D. McDonald scite author profile

Previous transmission electron microscopic investigations of collagen fibril diameters in rabbit medial collateral ligament (MCL) scars have indicated a homogeneous population of small fibrils for the first 40 weeks of healing. In this study, four 8 mm MCL gap scars were studied at 78 weeks of healing and another three at 104 weeks. Results showed increased heterogeneity in the distribution of fibril diameters in all scars, with the appearance of progressively slightly larger fibrils in 78 and 104 week specimens. All longer term scars still contained roughly 90% small fibrils plus some "patches" of larger fibrils, but there was considerable variation between animals in these proportions. No scar contained the fibril populations typical of uninjured adult rabbit MCLs. These results suggest slow but on-going collagen fibril turnover and remodeling in this gap healing rabbit MCL model via currently unidentified mechanisms.

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Collagen Fibril Diameters in the Healing Adult Rabbit Medial Collateral Ligament

Frank

McDonald

Bray³

et al. 1992

Connective Tissue Research

110

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This study was carried out to test the hypothesis that improvements in ligament scar mechanical behavior during healing may be related, in part, to increases in collagen fibril diameters. Forty-eight adult female New Zealand White rabbits had standardized midsubstance gap injuries created in their right medial collateral ligaments (MCLs) and were allowed normal cage activity until sacrifice in groups of 12 at 3, 6, 14 or 40 weeks post-injury. Eight animals in each group had both MCLs tested biomechanically while 4 animals had transmission EM investigation of midsubstance collagen fibril diameters by a standardized protocol. Results of mechanical tests showed a three- to fourfold increase in scar strength and stiffness over the intervals of healing studied while there was no change in collagen mean fibril minimum diameters. These results demonstrate no correlation between material or structural properties of scar and collagen fibril diameters in this model of healing and suggest that other mechanisms for scar mechanical improvement under these conditions must be investigated.

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Rabbit medial collateral ligament scar weakness is associated with decreased collagen pyridinoline crosslink density

Frank

McDonald

Wilson

et al. 1995

Journal Orthopaedic Research

119

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This study was carried out to quantify the potential associations between material strength and both collagen concentration and pyridinoline collagen crosslink density in the healing medial collateral ligament of the rabbit and to compare these parameters with those of normal ligaments. The right hindlimbs of 24 skeletally mature (12-month-old) New Zealand White rabbits were subjected to a standardized 4 mm midsubstance "gap" injury to the medial collateral ligament. The animals were killed in groups of six at postoperative intervals of 3, 6, 14, or 40 weeks, and the femur-medial collateral ligament-tibia complexes were mechanically tested in tension to failure. Subsequent to mechanical testing, the failure sites of the ligaments were assessed for concentrations of hydroxyproline and hydroxylysyl pyridinoline. Nine additional rabbits served as age-matched normal controls. In healing ligaments, normal collagen concentrations were reached in less than 14 weeks, but the hydroxylysyl pyridinoline crosslink densities remained low and were only 45% of the control values after 40 weeks of healing. Similarly, mechanical values remained much less than the controls. Linear regression analysis of data on scar tissue alone showed a moderately strong positive correlation between hydroxyproline concentration and material strength (r2 = 0.51, p = 0.0001) but no correlation between crosslink density and strength of scar tissue. A similar pattern of correlation was obtained between the elastic modulus of the scar tissue and the biochemical variables, but the r2 values were lower.(ABSTRACT TRUNCATED AT 250 WORDS)

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Early healing processes of free tendon grafts within bone tunnels is bone-specific: a morphological study in a rabbit model

et al. 2002

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Biochemical Heterogeneity Within the Maturing Rabbit Medial Collateral Ligament

Frank

McDonald

Lieber

et al. 1988

Clinical Orthopaedics and Related Research

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D. McDonald

Collagen Fibril Diameters in the Rabbit Medial Collateral Ligament Scar

Collagen Fibril Diameters in the Healing Adult Rabbit Medial Collateral Ligament

Rabbit medial collateral ligament scar weakness is associated with decreased collagen pyridinoline crosslink density

Early healing processes of free tendon grafts within bone tunnels is bone-specific: a morphological study in a rabbit model

Biochemical Heterogeneity Within the Maturing Rabbit Medial Collateral Ligament

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