Making the Subjective Objective: Machine Learning and Rhinoplasty

Dorfman, Robert; Chang, Irene; Saadat, Sean; Roostaeian, Jason

doi:10.1093/asj/sjz259

Cited by 36 publications

(42 citation statements)

References 10 publications

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“…2 ). 27 AI models were frequently burdened by phase 0 limitations related to data, statistical performance, and workflow (n = 26) or phase 1 limitations related to technical performance and safety (n = 28). However, many studies were limited by multiple factors from various limitation phases (mean limitations per study = 3.11, n = 44).…”

Section: Resultsmentioning

confidence: 99%

A Systematic Review of Artificial Intelligence Applications in Plastic Surgery: Looking to the Future

Spoer

Kiene

Dekker

et al. 2022

Plastic and Reconstructive Surgery - Global Open

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Background: Artificial intelligence (AI) is presently employed in several medical specialties, particularly those that rely on large quantities of standardized data. The integration of AI in surgical subspecialties is under preclinical investigation but is yet to be widely implemented. Plastic surgeons collect standardized data in various settings and could benefit from AI. This systematic review investigates the current clinical applications of AI in plastic and reconstructive surgery. Methods: A comprehensive literature search of the Medline, EMBASE, Cochrane, and PubMed databases was conducted for AI studies with multiple search terms. Articles that progressed beyond the title and abstract screening were then subcategorized based on the plastic surgery subspecialty and AI application. Results: The systematic search yielded a total of 1820 articles. Forty-four studies met inclusion criteria warranting further analysis. Subcategorization of articles by plastic surgery subspecialties revealed that most studies fell into aesthetic and breast surgery (27%), craniofacial surgery (23%), or microsurgery (14%). Analysis of the research study phase of included articles indicated that the current research is primarily in phase 0 (discovery and invention; 43.2%), phase 1 (technical performance and safety; 27.3%), or phase 2 (efficacy, quality improvement, and algorithm performance in a medical setting; 27.3%). Only one study demonstrated translation to clinical practice. Conclusions: The potential of AI to optimize clinical efficiency is being investigated in every subfield of plastic surgery, but much of the research to date remains in the preclinical status. Future implementation of AI into everyday clinical practice will require collaborative efforts.

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Section: Resultsmentioning

confidence: 99%

A Systematic Review of Artificial Intelligence Applications in Plastic Surgery: Looking to the Future

Spoer

Kiene

Dekker

et al. 2022

Plastic and Reconstructive Surgery - Global Open

View full text Add to dashboard Cite

show abstract

“…27,28 Diminished skin elasticity, atrophy of support structures, and ossification of the fibrocartilaginous framework may contribute to changes in nasal morphology associated with aging, which can be addressed through rhinoplasty. 27,28 Through implementing a Convolutional Neural Network algorithm, Dorfman et al 29 similarly established that aesthetic rhinoplasty conferred reductions in perceived age in an exclusive cohort of female patients. However, it is important to note that this study had a relatively short follow-up period (29 weeks), and thus, postoperative swelling could have impacted conclusions about the role of rhinoplasty on perceived age.…”

Section: Discussionmentioning

confidence: 99%

Perceived Age and Attractiveness Using Facial Recognition Software in Rhinoplasty Patients: A Proof-of-Concept Study

Khetpal

Peck

Parsaei

et al. 2022

Journal of Craniofacial Surgery

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: Artificial intelligence (Al)-based analyses may serve as a more objective tool for measuring cosmetic improvements following aesthetic plastic surgery. This preliminary proof-of-concept study utilized a novel commercial facial recognition software to assess perceived changes in age and attractiveness among patients receiving rhinoplasty. This study was a retrospective evaluation of three-dimensional photographs of patients who underwent rhinoplasty by the senior author (DS). Both pre- and post-operative (> 12-month follow-up) Vectra three-dimensional images (Canfield Scientific, Parsippany, NJ) were assessed using Haystack AI Software (Haystack AI, New York, NY). Facial attractiveness (score 1–10) and apparent age were predicted. A retrospective chart review of demographic variables was additionally performed. Paired t tests were used to compare age and attractiveness scores before and after surgery. Multivariate linear regression was performed to identify factors associated with age and attractiveness scores. One hundred twenty-four patients receiving rhinoplasty met the study criteria (average age: 35.58). Overall, rhinoplasty was associated with increases in Al-rated attractiveness (+0.28, P = 0.03) and decreases in perceived age relative to the patient’s true age (−1.03 years, P = 0.03). Greater decreases in postoperative perceived age were achieved in patients who appeared older than their actual age preoperatively (P < 0.001). Facial recognition software was successfully used to evaluate improvements in perceived age and attractiveness in patients undergoing aesthetic rhinoplasty. Patients were perceived by the software as younger and more attractive following rhinoplasty. Age reversal was greatest among patients who appeared much older than their actual age at the time of surgery. Level of Evidence: IV

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“… 18 , 37 , 39 , 40 , 46 , 51 , 53 , 59 , 63 Further, in conditions in which there are well-established correlations between certain risk markers and an outcome of interest, such as deranged blood tests on admission and AKI in burn patients, ML yielded highly accurate predictive algorithms. 38 , 44 , 55 24 47 However, attempts to include weakly related risk markers resulted in algorithms that had an overall lower predictive accuracy, rendering them unsafe for clinical practice. This review further identified that some plastic surgery subspecialties, such as hand surgery, have yet to incorporate this technology.…”

Section: Discussionmentioning

confidence: 99%

Machine Learning Demonstrates High Accuracy for Disease Diagnosis and Prognosis in Plastic Surgery

Mantelakis

Sorooshian

Khajuria

2021

Plastic and Reconstructive Surgery - Global Open

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Introduction: Machine learning (ML) is a set of models and methods that can detect patterns in vast amounts of data and use this information to perform various kinds of decision-making under uncertain conditions. This review explores the current role of this technology in plastic surgery by outlining the applications in clinical practice, diagnostic and prognostic accuracies, and proposed future direction for clinical applications and research. Methods: EMBASE, MEDLINE, CENTRAL and ClinicalTrials.gov were searched from 1990 to 2020. Any clinical studies (including case reports) which present the diagnostic and prognostic accuracies of machine learning models in the clinical setting of plastic surgery were included. Data collected were clinical indication, model utilised, reported accuracies, and comparison with clinical evaluation. Results: The database identified 1181 articles, of which 51 articles were included in this review. The clinical utility of these algorithms was to assist clinicians in diagnosis prediction (n=22), outcome prediction (n=21) and pre-operative planning (n=8). The mean accuracy is 88.80%, 86.11% and 80.28% respectively. The most commonly used models were neural networks (n=31), support vector machines (n=13), decision trees/random forests (n=10) and logistic regression (n=9). Conclusions: ML has demonstrated high accuracies in diagnosis and prognostication of burn patients, congenital or acquired facial deformities, and in cosmetic surgery. There are no studies comparing ML to clinician's performance. Future research can be enhanced using larger datasets or utilising data augmentation, employing novel deep learning models, and applying these to other subspecialties of plastic surgery.

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Making the Subjective Objective: Machine Learning and Rhinoplasty

Cited by 36 publications

References 10 publications

A Systematic Review of Artificial Intelligence Applications in Plastic Surgery: Looking to the Future

A Systematic Review of Artificial Intelligence Applications in Plastic Surgery: Looking to the Future

Perceived Age and Attractiveness Using Facial Recognition Software in Rhinoplasty Patients: A Proof-of-Concept Study

Machine Learning Demonstrates High Accuracy for Disease Diagnosis and Prognosis in Plastic Surgery

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