Development and validation of a synthetic 3D-printed simulator for training in neuroendoscopic ventricular lesion removal

Licci, Maria; Thieringer, Florian M.; Guzman, Raphael; Soleman, Jehuda

doi:10.3171/2019.12.focus19841

Cited by 26 publications

(20 citation statements)

References 24 publications

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“…Clearly, a learning curve for the technically challenging use of the NUA exists, thus not excluding the successful resection of larger lesions with increasing experience. To this purpose, the development of teaching models for endoscopy and NUA use additionally supports the training without the involvement of patients [10]. So far, our recommendation would be to tailor the approach (burr hole vs. mini-craniotomy in combination with a speculum) according to the surgeon's experience, the size of the lesion, and its characteristics (Table 1).…”

Section: Discussionmentioning

confidence: 99%

Endoscopic and Endoscopically-Assisted Resection of Intraventricular Lesions Using a Neuroendoscopic Ultrasonic Aspirator

Ebel

Greuter

Licci

et al. 2021

JCM

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The development of minimally invasive neuroendoscopy has advanced in recent years. The introduction of the neuroendoscopic ultrasonic aspirator (NUA) broadened the treatment spectrum of neuroendoscopy. We aim to describe our experience with the use of NUA for the resection of intraventricular lesions. Here, we present consecutive retrospective case series of adult and pediatric patients undergoing resection of an intraventricular lesion with a NUA (Endoscopic Neurosurgical Pen, Söring GmbH, Quickborn, Germany) between January 2019 and April 2020. Eight patients between the age of 0.5 and 73 years underwent surgery using NUA and were included in this study. In four patients, an endoscopic assisted (EA) resection of the lesion was undertaken, while in four patients, the lesion was removed using purely endoscopic (PE) resection. In all cases, gross/near total resection was achieved. The average blood loss was 142.5 ± 90.4 mL (range 50–300 mL). Transient morbidity was seen in four patients (50%), while permanent morbidity or mortality did not occur. The NUA seems to be a safe and valuable tool for the minimally invasive resection of intraventricular lesions in selected cases. The type, size, consistency, and vascularization of the lesion limit at times the purely endoscopic use of the NUA.

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Section: Discussionmentioning

confidence: 99%

Endoscopic and Endoscopically-Assisted Resection of Intraventricular Lesions Using a Neuroendoscopic Ultrasonic Aspirator

Ebel

Greuter

Licci

et al. 2021

JCM

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“…Studies have found that 3DP models with tactile sensation play an active role in the process of learning complex structures, such as acetabular fractures, liver structures, and craniovertebral junction deformities ( 19 , 21 , 26 ). Licci et al introduced a synthetic 3DP simulator which allowed trainees to develop skills for endoscopic ventricular lesion removal ( 23 ). The authors evaluated the validity of the 3DP model in term of realism, mechanical proprieties, procedural content, and handling.…”

Section: Discussionmentioning

confidence: 99%

“…The tangible 3DP models may improve learning efficacy by providing tactile feedback. VR and 3DP models have been used in many clinical specialties for advanced teaching, preoperative planning, and simulated surgery (14,(18)(19)(20)(21)(22)(23). However, the effectiveness of VR and 3DP models in learning to perform SSRO remains unclear.…”

Section: Introductionmentioning

confidence: 99%

Virtual Reality and Three-Dimensional Printed Models Improve the Morphological Understanding in Learning Mandibular Sagittal Split Ramus Osteotomy: A Randomized Controlled Study

Zhang

Chen

et al. 2021

Front. Surg.

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Background: The mandibular sagittal split ramus osteotomy (SSRO) is a routine operation performed to correct mandibular deformity including mandibular retrusion, protrusion, deficiency, and asymmetry. The SSRO remains a challenging procedure for junior surgeons due to a lack of adequate morphological knowledge necessary for success in clinical practice. Virtual reality (VR) and three-dimensional printed (3DP) models have been widely applied in anatomy education. The present randomized, controlled study was performed to evaluate the effect of traditional educational instruments, VR models, and 3DP models on junior surgeons learning the morphological information required to perform SSRO.Methods: Eighty-one participants were randomly assigned to three learning groups: Control, VR, and 3DP. Objective and subjective tests were used to evaluate the learning effectiveness of each learning instrument. In the objective test, participants were asked to identify 10 anatomical landmarks on normal and deformed models, draw the osteotomy line, and determine the description of SSRO. In the subjective test, participants were asked to provide feedback regarding their subjective feelings about the learning instrument used in their group.Results: The objective test results showed that the VR and 3DP groups achieved better accuracy in drawing the osteotomy line (p = 0.027) and determining the description of SSRO (p = 0.023) than the Control group. However, there was no significant difference among the three groups regarding the identification of anatomical landmarks. The VR and 3DP groups gave satisfactory subjective feedback about the usefulness in learning, good presentation, and enjoyment. The Control and 3DP groups reported positive feelings about ease of use.Conclusion: The current findings suggest that VR and 3DP models were effective instruments that assisted in the morphological understanding of SSRO-related anatomical structures. Furthermore, 3DP models may be a promising supplementary instrument to bridge the gap between conventional learning and clinical practice.

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“…Currently, FFF technology, the most accessible AM method, is already implemented in the hospitals for the fabrication of anatomical bio‐models, customized surgical instruments, and prosthetic aids 19,20 . While these applications have typically been achieved with low temperature polymers, recent technological advancements in FFF 3D printers have made it possible to process high‐temperature thermoplastic materials such as PAEK.…”

Section: Introductionmentioning

confidence: 99%

Structure, properties, and bioactivity of 3D printed PAEKs for implant applications: A systematic review

et al. 2021

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Additive manufacturing (AM) of high temperature polymers, specifically polyaryletherketones (PAEK), is gaining significant attention for medical implant applications. As 3D printing systems evolve toward point of care manufacturing, research on this topic continues to expand. Specific regulatory guidance is being developed for the safe management of 3D printing systems in a hospital environment. PAEK implants can benefit from many advantages of AM such as design freedom, material and antibacterial drug incorporation, and enhanced bioactivity provided by cancellous bone‐like porous designs. In addition to AM PAEK bioactivity, the biomechanical strength of 3D printed implants is crucial to their performance and thus widely studied. In this review, we discuss the printing conditions that have been investigated so far for additively manufactured PAEK implant applications. The effect of processing parameters on the biomechanical strength of implants is summarized, and the bioactivity of PAEKs, along with material and drug incorporation, is also covered in detail. Finally, the therapeutic areas in which 3D printed PAEK implants are investigated and utilized are reviewed.

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Development and validation of a synthetic 3D-printed simulator for training in neuroendoscopic ventricular lesion removal

Cited by 26 publications

References 24 publications

Endoscopic and Endoscopically-Assisted Resection of Intraventricular Lesions Using a Neuroendoscopic Ultrasonic Aspirator

Endoscopic and Endoscopically-Assisted Resection of Intraventricular Lesions Using a Neuroendoscopic Ultrasonic Aspirator

Virtual Reality and Three-Dimensional Printed Models Improve the Morphological Understanding in Learning Mandibular Sagittal Split Ramus Osteotomy: A Randomized Controlled Study

Structure, properties, and bioactivity of 3D printed PAEKs for implant applications: A systematic review

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