Development of a 3D-printed neonatal congenital diaphragmatic hernia model and standardisation of intra-operative measurement

Introduction Three-dimensional (3D) printing is frequently used for surgical simulation and training, however, no widely available model exists for neonatal congenital diaphragmatic hernia (CDH). The aim of this study was to develop a 3D-printed model of CDH and test interobserver variability in the...

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Veröffentlicht in:	Pediatric surgery international 2023-12, Vol.40 (1), p.28, Article 28
Hauptverfasser:	Bethell, George S., Eastwood, Mary Patrice, Neville, Jonathan J., Harwood, Rachel, Ali, Sajeed, Ooi, Setthasorn Zhi Yang, Brown, Joshua, Tullie, Lucinda, Hotonu, Sesi, Bradnock, Timothy J., Hall, Nigel J., Chacon, Sofia, Osgouei, Reza Haghighi
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Schlagworte:	Child Computer Simulation Diaphragm - diagnostic imaging Diaphragm - surgery Fetus Hernias Hernias, Diaphragmatic, Congenital - diagnostic imaging Hernias, Diaphragmatic, Congenital - surgery Humans Infant, Newborn Laparotomy Medicine Medicine & Public Health Original Original Article Pediatric Surgery Pediatrics Printing, Three-Dimensional Surgery
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creator	Bethell, George S. Eastwood, Mary Patrice Neville, Jonathan J. Harwood, Rachel Ali, Sajeed Ooi, Setthasorn Zhi Yang Brown, Joshua Tullie, Lucinda Hotonu, Sesi Bradnock, Timothy J. Hall, Nigel J. Chacon, Sofia Osgouei, Reza Haghighi
description	Introduction Three-dimensional (3D) printing is frequently used for surgical simulation and training, however, no widely available model exists for neonatal congenital diaphragmatic hernia (CDH). The aim of this study was to develop a 3D-printed model of CDH and test interobserver variability in the simulated model for obtaining measurements of the diaphragmatic defect and ipsilateral diaphragm. Methods A term fetal MRI (3.5 kg) of thorax, diaphragm and defect (15 mm × 5 mm) were delineated and segmented after parental consent to produce 3D-printed models. Consultant and trainee paediatric surgeons were invited to measure the posterior-lateral diaphragmatic defect and ipsilateral diaphragm. Mean measurement error was calculated (millimetres). Data are presented as median (range) and number/total (%). Results An abdominal and thoracoscopic model were produced and tested by 52 participants (20 consultants and 32 trainees). Diaphragmatic defect via laparotomy measured 15 (10–20) mm (AP) × 16 (10–25) mm (ML) and thoracoscopically 14 (11–19) mm (AP) × 15 (11–22) mm (ML). Mean error per measurement was 4 (1–17) mm via laparotomy vs. 3 (0.5–9.5) mm thoracoscopically. Mean error was similar between consultants and trainees via laparotomy (4.3 vs. 3.9 mm, p = 0.70) and thoracoscopically (3 vs. 3 mm, p = 0.79). Error did not correlate with experience as operating surgeon via laparotomy ( β = 13.0 [95% CI − 55.9 to 82.0], p = 0.71) or thoracoscopically ( β = 1.4[95% CI − 6.4 to 9.2], p = 0.73. Conclusions We have designed and built simulation models for CDH repair via laparotomy and thoracoscopically. Operators can reliably measure the diaphragmatic defect and ipsilateral diaphragm, regardless of surgical experience and operative approach.
doi_str_mv	10.1007/s00383-023-05600-0
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The aim of this study was to develop a 3D-printed model of CDH and test interobserver variability in the simulated model for obtaining measurements of the diaphragmatic defect and ipsilateral diaphragm. Methods A term fetal MRI (3.5 kg) of thorax, diaphragm and defect (15 mm × 5 mm) were delineated and segmented after parental consent to produce 3D-printed models. Consultant and trainee paediatric surgeons were invited to measure the posterior-lateral diaphragmatic defect and ipsilateral diaphragm. Mean measurement error was calculated (millimetres). Data are presented as median (range) and number/total (%). Results An abdominal and thoracoscopic model were produced and tested by 52 participants (20 consultants and 32 trainees). Diaphragmatic defect via laparotomy measured 15 (10–20) mm (AP) × 16 (10–25) mm (ML) and thoracoscopically 14 (11–19) mm (AP) × 15 (11–22) mm (ML). Mean error per measurement was 4 (1–17) mm via laparotomy vs. 3 (0.5–9.5) mm thoracoscopically. Mean error was similar between consultants and trainees via laparotomy (4.3 vs. 3.9 mm, p = 0.70) and thoracoscopically (3 vs. 3 mm, p = 0.79). Error did not correlate with experience as operating surgeon via laparotomy ( β = 13.0 [95% CI − 55.9 to 82.0], p = 0.71) or thoracoscopically ( β = 1.4[95% CI − 6.4 to 9.2], p = 0.73. Conclusions We have designed and built simulation models for CDH repair via laparotomy and thoracoscopically. Operators can reliably measure the diaphragmatic defect and ipsilateral diaphragm, regardless of surgical experience and operative approach.</description><identifier>ISSN: 1437-9813</identifier><identifier>ISSN: 0179-0358</identifier><identifier>EISSN: 1437-9813</identifier><identifier>DOI: 10.1007/s00383-023-05600-0</identifier><identifier>PMID: 38147130</identifier><language>eng</language><publisher>Berlin/Heidelberg: Springer Berlin Heidelberg</publisher><subject>Child ; Computer Simulation ; Diaphragm - diagnostic imaging ; Diaphragm - surgery ; Fetus ; Hernias ; Hernias, Diaphragmatic, Congenital - diagnostic imaging ; Hernias, Diaphragmatic, Congenital - surgery ; Humans ; Infant, Newborn ; Laparotomy ; Medicine ; Medicine & Public Health ; Original ; Original Article ; Pediatric Surgery ; Pediatrics ; Printing, Three-Dimensional ; Surgery</subject><ispartof>Pediatric surgery international, 2023-12, Vol.40 (1), p.28, Article 28</ispartof><rights>The Author(s) 2023</rights><rights>2023. The Author(s).</rights><rights>Copyright Springer Nature B.V. 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The aim of this study was to develop a 3D-printed model of CDH and test interobserver variability in the simulated model for obtaining measurements of the diaphragmatic defect and ipsilateral diaphragm. Methods A term fetal MRI (3.5 kg) of thorax, diaphragm and defect (15 mm × 5 mm) were delineated and segmented after parental consent to produce 3D-printed models. Consultant and trainee paediatric surgeons were invited to measure the posterior-lateral diaphragmatic defect and ipsilateral diaphragm. Mean measurement error was calculated (millimetres). Data are presented as median (range) and number/total (%). Results An abdominal and thoracoscopic model were produced and tested by 52 participants (20 consultants and 32 trainees). Diaphragmatic defect via laparotomy measured 15 (10–20) mm (AP) × 16 (10–25) mm (ML) and thoracoscopically 14 (11–19) mm (AP) × 15 (11–22) mm (ML). Mean error per measurement was 4 (1–17) mm via laparotomy vs. 3 (0.5–9.5) mm thoracoscopically. Mean error was similar between consultants and trainees via laparotomy (4.3 vs. 3.9 mm, p = 0.70) and thoracoscopically (3 vs. 3 mm, p = 0.79). Error did not correlate with experience as operating surgeon via laparotomy ( β = 13.0 [95% CI − 55.9 to 82.0], p = 0.71) or thoracoscopically ( β = 1.4[95% CI − 6.4 to 9.2], p = 0.73. Conclusions We have designed and built simulation models for CDH repair via laparotomy and thoracoscopically. Operators can reliably measure the diaphragmatic defect and ipsilateral diaphragm, regardless of surgical experience and operative approach.</description><subject>Child</subject><subject>Computer Simulation</subject><subject>Diaphragm - diagnostic imaging</subject><subject>Diaphragm - surgery</subject><subject>Fetus</subject><subject>Hernias</subject><subject>Hernias, Diaphragmatic, Congenital - diagnostic imaging</subject><subject>Hernias, Diaphragmatic, Congenital - surgery</subject><subject>Humans</subject><subject>Infant, Newborn</subject><subject>Laparotomy</subject><subject>Medicine</subject><subject>Medicine & Public Health</subject><subject>Original</subject><subject>Original Article</subject><subject>Pediatric Surgery</subject><subject>Pediatrics</subject><subject>Printing, Three-Dimensional</subject><subject>Surgery</subject><issn>1437-9813</issn><issn>0179-0358</issn><issn>1437-9813</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>C6C</sourceid><sourceid>EIF</sourceid><recordid>eNp9kU1v1DAQhi0EomXhD3BAlrhwCYzjOHFOCLV8SZW4wNmaOJNdV4kd7GQlDvx3nG4phQMH2yPP62dm_DL2XMBrAdC8SQBSywLKvFQNUMADdi4q2RStFvLhvfiMPUnpGgC0rNvH7ExqUTVCwjn7eUlHGsM8kV94GDhyeVnM0fmFeu4peFxw5Db4PXm3hb3D-RBxP-HiLD9Q9A75FHoaOfqepyXvGHuXcj74DZlZEYswU8xXR-ITYVojbRWfskcDjome3Z479u3D-68Xn4qrLx8_X7y7Kqyq1FIoqgTUorfKoqw0WhqIUGPbDgPKYegqAosNig46LTQ1Q021rVF2rQXoa7ljb0_cee0m6i1tLY0mzzlh_GECOvN3xruD2YejEdAoUdY6E17dEmL4vlJazOSSpXHE_ElrMmWbG2zaNluyYy__kV6HNfo8340KVKmUyKrypLIxpBRpuOtGgNnsNSd7TbbX3NhrNvSL-3PcPfntZxbIkyBtHu4p_qn9H-wvze60og</recordid><startdate>20231226</startdate><enddate>20231226</enddate><creator>Bethell, George S.</creator><creator>Eastwood, Mary Patrice</creator><creator>Neville, Jonathan J.</creator><creator>Harwood, Rachel</creator><creator>Ali, Sajeed</creator><creator>Ooi, Setthasorn Zhi Yang</creator><creator>Brown, Joshua</creator><creator>Tullie, Lucinda</creator><creator>Hotonu, Sesi</creator><creator>Bradnock, Timothy J.</creator><creator>Hall, Nigel J.</creator><creator>Chacon, Sofia</creator><creator>Osgouei, Reza Haghighi</creator><general>Springer Berlin Heidelberg</general><general>Springer Nature B.V</general><scope>C6C</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>K9.</scope><scope>NAPCQ</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>20231226</creationdate><title>Development of a 3D-printed neonatal congenital diaphragmatic hernia model and standardisation of intra-operative measurement</title><author>Bethell, George S. ; Eastwood, Mary Patrice ; Neville, Jonathan J. ; Harwood, Rachel ; Ali, Sajeed ; Ooi, Setthasorn Zhi Yang ; Brown, Joshua ; Tullie, Lucinda ; Hotonu, Sesi ; Bradnock, Timothy J. ; Hall, Nigel J. ; Chacon, Sofia ; Osgouei, Reza Haghighi</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c545t-5e41061dc5ca348acefeea8a99ffa3ffb4e0ca7a1b0b818e7f6e6c6a3b9c00d63</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Child</topic><topic>Computer Simulation</topic><topic>Diaphragm - diagnostic imaging</topic><topic>Diaphragm - surgery</topic><topic>Fetus</topic><topic>Hernias</topic><topic>Hernias, Diaphragmatic, Congenital - diagnostic imaging</topic><topic>Hernias, Diaphragmatic, Congenital - surgery</topic><topic>Humans</topic><topic>Infant, Newborn</topic><topic>Laparotomy</topic><topic>Medicine</topic><topic>Medicine & Public Health</topic><topic>Original</topic><topic>Original Article</topic><topic>Pediatric Surgery</topic><topic>Pediatrics</topic><topic>Printing, Three-Dimensional</topic><topic>Surgery</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Bethell, George S.</creatorcontrib><creatorcontrib>Eastwood, Mary Patrice</creatorcontrib><creatorcontrib>Neville, Jonathan J.</creatorcontrib><creatorcontrib>Harwood, Rachel</creatorcontrib><creatorcontrib>Ali, Sajeed</creatorcontrib><creatorcontrib>Ooi, Setthasorn Zhi Yang</creatorcontrib><creatorcontrib>Brown, Joshua</creatorcontrib><creatorcontrib>Tullie, Lucinda</creatorcontrib><creatorcontrib>Hotonu, Sesi</creatorcontrib><creatorcontrib>Bradnock, Timothy J.</creatorcontrib><creatorcontrib>Hall, Nigel J.</creatorcontrib><creatorcontrib>Chacon, Sofia</creatorcontrib><creatorcontrib>Osgouei, Reza Haghighi</creatorcontrib><creatorcontrib>SurgeryLabs PSTRN</creatorcontrib><creatorcontrib>Paediatric Surgical Trainees Research Network (PSTRN)</creatorcontrib><collection>Springer Nature OA Free Journals</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Nursing & Allied Health Premium</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Pediatric surgery international</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Bethell, George S.</au><au>Eastwood, Mary Patrice</au><au>Neville, Jonathan J.</au><au>Harwood, Rachel</au><au>Ali, Sajeed</au><au>Ooi, Setthasorn Zhi Yang</au><au>Brown, Joshua</au><au>Tullie, Lucinda</au><au>Hotonu, Sesi</au><au>Bradnock, Timothy J.</au><au>Hall, Nigel J.</au><au>Chacon, Sofia</au><au>Osgouei, Reza Haghighi</au><aucorp>SurgeryLabs PSTRN</aucorp><aucorp>Paediatric Surgical Trainees Research Network (PSTRN)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Development of a 3D-printed neonatal congenital diaphragmatic hernia model and standardisation of intra-operative measurement</atitle><jtitle>Pediatric surgery international</jtitle><stitle>Pediatr Surg Int</stitle><addtitle>Pediatr Surg Int</addtitle><date>2023-12-26</date><risdate>2023</risdate><volume>40</volume><issue>1</issue><spage>28</spage><pages>28-</pages><artnum>28</artnum><issn>1437-9813</issn><issn>0179-0358</issn><eissn>1437-9813</eissn><abstract>Introduction Three-dimensional (3D) printing is frequently used for surgical simulation and training, however, no widely available model exists for neonatal congenital diaphragmatic hernia (CDH). The aim of this study was to develop a 3D-printed model of CDH and test interobserver variability in the simulated model for obtaining measurements of the diaphragmatic defect and ipsilateral diaphragm. Methods A term fetal MRI (3.5 kg) of thorax, diaphragm and defect (15 mm × 5 mm) were delineated and segmented after parental consent to produce 3D-printed models. Consultant and trainee paediatric surgeons were invited to measure the posterior-lateral diaphragmatic defect and ipsilateral diaphragm. Mean measurement error was calculated (millimetres). Data are presented as median (range) and number/total (%). Results An abdominal and thoracoscopic model were produced and tested by 52 participants (20 consultants and 32 trainees). Diaphragmatic defect via laparotomy measured 15 (10–20) mm (AP) × 16 (10–25) mm (ML) and thoracoscopically 14 (11–19) mm (AP) × 15 (11–22) mm (ML). Mean error per measurement was 4 (1–17) mm via laparotomy vs. 3 (0.5–9.5) mm thoracoscopically. Mean error was similar between consultants and trainees via laparotomy (4.3 vs. 3.9 mm, p = 0.70) and thoracoscopically (3 vs. 3 mm, p = 0.79). Error did not correlate with experience as operating surgeon via laparotomy ( β = 13.0 [95% CI − 55.9 to 82.0], p = 0.71) or thoracoscopically ( β = 1.4[95% CI − 6.4 to 9.2], p = 0.73. Conclusions We have designed and built simulation models for CDH repair via laparotomy and thoracoscopically. Operators can reliably measure the diaphragmatic defect and ipsilateral diaphragm, regardless of surgical experience and operative approach.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>38147130</pmid><doi>10.1007/s00383-023-05600-0</doi><oa>free_for_read</oa></addata></record>
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subjects	Child Computer Simulation Diaphragm - diagnostic imaging Diaphragm - surgery Fetus Hernias Hernias, Diaphragmatic, Congenital - diagnostic imaging Hernias, Diaphragmatic, Congenital - surgery Humans Infant, Newborn Laparotomy Medicine Medicine & Public Health Original Original Article Pediatric Surgery Pediatrics Printing, Three-Dimensional Surgery
title	Development of a 3D-printed neonatal congenital diaphragmatic hernia model and standardisation of intra-operative measurement
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