Effects of galeotomies on scalp flaps

Basal cell carcinoma of the scalp: surgical approach and reconstructive options

INTRODUCTION

Surgical therapy of basal cell carcinomas (BCC) is based on complete excision of the neoplasm and its immediate suitable reconstruction. The aim of this work was to evaluate the possibility of creating a reconstructive algorithm in cases of scalp BCC, depending on the amplitude of the tumor.

EVIDENCE ACQUISITION

A literature search was carried out using the databases of PubMed, Scopus and Cochrane.

EVIDENCE SYNTHESIS

Based on the experiences reported in the literature, it was possible to structure a decision-making algorithm that summarizes the various steps involved in the choice of the most suitable reconstructive surgical therapy.

CONCLUSIONS

The algorithm described we hope will be of reference or help to less experienced reconstructive plastic surgeons.

The Efficacy of Anterior Capsulotomy and Basal Capsulectomy Adherent to Expanded Scalp Flap During Alopecia Reconstruction in Pediatric Burned Patients

BACKGROUND

Scalp expansion is an optimal treatment for alopecia resulting from burn injuries, especially in the pediatric population through providing highly vascularized adjacent local tissues with optimal hair density, color matching, texture, and hair-bearing characteristics. The aim of this study was to evaluate the efficacy of anterior capsulotomy and basal capsulectomy adherent to expanded scalp flap during alopecia reconstruction with scalp expansion in pediatric burned patients.

METHODS

The study was conducted on 127 patients with an age range of 5 to 19 years who presented with postburn alopecia accompanied by hairline loss. The patients were divided into 2 groups: group I consisted of 58 patients who were operated on using conventional technique, and group II consisted of 69 patients who were operated using modified technique including basal capsulectomy on the skull side and anterior capsulotomy on the expanded scalp flap.

RESULTS

The Hairdex, a validated questionnaire of Hair-Specific Health-Related Quality of Life measures, showed that percentage of satisfaction concerning outcomes was 91.50%, psychological well-being was 95%, and self-confidence was 84.30% in group II, compared with 63%, 55.70%, and 66.20%, respectively, in group I. This significant values had a great positive effect on patient satisfaction, changing child's behavior and self-confidence.

CONCLUSION

Although physiological background of tissue expansion is the same, proper flap design with anterior capsulotomy on flap undersurface and basal capsulectomy on the skull side improve results of the traditional method significantly and minimize the complication rate. These surgical modifications provide maximum benefits from expanded tissue, with restoration of the hairline and a uniform hair direction.

LEVEL OF EVIDENCE

Level III, case-control study.

Cryopreserved amniotic membrane and umbilical cord for a radiation-induced wound with exposed dura: a case report

An 87-year old male received surgical excision of scalp melanoma and subsequent radiotherapy due to metastasis to the skull. A radiation-induced wound developed with osteoradionecrosis that required necrotic bone excision resulting in a 7.5x8.5cm wound over the exposed dura, which remained non-healing despite many attempts by local wound care management. Due to the refractory nature of the wound, strips of cryopreserved umbilical cord (cUC) allograft were applied over the exposed dura resulting in significant vascular granulation tissue formation in the central wound bed within four weeks. Re-epithelialisation around the wound perimeter was further promoted by injection of particulate amniotic membrane umbilical cord matrix (AMUC) at the 16th week, and completed by another application of cUC strips and injection of AMUC proximal to the necrotic bone at the 21st week. Vascularisation of the necrotic bone was further promoted by application of cUC and AMUC injection directly into the bony margins at 29 weeks and 34 weeks, respectively, followed by application with an AMUC-hydrogel paste, applied four times over an eight week interval. By 96 weeks, healthy re-epithelialised tissue had formed under the necrotic bony margins. This report highlights the unique regenerative capabilities of cUC and AMUC in promoting wound healing over exposed dura in a long-standing full-thickness, radiation-induced scalp and skull wound.

Scalp expansion: Surgical considerations and possible future directions

Introduction

Repairing large scalp defects has always been a difficult task for plastic surgeons. This is because the requirements of such procedures are two-fold: sufficient soft-tissue coverage is required, and to obtain a satisfactory aesthetic outcome, a sufficient number of covering hairs should be ideally provided.

Materials and Methods

Based on the author's experience in this repair technique over a 20-year period, this article presents some technical details of scalp expansion, surgical refinements and possible directions for further technical advancement.

Results

Data and details on relevant scalp anatomy, expander choice, expander placement, subgaleal undermining, galeotomies and acute scalp expansion are provided.

Conclusions

The author hopes that the above-mentioned details may be of some utility in the complex field of scalp expansion.

Percutaneous Mesh Expansion: A Regenerative Wound Closure Alternative

BACKGROUND

Puncture wounds in the 1-mm range usually heal without scars. Stacking rows of these punctures offers a scarless method to generate tissue by mesh expansion. The authors developed a percutaneous mesh expansion procedure and present their experience for its wound closure application.

METHODS

Over a 6-year period, the authors applied percutaneous mesh expansion to 65 consecutive patients aged 58 to 101 years (mean, 72 years) with 67 full-thickness calvarial defects ranging in size from 2.5 × 3 cm to 7 × 8 cm (mean, 14 cm) that would have all required flaps for closure. Thirty-six were still anticoagulated, and 20 had prior scalp resections. After tumescent epinephrine anesthesia, the authors temporarily approximate the wound by placing it under strong tension. Using 1.1-mm cutting point needles that selectively sever tissues under tension, the authors inflict rows of staggered alternating punctures over a distance five times the defect width. This results in 20 percent expansion of the meshed area, generating the tissue necessary for defect coverage. When the tension is completely released, closure is performed with simple sutures or staples. The authors avoid overmeshing, especially close to the wound edges, and perform no undermining or additional incisions.

RESULTS

At 6-week follow-up, all defects were healed with only a straight resection scar. However, of the 10 defects larger than 5 × 5 cm, five had wound healing delay and three required a small skin graft. No other complication was observed.

CONCLUSIONS

Percutaneous mesh expansion is a minimally invasive procedure that harnesses the body's natural capabilities to regenerate across small gaps. It sums these regenerated gaps in a mesh pattern that expands tissues to close complex wounds without flaps or additional incisions.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Therapeutic, IV.

Scalp simulation - A novel approach to site-specific biomechanical modeling of the skin

OBJECTIVES

This study aimed to determine the hardness of the human scalp in vivo in order to identify an appropriate scalp simulant, from a range of commercially available silicone materials, for force impact assessment. Site-dependent variation in scalp hardness, and the applicability of contemporary skin simulants to the scalp were also considered.

MATERIALS AND METHODS

A Shore A-type durometer was used to collected hardness data from the scalps of 30 human participants (five males and five females in each of the three age categories: 18-30, 31-40, 41-50) and four commercially available silicones (light, medium, and heavy-bodied PVS, and duplication silicone). One-sample t-tests were used to compare the mean hardness of simulants to that of the scalp. Site-dependent variation in the hardness of the scalp was assessed using a mixed-model repeated measures ANOVA.

RESULTS

Mean human scalp hardness derived from participants was 20.6 Durometer Units (DU; SD = 3.4). Analysis revealed only the medium-bodied PVS to be an acceptable scalp simulant when compared to the mean hardness of the human scalp (p = 0.869). Scalp hardness varied significantly anteroposteriorly (with an observable linear trend, p < 0.001), but not mediolaterally (p = 0.271). Comparisons of simulants to site-specific variation in scalp hardness anteroposteriorly found the medium-bodied PVS to be only suitable in the central region of the scalp (p = 0.391). In contrast, the duplication silicone (p = 0.074) and light-bodied PVS (p = 0.147) were only comparable to the posterior region.

CONCLUSIONS

Contemporary skin simulants fail to accurately represent the scalp in terms of hardness. There is strong support for the use of medium-bodied PVS as a scalp simulant. Human scalp hardness varies significantly anteroposteriorly, but not mediolaterally, corresponding to regional anatomical variation within the scalp. A number of materials were identified as potential simulants for different regions of the scalp when more site-specific simulant research is required.

Management of Forehead Scars

This article provides an overview of scar management within the forehead region. It addresses the unique challenges specific to the treatment of forehead wounds. A logical, stepwise approach is used. A subsite based treatment algorithm is provided along with a review of current best practices. Pertinent case examples are included for demonstration purposes.

Gradual and controlled decompression for brain swelling due to severe head injury

Patients suffering from uncontrollable intracranial hypertension due to posttraumatic brain swelling (BS) generally either die or survive in an extremely disabled state. Decompressive craniectomy (DC) with dural augmentation may be the best method to assist these patients. However, the efficacy of DC on functional outcomes remains controversial. One of the factors contributing to poor outcomes could be intraoperative brain extrusion, which is an acute potential complication of DC. The authors have adopted a new surgical technique for traumatic BS that can prevent and control massive intraoperative BS (IOS). In the past 3 years, the authors have used a unique technique, called "gradual and controlled decompression", in the treatment of posttraumatic BS. This procedure consists of creating numerous small dural openings and removing clots; enlarging fenestration in the frontal and temporal basal regions to detect and treat brain contusion; making U-shaped, discontinuous, small dural incisions around the circumference of the craniotomy; and performing an augmentation duraplasty through the discontinuous small opening with dural prosthetic substances. This technique has been employed in 23 patients suffering from posttraumatic BS. In all cases, IOS was prevented and controlled through gradual stepwise decompression, and expanded duraplasty was performed successfully. This new surgical approach for posttraumatic BS can prevent severe extrusion of the brain through the craniotomy defect and allows the gradual and gentle release of the subdural space. Further clinical studies should be conducted to estimate the impact of this new technique on morbidity and mortality rates.

Osteoplastic decompressive craniotomy--an alternative to decompressive craniectomy

BACKGROUND

In spite of various degrees of brain expansion, decompressive surgery is usually carried out using decompressive craniectomy (DC). After craniectomy it is necessary to perform cranioplasty, which prolongs hospitalization and is not always without complications. Hence, in situations when cranial decompression is indicated, but DC would be too radical, we do not remove the bone flap, and we perform so-called osteoplastic decompressive craniotomy (ODC). The technique is detailed.

OBJECTIVE

To demonstrate the effectiveness of ODC.

METHODS

Twenty patients underwent ODC for brain edema under various pathological conditions. The diagnoses were as follows: 13 subdural hematomas, 3 cerebral contusions, 2 middle cerebral artery infarcts, 1 epidural hematoma and 1 arteriovenous malformation. The effect of ODC was assessed using postoperative ICP monitoring and the midline shift on CT. The ICP threshold for the additional removal of the bone flap was 25 mmHg. Clinical outcome was evaluated 6 months after surgery using the Glasgow Outcome Scale (GOS).

RESULTS

Postoperative ICP was up to 25 mmHg in 18 patients and exceeded 25 mmHg in 2 cases. The mean midline shift on CT was 10 mm preoperatively and 3 mm postoperatively. The decompression during ODC was sufficient in 18 patients and insufficient in 2 in whom an additional removal of the bone flap was performed. Eight survivals had a favorable outcome (GOS 4-5); 12 patients had an unfavorable outcome (GOS 1-3), and of these, 4 died.

CONCLUSION

Our limited study shows that ODC is effective in the treatment of intracranial hypertension in the selected subgroup of patients in whom DC would be too radical. The main advantage of this method is the elimination of further cranioplasty.

Reconstruction of scalp and forehead defects

Reconstruction of scalp and forehead defects is a complex field with a broad variety of reconstructive options. The thought process and techniques used for reconstruction of scalp and forehead defects are the subject of this article.

In situ hinge craniectomy

OBJECTIVE

To describe an optional method for performing decompressive craniectomy using in situ hinge craniectomy technique in patients with traumatic brain injury and stroke.

METHODS

Sixteen patients underwent surgery for treatment of presenting pathology followed by the placement of hinge craniectomy. The technique is detailed.

RESULTS

Six patients with traumatic head injury and 10 with stroke underwent treatment of their primary pathologies with subsequent hinge craniectomy. Of these patients, more than half underwent refixation of the hinge in a minor procedure after recovery. No patient had complications related to this technique and none required further cranial decompression. In patients with intracranial pressure monitoring, all displayed values in the normal range.

CONCLUSION

In this limited study, in situ hinge craniectomy proved useful in the treatment of patients experiencing stroke or traumatic brain injury. This procedure has the potential to eliminate the additional second incision to explant the bone flap or the refrigeration storage of the bone flap. Also, the second operation to restore the cranial contour by reimplanting the bone flap or by the creation of a cranioplasty with artificial material would not be necessary.

Advances in scalp reconstruction

PURPOSE OF REVIEW

The present review summarizes traditional and advanced techniques used to reconstruct defects of the scalp. These deformities range from small defects that can be closed primarily to significant defects, which require free tissue transfer.

RECENT FINDINGS

Increased use of tissue expanders, advancement rotational flaps, and hair transplantation has resulted in improved cosmetic outcomes for larger defects of the scalp. Free tissue transfer has provided a revolutionary method of reconstructing subtotal and total defects of the scalp, in particular those associated with neoplasms.

SUMMARY

New advances in techniques of scalp reconstruction have provided improved outcomes in terms of cosmetic appearance and decreased morbidity for scalp reconstruction.

Reconstruction of acquired scalp defects: an algorithmic approach

LEARNING OBJECTIVES

After studying this article, the participant should: 1. Understand scalp anatomy, hair physiology, and skin viscoelastic properties as they relate to scalp reconstruction. 2. Understand the principles that allow for aesthetic reconstruction of scalp defects. 3. Understand the use of local tissue rearrangement for reconstruction of specific areas of the scalp. 4. Understand the use of tissue expansion and free tissue transfer for scalp reconstruction.

BACKGROUND

Reconstruction of scalp defects is required for acute trauma, tumor extirpation, radiation necrosis, and the repair of traumatic alopecia or cosmetically displeasing scars.

METHODS

The proper choice of a reconstructive technique is affected by several factors-the size and location of the defect, the presence or absence of periosteum, the quality of surrounding scalp tissue, the presence or absence of hair, location of the hairline, and patient comorbidities. Successful reconstruction of these defects requires a detailed knowledge of scalp anatomy, hair physiology, skin biomechanics, and the variety of possible local tissue rearrangements. In nearly total defects, local tissues may be inadequate and tissue expansion or free tissue transfer may be the only alternatives.

RESULTS

Plastic surgeons are now able to obtain coverage over the calvaria after the most devastating of defects; however, the challenge to the reconstructive surgeon today is to do so with excellent cosmetic results. Cosmetic scalp reconstruction requires restoration and preservation of normal hair patterns and hair lines.

CONCLUSIONS

Successful reconstruction of the scalp requires careful preoperative planning and precise intraoperative execution. Detailed knowledge of scalp anatomy, skin biomechanics, hair physiology, and the variety of available local tissue rearrangements allows for excellent aesthetic reconstruction.

Management of large surgical defects of the forehead and scalp by imbrication of deep tissues

BACKGROUND

When facing surgical defects, the dermatologic surgeon follows certain basic principles that help reduce the inherent tension to allow for a better cosmetic outcome. These commonly include the use of undermining, releasing technique such as galeotomy if applicable, selection of suture material of appropriate tensile strength, and closure along relaxed skin tension lines.

OBJECTIVE

To review the imbrication of deep tissues, another surgical principle aimed at wound tension reduction and widely utilized by cosmetic surgeons in forehead lifts and scalp reductions, as it applies to dermatologic surgeons in the repair of large surgical defects of the upper face and scalp. The latter may be utilized both with primary closure and with local flaps.

METHODS

We describe in detail the technique of imbrication of deep tissues and provide illustrations for a better understanding of how to correctly use this surgical principle.

RESULTS

The dermatologic surgeon has an additional tool, termed imbrication of deep tissues, available to aid in the closure of sizable wounds of the forehead and scalp as seen following Mohs surgery for cutaneous malignancies by providing deep tissue support.

CONCLUSION

Imbrication of deep tissue is an effective tool that may be used by dermatologic surgeons in conjunction with the more commonly utilized basic surgical principles to enhance the cosmetic outcome in the closure of large, high-tension defects of the forehead and scalp.

The "Nordstrom suture" to enhance scalp reductions

The authors compared the results of 10 scalp reductions using the "Nordstrom suture" with the earlier published results of scalp reductions without a device to prevent stretch-back and of reductions with extenders. At 1 month postoperatively, the Nordstrom suture eliminated the stretch-back of 8.3 mm seen in earlier studies and, in fact, it shrank the bald area. The average shrinking achieved with the Nordstrom suture was 16.9 mm (i.e., 143 percent improvement over scalp reductions alone). Scalp extenders shrank the bald area, but the Nordstrom suture shrank the area about three times more than extenders at 1 month postoperatively.

Quantitative benefits provided by acute tissue expansion: a biomechanical study in human cadavers

The aim of this study was to test the ex vivo biomechanical properties of acutely expanded cutaneous flaps to quantitatively assess the efficacy of intraoperative tissue expansion. A total of 14 fresh male cadavers were used for the study. In each cadaver, a rectangular (15 x 8 cm), proximally based flap was designed on each side of the body, in three different locations: lateral arm, anterior thorax, anterior thigh. In each cadaver, one randomly selected flap per each body region underwent acute-intermittent expansion, whereas the contralateral flap served as control. The biomechanical properties (stress/strain ratio, mean stiffness) of both expanded and control flaps were then assessed by means of a dynamometer and a force-transducer. The obtained data showed that the biomechanical benefits provided by acute tissue expansion were statistically different (P< 0.05) from those obtained by simple subcutaneous undermining. While no changes of length have been observed in the acutely expanded skin flaps as compared to control cutaneous flaps, a statistically significant gain in the compliance of the former has been recorded as compared to the biomechanical behaviour of the latter.

Serial scalp reductions: a biomechanical approach

BACKGROUND

Several technical aspects of scalp-reduction procedures still need to be clearly elucidated: in particular, (a) the quantitative effects provided by different amounts of subgaleal undermining, (b) the immediate gains provided by increasing amount of tension when advancing a scalp flap, and (c) the eventual benefits provided by galeotomies.

OBJECTIVE

The aim of the present paper is to report on some biomechanical properties of scalp flaps as related to serial scalp reduction procedures for correction of male pattern baldness.

METHODS

Data were collected by stepwise loading of 20 scalp flaps, obtained by a reversed-Y scalp incision, after increasing amounts of undermining, as well as after performing three galeotomies.

RESULTS

Increasing amounts of tension (while advancing a scalp flap) affect the compliance of a scalp flap in a non-linear fashion; increasing amounts of undermining permit obtaining significant, but not proportional, gains; performing galeotomies is a useful adjunct to decrease the amount of closing tension when performing scalp-reduction procedures.

CONCLUSION

When performing serial scalp reductions, to take into account the biomechanics of scalp flaps may be of some utility in obtaining an optimal result.

Hairline lowering during foreheadplasty

Many patients seeking rejuvenation of their foreheads have high hairlines and are troubled by the prospect that surgery will worsen the deformity. Hairline elevation occurs in both coronal and endoscopic foreheadplasty techniques and is at least part of the reason that many surgeons do not always recommend these procedures when otherwise indicated. Although a pretrichial "hairline" incision prevents hairline retro-displacement, it results in forehead shortening only and not true hairline lowering. When a pretrichial incision is used in combination with a posterior scalp advancement flap, however, true hairline lowering is possible. Experience with this technique encompasses 27 procedures performed over a 5-year period. Patients ranged in age from 35 to 71 years. A significant improvement was demonstrable in all cases and corresponded with a high degree of patient satisfaction. No serious complications were seen. A high hairline must be recognized as the source of both a disproportionate and aged appearance. The ability to lower the hairline and place it in a more proportionate, youthful relationship with the rest of the face adds a new dimension to foreheadplasty equal to or greater in importance to an overall improved appearance as other maneuvers typically performed during the procedure. For many patients, the benefits of hairline lowering far outweigh the trade-off of a more anteriorly situated, and possibly more visible, scar.

Anchoring galeal flaps for scalp reduction procedures

This article describes an operative technique, based on the use of three anchoring galeal flaps, aimed at reducing the percentage of "stretch-back" that occurs after performing scalp reduction procedures. In 12 male patients undergoing a midline scalp reduction procedure, three rectangular (2 x 3 cm) galeal flaps in direct continuity with the longitudinal margin of the left scalp flap were sutured individually to the galeal undersurface of the right scalp flap to draw the two scalp flaps toward the midline of the scalp and to relieve the wound margins of closing tension. Tattoo marks were placed on the patient's scalp at the level of the vertical lines drawn through the external auditory meatuses (A1-A2) and 6 cm more posterior (B1-B2) to measure the movement and stretching of the scalp. The results were compared with those obtained from a control group of 13 male patients who underwent the same surgical procedure but without the use of the anchoring galeal flaps. Mean stretch-back (as measured 4 weeks postoperatively) at level A1-A2 was 8.3 mm in the control group and 1.6 mm in the experimental group. The mean stretch-back at level B1-B2 was 7.7 mm in the control group and 0.9 mm in the experimental group. A statistically significant difference (p < 0.005) was found between data from the control and experimental groups regarding the above-reported stretch-back values at both levels. The use of the described galeal flaps allowed us to obtain an 80.93-percent and an 88.09-percent stretch-back reduction at levels A1-A2 and B1-B2, respectively, 1 month postoperatively.