Homemade ultrasound phantom for simulation of hydronephrosis

Novaes, Ana Karine Brandao; Dalamura, Ramon; Menon, Talita; Pazeli Jr, José Muniz; Bastos, Marcus Gomes

doi:10.1590/2175-8239-JBN-3916

Abstract

In this article, we describe the development of a simple and inexpensive simulation phantom as a surrogate of human hydronephrosis for the identification of urinary tract obstruction at bedside to be used in undergraduate training of medical students.

Keywords:
ultrasonography; hydronephrosis; models; educational

Resumo

Neste artigo, descrevemos o desenvolvimento de um phantom de simulação, simples e barato, como modelo de hidronefrose humana para capacitar estudantes de graduação em medicina na identificação da obstrução do trato urinário à beira do leito.

Palavras-chave:
ultrassonografia; hidronefrose; modelo educacional

Introduction

Point-of-care ultrasonography (POCUS) done at bedside is a rapid, non-invasive, and safe procedure that allows clinicians to obtain timely vital information when examining patients, guiding several medical procedures.¹1 Moore CL, Copel JA. Point-of-care ultrasonography. N Engl J Med 2011;364:749-57. This initiative stimulated several medical schools in North America to introduce ultrasound (US) training for their undergraduate medical curriculum.²2 Hoppmann R, Cook T, Hunt P, Fowler S, Paulman L, Wells J, et al. Ultrasound in medical education: a vertical curriculum at the University of South Carolina School of Medicine. J S C Med Assoc 2006;102:330-4.

3 Rao S, van Holsbeeck L, Musial JL, Parker A, Bouffard JA, Bridge P, et al. A pilot study of comprehensive ultrasound education at the Wayne State University School of Medicine: a pioneer year review. J Ultrasound Med 2008;27:745-9.

4 Bahner DP, Adkins EJ, Hughes D, Barrie M, Boulger CT, Royall NA. Integrated medical school ultrasound: development of an ultrasound vertical curriculum. Crit Ultrasound J 2013;5:6.^-⁵5 Steinmetz P. Assessment of undergraduate bedside ultrasound education at McGill university. In: Third Annual World Congress on Ultrasound in Medical Education; 2014 Oct 10-12; Portland, OR, USA. Among the topics taught in these institutions, hydronephrosis, a result of an obstructed ureter, is listed among the 90 Medical Student Core Clinical Ultrasound Milestones, based on consensus from 32 medical education directors.⁶6 Dinh VA, Lakoff D, Hess J, Bahner DP, Hoppmann R, Blaivas M, et al. Medical Student Core Clinical Ultrasound Milestones: A Consensus Among Directors in the United States. J Ultrasound Med 2016;35:421-34. However, the hands-on training in the US equipment is commonly done with students themselves as model, which does not allow the identification of abnormalities such as hydronephrosis in the training environment. Thus, the use of simulation phantoms present students with not only the possibility of obtaining competence in identifying pathologies such as renal pelvis dilatation by an obstructive process, but also allows the familiarization with the US machine in order to obtain images of good quality.⁷7 Dawson S. Procedural simulation: a primer. Radiology 2006;241:17-25.

8 Johnson SJ, Hunt CM, Woolnough HM, Crawshaw M, Kilkenny C, Gould DA, et al. Virtual reality, ultrasound-guided liver biopsy simulator: development and performance discrimination. Br J Radiol 2012;85:555-61.

9 Scalese RJ, Obeso VT, Issenberg SB. Simulation technology for skills training and competency assessment in medical education. J Gen Intern Med 2008;23:46-9.

10 Desser TS. Simulation-based training: the next revolution in radiology education? J Am Coll Radiol 2007;4:816-24.^-¹¹11 Filippou P, Odisho A, Ramaswamy K, Usawachintachit M, Hu W, Li J, et al. Using an abdominal phantom to teach urology residents ultrasound-guided percutaneous needle placement. Int Braz J Urol 2016;42:717-26.

In this paper, we describe a homemade, low cost, and quickly assembled phantom to be used as surrogate for training medical students and residents in the ultrasonographic identification of hydronephrosis.

Methodology

Based in previous publications describing techniques for creating gelatin based phantoms,¹²12 Cheruparambath V, Sampath S, Deshikar LN, Ismail HM, Bhuvana K. A low-cost reusable phantom for ultrasound-guided subclavian vein cannulation. Indian J Crit Care Med 2012;16:163-5.

13 Lo MD, Ackley SH, Solari P. Homemade ultrasound phantom for teaching identification of superficial soft tissue abscess. Emerg Med J 2012;29:738-41.^-¹⁴14 Hoppmann RA, Rao VV, Poston MB, Howe DB, Hunt PS, Fowler SD, et al. An integrated ultrasound curriculum (iUSC) for medical students: 4-year experience. Crit Ultrasound J 2011;3:1-12. we developed a distinct hydronephrotic renal structure, which allows the ultrasonographic differentiation of normal and obstructed kidney. The phantom was assembled using pork kidney, non-sterile gloves, dental floss, scalpel blade, bistoury, surgical tweezers, water, unflavored sugar-free gelatin, double distilled glycerin, 1% gentian violet, plastic film, kitchen oil, a plastic food container, oven, and refrigerator. The hydronephrosis was created using small size gloves with two of its fingers (first and fifth) previously tied and cut off. Water was then added to the glove, removing all the remaining air before tying the palm of the glove. Then, the water filled glove was carefully accommodated in a pouch previously made through an opening in the renal pelvis of a pork kidney, and kept in place by wrapping the kidney with plastic film. (Figure 1).

Figure 1
Assembling the hydronephrotic pork kidney

The tissue surrounding the kidney was simulated using melted gelatin (86 grams), glycerin (400 mL), and gentian violet (20 drops) to darken the mixture. In order to reproduce the depth of an adult human kidney, a base layer of the mixture was made in a plastic container previously greased with kitchen oil, and solidified in the refrigerator for approximately 3 hours. Next, the hydronephrotic kidney was placed over the gelatin base and the plastic container filled with enough gelatin mixture to cover the renal tissue with 3.5-4.0 cm, and chilled again in the refrigerator for 3 more hours. If kept in the refrigerator, the phantom can be used for about 3 to 4 weeks. The hydronephrosis phantom was then B-mode scanned using a curvilinear probe at 2-5 MHz attached to a SONOSITE M-TURBO machine.

This animal study was approved by The Commission of Ethics on the Use of Animals of the Pró-Reitoria of The Federal University of Juiz de Fora (protocol # 025/2017).

Results

The immersed and nontransparent gelatin phantom made to simulate a hydronephrotic kidney allowed high quality and a quite comparable ultrasonographic image of an obstructed human kidney (Figure 1).

Discussion

Over the last 25 years, POCUS has been used by general physicians to quickly obtain new information for the diagnostic process or to guide medical procedures. Ultrasound has been successfully included in several undergraduate medical curriculum as an extension of the physical examination; moreover, medical students find ultrasound training rewarding.¹⁴14 Hoppmann RA, Rao VV, Poston MB, Howe DB, Hunt PS, Fowler SD, et al. An integrated ultrasound curriculum (iUSC) for medical students: 4-year experience. Crit Ultrasound J 2011;3:1-12.^-¹⁵15 Rempell JS, Saldana F, DiSalvo D, Kumar N, Stone MB, Chan W, et al. Pilot Point-of-Care Ultrasound Curriculum at Harvard Medical School: Early Experience. West J Emerg Med 2016;17:734-40. While teaching normal anatomy can be done using students themselves as models, quite frequently appropriate human models with pathologies are not available in the training environment. Thus, appropriate training models that are life-like are needed during the hands-on teaching sessions.

In this study, we developed a hydronephrosis phantom made of pork kidney as surrogate of the human hydronephrotic kidney for teaching POCUS. The phantom described was assembled using easily accessible cheap materials (around US$ 25), and it replicates the ultrasonographic image of a human obstructed kidney. Although we did not made a formal evaluation of the phantom’s effectiveness in this article, it was used to test a group of medical students and residents to answer the question: In this ultrasonographic image obtained from a young man with flank pain, is hydronephrosis present?; all participants gave the right response. Another aspect of the phantom was the darkness of the gelatin obtained by adding gentian violet, which is important visualizing the kidney with the naked eye. Additionally, our phantom can be used to train nephrology and urology residents to improve their skills and confidence in US-guided percutaneous needle placement and, consequently, applying this skill in patient care.

In conclusion, we describe a hydronephrotic kidney made from pork kidney for simulation in hands-on practice of ultrasound. Its low cost plus quick and ease construction allows demonstrations of human hydronephrosis, a common clinical condition in emergency departments and recently identified among the Medical Students Core Clinical Milestones for undergraduate students.⁶6 Dinh VA, Lakoff D, Hess J, Bahner DP, Hoppmann R, Blaivas M, et al. Medical Student Core Clinical Ultrasound Milestones: A Consensus Among Directors in the United States. J Ultrasound Med 2016;35:421-34.

References

¹
Moore CL, Copel JA. Point-of-care ultrasonography. N Engl J Med 2011;364:749-57.
²
Hoppmann R, Cook T, Hunt P, Fowler S, Paulman L, Wells J, et al. Ultrasound in medical education: a vertical curriculum at the University of South Carolina School of Medicine. J S C Med Assoc 2006;102:330-4.
³
Rao S, van Holsbeeck L, Musial JL, Parker A, Bouffard JA, Bridge P, et al. A pilot study of comprehensive ultrasound education at the Wayne State University School of Medicine: a pioneer year review. J Ultrasound Med 2008;27:745-9.
⁴
Bahner DP, Adkins EJ, Hughes D, Barrie M, Boulger CT, Royall NA. Integrated medical school ultrasound: development of an ultrasound vertical curriculum. Crit Ultrasound J 2013;5:6.
⁵
Steinmetz P. Assessment of undergraduate bedside ultrasound education at McGill university. In: Third Annual World Congress on Ultrasound in Medical Education; 2014 Oct 10-12; Portland, OR, USA.
⁶
Dinh VA, Lakoff D, Hess J, Bahner DP, Hoppmann R, Blaivas M, et al. Medical Student Core Clinical Ultrasound Milestones: A Consensus Among Directors in the United States. J Ultrasound Med 2016;35:421-34.
⁷
Dawson S. Procedural simulation: a primer. Radiology 2006;241:17-25.
⁸
Johnson SJ, Hunt CM, Woolnough HM, Crawshaw M, Kilkenny C, Gould DA, et al. Virtual reality, ultrasound-guided liver biopsy simulator: development and performance discrimination. Br J Radiol 2012;85:555-61.
⁹
Scalese RJ, Obeso VT, Issenberg SB. Simulation technology for skills training and competency assessment in medical education. J Gen Intern Med 2008;23:46-9.
¹⁰
Desser TS. Simulation-based training: the next revolution in radiology education? J Am Coll Radiol 2007;4:816-24.
¹¹
Filippou P, Odisho A, Ramaswamy K, Usawachintachit M, Hu W, Li J, et al. Using an abdominal phantom to teach urology residents ultrasound-guided percutaneous needle placement. Int Braz J Urol 2016;42:717-26.
¹²
Cheruparambath V, Sampath S, Deshikar LN, Ismail HM, Bhuvana K. A low-cost reusable phantom for ultrasound-guided subclavian vein cannulation. Indian J Crit Care Med 2012;16:163-5.
¹³
Lo MD, Ackley SH, Solari P. Homemade ultrasound phantom for teaching identification of superficial soft tissue abscess. Emerg Med J 2012;29:738-41.
¹⁴
Hoppmann RA, Rao VV, Poston MB, Howe DB, Hunt PS, Fowler SD, et al. An integrated ultrasound curriculum (iUSC) for medical students: 4-year experience. Crit Ultrasound J 2011;3:1-12.
¹⁵
Rempell JS, Saldana F, DiSalvo D, Kumar N, Stone MB, Chan W, et al. Pilot Point-of-Care Ultrasound Curriculum at Harvard Medical School: Early Experience. West J Emerg Med 2016;17:734-40.

Publication Dates

Publication in this collection
07 May 2018
Date of issue
Apr-Jun 2018

History

Received
25 Aug 2017
Accepted
24 Oct 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Moore CL, Copel JA. Point-of-care ultrasonography. N Engl J Med 2011;364:749-57.

[2] ²
Hoppmann R, Cook T, Hunt P, Fowler S, Paulman L, Wells J, et al. Ultrasound in medical education: a vertical curriculum at the University of South Carolina School of Medicine. J S C Med Assoc 2006;102:330-4.

[3] ³
Rao S, van Holsbeeck L, Musial JL, Parker A, Bouffard JA, Bridge P, et al. A pilot study of comprehensive ultrasound education at the Wayne State University School of Medicine: a pioneer year review. J Ultrasound Med 2008;27:745-9.

[4] ⁴
Bahner DP, Adkins EJ, Hughes D, Barrie M, Boulger CT, Royall NA. Integrated medical school ultrasound: development of an ultrasound vertical curriculum. Crit Ultrasound J 2013;5:6.

[5] ⁵
Steinmetz P. Assessment of undergraduate bedside ultrasound education at McGill university. In: Third Annual World Congress on Ultrasound in Medical Education; 2014 Oct 10-12; Portland, OR, USA.

[6] ⁶
Dinh VA, Lakoff D, Hess J, Bahner DP, Hoppmann R, Blaivas M, et al. Medical Student Core Clinical Ultrasound Milestones: A Consensus Among Directors in the United States. J Ultrasound Med 2016;35:421-34.

[7] ⁷
Dawson S. Procedural simulation: a primer. Radiology 2006;241:17-25.

[8] ⁸
Johnson SJ, Hunt CM, Woolnough HM, Crawshaw M, Kilkenny C, Gould DA, et al. Virtual reality, ultrasound-guided liver biopsy simulator: development and performance discrimination. Br J Radiol 2012;85:555-61.

[9] ⁹
Scalese RJ, Obeso VT, Issenberg SB. Simulation technology for skills training and competency assessment in medical education. J Gen Intern Med 2008;23:46-9.

[10] ¹⁰
Desser TS. Simulation-based training: the next revolution in radiology education? J Am Coll Radiol 2007;4:816-24.

[11] ¹¹
Filippou P, Odisho A, Ramaswamy K, Usawachintachit M, Hu W, Li J, et al. Using an abdominal phantom to teach urology residents ultrasound-guided percutaneous needle placement. Int Braz J Urol 2016;42:717-26.

[12] ¹²
Cheruparambath V, Sampath S, Deshikar LN, Ismail HM, Bhuvana K. A low-cost reusable phantom for ultrasound-guided subclavian vein cannulation. Indian J Crit Care Med 2012;16:163-5.

[13] ¹³
Lo MD, Ackley SH, Solari P. Homemade ultrasound phantom for teaching identification of superficial soft tissue abscess. Emerg Med J 2012;29:738-41.

[14] ¹⁴
Hoppmann RA, Rao VV, Poston MB, Howe DB, Hunt PS, Fowler SD, et al. An integrated ultrasound curriculum (iUSC) for medical students: 4-year experience. Crit Ultrasound J 2011;3:1-12.

[15] ¹⁵
Rempell JS, Saldana F, DiSalvo D, Kumar N, Stone MB, Chan W, et al. Pilot Point-of-Care Ultrasound Curriculum at Harvard Medical School: Early Experience. West J Emerg Med 2016;17:734-40.

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