F. Tissedre scite author profile

The therapeutic management of severe radiation burns remains a challenging issue today. Conventional surgical treatment including excision, skin autograft, or flap often fails to prevent unpredictable and uncontrolled extension of the radiation‐induced necrotic process. In a recent very severe accidental radiation burn, we demonstrated the efficiency of a new therapeutic approach combining surgery and local cellular therapy using autologous mesenchymal stem cells (MSC), and we confirmed the crucial place of the dose assessment in this medical management. The patient presented a very significant radiation lesion located on the arm, which was first treated by several surgical procedures: iterative excisions, skin graft, latissimus muscle dorsi flap, and forearm radial flap. This conventional surgical therapy was unfortunately inefficient, leading to the use of an innovative cell therapy strategy. Autologous MSC were obtained from three bone marrow collections and were expanded according to a clinical‐grade protocol using platelet‐derived growth factors. A total of five local MSC administrations were performed in combination with skin autograft. After iterative local MSC administrations, the clinical evolution was favorable and no recurrence of radiation inflammatory waves occurred during the patient's 8‐month follow‐up. The benefit of this local cell therapy could be linked to the “drug cell” activity of MSC by modulating the radiation inflammatory processes, as suggested by the decrease in the C‐reactive protein level observed after each MSC administration. The success of this combined treatment leads to new prospects in the medical management of severe radiation burns and more widely in the improvement of wound repair.

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Therapeutic Potential of Gingival Fibroblasts for Cutaneous Radiation Syndrome: Comparison to Bone Marrow-Mesenchymal Stem Cell Grafts

Linard

Tissedre

Busson

et al. 2015

Stem Cells and Development

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Mesenchymal stem cell (MSC) therapy has recently been investigated as a potential treatment for cutaneous radiation burns. We tested the hypothesis that injection of local gingival fibroblasts (GFs) would promote healing of radiation burn lesions and compared results with those for MSC transplantation. Human clinicalgrade GFs or bone marrow-derived MSCs were intradermally injected into mice 21 days after local leg irradiation. Immunostaining and real-time PCR analysis were used to assess the effects of each treatment on extracellular matrix remodeling and inflammation in skin on days 28 and 50 postirradiation. GFs induced the early development of thick, fully regenerated epidermis, skin appendages, and hair follicles, earlier than MSCs did. The acceleration of wound healing by GFs involved rearrangement of the deposited collagen, modification of the Col/MMP/TIMP balance, and modulation of the expression and localization of tenascin-C and of the expression of growth factors (VEGF, EGF, and FGF7). As MSC treatment did, GF injection decreased the irradiation-induced inflammatory response and switched the differentiation of macrophages toward an M2-like phenotype, characterized by CD163 + macrophage infiltration and strong expression of arginase-1. These findings indicate that GFs are an attractive target for regenerative medicine, for easier to collect, can grow in culture, and promote cutaneous wound healing in irradiation burn lesions.

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New Therapeutical Approach in the Treatment of Severe Radiation Burn: Surgery and Local Stem Cell Therapy

et al. 2008

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The therapeutical management of severe radiation burns remains today a challenging issue. The conventional surgical treatment (excision and skin autograft or flap) often fails to prevent unpredictable and un-controlled extension of the radiation necrotic process. We report here our second experience of therapeutic management of a radiation accident victim combining surgery and cellular therapy using autologous Mesenchymal Stem Cells (MSC). The patient presented a very severe arm radiation burn which was treated by several surgical times: iterative excisions, skin graft, latissimus muscle dorsi flap and forearm radial flap). Local autologous MSC were administrated as an adjuvant to improve the surgical approach. The clinical evolution (radiation pain and healing progression) was favourable and no recurrence of radiation inflammatory waves was observed during the eight month patient's follow-up suggesting that MSC act as "cell drug" in modulating radiation inflammatory processes. These results open new prospects in the medical management of severe radiation burns.

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F. Tissedre

Emerging therapy for improving wound repair of severe radiation burns using local bone marrow-derived stem cell administrations

Therapeutic Potential of Gingival Fibroblasts for Cutaneous Radiation Syndrome: Comparison to Bone Marrow-Mesenchymal Stem Cell Grafts

New Therapeutical Approach in the Treatment of Severe Radiation Burn: Surgery and Local Stem Cell Therapy

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