Microvascular reconstruction of the tongue using a free anterolateral thigh flap: Three-dimensional evaluation of volume loss after radiotherapy

The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject...

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Published inJournal of cranio-maxillo-facial surgery Vol. 44; no. 9; pp. 1287 - 1291
Main Authors Tarsitano, Achille, Battaglia, Salvatore, Cipriani, Riccardo, Marchetti, Claudio
Format Journal Article
LanguageEnglish
Published Scotland Elsevier Ltd 01.09.2016
Subjects
Adult
Aged
Aged, 80 and over
Anterolateral thigh flap
Carcinoma, Squamous Cell - diagnostic imaging
Carcinoma, Squamous Cell - radiotherapy
Carcinoma, Squamous Cell - surgery
Combined Modality Therapy
Female
Free flap shrinkage
Free Tissue Flaps
Glossectomy - methods
Humans
Imaging, Three-Dimensional
Magnetic Resonance Imaging
Male
Microvascular reconstruction
Middle Aged
Radiotherapy
Surgery
Thigh
Tongue Neoplasms - diagnostic imaging
Tongue Neoplasms - radiotherapy
Tongue Neoplasms - surgery
Tongue reconstruction
Treatment Outcome
Microvascular reconstruction
Anterolateral thigh flap
Radiotherapy
Tongue reconstruction
Free flap shrinkage
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Abstract The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2) MRI scan was obtained 6 months later; and a third (T3) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm3. The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm3; this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.
AbstractList Abstract The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1 ) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2 ) MRI scan was obtained 6 months later; and a third (T3 ) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm3 . The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm3 ; this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.
The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2) MRI scan was obtained 6 months later; and a third (T3) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm(3). The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm(3); this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2) MRI scan was obtained 6 months later; and a third (T3) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm(3). The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm(3); this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.
The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2) MRI scan was obtained 6 months later; and a third (T3) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm(3). The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm(3); this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.
The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of reconstruction often requires a bigger flap volume than is actually needed to repair the defect. This is because every reconstructive flap is subject to a shrinking process due to oedema reduction and differences among individual tissue healing processes. Moreover, patients with advanced cancers often need adjuvant radiation therapy, which can result in further flap volume loss. For these reasons, we designed this study to assess the three-dimensional flap volume loss after tongue reconstruction using an anterolateral thigh flap (ALTF). Our aim was to analyse the effects of radiotherapy on flap volume loss. The volume of ALTF was evaluated using the following protocol: an initial (T1) post operative magnetic resonance imaging (MRI) scan was acquired between 3 and 8 weeks after the reconstructive procedure; a second (T2) MRI scan was obtained 6 months later; and a third (T3) MRI scan was performed 1 year after the end of treatment. Three-dimensional flap contouring was carried out, with outlining of the graft margin and comparison of its tissue density with that of the surrounding structures. Flap volume was calculated using dedicated software. In total, 20 patients who satisfied the inclusion criteria were enrolled. Adjuvant radiation therapy was administered in 11 of the 20 patients. In the patients treated with postoperative radiotherapy, the mean flap volume loss was 16.5 cm3. The patients who were not irradiated postoperatively showed a mean flap volume loss of 6.9 cm3; this difference was statistically significant (p = 0.041). Our study indicated that 12 months after the end of treatment, patients reconstructed with an anterolateral thigh free flap had an average volume loss of 44.2% if treated with radiotherapy, whereas an average flap shrinkage of 19.8% occurred in patients who did not undergo postoperative radiotherapy. For these reasons, we recommend overcorrection by a factor of 1.4 in radiotherapy-treated patients, while a correction factor of 1.2 should be sufficient in patients not undergoing adjuvant radiotherapy.
Author Tarsitano, Achille
Marchetti, Claudio
Battaglia, Salvatore
Cipriani, Riccardo
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  organization: Maxillofacial Surgery Unit, S. Orsola-Malpighi Hospital, Department of Biomedical and Neuromotor Sciences (Head: Prof. Claudio Marchetti), Alma Mater Studiorum University of Bologna, Via S. Vitale 59, 40125 Bologna, Italy
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Issue 9
Keywords Microvascular reconstruction
Anterolateral thigh flap
Radiotherapy
Tongue reconstruction
Free flap shrinkage
Language English
License Copyright © 2016 European Association for Cranio-Maxillo-Facial Surgery. Published by Elsevier Ltd. All rights reserved.
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Snippet The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of...
Abstract The goal of tongue microvascular reconstruction is to maximise oral function with less morbidity while preserving speech and swallowing. This kind of...
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SubjectTerms Adult
Aged
Aged, 80 and over
Anterolateral thigh flap
Carcinoma, Squamous Cell - diagnostic imaging
Carcinoma, Squamous Cell - radiotherapy
Carcinoma, Squamous Cell - surgery
Combined Modality Therapy
Female
Free flap shrinkage
Free Tissue Flaps
Glossectomy - methods
Humans
Imaging, Three-Dimensional
Magnetic Resonance Imaging
Male
Microvascular reconstruction
Middle Aged
Radiotherapy
Surgery
Thigh
Tongue Neoplasms - diagnostic imaging
Tongue Neoplasms - radiotherapy
Tongue Neoplasms - surgery
Tongue reconstruction
Treatment Outcome
Title Microvascular reconstruction of the tongue using a free anterolateral thigh flap: Three-dimensional evaluation of volume loss after radiotherapy
URI https://www.clinicalkey.com/#!/content/1-s2.0-S1010518216300403
https://www.clinicalkey.es/playcontent/1-s2.0-S1010518216300403
https://dx.doi.org/10.1016/j.jcms.2016.04.031
https://www.ncbi.nlm.nih.gov/pubmed/27524383
https://www.proquest.com/docview/1820604840
Volume 44
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