Cutaneous scars: Part I

Specialized Pro-Resolving Mediators Reduce Scarring After Cleft Lip Repair

Objective

Residual scarring after cleft lip repair surgery remains a challenge for both surgeons and patients and novel therapeutics are critically needed. The objective of this preclinical experimental study was to evaluate the impact of the methyl-ester of pro-resolving lipid mediator lipoxin A4 (LXA4-ME) on scarring in a novel rabbit model of cleft lip repair.

Methods

A defect of the lip was surgically created and repaired in eight six-week old New Zealand white rabbits to simulate human cleft lip scars. Rabbits were randomly assigned to topical application of PBS (control) or 1 ug of LXA4-ME (treatment). 42 days post surgery all animals were euthanized. Photographs of the cleft lip area defect and histologic specimens were evaluated. Multiple scar assessment scales were used to compare scarring.

Results

Animals treated with LXA4-ME exhibited lower Visual Scar Assessment scores compared to animals treated with PBS. Treatment with LXA4-ME resulted in a significant reduction of inflammatory cell infiltrate and density of collagen fibers. Control animals showed reduced 2D directional variance (orientation) of collagen fibers compared to animals treated with LXA4-ME demonstrating thicker and more parallel collagen fibers, consistent with scar tissue.

Conclusions

These data suggest that LXA4-ME limits scarring after cleft lip repair and improves wound healing outcomes in rabbits favoring the resolution of inflammation. Further studies are needed to explore the mechanisms that underlie the positive therapeutic impact of LXA4-ME on scarring to set the stage for future human clinical trials of LXA4-ME for scar prevention or treatment after cleft lip repair.

Surgical Excision of Keloids Followed by In-office Superficial Radiation Therapy: Prospective Study Examining Clinical Outcomes

Background:

Keloids are benign proliferative scars that often occur among individuals of color, and are thought to be the result of excessive collagen deposition that occurs after injury to the skin. The treatment of these scars is difficult with often poor outcomes. This study aimed to evaluate the effectiveness of surgical excision followed by in-office superficial radiation therapy (SRT) as a method to improve keloid remission.

Methods:

Participants for this study were recruited from June 2016 through February 2017 with 48 subjects enrolled and completed this study. All keloids were surgically resected and participants received 3 consecutive days of a customized dose of SRT, with a maximum cumulative dosage of 18 Gy. Patients were followed over the course of 12 months to monitor outcomes.

Results:

In this cohort, we found 39 (81%) to have achieved successful remission with 9 (19%) being classified as refractory. There were no adverse effects or medical complications reported as a part of this study.

Conclusion:

Study outcomes support the clinical benefits of surgical excision followed by SRT as a practical and efficient treatment for keloids.

Evaluation of wound healing activity of henna, pomegranate and myrrh herbal ointment blend

This study assessed the wound healing potential and antimicrobial activity of henna, pomegranate and myrrh extract formulations and their blend in excision, and dead space wound models in rats in comparison to a marketed ointment (gentamycin). The natural extracts were used in ointment formulations alone or in a combination of three extracts at a total concentration of 15% w/w in medications. The percent of wound contraction in case of henna, myrrh, pomegranate, the blend and gentamycin (10 mg/kg) were 85.90–98.5%, 88.35–99.52%, 93.55–100%, 97.30–100%, and 90.25–100% from days 16 to 20, respectively. The blended formulation showed the highest increase in the percent of wound contraction and decrease in the epithelisation period compared to other formulations and showed comparable results to the standard ointment. The histological studies of excision biopsy at day 24 showed healed skin structures with normal epithelisation, the restoration of adnexa and fibrosis within the dermis in all of the formulation- and gentamycin-treated groups while the control group lagged behind in the formation of the amount of ground substance in the granulation tissue. The formulations showed antimicrobial activity against Candida, Staphylococcus aureus, mucous membrane infections and E. coli topical infections. The study proved the wound healing potential and antimicrobial activity of the herbal extract.

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

Cleft lip with or without cleft palate is the most common congenital malformation of the head and the third-most common birth defect. Surgical repair of the lip is the only treatment and is usually performed during the first year of life. Hypertrophic scar (HTS) formation is a frequent postoperative complication that impairs soft tissue form, function, or movement. Multiple lip revision operations are often required throughout childhood, attempting to optimize aesthetics and function. The mechanisms guiding HTS formation are multifactorial and complex. HTS is the result of dysregulated wound healing, where excessive collagen and extracellular matrix proteins are deposited within the wound area, resulting in persistent inflammation and resultant fibrosis. Many studies support the contribution of dysregulated, exaggerated inflammation in scar formation. Fibrosis and scarring result from chronic inflammation that interrupts tissue remodeling in normal wound healing. Failure of active resolution of inflammation pathways has been implicated. The management of HTS has been challenging for clinicians, since current therapies are minimally effective. Emerging evidence that specialized proresolving mediators of inflammation accelerate wound healing by preventing chronic inflammation and allowing natural uninterrupted tissue remodeling suggests new therapeutic opportunities in the prevention and management of HTS.

Therapeutic utility of antibacterial peptides in wound healing

Cationic antimicrobial peptides were first thought to fight infection in animal models by disintegrating bacterial peptides and later by inhibiting bacteria-specific intracellular processes. However, ever increasing evidences indicate that cationic peptides accumulate around and modulate the immune system both systemically and in cutaneous and mucosal surfaces where injuries and infections occur. Native and designer antibacterial peptides as well as cationic peptides, never considered as antibiotics, promote wound healing at every step of cutaneous tissue regeneration. This article provides an introductory list of examples of how cationic peptides are involved in immunostimulation and epithelial tissue repair, eliminating wound infections and promoting wound healing in potential therapeutic utility in sight. Although a few antimicrobial peptides reached the Phase II clinical trial stage, toxicity concerns limit the potential administration routes. Resistance induction to both microbiology actions and the integrity of the innate immune system has to be carefully monitored.

A histological study on the effect of pressure therapy on the activities of myofibroblasts and keratinocytes in hypertrophic scar tissues after burn

Although pressure therapy (PT) has been widely used as the first-line treatment for hypertrophic scars (HS), the histopathological changes involved have seldom been studied. This study aimed to examine the longitudinal effect of PT on the histopathological changes in HS. Ten scar samples were selected from six patients with HS after burn and they were given a standardized PT intervention for 3 months while 16 scar samples were obtained on those without PT. The scar biopsies were collected pre-treatment, 1 and 3 months post-intervention for both clinical and histopathological examinations. Clinical assessments demonstrated significant improvement in the thickness and redness of the scars after PT. Histological examination revealed that cell density in the dermal layer was markedly reduced in the 3-months post-pressurized scar tissues, while the arrangement of the collagen fiber was changed from nodular to wave-like pattern. The α-smooth muscle actin immunoreactivity was significantly decreased after 1-month pressure treatment. There was a significant reduction of myofibroblasts population and a concomitant increase in the apoptotic index in the dermal layer in the 3-months' post-pressurized scars. A significant negative correlation was found between the myofibroblasts population and the apoptotic index. The keratinocyte proliferation was found inhibited after PT. Results demonstrated that PT appeared to promote HS maturation by inhibiting the keratinocyte proliferation and suppressing myofibroblasts population, the latter possibly via apoptosis.

Upregulation of proinflammatory genes in skin lesions may be the cause of keloid formation (Review)

It was previously demonstrated that the main cause behind keloid formation may be keloid fibroblast abnormalities, which are closely associated with the microenvironment of the keloid lesion. The post-traumatic and chronic inflammation of the keloid lesion area suggest that inflammatory mediators play an important role in the keloid microenvironment and are crucial for keloid fibroblast abnormalities. In this study, we hypothesized that the mechanism underlying keloid formation may involve the continuous upregulation of proinflammatory gene expression in keloid lesions. This hypothesis may explain the inflammatory response, invasive growth and recurrence following resection of keloids, as well as the selective localization of keloids in specific parts of a patient's body and the differences in localization among different patients.

Keloids and hypertrophic scars: update and future directions

Summary:

The development of cutaneous pathological scars, namely, hypertrophic scars (HSs) and keloids, involves complex pathways, and the exact mechanisms by which they are initiated, evolved, and regulated remain to be fully elucidated. The generally held concepts that keloids and HSs represent “aberrant wound healing” or that they are “characterized by hyalinized collagen bundles” have done little to promote their accurate clinicopathological classification or to stimulate research into the specific causes of these scars and effective preventative therapies. To overcome this barrier, we review here the most recent findings regarding the pathology and pathogenesis of keloids and HSs. The aberrations of HSs and keloids in terms of the inflammation, proliferation, and remodeling phases of the wound healing process are described. In particular, the significant roles that the extracellular matrix and the epidermal and dermal layers of skin play in scar pathogenesis are examined. Finally, the current hypotheses of pathological scar etiology that should be tested by basic and clinical investigators are detailed. Therapies that have been found to be effective are described, including several that evolved directly from the aforementioned etiology hypotheses. A better understanding of pathological scar etiology and manifestations will improve the clinical and histopathological classification and treatment of these important lesions.

Keloidoscope: in search for the ideal treatment of keloids

Although keloids were recognised in the Smith Papyrus of ancient times, the precise definition, cause and management have remained elusive. Several forms of treatment have been used with varying success.Objectives This study assesses and compares the value of intralesional steroid (Triamcinolone acetonide 40mg/ml), cryotherapy and cryotherapy with intralesional steroid in the treatment of keloids.Methodology 33 patients were studied, 11 each in the three arms and the volume of the keloids was recorded using wax patterns of alginate impressions of the keloids to note the change in size postoperatively.Results The best average percentage response was observed is patients who received both Cryotherapy (CRY) and Intralesional Steroid (ILS) (69.02%) followed by patients who received only intralesional steroid (43.98%). Among the patients who received only cryotherapy, the average percentage response was only 39.24%. 72.73% patients who received intralesional steroid with cryotherapy showed more than 50% improvement (good response) while only 9.09% patients who received intralesional steroid alone and cryotherapy alone showed similar improvement.Conclusion In patients with keloids good response can be obtained with CRY with ILS as compared to ILS alone and CRY alone.

Cellular and molecular regulation of hematopoietic and intestinal stem cell behavior

Two fundamental questions in stem cell research are what controls stem cell number in vivo and which signal pathways regulate self-renewal. Here we summarize our recent studies regarding the role of BMP signaling in regulation of stem cell behavior in both the hematopoietic and intestinal systems. These studies provide evidence to show that BMP signaling plays an important role in controlling stem cell number, at least in these two stem cell compartments. However, the BMP signal utilizes different mechanisms to fulfill this purpose: in the hematopoietic stem cell compartment it controls stem cell number through regulation of the niche size; in the intestinal stem cell compartment it directly controls self-renewal of stem cells through restriction of Wnt/beta-catenin activity. The Bmpr1a mutant mouse provided an elegant model which allowed us to identify the HSC niche, an enigma for more than 25 years. Our work provided more evidence to demonstrate the essential function of the niche in maintenance of stem cells and showed that multiple signals are required to maintain a balanced control of stem cell self-renewal.

Modulação da proliferação fibroblástica e da resposta inflamatória pela terapia a laser de baixa intensidade no processo de reparo tecidual

FUNDAMENTOS: Ao longo dos anos, diversos estudos têm sido realizados para compreender o processo de reparo tecidual, bem como os possíveis efeitos da terapia a laser no processo de cicatrização de feridas. OBJETIVOS: Investigar o comportamento de feridas cutâneas provocadas na região dorsal de ratos Wistar (Rattus norvegicus), que foram submetidos ao tratamento com laser de baixa intensidade, com 3,8 J/cm² de dosagem, 15mW de potência e tempo de aplicação de 15s. MÉTODOS: Os animais (n = 12) foram divididos em dois grupos, um controle e outro tratado com laser. Foram realizadas, no grupo tratado, três aplicações (imediatamente após o ato cirúrgico, 48 horas e sete dias após a realização das feridas cirúrgicas). Dez dias após o ato cirúrgico foram colhidas amostras das lesões de ambos os grupos para realização de estudo histopatológico e histomorfométrico. RESULTADOS: Foram evidenciados aumentos da neovascularização e da proliferação fibroblástica, e diminuição da quantidade de infiltrado inflamatório nas lesões cirúrgicas submetidas à terapia com laser. CONCLUSÃO: Os resultados em conjunto sugerem que a terapia a laser de baixa intensidade é um método eficaz no processo de modulação da reparação tecidual, contribuindo significativamente para a cicatrização tecidual mais rápida e organizada.

Keloid or Hypertrophic Scar

Keloid and hypertrophic scars are 2 types of excessive scarring observed clinically that require different therapeutic approaches. The clinical course and physical appearance define keloids and hypertrophic scars as separate entities; however, they are often confused because of an apparent lack of morphologic differences. Nevertheless, clinical differences between hypertrophic scars and keloids have long been recognized by plastic surgeons and dermatologists. Yet, translating these differences into morphologic or biochemical distinctions has prompted much conflict in the literature. The present report is an attempt to clarify the longstanding controversy regarding these 2 similar yet separate and nonidentical entities by highlighting the reported points of differentiation as well as the similarities.

The scarring mechanism of smallpox

BACKGROUND

Smallpox is notorious for leaving its survivors with disfiguring scars, but it is unclear how these scars are produced. Modern dermatopathology textbooks report that smallpox produced epidermal lesions, yet the process of scarring requires dermal involvement.

OBJECTIVES

Our goal was to uncover past theories on the mechanism of smallpox scarring.

METHODS

We conducted a comprehensive review of English-language textbooks and English-translations of textbooks in general medicine, dermatology, pathology, and dermatopathology from the past 150 years as well as relevant journal publications for the same time period.

RESULTS

We identified five different theories to explain the scarring of smallpox. The five proposals are that scarring resulted from: the extension of suppuration into the dermis; the extension of suppuration into the dermis along with inappropriate treatment and scratching; secondary bacterial ecthyma; the destruction of elastic fibers; or the destruction of sebaceous glands.

CONCLUSION

The theory that best fits clinical and histological observations is that smallpox caused scars through the destruction of sebaceous glands, first proposed by Gerrit Bras in 1952. Although this explanation is not found in any dermatopathology text, it is supported by today's leading authorities on smallpox. However, since variola virions have never actually been identified in sebaceous glands, or even in the dermis, further study of preserved tissue is warranted. Until then, the mechanism of scar formation remains speculative.

Expression of p53 family in scars

BACKGROUND

There have been some reports on the relationship between p53 and keloid formation. However, there have been no studies comparing the p53 expression among scars in various stages of maturity. However, p63 and p73 have been identified as p53-related genes and have been found to be similar to p53 in their structures and functions and these proteins have also been suggested to relate to scar formation.

OBJECTIVE

We investigate the expression of three proteins of the p53 family in scars with various clinical manifestations and discuss the shared features and differences of these proteins.

METHODS

Forty untreated scar lesions consisting of keloids, hypertrophic scars, and atrophic scars were prepared for investigation. We detected the expression of p53, p63 and p73 proteins using Western blot analysis and histopathological study in each sample.

RESULTS

The 40 lesions were divided into four groups according to their clinical manifestations: keloid (Group A), red hypertrophic scar (Group B), white and hard hypertrophic scar (Group C), atrophic white scar (Group D). In Groups A and B, the histopathological findings demonstrated increased fibroblasts, capillary vessels and infiltration of inflammatory cells. In Group C, most of these changes decreased but proliferation of collagen fibers was evident. In Group D, the degree of proliferation of collagen fibers was much less and capillary vessels and infiltration of inflammatory cells were not evident. The levels of p53 protein elevated in Groups A, B and C and were higher in order of Groups A, B and C. In Group D, the level of p53 was almost the same as that of the control. The level of p63 protein was almost the same as that of the control in all groups. The level of p73 protein was elevated only in Group C.

CONCLUSION

The p53 family members behave in a different manner in various scar tissues. It is suggested that these proteins play different roles in scar formation and the development of unfavorable scars.

The Effects of the Plasminogen Pathway on Scar Tissue Formation

OBJECTIVES/HYPOTHESIS

The authors sought to determine the role of the plasminogen pathway in wound healing. They hypothesized that decreased fibrin degradation may lead to increased collagen deposition. Presuming that the degree of histopathological abnormality correlates with the aesthetic appearance of the scar, we conducted a study that attempted to determine the histopathological appearance of scar tissue in mice with and without impaired function of the plasminogen pathway.

STUDY DESIGN

Mice with and without deficiencies in the plasminogen pathway underwent surgery. The role of the plasminogen pathway in wound healing was studied by analysis of scar tissue formation using the methods described.

METHODS

A 2-cm incision was made on the dorsum of mice with and without specified genetic deficiencies in the plasminogen pathway. After the animals were killed, the tissue was harvested, fixed, and prepared using hematoxylin and eosin as well as trichrome stains. Histopathological analysis and scoring were performed by two separate investigators in a blinded manner. Student's t test was used to determine statistical significance between groups.

RESULTS

A statistically significant difference in collagen orientation was noted between mice with impaired plasminogen pathway function and the wild-type (control) group (P =.0163). A statistical trend toward improved wound healing for plasminogen-deficient mice was found for overall histomorphological score (P =.0706).

CONCLUSION

The role of the plasminogen pathway in wound healing is one that should be noted and may lead to the development of new therapies that reduce scar tissue formation. Hence, the role of other thrombolytic and anti-thrombolytic agents in wound healing should be further investigated to precisely identify agents that play the most significant role in scar tissue formation.

[Burns and rehabilitation]

Necessary principles of rehabilitation for burn patient are based on empirical findings recently corroborated by discoveries about healing pathophysiology. Risks are assessable immediately from the extensive, depth and situation of the burns, problems appear only if the dermis is affected: retraction, hypertrophy and losses of substances. To cutaneous problems it is necessary to add those linked to the prolonged immobilization and to complications of the resuscitation. To be effective, re-education has to be precocious, continuously suited to cicatricial processing and to the different therapeutic steps: resuscitation, surgical treatment, processing in a re-education and rehabilitation center, steady at home and processing of the sequelae. The processing rests on the repressive cloth port 23/24 hours during more of a year, the port of orthesis of immobilization and segmental posture (to stretch the dermis permanently) and the mobilization of articulations to avoid their stiffening. The cooperation of the patient is essential, it needs the share of therapies as well as the totality of problems and difficulties met by the patient, that they are physical, psychological, social, family or occupational. The steady has to be insured by a pluridisciplinarity team during at least the two necessary years for the cicatricial maturation.

Development of a histomorphologic scale to quantify cutaneous scars after burns

OBJECTIVE

Cutaneous wound healing in adults invariably results in scarring; however, there are few scales to quantify the degree of such scarring. The authors developed a histomorphologic scale for quantifying scarring after cutaneous burn injury.

METHODS

As part of a randomized trial comparing a variety of burn therapies, 40 partial-thickness burns were created on the backs and flanks of anesthetized pigs and treated with a tissue adhesive, antibiotic ointment, occlusive dressing, or dry gauze. Gross scar appearance was independently assessed by two investigators at 90 days on a 100-mm visual analog scale (VAS) marked "best appearance" at the high end. One of the investigators repeated the observation 30 days later. Full-thickness biopsies were taken 90 days after injury and evaluated histologically by a dermatopathologist for the presence of hyperkeratosis, epidermal hyperplasia, presence and depth of scar (defined as abnormally oriented collagen under polarized light), fibroplasia, vascular proliferation, and absence of adnexa, including hair follicles, apocrine glands, and smooth muscles. One point was assigned for each category in the presence of a normal finding, whereas an abnormal finding was assigned a score of zero. The normal dermis (absence of abnormal collagen) was given a score of 3, while decreasing scores of 2 to 0 were given for progressively deeper scars (i.e., 2 for papillary dermis, 1 for upper half of reticular dermis, and 0 for deep dermal lower half). The total histomorphologic score was derived by adding the scores on the individual items. The score ranges from 0 to 10 from worst scarring to absence of scarring, respectively. A subset of observations was evaluated a second time by one of the observers one month later. Intraobserver reliability of the histomorphologic scale was assessed with Spearman's correlation. Inter- and intraobserver Pearson's correlations for the gross scar VAS were calculated, and the correlation between gross and histomorphologic scores was assessed.

RESULTS

Intraobserver correlation for individual histomorphologic categories ranged from 0.19 to 1.00. Intraobserver correlation for the total histologic score was 0.95. Inter- and intraobserver correlations for the gross scar VAS were 0.8 each. Correlation between the histomorphologic scale and the gross scar VAS was 0.38.

CONCLUSIONS

A new reliable histomorphologic method for quantifying and scoring cutaneous scars is described together with a reliable scar VAS. However, these two scales are not highly correlated.

Mechanical forces induce scar remodeling. Study in non-pressure-treated versus pressure-treated hypertrophic scars

Reparative process of second and third degree burns usually results in hypertrophic scar formation that can be treated by pressure. Although this method is efficient, its mechanisms of action are not known. In this work, we have studied the histological organization of hypertrophic scars submitted to pressure. Skin biopsies were performed 2 to 7 months after the onset of treatment in two adjacent regions of the scar, non-pressure- or pressure-treated and analyzed by immunohistochemistry and transmission electron microscopy for extracellular matrix organization and cellular morphology. In non-pressure-treated regions, fibrillin deposits did not present the classical candelabra-like pattern under epidermis and were reduced in dermis; in pressure-treated regions the amount was increased compared to non-pressure-treated regions but the organization was still disturbed. In non-pressure-treated regions, elastin was present in patch deposits; in pressure-treated regions elastin formed fibers, smaller than in normal dermis. Tenascin was present in the whole dermis in non-pressure-treated regions, whereas in pressure-treated regions it was observed only under epidermis and around vessels, as in normal skin. alpha-Smooth muscle actin-expressing myofibroblasts were absent in normal skin, present in large amounts in non-pressure-treated regions, and almost absent in pressure-treated regions. The disturbed ultrastructural organization of dermal-epidermal junction observed in non-pressure-treated regions disappeared after pressure therapy; typical features of apoptosis in fibroblastic cells and morphological aspects of collagen degradation were observed in pressure-treated regions. Our results show that, in hypertrophic scars, pressure therapy restores in part the extracellular matrix organization observed in normal scar and induces the disappearance of alpha-smooth muscle actin-expressing myofibroblasts, probably by apoptosis. We suggest that the pressure acts by accelerating the remission phase of the postburn reparative process.

Acute and chronic animal models for excessive dermal scarring: quantitative studies

Excessive scarring in the form of keloids and hypertrophic scars continues to be a clinical problem for some patients. The lack of an animal model for such scarring has been an obstacle to studying the cellular and molecular biology of these entities. Previous observations made by the authors that some surgical scars in the rabbit ear remain raised for months after wounding prompted us to investigate whether the rabbit ear might provide a model by which to study excessive dermal scarring. After establishing the model in preliminary study, 40 excisional wounds, 6 mm in diameter, were created over the ventral surface of rabbit ears. Elevated scars were treated with either intralesional triamcinolone acetonide or saline at day 16 postwounding. On day 22, 25 scar wounds were used for thorough histomorphometric analysis, 15 wounds were eliminated prior to analysis because of invagination of epithelial tissue, which made analysis difficult. Total area of scar and Hypertrophic Index, a ratio comparing scar prominence with the thickness of adjacent unwounded tissue, were measured for 25 (62 percent) of the resulting scars. Both total area of scar and Hypertrophic Index were found to be significantly decreased in the steroid-treated group (p < 0.02 and < 0.03, respectively). In a chronic form of this model, in which larger excisions were taken, an excessive accumulation of both new collagen and cartilage over 9 months was observed. An animal model for excessive dermal scarring that allows quantitation of scar formation and, at an early stage, can be modulated in a predictable way with intralesional corticosteroid treatment is presented. This model may parallel hypertrophic scarring in humans and thus might provide a tool by which to study its pathophysiology and objectively evaluate therapeutic modalities.