Alex M. deGiorgio-Miller scite author profile

Hypertrophic scarring, which results from excessive collagen deposition at sites of dermal wound repair, can be functionally and cosmetically debilitating to the surgical patient. Pharmacological regulation of collagen synthesis and deposition is a direct approach to the control of scar tissue formation. One of the key steps in collagen stabilization is the cleavage of the C-terminal propeptide from the precursor molecule to form collagen fibrils, a reaction catalyzed by procollagen C-proteinase (PCP). We tested the ability of a PCP inhibitor to reduce hypertrophic scar formation in a rabbit ear model. After the placement of four, 7-mm dermal wounds on each ear, New Zealand white rabbits received PCP inhibitor subcutaneously in the left ear at four time points postwounding: days 7, 9, 11, 13 (early treatment; n=20 wounds) or days 11, 13, 15, 17 (late treatment; n=20 wounds). The right ear of each animal served as a control (vehicle alone). Wounds were harvested on postoperative day 28 and scar hypertrophy quantified by measurement of the scar elevation index. Early treatment of wounds with PCP inhibitor did not reduce scar formation compared with controls (p>0.05). However, late treatment resulted in a statistically significant reduction in the scar elevation index (p<0.01). Our results point not only to the potential use of PCP inhibitors to mitigate hypertrophic scarring but also to the temporal importance of drug delivery for antiscarring therapy.

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Procollagen type I gene expression and cell proliferation are increased in lipodermatosclerosis

deGiorgio-Miller

Treharne

McAnulty

et al. 2005

Br J Dermatol

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Dermal Changes in the Lower Leg Skin of Patients With Venous Hypertension

Herrick

Treharne

deGiorgio-Miller

2002

The International Journal of Lower Extremity Wounds

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Patients with chronic venous disease may develop characteristic changes in the skin of the lower limb known as lipodermatosclerosis (LDS). The affected skin becomes indurated and pigmented and often ulcerates. The degree of induration associated with LDS correlates directly with ulcer formation and leads to a subsequent delayed rate of healing. However, there is limited information regarding the cellular and molecular events that lead from venous dysfunction to LDS development. This article reviews the current knowledge of the clinical progression of chronic venous disease, summarizing the histological findings from these authors' laboratory and other studies on LDS, and offers possible mechanisms to explain the fibrotic changes associated with this condition.

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