Correction to: Treatment of Immature Scars: Manual Massages

Owing to an oversight on the part of the production, this chapter was initially published with incorrect authorship. The chapter was published with first author name alone, co-authors were inadvertently missed.

Minimally Invasive Technologies for Treatment of HTS and Keloids: Fractional Laser

This chapter presents a state-of-the-art insight into the use of fractional laser for the management of this complex problem. In particular, we focus on the management of complex scars such as those occurring post-burn injury and split-thickness skin grafting.

Structural Assessment of Scars Using Optical Techniques

The evaluation of scar treatment benefits from exact structural measurements. Accurate assessment of thickness, surface area, and relief is crucial in routine clinical follow-up. From an experimental perspective, precise visualization of the microstructural organization is necessary for a better understanding of the mechanisms underlying pathological scarring. Structural proteins in scars differ from healthy skin in terms of amount, type, and importantly, organization. The precise quantification of this extracellular matrix (ECM) organization was, until recently, limited to two-dimensional images from fixated and stained tissue. Advances in optical techniques now allow high-resolution imaging of these structures, in some cases in vivo. The enormous potential of these techniques as objective assessment tools is illustrated by a substantial increase in available devices. This chapter describes currently used devices and techniques used in the clinical follow-up of scar progression from a volumetric standpoint. Furthermore, some of the most powerful techniques for microstructural research are described including optical coherence tomography, nonlinear optical techniques such as second harmonic generation microscopy, and confocal microscopy.

Invasive Techniques in Scar Management: Skin Substitutes

In the last decades, skin substitutes have emerged as an important innovation in improving scar quality. They can be applied during the initial wound management but also during scar reconstruction procedures. This chapter provides an overview on the development, current state, and future of cell-seeded and tissue-engineered skin substitutes. We will discuss some of the most important varieties of skin substitutes in the context of scar formation and wound healing.

Scar Formation: Cellular Mechanisms

Fibroblasts are key players in the maintenance of skin homeostasis and in orchestrating physiological tissue repair. Fibroblasts secrete and are embedded in a sophisticated extracellular matrix, and a complex and interactive dialogue exists between fibroblasts and their microenvironment. In addition to the secretion of the extracellular matrix, fibroblasts and myofibroblasts secrete extracellular matrix remodeling enzymes, matrix metalloproteinases and their inhibitors, and tissue inhibitors of metalloproteinases and are thus able to remodel the extracellular matrix. Myofibroblasts and their microenvironment form a network that evolves during tissue repair. This network has reciprocal actions affecting cell differentiation, cell proliferation, cell quiescence, or apoptosis and has actions on growth factor bioavailability by binding, sequestration, and activation. Mechanical forces also play a role in regulating the myofibroblast phenotype as cells are subjected to mechanical stress and mechanical signaling is activated. Innervation is also involved in both skin repair processes and differentiation of myofibroblasts. In pathological situations, for example, in excessive scarring, the dialogue between myofibroblasts and their microenvironment can be altered or disrupted, leading to defects in tissue repair or to pathological scarring, such as that seen in hypertrophic scars. Better understanding of the intimate dialogue between myofibroblasts and their local microenvironment is needed and will be important in aiding the identification of new therapeutic targets and discovery of new drugs to treat or prevent aberrant tissue repair and scarring.

Minimally Invasive Technologies for Treatment of HTS and Keloids: Pulsed-Dye Laser

We present another minimally invasive technology for the treatment of hypertrophic scars and keloids: the pulsed-dye laser. Being first introduced by two groups around Schaefer (Germany) and Sorokin & Lankard (USA) in 1966, the pulsed dye laser is a rather new technology. The first clinical use of pulsed-dye lasers was reported in 1983 for the treatment of naevus flammeus, and was the first laser used for the treatment of keloids in the mid-1990s.Its efficacy is based on the principle of selective photothermolysis, enabling a selective destruction of defined structures absorbing the respective wavelength used, as compared to other lasers working based on thermal coagulation or ablative tissue interaction. The preferred wavelengths being used are 585 or 595 nm, which makes small cutaneous vessels the main targets. Their destruction leads to a diminished blood supply of the irradiated area, thus reducing symptoms of hypertrophic scars like itching, vascularity, and redness, and secondary – probably by the induced hypoxemia – a reduction in scar height and pliability. This therapeutic approach also implies the use of pulsed-dye laser in the prevention of pathologic scars. While significant side effects are usually rare, slight signs of use like edema or scab formation can pertain for several days. Since the sensory impact of laser pulses are comparable to needle pricks, some form of analgesia during the application is highly recommended. The elusive data and still existing scarcity of high-quality studies on the use of pulsed-dye laser, however, make it hard to develop clear recommendations.

Onion Extract

Multiple studies on hypertrophic scar and keloid formation have led to a plethora of therapeutic strategies in order to prevent or attenuate keloid and hypertrophic scar formation. To date, preventing pathologic scarring remains undoubtedly more effective than treating it. Next to specific surgical techniques and an appropriate general aftercare of fresh wounds, a multitude of scar gels, creams, patches, and ointments are available and are being promoted for scarless wound healing. Next to silicone-based products, onion extract or cepalin has been highlighted as one potential anti-scarring agent over recent years. Based on several studies, onion extract alone or in combination with allantoin and heparin seems to alleviate the wound-healing process and appears beneficial for preventional application in fresh scars. The study data available, however, remains overall relatively poor and clearly objective data regarding this approach is widely missing.

Japan Scar Workshop (JSW) Scar Scale (JSS) for Assessing Keloids and Hypertrophic Scars

The Vancouver scar scale, the Manchester scar scale, and the Patient and Observer Scar Assessment Scale (POSAS) are all very well-known scar evaluation methods. These tools are based on a number of scar variables, including color, height, and pliability. However, since all were mainly developed to evaluate burn scars, they are difficult to use in clinical practice for keloids and hypertrophic scars. This is because these pathological scars require both differential diagnosis and a way to evaluate their response to therapy. The Japan Scar Workshop (JSW) has sought to develop a scar assessment scale that meets these clinical needs. The first version of this scar assessment tool was named the JSW scar scale (JSS), and it was reported in 2011. In 2015, the revised second version was reported. The JSS consists of two tables. One is a scar classification table that is used to determine whether the scar is a normal mature scar, a hypertrophic scar, or a keloid. This grading system helps the user to select the most appropriate treatment method for the scar. The other table in the JSS is an evaluation table that is used to judge the response to treatment and for follow-up. Both tables contain sample images of each subjective keloid/hypertrophic scar item that allow the user to evaluate each item without hesitation.

The Epidemiology of Keloids

Keloids are pathological scars that are characterized histologically by an overwhelming aggregation of fibroblasts and collagen type I within the inflammatory reticular dermis. Their clinical characteristics include continuous growth and invasion into the neighboring healthy skin beyond the original wound boundary via an erythematous and pruritic leading edge. They also show a strong tendency to recur when they are surgically excised in the absence of adjuvant therapies. Despite the fact that keloids are common throughout the world, their epidemiology has not been adequately investigated. In this chapter, we will summarize the limited epidemiological data on keloids that exists to date in terms of: (1) the demographic distribution of keloids, mainly on the geographical regions and ethnic racies; (2) the internal genetic factors that shape keloid rates; and (3) the external environmental factors that influence keloid epidemiology. The aim of the chapter is to facilitate a greater understanding of the complexity and diversity of keloids from an epidemiological perspective, thereby potentiating further and deeper explorations into individualized strategies that prevent and treat keloids.

Other Scar Types: Optimal Functional and Aesthetic Outcome of Scarring in Cleft Patients

Cleft lip and palate are facial and oral malformation due to failures in the embryologic craniofacial development during early pregnancy. A unilateral cleft lip and palate is the most common type, whereby the upper lip, the orbicularis muscle, the alveolar bone, the floor of the nose, and the hard and soft palate are interrupted, creating an open communication between nasopharynx and oropharynx. Patients with a cleft lip and palate are treated in specialized cleft centers by a multidisciplinary team. Having cleft lip and/or palate has a noteworthy impact on quality of life and psychosocial functioning. Postoperative scarring is a common cause of patient dissatisfaction. The goal of cleft lip surgery is to close the lip, provide optimal function in terms of speech, mastication, dental protection, breathing and feeding, and provide an aesthetically pleasing facial scar. Precise surgical technique and adequate aligning of anatomical structures is important for the postoperative aesthetic result and scar formation. Different surgical techniques are available for this purpose. Optimal scar management can be divided in surgical (precise surgical technique, planning, and adequate aligning of anatomical structures) and nonsurgical methods (botulinum toxin, silicone application, carbon dioxide fractional laser).