Alternative methods of skull reconstruction for giant sarcomas

Araujo-López, Adán; Gónzalez-Rodríguez, Mónica; Cruz-Hernández, Álvaro; Nuñéz-Castillo, Joseph A.; Tristán-Tenorio, Carlo Augusto; Ríos-Lara, Rodolfo L.; Ugalde-Vitelly, Juan A.; Araujo-López, Adán; Gónzalez-Rodríguez, Mónica; Cruz-Hernández, Álvaro; Nuñéz-Castillo, Joseph A.; Tristán-Tenorio, Carlo Augusto; Ríos-Lara, Rodolfo L.; Ugalde-Vitelly, Juan A.

doi:10.24875/hgmx.22000011

Servicios Personalizados

Revista

Articulo

Indicadores

Citado por SciELO
Accesos

Links relacionados

Similares en SciELO

Otros
Otros

Permalink

Revista médica del Hospital General de México

versión On-line ISSN 2524-177Xversión impresa ISSN 0185-1063

Rev. med. Hosp. Gen. Méx. vol.86 no.1 Ciudad de México ene./mar. 2023 Epub 12-Jun-2023

https://doi.org/10.24875/hgmx.22000011

Clinical cases

Alternative methods of skull reconstruction for giant sarcomas

Adán Araujo-López¹^*

Mónica Gónzalez-Rodríguez¹

Álvaro Cruz-Hernández¹

Joseph A. Nuñéz-Castillo¹

Carlo Augusto Tristán-Tenorio¹

Rodolfo L. Ríos-Lara¹

Juan A. Ugalde-Vitelly¹

¹Plastic and Reconstructive Surgery Service, Hospital General de México "Dr. Eduardo Liceaga", Mexico City, Mexico

Abstract

Soft tissue sarcomas are malignant tumors derived from the mesoderm, the most frequent age of presentation is between the 5^th and 7^th decade of life, mostly in males, more frequent location in the extremities, leaving only 1% of presentation in skin hairy, and this is a new concept of treating big sarcomas. We present the case of a 45-year-old male with a diagnosis of soft tissue sarcoma on the frontal, parietal, and right occipital surface of approximately 35x28x25 cm, without involvement of adjacent organs, without adjuvant therapy. Performing an oncological resection, exposing the periosteum, performing fenetrations of the external table, covering the Dermal Matrix – Integra®, using a new concept to treat this large defects, after 3 weeks with complete neodermis, we cover it with a Partial Thickness Graft, achieving 100% integration. and proper follow-up. Sarcomas are an uncommon and heterogeneous group of neoplasms of mesenchymal origin. Standard use of Integra reconstruction requires two stages: Integra forms a neo dermis through ingrowth of host vessels, followed by application of a thin split-thickness skin graft at a later date <30 days, using this new concepts of treating large defects with no flap. Sarcomas are highly aggressive and have very varied symptoms depending on the tumor stage at the time of diagnosis. Timely and improved a new concept of treatment such as an Integra® dermal regenerator, not using a flap, shows adequate integration in the patient and survival.

Keywords Dermal Matrix; Graft; Sarcoma

Introduction

Sarcomas are a rare and heterogeneous group of neoplasms of mesenchymal origin¹. The clinical presentation of sarcoma is very varied. The main symptoms are rapid and gradual growth tumor that can be associated with pain in 50%; the pain is related to the compression effect²,³.

The acellular dermal matrix (IntegraÒ) is composed of a laminated upper layer of Silastic, resembling epidermis, it is sufficient to control water loss and prevent the invasion of microbes. The lower layer has a highly porous structure and is composed of cross-linked coprecipitate of bovine collagen and chondroitin 6-sulfate, which is derived from shark cartilage²,³. In addition, the pore size design (20 to 125 um) of the dermal layer allows migration of endothelial cells and fibroblasts from the patient into the matrix². Both layers serve as a matrix for the migration of fibroblasts, macrophages, lymphocytes, and capillaries derived from the wound³,⁴.

Case report

The patient was a 45-year-old male, with not chronic-degenerative diseases. His condition began in January 2021, with growth of a temporary scalp tumor, with abrupt growth until it involved the frontal, parietal, and right occipital surface of approximately 35 x 28 x 25 cm, without compromise of adjacent organs and no therapy. Biopsy reports a high grade soft tissue sarcoma. A resection of the tumor was performed by the surgical oncology unit, with the final result of the surgical piece measuring 30 x 26 x 16.5 cm, it was a histological type of fibrosarcoma with periosteal exposure, performing external table fenestrations. A new management of Skin coverage to use and cover with dermal matrix, developing a complete neodermis after 21 days of regeneration, with review every 7 days was performed. As final skin coverage, a partial thickness graft is placed, achieving 100% integration (Figs. 1-4).

Figure 1 45-year-old male, with soft tissue sarcoma measuring 35x28x25 cm, in frontal view.

Figure 2 45-year-old male, with soft tissue sarcoma measuring 35x28x25 cm, in basal view.

Figure 3 Placement of Acellular Dermal Matrix - Integra, top view.

Figure 4 Placement of Acellular Dermal Matrix - Integra, in its second replacement, front view, covering with mepilex AG.

During the follow-up of the patient, with this innovative technique in patients with neoplasms, we done replacement of advanced absorbable silver dressings (Mepilex AG) on 3 occasions (every 7 days until day 21) prior to the last application, with application of graft (Figs. 5 and 6).

Figure 5 Partial thickness graft placement with neodermis surface top view.

Figure 6 Partial thickness graft placement with neodermis surface, front view.

At day 21, the neodermis is assessed, the silicone layer of the dermal matrix is removed, achieving a 100% neodermis, partial thickness grafts of the Ollier - Thiersch type are taken, meshing it, proceeding to fixation of the graft covering the neodermis and the full thickness of the bloody area, which is covered with perforated silicone (mepitel One) and clip with advanced absorbable silver dressings (mepilex AG) achieving complete coverage and fixation of the grafted area. It is discovered after 7 days, assessing whether there is any complication and a minimum of exudate is observed (Figs. 7 and 8).

Figure 7 Follow-up one month after graft integration, without recurrence and adequate evolution.

Figure 8 Follow-up at a month and a half with adequate integration and improvement of integration.

We proceed to remove the perforated silicone dressing; which, is maintained with adequate exudate, without compromise, observing a 100% integration with this new method applied and algorithm designed for the management in these patients. Therefore, at the follow-up for 1 month, complete and adequate integration is observed evolution, currently under follow-up by oncology to perform radiotherapy (Figs. 8-10).

Figure 9 Follow-up at 6 months with adequate volume and aesthetics, in frontal image.

Figure 10 Follow-up at 6 months with adequate volume and esthetics, in the baseline image.

Discussion

Sarcomas represent 1% of malignant tumors in adults², affecting only 1 to 2 of every 500,000 people worldwide, with approximately 10,000 new cases per year in Mexico³. The mean age of patients with soft tissue sarcoma is 53.45 years for women and 55 years for men⁴.

There are more than 70 histological types of sarcomas which vary in biological and clinical characteristics⁴. In general, they can be divided according to their origin, into soft tissue sarcomas and bone sarcomas⁵. The most common subtypes are pleomorphic sarcoma, gastrointestinal stromal tumor, liposarcoma, and leiomyosarcoma. The most common primary sites are extremities (43%), trunk (10%), viscera (19%), retroperitoneum (15%), and head and neck (9%). Generally, the most frequent site of metastasis is the lung, however, the affected area of metastasis depends to a great extent on the site where the primary tumor originated⁴,⁵.

Approximately 90% of cases occur sporadically; in postpartum women there is a risk of genetic mutations (such as Li-Fraumeni syndrome, Neurofibromatosis of von Recklinghausen disease); as well as environmental risk factors such as ionizing radiation, radiotherapy or chemical exhibitors⁴,⁵.

The clinical presentation of sarcoma is indistinct, because it presents a rapid and gradual tumor growth, which can cause pain. The size of the tumor can develop compression of attached structures and exacerbate pain⁵.

Due to its low incidence and heterogeneity, the diagnosis is complicated and delayed, which directly affects the results of the assigned treatment. The presence of a tumor in the soft tissues should be treated by a specialized multidisciplinary team within referral centers as soon as a diagnosis of sarcoma is suspected⁶,⁷. Some essential elements for diagnosis are a complete clinical history, an adequate physical examination, imaging studies of the primary tumor and the identification of metastases, and biopsy (punch, incisional, or excisional)⁶.

The treatment serves as a new therapeutic option, as well as a new alternative to the use of dermal matrices, when this combined with bloody areas due to neoplasia it improves survival. The primary strategy is based solely on surgical resection, although it has been shown that by adding radiotherapy can increase success rates. There are several approaches in which surgical resection can be managed: it can be marginal, extensive or radical, and the choice is made based on the level of malignancy previously analyzed. In many cases, especially when it comes to sarcomas in the extremities, surgeries with greater extension of margins are reserved for the last line of treatment because it is not only the resection of the tumor that matters, but also the function and quality of life of the patient⁶. Radiotherapy and chemotherapy (with the anthracycline-based regimen being the first line of treatment, followed by Gemcitabine and Pazopanib⁶-based treatments) can be used as forms of neoadjuvant treatment, for palliative purposes in case of severe metastases, or as control local growth⁷.

In 1981, Burke and Yannas introduced the dermal regeneration template, it is an acellular matrix composed of two skin-like layers, which has currently been promoted as a use for survival in patients with multiple comorbidities. Current protocols (Fig. 11) describe how to use it with oncological and trauma management⁸.

Figure 11 Standardized management of dermal matrix placement (Integra^®). Explains how the dermal matrix is used in a new way to implement reconstruction due to cancer or trauma, according to a new established management.

The top layer of the Silastic sheet is an epidermis-like structure, which is sufficient to control water loss and prevent microbial invasion. The lower layer has a highly porous structure and is composed of a cross-linked coprecipitate of bovine collagen and chondroitin 6-sulfate, which is derived from shark cartilage⁹. In addition, the pore size design (20 to 125 um) of the dermal layer allows migration of endothelial cells and fibroblasts from the patient into the matrix⁹. Both layers serve as a matrix for the migration of fibroblasts, macrophages, lymphocytes, and capillaries derived from the wound⁹,¹⁰.

The migration of these cells will replace this layer with the patient’s own fibroblasts, a collagen network for the synthetic tissue to subsequently degrade. The matrix leads to the generation of a neodermis that is histologically very close to normal human dermis. The synthetic polysiloxane (silicone) polymer layer is a temporary layer that provides wound closure, relieves metabolic stress due to fluid and electrolyte losses, provides a barrier against microorganisms, and delays the need for autograft¹⁰.

Initially, acellular dermal matrix was approved for use in acute burn injuries, but it has been used in a variety of pathologies including full-thickness acute burn wounds, burn scars, and the treatment of purpura fulminans¹⁰. Today, it is widely used in full-body reconstructive procedures, on painful or contracted scars, skin resurfacing, and coverage of full-thickness skin graft donor sites, however, this item has the tendency to develop and describe how this algorithm (Fig. 11) can be the best option as a surgical alternative for the management of bloody areas due to cancer and trauma¹¹.

The standard use of acellular dermal matrix reconstruction requires two steps: it forms a neodermis through ingrowth of the host’s vessels, followed by the application of a thin, split-thickness skin graft at a later date of 14 to 21 days, in a current and innovative way that improves and describes the algorithm (Fig. 11)¹².

There is a tendency to explore various ways of implementing single-stage acellular dermal matrix reconstructions where the matrix and graft are placed at the same time, but more research is needed. In general, the authors are of the opinion that a stepwise procedure (Fig. 11) should be used when possible, as it provides effective and durable results for all defect sizes¹³.

Conclusion

Soft tissue sarcomas are malignantly distributed with rapid and gradual growth, showing clinical exacerbation depending on the tumor stage at the time of diagnosis. Timely innovative treatment, as in our case, can show an improvement in survival. A dermal matrix shows a new way to stimulate survival and clinical improvement without morbidity.

The case presented is a clear example of how to stimulate survival in patients with large-volume tumors involving skin and soft tissues. The management of an extensive bloody area in the scalp due to cancer gives us the initial guideline to establish a management algorithm in this type of patients (Fig. 11). Within our surgical practice, microsurgical flaps for full thickness coverage, such as the free-muscular latissimus dorsi flap or the omentum flap for this wide coverage, are viable options. However, in our patient, who due to the strong history of a low risk of survival (30 to 45% at 5 years) due to conclusive histological lineage, in addition to blood sequestration, this innovative treatment was a viable option.

This is a clinical case that shows an adequate multidisciplinary management and a medium-term survival which can be increased with the initiation of radiotherapy.

Aknowledgments

To the surgical oncology service, who approached the patient early and consulted us in a timely manner, and provided us with their surgical appointments for follow-up. At the Plastic and Reconstructive Surgery service, who helped set the tone for the follow-up and adequate control of the patient. To the Company of Instruments-Int (Instrumentos Médicos Internacionales S.A. de C.V), who supported us with the material for low-income patients.

References

1. Bourcier K, Le Cesne A, Tselikas L, Adam J, Mir O, Honore C, de Baere T. Basic Knowledge in Soft Tissue Sarcoma. Cardiovasc Intervent Radiol. 2019 Sep;42(9):1255-1261. doi:10.1007/s00270-019-02259-w. Epub 2019 Jun 24. PMID:31236647. https://pubmed.ncbi.nlm.nih.gov/31236647/ [ Links ]

2. Ray-Coquard I, Serre D, Reichardt P, Martín-Broto J, Bauer S. Options for treating different soft tissue sarcoma subtypes. Future Oncol. 2018 May;14(10s):25-49. doi:10.2217/fon-2018-0076. PMID:29768052. https://pubmed.ncbi.nlm.nih.gov/29768052/ [ Links ]

3. von Mehren M, Kane JM, Bui MM, Choy E, Connelly M, Dry S, Ganjoo KN, George S, Gonzalez RJ, Heslin MJ, Homsi J, Keedy V, Kelly CM, Kim E, Liebner D, McCarter M, McGarry SV, Meyer C, Pappo AS, Parkes AM, Paz IB, Petersen IA, Poppe M, Riedel RF, Rubin B, Schuetze S, Shabason J, Sicklick JK, Spraker MB, Zimel M, Bergman MA, George GV. NCCN Guidelines Insights:Soft Tissue Sarcoma, Version 1.2021. J Natl Compr Canc Netw. 2020 Dec 2;18(12):1604-1612. doi:10.6004/jnccn.2020.0058. PMID:33285515. [ Links ]

4. von Mehren M, Randall RL, Benjamin RS, Boles S, Bui MM, Ganjoo KN, George S, Gonzalez RJ, Heslin MJ, Kane JM, Keedy V, Kim E, Koon H, Mayerson J, McCarter M, McGarry SV, Meyer C, Morris ZS, O'Donnell RJ, Pappo AS, Paz IB, Petersen IA, Pfeifer JD, Riedel RF, Ruo B, Schuetze S, Tap WD, Wayne JD, Bergman MA, Scavone JL. Soft Tissue Sarcoma, Version 2.2018, NCCN Clinical Practice Guidelines in Oncology. J Natl Compr Canc Netw. 2018 May;16(5):536-563. doi:10.6004/jnccn.2018.0025. PMID:29752328. [ Links ]

5. Cates JMM. Staging soft tissue sarcoma of the head and neck:Evaluation of the AJCC 8^th edition revised T classifications. Head Neck. 2019 Jul;41(7):2359-2366. doi:10.1002/hed.25701. Epub 2019 Feb 19. PMID:30779403. [ Links ]

6. García, G et al. Manual de Oncología, procedimientos médico quirúrgicos. 2010 (4):931-971. Instituto Nacional de Cancerología. [ Links ]

7. Axel Le et al. Current treatment patterns in advanced soft tissue sarcoma:real-world evidence of over 5,000 European patients. Cancer &Chemotherapy Rev. 2020;15(1):45-54. [ Links ]

8. Moiemen NS, Staiano JJ, Ojeh NO, Thway Y, Frame JD. Reconstructive surgery with a dermal regeneration template:clinical and histologic study. Plast Reconstr Surg. 2001 Jul;108(1):93-103. doi:10.1097/00006534-200107000-00015. PMID:11420509. [ Links ]

9. Chou TD, Chen SL, Lee TW, Chen SG, Cheng TY, Lee CH, Chen TM, Wang HJ. Reconstruction of burn scar of the upper extremities with artificial skin. Plast Reconstr Surg. 2001 Aug;108(2):378-84:discussion 385. doi:10.1097/00006534-200108000-00015. PMID:11496178. [ Links ]

10. Abai B, Thayer D, Glat PM. The use of a dermal regeneration template (Integra) for acute resurfacing and reconstruction of defects created by excision of giant hairy nevi. Plast Reconstr Surg. 2004 Jul;114(1):162-8. doi:10.1097/01.prs.0000129078.41960.92. PMID:15220586. [ Links ]

11. Palao R, Gómez P, Huguet P. Burned breast reconstructive surgery with Integra dermal regeneration template. Br J Plast Surg. 2003 Apr;56(3):252-9. doi:10.1016/s0007-1226(03)00101-2. PMID:12↗21. [ Links ]

12. Johnson MB, Wong AK. Integra-based Reconstruction of Large Scalp Wounds:A Case Report and Systematic Review of the Literature. Plast Reconstr Surg Glob Open. 2016 Oct 24;4(10):e1074. doi:10.1097/GOX.0000000000001074. PMID:27826471;PMCID:PMC5096526. [ Links ]

FundingFor the realization of this article, support was received from the Commercial Director Lic. Jorge García and the team of Instrumentos Médicos Internacionales, S.A. de C.V., who supported the material as a donation, which went to Matríz Dermal to be able to handle this case. I confirm that this information has been included in the funding section of the manuscript.

Ethical disclosures

Protection of people and animals. The authors declare that no experiments were carried out on humans or animals for this research.

Data confidentiality. The authors declare that no patient data appears in this article.

Right to privacy and informed consent. The authors declare that no patient data appears in this article.

Received: March 24, 2022; Accepted: August 17, 2022

^* Correspondence: Adan Araujo-López E-mail: draraujolopez@gmail.com

^{Conflicts of interest}

The authors declare that they have no conflict of interest.

Sociedad Médica del Hospital General de Mexico. Published by Permanyer. This is an open ccess article under the CC BY-NC-ND license