Machine learning monitoring for laser osteotomy.
Sergey ShevchikHervé Nguendon KenhaghoTri Le-QuangNeige FaivreBastian MeylanRaphael GuzmanPhilippe C CattinAzhar ZamKilian WasmerPublished in: Journal of biophotonics (2021)
This work proposes a new online monitoring method for an assistance during laser osteotomy. The method allows differentiating the type of ablated tissue and the applied dose of laser energy. The setup analyzes the laser-induced acoustic emission, detected by an airborne microphone sensor. The analysis of the acoustic signals is carried out using a machine learning algorithm that is pre-trained in a supervised manner. The efficiency of the method is experimentally evaluated with several types of tissues, which are: skin, fat, muscle, and bone. Several cutting-edge machine learning frameworks are tested for the comparison with the resulting classification accuracy in the range of 84-99%. It is shown that the datasets for the training of the machine learning algorithms are easy to collect in real-life conditions. In the future, this method could assist the doctors during laser osteotomy, minimizing the damage of the nearby healthy tissues and provide cleaner pathologic tissue removal.
Keyphrases
- machine learning
- artificial intelligence
- big data
- deep learning
- total knee arthroplasty
- gene expression
- high speed
- soft tissue
- adipose tissue
- skeletal muscle
- computed tomography
- body composition
- magnetic resonance
- neoadjuvant chemotherapy
- bone mineral density
- resistance training
- radiation therapy
- high resolution
- lymph node
- contrast enhanced
- postmenopausal women
- medical students
- air pollution
- bone loss
- bone regeneration