Advances in Technology for Functional Rhinoplasty: The Next Frontier.
Abstract
Advances in computer modeling and simulation technologies have the potential to provide facial plastic surgeons with information and tools that can aid in patient-specific surgical planning for rhinoplasty. Finite element modeling and computational fluid dynamics are modeling technologies that have been applied to the nose to study structural biomechanics and nasal airflow. Combining these technologies with patient-specific imaging data and symptom measures has the potential to alter the future landscape of nasal surgery.
추출된 의학 개체 (NER)
| 유형 | 영어 표현 | 한국어 / 풀이 | UMLS CUI | 출처 | 등장 |
|---|---|---|---|---|---|
| 시술 | rhinoplasty
|
코성형술 | dict | 2 | |
| 시술 | nasal surgery
|
코성형술 | dict | 1 | |
| 합병증 | nasal airflow
|
scispacy | 1 | ||
| 질환 | nasal airflow
|
scispacy | 1 | ||
| 기타 | nasal
|
scispacy | 1 |
MeSH Terms
Biomechanical Phenomena; Computer Simulation; Finite Element Analysis; Humans; Models, Anatomic; Nasal Septum; Nose; Rhinoplasty
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관련 논문
- The impact of three-dimensional simulation and virtual reality technologies on surgical decision-making and postoperative satisfaction in aesthetic surgery: a preliminary study.
- Aesthetically ideal noses created using a single artificial intelligence model: Validating literature and exploring ethnic differences.
- Septocolumellar strut technique: Tip stability and aesthetic outcomes in rhinoplasty.
- Implications of Dermatologic Disorders in Facial Cosmetic Surgery: A Systematic Review.
- Factors on Quality of Life Improvement in Septorhinoplasty: Prospective Evaluation Using the Functional Rhinoplasty Outcome Inventory 17 and Its Minimally Important Difference.