INTRODUCTION: Ultrasound-guided regional anesthesia (UGRA) involves the acquisition and interpretation of ultrasound images to delineate sonoanatomy. This study explores the utility of a novel artificial intelligence (AI) device designed to assist in this task (ScanNav Anatomy Peripheral Nerve Block; ScanNav), which applies a color overlay on real-time ultrasound to highlight key anatomical structures. METHODS: Thirty anesthesiologists, 15 non-experts and 15 experts in UGRA, performed 240 ultrasound scans across nine peripheral nerve block regions. Half were performed with ScanNav. After scanning each block region, participants completed a questionnaire on the utility of the device in relation to training, teaching, and clinical practice in...
Artificial intelligence (AI) uses data and algorithms to aim to draw conclusions as good as humans (...
Zehao Wu, Yun Wang Department of Anesthesiology, Beijing Chaoyang Hospital, Capital Medical Universi...
Objective: To evaluate the effectiveness of a new learning tool for needle insertion accuracy skills...
Introduction Ultrasound-guided regional anesthesia (UGRA) involves the acquisition and interpretatio...
This work was funded by Intelligent Ultrasound Limited (Cardiff, UK). Data from this study were incl...
BACKGROUND: Ultrasonound is used to identify anatomical structures during regional anaesthesia and t...
Background Ultrasonound is used to identify anatomical structures during regional anaesthesia and to...
Ultrasound-guided regional anaesthesia (UGRA) involves the targeted deposition of local anaesthesia ...
Ultrasound-guided regional anesthesia involves visualizing sono-anatomy to guide needle insertion an...
This work, undertaken as part of the validation study for medical device regulatory approval, was fu...
Ultrasound‐guided regional anesthesia involves visualizing sono‐anatomy to guide needle insertion an...
INTRODUCTION: Regions considered optimal for performing peripheral nerve blocking have been well doc...
Artificial intelligence (AI) uses data and algorithms to aim to draw conclusions as good as humans (...
Zehao Wu, Yun Wang Department of Anesthesiology, Beijing Chaoyang Hospital, Capital Medical Universi...
Objective: To evaluate the effectiveness of a new learning tool for needle insertion accuracy skills...
Introduction Ultrasound-guided regional anesthesia (UGRA) involves the acquisition and interpretatio...
This work was funded by Intelligent Ultrasound Limited (Cardiff, UK). Data from this study were incl...
BACKGROUND: Ultrasonound is used to identify anatomical structures during regional anaesthesia and t...
Background Ultrasonound is used to identify anatomical structures during regional anaesthesia and to...
Ultrasound-guided regional anaesthesia (UGRA) involves the targeted deposition of local anaesthesia ...
Ultrasound-guided regional anesthesia involves visualizing sono-anatomy to guide needle insertion an...
This work, undertaken as part of the validation study for medical device regulatory approval, was fu...
Ultrasound‐guided regional anesthesia involves visualizing sono‐anatomy to guide needle insertion an...
INTRODUCTION: Regions considered optimal for performing peripheral nerve blocking have been well doc...
Artificial intelligence (AI) uses data and algorithms to aim to draw conclusions as good as humans (...
Zehao Wu, Yun Wang Department of Anesthesiology, Beijing Chaoyang Hospital, Capital Medical Universi...
Objective: To evaluate the effectiveness of a new learning tool for needle insertion accuracy skills...