Fully-automated sarcopenia assessment in head and neck cancer: development and external validation of a deep learning pipeline.
Zezhong YeAnurag SarafYashwanth RavipatiFrank HoebersYining ZhaAnna ZapaishchykovaJirapat LikitlersuangRoy B TishlerJonathan D SchoenfeldDanielle N MargalitRobert I HaddadAntti Aarni MäkitieMohamed NaserKareem A WahidJaakko SahlstenJoel JaskariKimmo KaskiAntti A MäkitieClifton David FullerHugo J W L AertsBenjamin H KannPublished in: medRxiv : the preprint server for health sciences (2023)
In this study, we developed and externally validated a deep learning model to investigate the impact of sarcopenia, defined as the loss of skeletal muscle mass, on patients with head and neck squamous cell carcinoma (HNSCC) undergoing radiotherapy. We demonstrated an efficient, fullyautomated deep learning pipeline that can accurately segment C3 skeletal muscle area, calculate cross-sectional area, and derive a skeletal muscle index to diagnose sarcopenia from a standard of care CT scan. In multi-institutional data, we found that pre-treatment sarcopenia was associated with significantly reduced overall survival and an increased risk of adverse events. Given the increased vulnerability of patients with HNSCC, the assessment of sarcopenia prior to radiotherapy may aid in informed treatment decision-making and serve as a predictive marker for the necessity of early supportive measures.
Keyphrases
- skeletal muscle
- deep learning
- insulin resistance
- cross sectional
- machine learning
- early stage
- artificial intelligence
- decision making
- computed tomography
- radiation therapy
- community dwelling
- healthcare
- palliative care
- high throughput
- locally advanced
- type diabetes
- magnetic resonance imaging
- adipose tissue
- quality improvement
- image quality
- positron emission tomography
- affordable care act