A Trial to Determine the Effect of Simulation Based Training on Initial Performance of Ultrasound Guided Axillary Brachial Plexus Blockade in a Clinical Setting

NCT ID: NCT01965314

Last Updated: 2016-02-02

Basic Information

• Recruitment Status: TERMINATED
• Clinical Phase: NA
• Total Enrollment: 10 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2010-07-31
• Study Completion Date: 2010-11-30

Brief Summary

Investigators hypothesize that virtual reality based training offers an additional learning benefit over standard training (using cadaveric dissection and human volunteers) in preparing novice anaesthetists to perform their first Ultrasound guided Axillary Brachial Plexus Blockade (USgABPB) in the clinical setting.

Investigators hope that this body of work will aid the development of a visuo-haptic simulator used to improved training of doctors in performing USgABPB. Ultimately any patient having this procedure carried out in the future should benefit. In particular it will avoid the need for novice trainees to practice new techniques on patients.

Detailed Description

Ultrasound guided axillary brachial plexus blockade (USgABPB) is a commonly performed medical procedure which enables the performance of surgery on the upper limb without general anaesthesia. Its competent performance entails complex, simultaneous interactions between three processes. These are active management of the patient, acquisition and interpretation of ultrasound images, and the placement a needle tip close to specific nerves to facilitate deposition of local anaesthetic. Currently, the procedure is taught using two-dimensional drawings, cadaveric specimens, videos, 3D animations, live demonstrations, and/or supervised clinical practice. Simulated practice, using tofu-based or animal models, have been used to bridge the gap from knowledge to clinical performance. Training in medical procedural skills is currently undergoing important change. Factors including altered patient expectations and the European Working Time Directive (2000/34/EC amending Directive 93/104/EC) limit the number of clinical learning opportunities available to trainees. These changes are likely to decrease particularly the number of opportunities for trainees to learn and practice procedural skills in a clinical setting. The traditional Halstedian apprenticeship model of medical training is being challenged. In this model, training is associated with progressively less supervision as part of progressive independence. "See one, do one" is no longer an appropriate method for teaching procedural skills because patients are necessarily exposed to inexperienced practitioners. This model requires a large investment of time by both trainer and trainee in the clinical environment. Its application decreases the efficiency of operating room activity. These circumstances pose medical trainers and training bodies with a dilemma, a decrease in the number of individual opportunities implies that the total duration of training should increase or a lesser level of competence accepted at completion of training

Simulation has been used widely for training in and assessment of medical procedural skills. Applied to essential anaesthetic skills, simulation may be more efficient than the apprenticeship approach. This may offer a partial solution to the problem of limited clinical learning opportunities for USgPNB. Simulated practice with formative feedback has been shown to be of benefit in the rapid acquisition of basic ultrasound skills by inexperienced clinicians. Ultimately, the purpose of simulated practice of medical procedures is to enhance clinical performance. One proven important role for simulation is to prepare novice clinicians to bridge the gap between acquiring knowledge and initial clinical performance. Significantly, the Food and Drug Administration (FDA) has recently mandated that clinicians who perform carotid stenting using a particular stent should train to a defined level of proficiency on a simulator before they perform the procedure on a patient.

With institutional ethical approval and having obtained written informed consent from participants (patients and anaesthetists) 20 College of Anaesthetists (RCSI) affiliated trainees who have no experience of performing ultrasound guided regional anaesthesia will be recruited. Participating anaesthetists will provide baseline personal data including previous experience with peripheral nerve blockade and simulators, using a web-based collection facility (www.surveymonkey.com or similar). They will perform baseline psychomotor tests prior to beginning training. Baseline visuo-spatial ability will be assessed using the card rotation, cube comparison, and map planning tests (Educational Testing Service) or similar. Psychomotor ability will be assessed using a grooved pegboard (Lafayette Instruments, Lafayette, IN) or similar. All participating anaesthetists will receive standardized two hour didactic training encompassing relevant anatomy, ultrasound (physics, function and interpretation), pharmacology of relevant agents, indications/ contraindications of the block and complications of the procedure. Participants will be taught to perform USgABPB using a technique as described in Appendix IV and V of 'The American Society of Regional Anesthesia and Pain Medicine and the European Society of Regional Anaesthesia and Pain Therapy Joint Committee Recommendations for Education and Training in Ultrasound-Guided Regional Anesthesia'. This technique uses a transverse (or short-axis) view, on ultrasound imaging, of the axillary brachial plexus and axillary blood vessels. The needle is inserted in a sterile fashion using an 'in-plane' approach, that is, the needle shaft and tip will remain visible on ultrasound view throughout it course towards the relevant nerves. Following this initial period of common training subjects will be randomly allocated (using computer generated random numbers) to one of two groups of equal size for additional training which will occur in parallel over a two hour period, namely a simulator trained group (SG) or a control group (CG). Following the educational intervention all subjects will be asked to give written feedback on the content and delivery of the session.

Traditional training TG subjects will be offered multimodal training. This will be comprised of demonstration by suitably trained individuals of relevant anatomy using pre-existing cadaveric samples, performing ultrasound scans of the relevant areas on volunteers under expert supervision, and the practice of needle insertion under ultrasound-guidance using commonly used tissue phantoms (turkey breasts). All ultrasound examinations performed on volunteers or during the clinical performance on patients will use a Sonosite M Turbo (or similar device) with a 7-12 MHz 38mm linear probe. This training session will last two hours.

Simulator training In addition to traditional training the SG group will participate in a period of simulator based training. Following initial familiarization with the simulator SG participants will identify relevant structures and follow their course in the virtual arm. They will insert a virtual needle into the virtual environment and advance it using an in-plane technique towards various target structures. They will be given immediate directed feedback by an expert and offered the opportunity for repetitive, deliberate practice. The simulator, which SG participants will use, will comprise of a PHANTOM Desktop (http://www.sensable.com/), an haptic immersive workbench and the H3D API (http://www.sensegraphics.se/). The SG subject will scan and perform procedure specific tasks on a virtual arm. The model of the arm will be informed using MRI or ultrasound supervolume DICOM datasets. This training session will last two hours.

Assessment Within two weeks of the educational intervention all participants' first clinical performance of an ultrasound guided nerve block, specifically an ultrasound guided axillary brachial plexus blockade, will be video recorded for subsequent analysis by two experts in UGRA. Patients involved will require anaesthesia for forearm/wrist/hand surgery where USgABPB would ordinarily be offered as standard care. Subsequent care of the patient may include general anaesthesia, as clinically indicated. Intravenous sedation will be offered and administered as clinically indicated (Midazolam up to a maximum of 0.05mg/kg).

Subjects will perform the procedure, using an in-plane approach and short-axis view (see above), in the presence of a supervising trainer, blinded to training group, who is available to intervene if required, for patient safety, or requested by the subjects themselves. Patients involved will also be blinded to subject allocation. Using a video recording device Sony Handycam HDR-XR520VE, or similar, the performance of a clinician indicated USgABPB for a scheduled operation on patients will be recorded. The video-taping will target primarily the anaesthetist performing the clinically indicated ultrasound guided regional anaesthetic technique in the usual fashion at Cork University Hospital. The recording will proceed in a manner aimed to conceal the identity of the patient and maintain confidentiality. All efforts will be taken to ensure the recording will not include images of the patients face. For the purpose of blinding, a similar effort will be made conceal the identity of the anaesthetists performing the block by avoiding shots of their faces. The recording will include a pan shot of the setup of the room the block will take place in. This will indicate the location of the patient, the ultrasound machine, the trolley with the sterile equipment required, the assistant, the monitor, the emergency drugs, and the anaesthetist performing the block. Before commencing the block the camera will be fixed in position focusing on the axilla, with needle insertion site, ultrasound probe and the movements of the anaesthetist's hands recorded. The acquired ultrasound image will be recorded concurrently. After expert assessment of trainee performance and completion of the dataset all recorded video will be destroyed.

For the purpose of the study the subjects will be give some specific directions.

1. Position the patient and equipment appropriately.

2. They will be asked to perform a pre-procedure ultrasonic survey of the relevant area, specifically identifying the four relevant nerves (musculocutaneous, radial, median, and ulnar).

3. Perform a sterile four nerve ultrasound-guided axillary brachial plexus block, utilizing a single skin entry point (where possible), short axis view of the brachial plexus, and needle in-plane approach.

4. They will be asked to demonstrate the effectiveness of the blockade.

Following the recorded performance of the procedure the subjects will be asked to complete a written questionnaire indicating their confidence in performing the procedure and their perception of the influence of external stressors (including the presence of a camera).

Conditions

Anesthesiology Training

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: SINGLE

Study Groups

Traditional Training Group

These subjects will be offered multimodal training. This will be comprised of demonstration by suitably trained individuals of relevant anatomy using pre-existing cadaveric samples, performing ultrasound scans of the relevant areas on volunteers under expert supervision, and the practice of needle insertion under ultrasound-guidance using commonly used tissue phantoms (turkey breasts).

Group Type: PLACEBO_COMPARATOR

Traditional training

Intervention Type: OTHER

Subjects will be offered standardized multimodal training. This will be comprised of demonstration by suitably trained individuals of relevant anatomy using pre-existing cadaveric samples, performing ultrasound scans of the relevant areas on volunteers under expert supervision, and the practice of needle insertion under ultrasound-guidance using commonly used tissue phantoms (turkey breasts).

Simulation Training Group

In addition to traditional training the SG group will participate in a period of simulator based training. Following initial familiarization with the simulator these participants will identify relevant structures and follow their course in the virtual arm. They will insert a virtual needle into the virtual environment and advance it using an in-plane technique towards various target structures. They will be given immediate directed computer generated feedback and offered the opportunity for repetitive, deliberate practice. The simulator, which these participants will use, will comprise of a PHANTOM Desktop (http://www.sensable.com/), an haptic immersive workbench and the H3D API (http://www.sensegraphics.se/). The SG subject will scan and perform procedure specific tasks on a virtual arm. Training will continue until they reach proficiency levels set by experts using the same simulator.

Group Type: ACTIVE_COMPARATOR

Simulation based training

Intervention Type: OTHER

In addition to traditional training (as delivered to participants in the Traditional Training Group), participants in the Simulation Training Group will receive the following:- Following initial familiarization with the simulator SG participants will identify relevant structures and follow their course in the virtual arm. They will insert a virtual needle into the virtual environment and advance it using an in-plane technique towards various target structures. They will be given immediate directed computer generated feedback and offered the opportunity for repetitive, deliberate practice. The simulator, which SG participants will use, will comprise of a PHANTOM Desktop (http://www.sensable.com/), an haptic immersive workbench and the H3D API (http://www.sensegraphics.se/). The SG subject will scan and perform procedure specific tasks on a virtual arm. Training will continue until they reach proficiency levels set by experts using the same device

Traditional training

Intervention Type: OTHER

Subjects will be offered standardized multimodal training. This will be comprised of demonstration by suitably trained individuals of relevant anatomy using pre-existing cadaveric samples, performing ultrasound scans of the relevant areas on volunteers under expert supervision, and the practice of needle insertion under ultrasound-guidance using commonly used tissue phantoms (turkey breasts).

Interventions

Simulation based training

In addition to traditional training (as delivered to participants in the Traditional Training Group), participants in the Simulation Training Group will receive the following:- Following initial familiarization with the simulator SG participants will identify relevant structures and follow their course in the virtual arm. They will insert a virtual needle into the virtual environment and advance it using an in-plane technique towards various target structures. They will be given immediate directed computer generated feedback and offered the opportunity for repetitive, deliberate practice. The simulator, which SG participants will use, will comprise of a PHANTOM Desktop (http://www.sensable.com/), an haptic immersive workbench and the H3D API (http://www.sensegraphics.se/). The SG subject will scan and perform procedure specific tasks on a virtual arm. Training will continue until they reach proficiency levels set by experts using the same device

Intervention Type: OTHER

Traditional training

Subjects will be offered standardized multimodal training. This will be comprised of demonstration by suitably trained individuals of relevant anatomy using pre-existing cadaveric samples, performing ultrasound scans of the relevant areas on volunteers under expert supervision, and the practice of needle insertion under ultrasound-guidance using commonly used tissue phantoms (turkey breasts).

Intervention Type: OTHER

Eligibility Criteria

Inclusion Criteria

• ASA grades I and II
• Age 18-80 years
• Capacity to consent
• Already consented for ultrasound guided axillary brachial plexus blockade
• Body Mass index 20 - 26

• Contraindication to regional anaesthesia
• Language barrier
• Psychiatric history
• Pregnancy

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 80 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Cork University Hospital

OTHER

Sponsor Role: lead

Responsible Party

Owen O'Sullivan

Research Fellow, Department of Anaesthesia

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

George Shorten, PhD

Role: PRINCIPAL_INVESTIGATOR

Cork University Hospital & University College Cork

Locations

Cork University Hospital

Cork, Cork, Ireland

Countries

Ireland

References

O'Sullivan O, Iohom G, O'Donnell BD, Shorten GD. The effect of simulation-based training on initial performance of ultrasound-guided axillary brachial plexus blockade in a clinical setting - a pilot study. BMC Anesthesiol. 2014 Nov 26;14:110. doi: 10.1186/1471-2253-14-110. eCollection 2014.

Reference Type: DERIVED

PMID: 25844062 (View on PubMed)

Other Identifiers

Haystack USgABPB sim-training

Identifier Type: -

Identifier Source: org_study_id