Literature DB >> 20051096

Hypertrophic versus non hypertrophic scars compared by immunohistochemistry and laser confocal microscopy: type I and III collagens.

Gisele V Oliveira1, Hal K Hawkins, David Chinkes, Ann Burke, Andre Luiz Pasqua Tavares, Marcia Ramos-e-Silva, Thomas B Albrecht, Gregory T Kitten, David N Herndon.   

Abstract

Although dermal collagens appear increased in hypertrophic scars, this has not been tested in tissue samples using objective methods. We compared the expression of types I and III collagen in hypertrophic and non hypertrophic scars at 6-12 and 18-24 months after burn using a quantitative method. Among 17 patients with extensive burns, 3 patients had acute scars, 8 had hypertrophic or non hypertrophic scars at 6-12 months after burn and 6 had hypertrophic or non hypertrophic scars at 18-24 months after burn. After clinical assessment of scars using the Vancouver scale, immunohistochemistry for types I and III collagens was performed. Images were captured with a laser scanning confocal microscope and the relative amounts of types I and III collagens were determined in superficial and deep dermis. The effects of time and scar type were assessed using two-way analysis of variance (ANOVA) and Tukey's test. Collagen III scar/normal ratios were higher in hypertrophic scars at both time points (P = 0.05). There were no differences in collagen I scar/normal ratios. Large variation was observed in scars during the acute phase regarding the expression of collagens. Easily accessed by immunohistochemistry and confocal microscopy, type III collagen deposition may help in determining scar phenotype, differentiating hypertrophic and non hypertrophic scars.

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Year:  2009        PMID: 20051096      PMCID: PMC3972889          DOI: 10.1111/j.1742-481X.2009.00638.x

Source DB:  PubMed          Journal:  Int Wound J        ISSN: 1742-4801            Impact factor:   3.315


  34 in total

Review 1.  On the nature of hypertrophic scars and keloids: a review.

Authors:  F B Niessen; P H Spauwen; J Schalkwijk; M Kon
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2.  Influence of refractive-index mismatch in high-resolution three-dimensional confocal microscopy.

Authors:  Alberto Diaspro; Federico Federici; Mauro Robello
Journal:  Appl Opt       Date:  2002-02-01       Impact factor: 1.980

3.  Improved burn scar assessment with use of a new scar-rating scale.

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Journal:  J Burn Care Rehabil       Date:  1997 Jul-Aug

4.  Objective assessment of burn scar vascularity, erythema, pliability, thickness, and planimetry.

Authors:  Gisele V Oliveira; David Chinkes; Charles Mitchell; Gloria Oliveras; Hal K Hawkins; David N Herndon
Journal:  Dermatol Surg       Date:  2005-01       Impact factor: 3.398

5.  A fibroblast cell line cultured from a hypertrophic scar displays selective downregulation of collagen gene expression: barely detectable messenger RNA levels of the pro alpha 1(III) chain of type III collagen.

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Journal:  Arch Dermatol Res       Date:  1995       Impact factor: 3.017

6.  Biochemical composition of the connective tissue in keloids and analysis of collagen metabolism in keloid fibroblast cultures.

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7.  Analysis of hypertrophic and normal scar gene expression with cDNA microarrays.

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Journal:  J Burn Care Rehabil       Date:  2000 Nov-Dec

8.  Transient exposure to tumor necrosis factor-alpha inhibits collagen accumulation by cultured hypertrophic scar fibroblasts.

Authors:  V Kitzis; L H Engrav; L S Quinn
Journal:  J Surg Res       Date:  1999-11       Impact factor: 2.192

9.  Hypertrophic scars and keloids: a review and new concept concerning their origin.

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Journal:  Scan Electron Microsc       Date:  1982

10.  Angiogenesis induction and regression in human surgical wounds.

Authors:  Nicola J Brown; Edward A E Smyth; Simon S Cross; Malcolm W R Reed
Journal:  Wound Repair Regen       Date:  2002 Jul-Aug       Impact factor: 3.617
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  29 in total

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2.  shRNA targeting SFRP2 promotes the apoptosis of hypertrophic scar fibroblast.

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Journal:  Mol Cell Biochem       Date:  2011-02-02       Impact factor: 3.396

3.  MiR-3613-3p inhibits hypertrophic scar formation by down-regulating arginine and glutamate-rich 1.

Authors:  Lisha Li; Weiqiang Han; Yun Chen; Yuhua Chen
Journal:  Mol Cell Biochem       Date:  2020-11-09       Impact factor: 3.396

4.  The P50 Research Center in Perioperative Sciences: How the investment by the National Institute of General Medical Sciences in team science has reduced postburn mortality.

Authors:  Celeste C Finnerty; Karel D Capek; Charles Voigt; Gabriel Hundeshagen; Janos Cambiaso-Daniel; Craig Porter; Linda E Sousse; Amina El Ayadi; Ramon Zapata-Sirvent; Ashley N Guillory; Oscar E Suman; David N Herndon
Journal:  J Trauma Acute Care Surg       Date:  2017-09       Impact factor: 3.313

Review 5.  Hypertrophic scarring: the greatest unmet challenge after burn injury.

Authors:  Celeste C Finnerty; Marc G Jeschke; Ludwik K Branski; Juan P Barret; Peter Dziewulski; David N Herndon
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6.  Spontaneous healing and scar control following enzymatic debridement of deep second-degree burns.

Authors:  I Mataro; G Delli Santi; P Palombo; R D'Alessio; M Vestita
Journal:  Ann Burns Fire Disasters       Date:  2017-12-31

Review 7.  Use of lasers in acute management of surgical and traumatic incisions on the face.

Authors:  Sepehr Oliaei; J Stuart Nelson; Richard Fitzpatrick; Brian J Wong
Journal:  Facial Plast Surg Clin North Am       Date:  2011-08       Impact factor: 1.918

Review 8.  Current and Emerging Treatments for Postsurgical Cleft Lip Scarring: Effectiveness and Mechanisms.

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Journal:  J Dent Res       Date:  2017-06-26       Impact factor: 6.116

9.  Local Probiotic Therapy with Lactobacillus plantarum Mitigates Scar Formation in Rabbits after Burn Injury and Infection.

Authors:  Latha Satish; Phillip H Gallo; Sandra Johnson; Cecelia C Yates; Sandeep Kathju
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10.  Transcriptional profiling of rapamycin-treated fibroblasts from hypertrophic and keloid scars.

Authors:  Victor W Wong; Fanglei You; Michael Januszyk; Geoffrey C Gurtner; Anna A Kuang
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