Subscribe to RSS
DOI: 10.1055/s-0044-1788540
Microvascular Free-Flap Head and Neck Reconstruction: The Utility of the Modified Frailty Five-Item Index
Abstract
Background Microvascular free tissue transfer is a common tool for the reconstruction of oncologic head and neck defects. Adequate preoperative assessment can aid in appropriate risk stratification and peri-operative optimization. The modified five-item frailty index (mFI-5) is a validated risk-assessment scale; however, its utility in head and neck free-flap reconstruction is unknown when compared with other common risk factors.
Methods A retrospective, single-institution chart review (2017–2020) was performed. Patient demographics, defect and repair characteristics, pre- and peri-operative factors, and flap outcomes were recorded. A high mFI-5 score was defined as greater than 2. The total score, as well as other patient factors, was correlated to postoperative flap complications.
Results A total of 214 patients were deemed appropriate for conclusion. The mean age was 63.9 ± 12.8 years. There were an even number of males (52.8%) and females (47.2%). A fifth of subjects (20.8%) underwent preoperative radiotherapy. There were 21 cases (9.8%) of complete flap loss. A total of 34 patients (29.4%) experienced any postoperative complication related to flap outcomes. An elevated mFI-5 was significantly associated with a higher overall rate of postoperative complications (39.7 vs. 29.4%, p < 0.019) and total flap loss (16.7% vs. 6.6%, p < 0.033). Preoperative radiation was found to be associated with an increased complication rate (p < 0.003).
Conclusion The mFI-5 score may be a potentially significant tool in the risk stratification of patients undergoing head and neck free-flap reconstruction as opposed to commonly utilized risk factors. Preoperative radiotherapy is significantly associated with postoperative complications. Appropriate preoperative assessment may help tailor patient care preoperatively.
Prior Presentation
This study was presented as an oral presentation at Plastic Surgery, The Meeting (October 2023).
Publication History
Received: 09 March 2024
Accepted: 22 June 2024
Article published online:
22 July 2024
© 2024. Thieme. All rights reserved.
Thieme Medical Publishers, Inc.
333 Seventh Avenue, 18th Floor, New York, NY 10001, USA
-
References
- 1 Largo RD, Garvey PB. Updates in head and neck reconstruction. Plast Reconstr Surg 2018; 141 (02) 271e-285e
- 2 Othman S, Lukowiak T, Shakir S. et al. Bilayer wound matrix-based cutaneous scalp reconstruction: a multidisciplinary case control analysis of factors associated with reconstructive success and failure. J Plast Reconstr Aesthet Surg 2021; 74 (11) 3008-3014
- 3 Hurvitz KA, Kobayashi M, Evans GRD. Current options in head and neck reconstruction. Plast Reconstr Surg 2006; 118 (05) 122e-133e
- 4 Grammatica A, Piazza C, Paderno A, Taglietti V, Marengoni A, Nicolai P. Free flaps in head and neck reconstruction after oncologic surgery: expected outcomes in the elderly. Otolaryngol Head Neck Surg 2015; 152 (05) 796-802
- 5 Panayi AC, Foroutanjazi S, Parikh N. et al. The modified 5-item frailty index is a predictor of perioperative risk in breast reconstruction: an analysis of 40,415 cases. J Plast Reconstr Aesthet Surg 2022; 75 (09) 2941-2954
- 6 Balla FM, Yheulon CG, Stetler JL, Patel AD, Lin E, Davis SS. Ventral hernia repair outcomes predicted by a 5-item modified frailty index using NSQIP variables. Hernia 2019; 23 (05) 891-898
- 7 Panayi AC, Haug V, Kauke-Navarro M, Foroutanjazi S, Diehm YF, Pomahac B. The modified 5-item frailty index is a predictor of perioperative risk in head and neck microvascular reconstruction: an analysis of 3795 cases. Am J Otolaryngol 2021; 42 (06) 103121
- 8 Goshtasbi K, Birkenbeuel JL, Lehrich BM. et al. Association between 5-item modified frailty index and short-term outcomes in complex head and neck surgery. Otolaryngol Head Neck Surg 2022; 166 (03) 482-489
- 9 Moss W, Zhang R, Carter GC, Kwok AC. A case for the use of the 5-item modified frailty index in preoperative risk assessment for tissue expander placement in breast reconstruction. Ann Plast Surg 2022; 89 (01) 23-27
- 10 Halle M, Bodin I, Tornvall P, Wickman M, Farnebo F, Arnander C. Timing of radiotherapy in head and neck free flap reconstruction–a study of postoperative complications. J Plast Reconstr Aesthet Surg 2009; 62 (07) 889-895
- 11 Herle P, Shukla L, Morrison WA, Shayan R. Preoperative radiation and free flap outcomes for head and neck reconstruction: a systematic review and meta-analysis. ANZ J Surg 2015; 85 (03) 121-127
- 12 Las DE, de Jong T, Zuidam JM, Verweij NM, Hovius SE, Mureau MA. Identification of independent risk factors for flap failure: a retrospective analysis of 1530 free flaps for breast, head and neck and extremity reconstruction. J Plast Reconstr Aesthet Surg 2016; 69 (07) 894-906
- 13 Zhou W, Zhang WB, Yu Y. et al. Risk factors for free flap failure: a retrospective analysis of 881 free flaps for head and neck defect reconstruction. Int J Oral Maxillofac Implants 2017; 46 (08) 941-945
- 14 Othman S, Azoury SC, Tecce MG. et al. Free flap reconstruction of complex oncologic scalp defects in the setting of mesh cranioplasty: risk factors and outcomes. J Craniofac Surg 2020; 31 (04) 1107-1110
- 15 Wang KY, Lin YS, Chen LW, Yang KC, Huang WC, Liu WC. Risk of free flap failure in head and neck reconstruction: analysis of 21,548 cases from a nationwide database. Ann Plast Surg 2020; 84 (1S, Suppl 1): S3-S6
- 16 Panayi AC, Orkaby AR, Sakthivel D. et al. Impact of frailty on outcomes in surgical patients: a systematic review and meta-analysis. Am J Surg 2019; 218 (02) 393-400
- 17 Mrdutt MM, Papaconstantinou HT, Robinson BD, Bird ET, Isbell CL. Preoperative frailty and surgical outcomes across diverse surgical subspecialties in a large health care system. J Am Coll Surg 2019; 228 (04) 482-490
- 18 Eming SA, Krieg T, Davidson JM. Inflammation in wound repair: molecular and cellular mechanisms. J Invest Dermatol 2007; 127 (03) 514-525
- 19 Wu CC, Lin PY, Chew KY, Kuo YR. Free tissue transfers in head and neck reconstruction: complications, outcomes and strategies for management of flap failure: analysis of 2019 flaps in single institute. Microsurgery 2014; 34 (05) 339-344
- 20 Tecce MG, Othman S, Mauch JT. et al. Complex oncologic resection and reconstruction of the scalp: predictors of morbidity and mortality. Arch Craniofac Surg 2020; 21 (04) 229-236
- 21 Miller H, Bush K, Delancy M. et al. Effect of preoperative radiation on free flap outcomes for head and neck reconstruction: an updated systematic review and meta-analysis. J Plast Reconstr Aesthet Surg 2022; 75 (02) 743-752
- 22 Tsai CH. Chen YJ, Lin YC, Liu YC, Kao HK, Mao SH. New-onset atrial fibrillation is a red flag to microvascular free tissue transfer failure in head and neck cancer patients. J Reconstr Microsurg 2024; (e-pub ahead of print)
- 23 Atomura D, Osaki T, Iwae S, Sakakibara S. Early predictors of fistula formation following head and neck reconstruction. J Reconstr Microsurg 2024; 40 (06) 466-472
- 24 Jia E, Garvey SR, Chen A. et al. Does frailty predict outcomes in patients undergoing free or pedicled flap procedures for lower extremity limb salvage? An Analysis of the American College of Surgeons National Surgical Quality Improvement Program Database. J Reconstr Microsurg 2024; 40 (02) 163-170
- 25 Chow AL, Karius AK, Broderick KP, Cooney CM. Frailty is the new age: a retrospective study of modified frailty index for preoperative risk assessment in autologous breast reconstruction. J Reconstr Microsurg 2023; 39 (02) 81-91
- 26 Huffman SS, Bovill JD, Deldar R. et al. Comparison of Charlson comorbidity index and modified 5-factor frailty index as clinical risk stratification tools in predicting adverse outcomes in patients undergoing lower extremity free-flap reconstruction. J Reconstr Microsurg 2023; 39 (06) 419-426