Subscribe to RSS
DOI: 10.1055/a-2047-7179
Myomodulation Using Botulinum Toxin in Septorhinoplasty for Crooked Noses: Introducing the Concept and Application of Nasal Muscle Imbalance Theory
Abstract
The role of septorhinoplasty for adequate correction of deviated nose is well documented, but the rationales and patterns for recurrences after proper rhinoplasty remain unclear. There has also been little attention given to the influence of nasal musculatures on the stability of nasal structures after septorhinoplasty. The aim of this article is to propose our nasal muscle imbalance theory, which may explain the potential reason for redeviation of the noses in the initial period after septorhinoplasty. We postulate that in a chronically deviated nose, the nasal muscles on the convex side will be stretched and develop hypertrophy after prolonged period of increased contractile activity. On the contrary, the nasal muscles on the concave side will undergo atrophy due to reduced load requirement. In the initial period of recovery after a septorhinoplasty to bring the nose back to midline, this muscle imbalance is still uncorrected with unequal pulling forces on the nasal structure because the stronger nasal muscles on the previously convex side is still hypertrophied and exert stronger forces compared with the previously concave side, therefore increasing the risk of redeviation of the nose back to the preoperative side until muscle atrophy occurs in the convex side and a balanced nasal muscle pull is achieved. We believe that postseptorhinoplasty botulinum toxin injections can be used as an adjunct in rhinoplasty surgery to effectively block the pulling actions of the stronger or overacting nasal muscles by speeding up the atrophy process while allowing patient's nose to heal and stabilize in the desired position. However, further studies to objectively confirm this hypothesis is required, which include comparing topographic measurements, imaging and electromyography signals before and after injections in postseptorhinoplasty patients. The authors have already planned a multicenter study to further evaluate this theory.
Publication History
Accepted Manuscript online:
06 March 2023
Article published online:
06 April 2023
© 2023. Thieme. All rights reserved.
Thieme Medical Publishers, Inc.
333 Seventh Avenue, 18th Floor, New York, NY 10001, USA
-
References
- 1 Goffart YL, Remacle S. Rhinoplasty in the deviated nose: patterns of recurrence and role of facial asymmetry. Eur J Plast Surg 2019; 42: 569-576
- 2 Hussein WKA. Crooked nose: an update of management strategies. Egypt J Ear, Nose, Throat Allied Sci 2015; 16: 1-7
- 3 Goffart Y, Remacle S. Rigging the nose: a pilot study using barbed sutures in patients with deviated nose. Eur J Plast Surg 2020; 43: 549-556
- 4 Jang YJ, Wang JH, Lee BJ. Classification of the deviated nose and its treatment. Arch Otolaryngol Head Neck Surg 2008; 134 (03) 311-315
- 5 Raskin J, Borrelli M, Nasrollahi T, Chen H. Rhinoplasty complication requiring multiple revisions. Ear Nose Throat J 2022; 101 (10_suppl): 23S-25S
- 6 Sharif-Askary B, Carlson AR, Van Noord MG, Marcus JR. Incidence of postoperative adverse events after rhinoplasty: a systematic review. Plast Reconstr Surg 2020; 145 (03) 669-684
- 7 Cerkes N. The crooked nose: principles of treatment. Aesthet Surg J 2011; 31 (02) 241-257
- 8 Ozturan O, Ozcan C, Miman MC. Intrinsic nasal muscles and their electromyographic evaluation after external septorhinoplasty. Otolaryngol Head Neck Surg 2001; 125 (04) 332-338
- 9 Lee W, Ahn TH, Cheon GW, Lee MJ, Yang EJ. Comparative analysis of botulinum toxin injection after corrective rhinoplasty for deviated nose and alar asymmetry. J Cosmet Dermatol 2021; 20 (02) 451-456
- 10 Cox SE, Adigun CG. Complications of injectable fillers and neurotoxins. Dermatol Ther 2011; 24 (06) 524-536
- 11 Kim TK, Jeong JY. Surgical anatomy for Asian rhinoplasty. Arch Craniofac Surg 2019; 20 (03) 147-157
- 12 Guyuron B. Soft tissue functional anatomy of the nose. Aesthet Surg J 2006; 26 (06) 733-735
- 13 Saban Y, Andretto Amodeo C, Hammou JC, Polselli R. An anatomical study of the nasal superficial musculoaponeurotic system: surgical applications in rhinoplasty. Arch Facial Plast Surg 2008; 10 (02) 109-115
- 14 Ghassemi A, Prescher A, Riediger D, Axer H. Anatomy of the SMAS revisited. Aesthetic Plast Surg 2003; 27 (04) 258-264
- 15 Pitanguy I. Revisiting the dermocartilaginous ligament. Plast Reconstr Surg 2001; 107 (01) 264-266
- 16 Rohrich RJ, Hoxworth RE, Thornton JF, Pessa JE. The pyriform ligament. Plast Reconstr Surg 2008; 121 (01) 277-281
- 17 Bohluli B, Bagheri SC, Moharamnejad N. A modified application of pyriform ligament release for nasal base reduction. Plast Reconstr Surg 2012; 129 (04) 741e-743e
- 18 Gerbault O, Daniel RK, Kosins AM. The role of piezoelectric instrumentation in rhinoplasty surgery. Aesthet Surg J 2016; 36 (01) 21-34
- 19 Daniel RK, Palhazi P. The nasal ligaments and tip support in rhinoplasty: an anatomical study. Aesthet Surg J 2018; 38 (04) 357-368
- 20 Gruber RP, Piper M, Chang J. Commentary on: the nasal ligaments and tip support in rhinoplasty: an anatomical study. Aesthet Surg J 2018; 38 (04) 369-373
- 21 Hartman C, Holton N, Miller S. et al. Nasal septal deviation and facial skeletal asymmetries. Anat Rec (Hoboken) 2016; 299 (03) 295-306
- 22 Rohrich RJ, Villanueva NL, Small KH, Pezeshk RA. Implications of facial asymmetry in rhinoplasty. Plast Reconstr Surg 2017; 140 (03) 510-516
- 23 Yi JS, Jang YJ. Frequency and characteristics of facial asymmetry in patients with deviated noses. JAMA Facial Plast Surg 2015; 17 (04) 265-269
- 24 Stenstrom SJ. The alar cartilage and the nasal deformity in unilateral cleft lip. Plast Reconstr Surg 1966; 38 (03) 223-231
- 25 Hollier L, Kim J, Grayson BH, McCarthy JG. Congenital muscular torticollis and the associated craniofacial changes. Plast Reconstr Surg 2000; 105 (03) 827-835
- 26 Micheli-Pellegrini V. About muscle insertions in man (proposal for a new nomenclature of striated muscle). Acta Otorhinolaryngol Ital 2011; 31 (03) 167-176
- 27 de Maio M. Myomodulation with injectable fillers: an innovative approach to addressing facial muscle movement. Aesthetic Plast Surg 2018; 42 (03) 798-814
- 28 Fidler MW, Jowett RL. Muscle imbalance in the aetiology of scoliosis. J Bone Joint Surg Br 1976; 58 (02) 200-201
- 29 Riddle HF, Roaf R. Muscle imbalance in the causation of scoliosis. Lancet 1955; 268 (6877): 1245-1247
- 30 Cheung J, Halbertsma JP, Veldhuizen AG. et al. A preliminary study on electromyographic analysis of the paraspinal musculature in idiopathic scoliosis. Eur Spine J 2005; 14 (02) 130-137
- 31 Jiang J, Meng Y, Jin X. et al. Volumetric and fatty infiltration imbalance of deep paravertebral muscles in adolescent idiopathic scoliosis. Med Sci Monit 2017; 23: 2089-2095
- 32 Kienstra M. Secondary rhinoplasty: revising the crooked nose. Facial Plast Surg 2011; 27 (05) 491-496
- 33 Galadari H, Galadari I, Smit R, Prygova I, Redaelli A. Use of abobotulinumtoxina for cosmetic treatments in the neck, and middle and lower areas of the face: a systematic review. Toxins (Basel) 2021; 13 (02) 13
- 34 Mandavia R, Dessouky O, Dhar V, D'Souza A. The use of botulinum toxin in otorhinolaryngology: an updated review. Clin Otolaryngol 2014; 39 (04) 203-209
- 35 Yu Y, Sun J, Shen Z, Lin X, Xu J. Auxiliary usage of botulinum toxin A in plastic surgery in China. J Cosmet Dermatol 2020; 19 (05) 1021-1028
- 36 Clark MP, Greenfield B, Hunt N, Hall-Craggs M, McGrouther DA. Function of the nasal muscles in normal subjects assessed by dynamic MRI and EMG: its relevance to rhinoplasty surgery. Plast Reconstr Surg 1998; 101 (07) 1945-1955
- 37 Letourneau A, Daniel RK. The superficial musculoaponeurotic system of the nose. Plast Reconstr Surg 1988; 82 (01) 48-57
- 38 Oh SH, Choi S, Kim DW, Jeong JY. Intranasal approach for manipulating the depressor septi nasi. J Craniofac Surg 2012; 23 (02) 367-369
- 39 Lee JY, Hur M-S. An anatomical description of the anomalous nasi muscle. Korean J Phys Anthropol 2017; 30: 109-112