BACKGROUND: Uterine myomas encountered at cesarean delivery increase the complexity and risk of the procedure. Preoperative planning of such deliveries may help optimize patient outcomes. The application of three-dimensional printing technology is rapidly expanding in many surgical specialties. We created a three-dimensional-printed model from the magnetic resonance images (MRIs) of a gravid uterus with multiple myomas for surgical planning of cesarean delivery. INSTRUMENT: A three-dimensional-printed uterine model from MRIs of a pregnant patient with multiple uterine myomas as a tool for planning cesarean delivery. EXPERIENCE: A 33-year-old woman with a myomectomy history presented to our institution for prenatal care. Initial ultrasound imaging revealed multiple uterine myomas. A three-dimensional-printed uterine model, based on subsequent MRI, was created for presentation at an obstetric multidisciplinary meeting. The model accurately represented the number, size, and locations of uterine myomas, aiding surgical planning, including skin and uterine incisions. At the time of cesarean delivery, the model was directly correlated with patient anatomy to further determine the optimal placement of uterine incision. Maternal and fetal outcomes were excellent. CONCLUSION: Three-dimensional-printed models, through improved surgical planning, could optimize outcomes for patients with uterine myomas undergoing cesarean delivery.
BACKGROUND: Uterine myomas encountered at cesarean delivery increase the complexity and risk of the procedure. Preoperative planning of such deliveries may help optimize patient outcomes. The application of three-dimensional printing technology is rapidly expanding in many surgical specialties. We created a three-dimensional-printed model from the magnetic resonance images (MRIs) of a gravid uterus with multiple myomas for surgical planning of cesarean delivery. INSTRUMENT: A three-dimensional-printed uterine model from MRIs of a pregnant patient with multiple uterine myomas as a tool for planning cesarean delivery. EXPERIENCE: A 33-year-old woman with a myomectomy history presented to our institution for prenatal care. Initial ultrasound imaging revealed multiple uterine myomas. A three-dimensional-printed uterine model, based on subsequent MRI, was created for presentation at an obstetric multidisciplinary meeting. The model accurately represented the number, size, and locations of uterine myomas, aiding surgical planning, including skin and uterine incisions. At the time of cesarean delivery, the model was directly correlated with patient anatomy to further determine the optimal placement of uterine incision. Maternal and fetal outcomes were excellent. CONCLUSION: Three-dimensional-printed models, through improved surgical planning, could optimize outcomes for patients with uterine myomas undergoing cesarean delivery.
Authors: José Cornejo; Jorge A Cornejo-Aguilar; Mariela Vargas; Carlos G Helguero; Rafhael Milanezi de Andrade; Sebastian Torres-Montoya; Javier Asensio-Salazar; Alvaro Rivero Calle; Jaime Martínez Santos; Aaron Damon; Alfredo Quiñones-Hinojosa; Miguel D Quintero-Consuegra; Juan Pablo Umaña; Sebastian Gallo-Bernal; Manolo Briceño; Paolo Tripodi; Raul Sebastian; Paul Perales-Villarroel; Gabriel De la Cruz-Ku; Travis Mckenzie; Victor Sebastian Arruarana; Jiakai Ji; Laura Zuluaga; Daniela A Haehn; Albit Paoli; Jordan C Villa; Roxana Martinez; Cristians Gonzalez; Rafael J Grossmann; Gabriel Escalona; Ilaria Cinelli; Thais Russomano Journal: Biomed Res Int Date: 2022-03-24 Impact factor: 3.411
Authors: Jarosław Meyer-Szary; Marlon Souza Luis; Szymon Mikulski; Agastya Patel; Finn Schulz; Dmitry Tretiakow; Justyna Fercho; Kinga Jaguszewska; Mikołaj Frankiewicz; Ewa Pawłowska; Radosław Targoński; Łukasz Szarpak; Katarzyna Dądela; Robert Sabiniewicz; Joanna Kwiatkowska Journal: Int J Environ Res Public Health Date: 2022-03-11 Impact factor: 3.390