Ultrasound-guided Non-invasive Simulation in Anesthesia Residency Training (non-invasive)

1. Teaching Implementation Prior to training, a questionnaire survey was used to collect basic information from the trainees. The course content was developed based on the following textbooks: Clinical Anesthesiology (4th Edition) edited by Guo Qulian and Yao Shanglong and published by People's Medical Publishing House; Modern Anesthesiology (4th Edition) edited by Deng Xiaoming et al. and published by People's Medical Publishing House; and Ultrasound-Guided Nerve Block Techniques edited by Wang Aizhong et al. and published by Shanghai Jiao Tong University Press.

   All participants initially attended a two-hour instructional course led by two teaching instructors. The course covered the techniques of interscalene brachial plexus, rectus sheath, adductor canal, and sciatic nerve blocks at the popliteal level. The content was based on the recent consensus project for basic ultrasound-guided blocks (Plan A) led by the British Association of Regional Anaesthesia, which defined strongly recommended structures for targeted scanning and block views. The specific structures included:

   Interscalene Brachial Plexus Block: Anterior scalene muscle; C5 nerve root; C6 nerve root; Middle scalene muscle.

   Rectus Sheath Block: Peritoneum; Rectus abdominis muscle; Anterior layer of the rectus sheath; Posterior layer of the rectus sheath.

   Adductor Canal Block: Femoral artery; Saphenous nerve; Sartorius muscle. Sciatic Nerve Block at the Popliteal Level: Common peroneal nerve; Tibial nerve. An additional structure, the popliteal artery, was also included in the block view for the popliteal sciatic nerve block.

   The teaching integrated practical case studies, images, videos, and other multimedia presentations. It focused on training ultrasound operation techniques, the acquisition of ultrasound images of nerves or tissue structures, structure identification, needle insertion methods, and puncture skills. This instruction aimed to establish a consistent scanning approach for each peripheral nerve block to minimize the influence of different scanning techniques on outcome measures.

   The instructional course also included familiarization with the Needle Trainer and the Sonosite Edge II ultrasound system, allowing participants to become acquainted with the equipment before evaluation. Two healthy volunteers (BMI 18.5-22 kg/m², aged 20-30 years) were recruited for ultrasound scanning practice.

   Participants in the experimental group used the Needle Trainer to perform non-invasive simulated puncture training for the four nerve blocks on healthy volunteers, utilizing a retractable virtual puncture needle. This training aimed to develop coordination between needle tracking and the ultrasound probe. Real-time ultrasound scanning provided color-highlighted displays of key ultrasound anatomical structures (the aforementioned four nerve blocks have CE/FDA certification). Participants in the control group used the Sonosite Edge II ultrasound system to perform scanning on healthy volunteers.

   Both groups prioritized hands-on practice, supplemented by instructor guidance. Participants were encouraged to ask questions at any time, with instructors providing real-time feedback, offering suggestions for improvement, and promptly adjusting participants' operation techniques and skills. Each participant received 12 minutes of ultrasound operation training per session. The training period spanned two weeks, followed by one week of clinical rotation. Both groups received equal training duration and identical instructional content.

2. Teaching Effectiveness Evaluation 2.1 Theoretical Assessment After the training, a theoretical examination was administered to participants from both groups. The exam focused on the identification of ultrasound anatomical structures and consisted of 25 multiple-choice questions. These questions were divided equally (5 questions each) into five sections: ultrasound basics and operation techniques, interscalene brachial plexus block, rectus sheath block, adductor canal block, and sciatic nerve block at the popliteal level. The total score was 100 points.

2.2 Practical Assessment A single expert, who was blinded to participant group allocation and had not been involved in the earlier instruction, assessed all participants. Each participant performed scans for the four nerve blocks on the same healthy volunteer. For each scan, timing (in seconds) began when the ultrasound probe touched the volunteer's skin and ended when the participant declared they had obtained the correct block view. At that moment, the ultrasound image was frozen and the time was recorded. The expert documented whether the obtained block view was correct (Yes/No). A correct block view was defined as one where the frozen image captured all structures identified during the earlier instruction.

Subsequently, the participant was asked to identify each strongly recommended structure for that specific peripheral nerve block on the original, unmodified ultrasound image displayed on the SonoSite machine. The expert recorded whether each structure identification was correct (Yes/No). Finally, for that scan, the expert gave the participant a global rating score for the scan on a scale from 0 (poor) to 10 (excellent).

For the clinical assessment (performing an adductor canal block on a patient), an experienced attending anesthesiologist or above was present to ensure patient safety and manage any emergent situations. The procedure was evaluated on-site by two experts in ultrasound-guided nerve blocks. The time taken for the nerve block procedure (from needle insertion to completion of the block) was recorded. All ultrasound imaging during each procedure was saved on the ultrasound machine's hard drive and transferred to a computer for subsequent analysis. The total procedure time was recorded from needle skin puncture until the needle tip was clearly visualized in the ultrasound image as successfully contacting the target. The number of puncture attempts was also recorded.

Upon completion of the procedure, the experts subjectively scored the visibility of the participant's needle tip on a scale from 1 (not visible) to 5 (very clear). An objective assessment of the dynamic images was performed using the method proposed by Hebard and Hocking [5]. All recorded ultrasound clips were reviewed independently by two blinded researchers using playback software. Clips were played back at slow speeds (1/4, 1/2 speed) and paused when necessary to precisely determine the presence or absence of the needle tip. The researchers measured the absolute time the needle tip was in view during each procedure (time visible) and calculated the percentage of time the needle tip was visible for each procedure (time visible / total procedure time × 100%), which we defined as the "objective needle tip visibility." The primary outcome measure was this needle tip visibility percentage.

Following this, the operator provided a confidence score regarding needle tip localization (1: no confidence at all, 2: slightly confident, 3: moderately confident, 4: quite confident, 5: very confident (able to accurately judge needle tip position)). Patient satisfaction with analgesia 30 minutes after the nerve block was assessed using an NRS score (0: extremely dissatisfied, 10: completely satisfied). The number of puncture attempts was recorded.