Can Osteopathic Medical Students Accurately Measure Abdominal Aortic Dimensions Using Handheld Ultrasonography Devices in the Primary Care Setting?

Methods

This prospective pilot study was conducted between February 2016 and July 2016, and it was approved by both the Touro University California Institutional Review Board and the Solano County Family Health Services Research Committee. Qualifying participants who met USPSTF AAA screening criteria at the Solano County Family Health Services Clinic affiliated with Touro University California in Vallejo were enrolled. The screening criteria included adult male patients aged between 65 and 75 years with any history of smoking. Potential participants were identified by (1) a daily list of patients presenting to the clinic for care to be recruited directly in the office and (2) a search of participating physicians’ patient medical records for patients matching study criteria to be recruited by phone.

At the time of the in-office screening, the details of the study were explained to potential participants. Time was allotted to review the risks and benefits and to answer all questions, and signed informed consent was obtained. Participants were given a questionnaire to assess their cardiovascular risk for AAA. The questionnaire included the following: gender, age, smoking history, consent to partake in the study, and agreement to follow up with a hospital or outpatient US technologist within 60 days. Each participant was assigned a numerical code for identification purposes.

Three osteopathic medical students underwent 8 hours of US training with a board-certified radiologist to learn how to measure abdominal aortic diameters using a handheld US device (Vscan Pocket Ultrasound, General Electric Company). The US training included online PowerPoint (Microsoft Corporation) lectures, US simulations, hands-on US experience, and a quantitative assessment to demonstrate competency. All investigators were required to complete a written and practical competency assessment evaluated by the staff radiologist. After the training, students independently performed US on participants who met the USPSTF AAA screening criteria. Using the handheld US device, the students evaluated maximal diameters of the abdominal aorta according to the American College of Radiology, American Institute of Ultrasound in Medicine, and the Society of Radiologists in Ultrasound Practice Parameter for the Performance of Diagnostic and Screening Ultrasound of the Abdominal Aorta in Adults.²

Measurements were obtained in the anteroposterior and transverse dimensions at 3 sites: celiac axis, just distal to the renal arteries, and just above the iliac bifurcation.² Means (SDs) for these 3 sites were determined and used for analysis. If an aneurysm (diameter ≥3.0 cm) was identified during aortic measurements, the image quality was reassessed to ensure that the aneurysm was completely captured in the image. If any emergent conditions were identified, the principal investigator would be alerted and the patient would be referred to the appropriate emergency services. All aortic measurements greater than 5.5 cm would be referred to vascular surgery.¹⁷

All digital images were stored in the US device and reviewed by a principle investigator (A.W. or J.D.) for adequacy of examination and appropriateness of the measurement. The participants’ body mass index was also recorded. Each participant was screened for AAA by 1 of 3 students (including K.H. and D.T). In-office US results were neither shared with the participant nor the US technologist. Participants were then referred to an outside facility, Sutter Solano Radiology Department in Vallejo, to be screened by a US technologist. Appointments occurred within 60 days of the student US evaluations. Each operator (the student and the technologist) was blinded to each other's results. After the US images were taken by the technologist, the radiologist reviewed them and culculated the aortic measurements. The measurements from both reports were then compared using a t test. Physicians of study participants obtained copies of the outside US reports, and the participants were treated according to the USPSTF guidelines by their physicians.

Results

During the AAA screening period, osteopathic medical students scanned 28 male smokers aged between 65 and 75 years. The mean (SD) body mass index of the study participants was 26.7 (3.6). Twelve patients were excluded from the study because the follow-up US by the US technologist had not been completed. Therefore, the final sample size was 16 participants.

The mean (SD) difference between student and technologist aortic US measurements was −0.15 cm (0.23) (t=−1.38; P=.09). None of the individuals screened in this study met the criteria for an aortic aneurysm (>3.0 cm), with the largest aorta scanned by experts measuring 2.86 cm (Table). The readings produced by osteopathic medical students in this study had a very high degree of agreement with the readings obtained by the technologist. The largest difference between a student's measurement and the technologist's measurement was 0.64 cm.

Discussion

Our findings support the hypothesis that osteopathic medical students can accurately measure abdominal aortic dimensions using a handheld US device after brief hands-on training. Based on the t test results, no statistically significant difference was found in aortic measurements between the osteopathic medical students and the US technologist.

Our findings reflect those of similar investigations. Bonnafy et al⁴ conducted AAA screenings on hospitalized patients in France using handheld US devices operated by medical students and found the mean difference between the measurements to be 0.1 cm, with an intraclass correlation coefficient of greater than 0.91. A study in New Zealand by Nguyen et al⁹ trained 3 novices (a medical student, a newly employed vascular technologist, and a physical education graduate) to conduct AAA screenings and found that these novices obtained coronal measurements within 0.5 cm of the measurements of experienced vascular US technologists 85% to 97% of the time. Although the French study mentioned using a handheld US device, the study in New Zealand used a laptop-based machine. Also, in the French study, 2 patients were found to have an AAA, which the medical students detected in concordance with the experts.⁴ Thus, considering both the current cohort and the French cohort of medical students were able to obtain measurements with no statistically significant difference, we would expect the osteopathic medical students in our cohort to accurately identify AAAs.

Additionally, our cohort is unique because, to our knowledge, no similar studies have been conducted using osteopathic medical students as AAA investigators. The integration of US in medical education in the United States is highly variable. Bahner et al¹⁴ conducted a survey in 2014 and found that of 134 allopathic medical schools, 79% of schools agreed that US should be part of the medical school curriculum, but few respondents (18.6%) reported that it was a priority at their institutions, with lack of space and lack of financial support being barriers to integration of US. Furthermore, Dinh et al¹⁵ conducted a survey in 2016 of 173 US medical schools (both allopathic and osteopathic) and revealed that 48 schools (28%) reported having a required integrated US curriculum. The Rocky Vista University College of Osteopathic Medicine created a 4-year integrated US curriculum in 2015, and a review of the curriculum was conducted in 2016.¹⁶ Their review revealed students’ feedback to be positive, including an appreciation for the early exposure to US. Students also appreciated the repetition of concepts through the integration of hands-on US connecting with anatomy currently covered in systems courses.¹⁶ However, this study lacked quantitative measures of directly testing students’ proficiency aside from written questions containing US images.¹⁶ More quantitative measures could be a focus for future studies that evaluate the implementation of US into the medical school curriculum.

Rural and county clinics have to refer patients to facilities with radiology capabilities to accomplish AAA screenings, which could result in lack of follow-up and missed screening opportunities. If medical students and primary care physicians were trained to conduct in-office aortic diameter measurements, it could result in increased screening opportunities and possibly reduced AAA-related mortality.

Conclusion

Osteopathic medical students can be trained in US and can accurately measure abdominal aortic dimensions with limited US experience using a handheld US device with no statistically significant difference compared with experts. However, further studies are needed to assess the ability of osteopathic medical students to accurately measure AAAs, as no participants in this study met the criteria for AAA. With less than 50% of patients at risk for AAA being screened using US,¹ training medical students (osteopathic and allopathic, under supervision), residents, and primary care physicians to perform accurate in-office screenings, could potentially reduce AAA-related mortality. Osteopathic medical schools should consider US training, including aortic diameter measurement, within their individual curriculum.¹⁸

Author Contributions

All authors provided substantial contributions to conception and design, acquisition of data, or analysis and interpretation of data; all authors drafted the article or revised it critically for important intellectual content; all authors gave final approval of the version of the article to be published; and all authors agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.