Ossification starts 1 postnatal wk and at 6 wk only the articular cartilage remains. In addition to type II, types III and V collagens are located around the chondrocyte lacunae. The long anterior junction between the patella and its tendon is fibrocartilaginous at 1 wk, but as ossification proceeds this is replaced by bone. Types I and V collagens are found in this region. The suprapatella on the posterior surface of the quadriceps tendon is first seen 1 wk postnatally as an area of irregularly organised fibres and chondrocyte-like cells. Types I, II, III and V collagens are present from 3 wk onwards. It is compared with the fibrocartilage of other tendons that are under compression. The arrangement of the collagens in the patellar tendon is discussed in relation to its use as a replacement for injured anterior cruciate ligaments. It is suggested that the structural differences between the patellar tendon and anterior cruciate ligament preclude the translocated tendon acquiring mechanical strength similar to that of a normal cruciate ligament. The designation ‘patellar ligament’ as opposed to ‘patellar tendon’ is questioned. It is argued that the term patellar tendon reflects its structure more accurately than patellar ligament.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Bland, Yvette S. and Ashhurst, Doreen E. 1996. Changes in the distribution of fibrillar collagens in the collateral and cruciate ligaments of the rabbit knee joint during fetal and postnatal development. The Histochemical Journal, Vol. 28, Issue. 5, p. 325.

Perez‐Castro, Ana V. and Vogel, Kathryn G. 1999. In situ expression of collagen and proteoglycan genes during development of fibrocartilage in bovine deep flexor tendon. Journal of Orthopaedic Research, Vol. 17, Issue. 1, p. 139.

Berkovitz, B.K.B. and Pacy, J. 2000. Age changes in the cells of the intra-articular disc of the temporomandibular joints of rats and marmosets. Archives of Oral Biology, Vol. 45, Issue. 11, p. 987.

Benjamin, M. and Ralphs, J.R. 2000. A Survey of Cell Biology. Vol. 196, Issue. , p. 85.

Reese, S. Pfuderer, U. R. Bragulla, H. Loeffler, K. and Budras, K.‐D. 2001. Topography, Structure and Function of the Patella and the Patelloid in Marsupials. Anatomia, Histologia, Embryologia, Vol. 30, Issue. 5, p. 289.

svon RECHENBERG, B. LEUTENEGGER, C. ZLINSKY, K. McILWRAITH, C. W. AKENS, M. K. and AUER, J. A. 2001. Upregulation of mRNA of interleukin‐1 and ‐6 in subchondral cystic lesions of four horses. Equine Veterinary Journal, Vol. 33, Issue. 2, p. 143.

Kavanagh, Emma and Ashhurst, Doreen E. 2001. Distribution of Biglycan and Decorin in Collateral and Cruciate Ligaments and Menisci of the Rabbit Knee Joint. Journal of Histochemistry & Cytochemistry, Vol. 49, Issue. 7, p. 877.

Tischer, T. Milz, S. Maier, M. Schieker, M. and Benjamin, M. 2002. An Immunohistochemical Study of the Rabbit Suprapatella, a Sesamoid Fibrocartilage in the Quadriceps Tendon Containing Aggrecan. Journal of Histochemistry & Cytochemistry, Vol. 50, Issue. 7, p. 955.

Matsumoto, Fujio Trudel, Guy and Uhthoff, Hans K 2002. High collagen type I and low collagen type III levels in knee joint contracture. Acta Orthopaedica Scandinavica, Vol. 73, Issue. 3, p. 335.

Shea, Jill E. Hallows, Rhett K. and Bloebaum, Roy D. 2002. Experimental confirmation of the sheep model for studying the role of calcified fibrocartilage in hip fractures and tendon attachments . The Anatomical Record, Vol. 266, Issue. 3, p. 177.

Benjamin, M and Ralphs, J.R 2004. Vol. 233, Issue. , p. 1.

CrossRef

Orhan, I. O. Haziroglu, R. M. and Gultiken, M. E. 2005. The Ligaments and Sesamoid Bones of Knee Joint in New Zealand Rabbits. Anatomia, Histologia, Embryologia, Vol. 34, Issue. 2, p. 65.

Thomopoulos, Stavros Kim, Hyun‐Min Rothermich, Stefan Y. Biederstadt, Carrie Das, Rosalina and Galatz, Leesa M. 2007. Decreased muscle loading delays maturation of the tendon enthesis during postnatal development. Journal of Orthopaedic Research, Vol. 25, Issue. 9, p. 1154.

Galatz, Leesa Rothermich, Stefan VanderPloeg, Kristin Petersen, Bryan Sandell, Linda and Thomopoulos, Stavros 2007. Development of the supraspinatus tendon‐to‐bone insertion: Localized expression of extracellular matrix and growth factor genes. Journal of Orthopaedic Research, Vol. 25, Issue. 12, p. 1621.

Dourte, LeAnn M. Kuntz, Andrew F. and Soslowsky, Louis J. 2008. Twenty‐five years of tendon and ligament research. Journal of Orthopaedic Research, Vol. 26, Issue. 10, p. 1297.

Chen, Xiao Song, Xing-Hui Yin, Zi Zou, Xiao-Hui Wang, Lin-Lin Hu, Hu Cao, Tong Zheng, Minghao and Ouyang, Hong Wei 2009. Stepwise Differentiation of Human Embryonic Stem Cells Promotes Tendon Regeneration by Secreting Fetal Tendon Matrix and Differentiation Factors. Stem Cells, Vol. 27, Issue. 6, p. 1276.

Roddy, Karen A. Nowlan, Niamh C. Prendergast, Patrick J. and Murphy, Paula 2009. 3D representation of the developing chick knee joint: a novel approach integrating multiple components. Journal of Anatomy, Vol. 214, Issue. 3, p. 374.

Hagiwara, Yoshihiro Ando, Akira Onoda, Yoshito Matsui, Hiroyuki Chimoto, Eiichi Suda, Hideaki and Itoi, Eiji 2010. Expression patterns of collagen types I and III in the capsule of a rat knee contracture model. Journal of Orthopaedic Research, Vol. 28, Issue. 3, p. 315.

Doherty, Alison H. Lowder, Elizabeth M. Jacquet, Robin D. and Landis, William J. 2010. Murine Metapodophalangeal Sesamoid Bones: Morphology and Potential Means of Mineralization Underlying Function. The Anatomical Record, Vol. 293, Issue. 5, p. 775.

Dwek, Jerry R. 2010. The periosteum: what is it, where is it, and what mimics it in its absence?. Skeletal Radiology, Vol. 39, Issue. 4, p. 319.

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Fetal and postnatal development of the patella, patellar tendon and suprapatella in the rabbit; changes in the distribution of the fibrillar collagens

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Fetal and postnatal development of the patella, patellar tendon and suprapatella in the rabbit; changes in the distribution of the fibrillar collagens

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