Pignon JP, Bourhis J, et al. Chemotherapy added to locoregional treatment for head and neck squamous-cell carcinoma: three meta-analyses of updated individual data. Lancet. 2000;355:949–55.
National Comprehensive Cancer Network. NCCN Guidelines, Version 1. Panel Members Head and Neck Cancers, 2016.
Chim H, Salgado CJ, et al. Principles of head and neck reconstruction: an algorithm to guide flap selection. Semin Plast Surg. 2010;24:148–54.
Hsiao HT, Leu Y-S. Yi-Shing Leu : Primary closure versus radial forearm flap reconstruction after hemiglossectomy: functional assessment of swallowing and speech. Ann Plast Surg. 2020;49:612–6.
Joo Y-H, Hwang S-H, et al. Assessment of volume changes of radial forearm free flaps in head and neck cancer: long-term results. Oral Oncol. 2011;47:72–5.
Cho KJ, Joo YH, et al. Perioperative clinical factors affecting volume changes of reconstructed flaps in head and neck cancer patients: free versus regional flaps. Eur Arch Otorhinolaryngol. 2011;268:1061–5.
Sakamoto Y, Takahara T, et al. MRI analysis of chronological changes in free-flap volume in head and neck reconstruction by volumetry. Tokai J Exp Clin Med. 2014;39:44–50.
Kimura M, Takada K, et al. Quantitative analysis of chronological changes in the volume of flaps used for reconstruction of oral cavity defects. J Oral Sci. 2017;59:499–503.
Cai Y-C, Li C, et al. Comparative analysis of radial forearm free flap and anterolateral thigh flap in tongue reconstruction after radical resection of tongue cancer. ORL J Otorhinolaryngol Relat Spec. 2019;81:252–64.
Benanti E, Starnoni M, et al. Objective selection criteria between ALT and radial forearm flap in oral soft tissues reconstruction. Indian J Plast Surg. 2019;52:166–70.
Taiki Suzuki, Ichiro Tanaka, et al.: Preliminary Study of Temporal Change in Free Flap Volume after Tongue Reconstruction, Bull Tokyo Dent Coll. 2017;58:269–275.
Fujioka M, Masuda K, et al. Fatty tissue atrophy of free flap used for head and neck reconstruction. Microsurgery. 2010;31:32–5.
Yamaguchi K, Kimata Y, et al. Quantitative analysis of free flap volume changes in head and neck reconstruction. Head Neck. 2012;34:1403–7.
Sakamoto Y, Yanamoto S, et al. Magnitude of myocutaneous flaps and factors associated with loss of volume in oral cancer reconstructive surgery. J Oral Maxillofac Surg. 2016;74:644–9.
D’Onofrio M, De Robertis R, et al. Liver volumetry: is imaging reliable? Personal experience and review of the literature. World J Radiol. 2014;6:62–71.
Schmalbruch H, Al-Amood WS, et al. Morphology of long-term denervated rat soleus muscle and the effect of chronic electrical stimulation. J Physiol. 1991;441:233–41.
Oashi K, Furukawa H, et al. Vascularised fat flaps lose 44% of their weight 24 weeks after transplantation. J Plast Reconstr Aesth Surg. 2012;65:1403–9.
Pauchot J, Aubry S, et al. Preoperative imaging for deep inferior epigastric perforator flaps: a comparative study of computed tomographic angiography and magnetic resonance angiography. Eur J Plast Surf. 2012;35:795–801.
Ogino A, Onishi K, et al. Vascular waveform analysis of flap-feeding vessels using color doppler ultrasonography. Plast Surg Int. 2014;2014:1–8.
Urken ML, Weinberg H, et al. Microvascular free flaps in head and neck reconstruction. Arch Otolaryngol Head Neck Surg. 1994;120:633–40.
Tanaka K, Okazaki M, et al. Volumetric changes in transplanted vascularized fat flaps after ischemic or congestive stresses and their relationship to capillary density in a zucker fatty rat model. Microsurgery. 2015;35:653–6.
Peirong Y, Robb GL. Reconstruction for total and near-total glossectomy defects. Clin Plast Surg. 2005;32:411–9.
Hardee JP, Puppa MJ, et al. The effect of radiation dose on mouse skeletal muscle remodeling. Radiol Oncol. 2014;48:47–56.
Motoharu I. Ischemia-reperfusion changes in rat skeletal muscle morphology. Rigakuryoho Kagaku. 2012;27:91–6 (Japan).