Myomodulation using botulinum toxin in septorhinoplasty for crooked noses: Introducing the concept and application of Nasal Muscle Imbalance Theory (NMIT)

Journal article


Wong, E. and D'Souza, Alwyn Ray 2023. Myomodulation using botulinum toxin in septorhinoplasty for crooked noses: Introducing the concept and application of Nasal Muscle Imbalance Theory (NMIT). Facial Plastic Surgery. 40 (01), pp. 052-060. https://doi.org/10.1055/a-2047-7179
AuthorsWong, E. and D'Souza, Alwyn Ray
AbstractThe 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 paper is to propose our nasal muscle imbalance theory (NMIT), which may explain the potential reason for re-deviation 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 other hand, 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 to the previously concave side, therefore increasing the risk of re-deviation of the nose back to the pre-operative side until muscle atrophy occurs in the convex side and a balanced nasal muscle pull is achieved. We believe that post-septorhinoplasty botulinum toxin (PSB) injections can be used as an adjunct in rhinoplasty surgery to effectively block the pulling actions of the stronger or over-acting nasal muscles by speeding up the atrophy process, while allowing patient’s nose to heal and stabilise 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 post-septorhinoplasty patients. The authors have already planned a multi-centre study to further evaluate this theory.
KeywordsSeptorhinoplasty; Deviated nose; Surgery
Year2023
JournalFacial Plastic Surgery
Journal citation40 (01), pp. 052-060
PublisherThieme
ISSN0736-6825
1098-8793
Digital Object Identifier (DOI)https://doi.org/10.1055/a-2047-7179
Official URLhttps://www.thieme-connect.de/products/ejournals/abstract/10.1055/a-2047-7179
Publication dates
Online06 Mar 2023
Publication process dates
Accepted26 Feb 2023
Deposited17 Mar 2023
Output statusPublished
Permalink -

https://repository.canterbury.ac.uk/item/9425q/myomodulation-using-botulinum-toxin-in-septorhinoplasty-for-crooked-noses-introducing-the-concept-and-application-of-nasal-muscle-imbalance-theory-nmit

  • 67
    total views
  • 0
    total downloads
  • 3
    views this month
  • 0
    downloads this month

Export as

Related outputs

Assessing the quality and readability of online patient information: ENT UK patient information e-leaflets versus responses by a generative artificial intelligence
Shamil, E., Ko, Tsz Ki, Fan, K., Schuster-Bruce, James, Jaafar, Mustafa, Khwaja, Sadie, Eynon-Lewis, Nicholas, D'Souza, Alwyn and Andrews, Peter 2024. Assessing the quality and readability of online patient information: ENT UK patient information e-leaflets versus responses by a generative artificial intelligence. Facial Plastic Surgery. https://doi.org/10.1055/a-2413-3675
“Comprehensive Rhinoplasty: Structural and Preservation Concepts” by Sam P. Most
Vansteelant, Géraldine and D'Souza, Alwyn Ray 2024. “Comprehensive Rhinoplasty: Structural and Preservation Concepts” by Sam P. Most. Facial Plastic Surgery. 40 (06), pp. 803-804. https://doi.org/10.1055/s-0044-1786186