Your search keyword '"3d planning"' showing total 537 results

1. Use of scaffolds based on polyetheretherketone tubular implant in the treatment of a gunshot multifragmentary fracture of the proximal part of the shoulder with a bone defect: a case report.

Author

Buryanov, Oleksandr, Lurin, Igor, Murat, Bazarov, Yarmoliuk, Yurii, Bespalenko, Artem, Smyk, Oleg, Klapchuk, Yurii, and Los, Dmytro

Abstract

Background: In connection with the war in Ukraine and the use of modern high-energy weapons by the enemy, the nature of injuries have changed. These changes require improvement of approaches to the treatment of patients with gunshot and mine-explosive bone defects. Case presentation: We present the case of treatment of a 28-year-old Ukranian man with a gunshot multifragmentary fracture of the proximal humerus with a bone defect using three-dimensional printing of a polyetheretherketone frame (scaffold) for alloplastic material. The analysis of this case expands the possibilities of using three-dimensional printing technologies of polyetheretherketone scaffolds in the treatment of significant bone defects. Conclusion: Modern military trauma requires individualized treatment for each patient. The use of individual polyetheretherketone scaffolds in the treatment of a gunshot multifragmentary fracture with a bone defect has a positive clinical effect. [ABSTRACT FROM AUTHOR]

Published

2024

2. Use of scaffolds based on polyetheretherketone tubular implant in the treatment of a gunshot multifragmentary fracture of the proximal part of the shoulder with a bone defect: a case report

Author

Oleksandr Buryanov, Igor Lurin, Bazarov Murat, Yurii Yarmoliuk, Artem Bespalenko, Oleg Smyk, Yurii Klapchuk, and Dmytro Los

Subjects

PEEK, PEEK frame, PEEK implant, Scaffold, Bone defect, 3D planning, Medicine

Abstract

Abstract Background In connection with the war in Ukraine and the use of modern high-energy weapons by the enemy, the nature of injuries have changed. These changes require improvement of approaches to the treatment of patients with gunshot and mine-explosive bone defects. Case presentation We present the case of treatment of a 28-year-old Ukranian man with a gunshot multifragmentary fracture of the proximal humerus with a bone defect using three-dimensional printing of a polyetheretherketone frame (scaffold) for alloplastic material. The analysis of this case expands the possibilities of using three-dimensional printing technologies of polyetheretherketone scaffolds in the treatment of significant bone defects. Conclusion Modern military trauma requires individualized treatment for each patient. The use of individual polyetheretherketone scaffolds in the treatment of a gunshot multifragmentary fracture with a bone defect has a positive clinical effect.

Published

2024

3. Learning curves for high tibial osteotomy using patient-specific instrumentation: a case control study

Author

Stimolo Davide, Leggieri Filippo, Matassi Fabrizio, Barra Angelo, Civinini Roberto, and Innocenti Matteo

Subjects

high tibial osteotomy, hto, psi, personalized instrumentation, 3d planning, custom-made, Surgery, RD1-811

Abstract

Three-dimensional (3D) planning and Patient Specific Instrumentation (PSI) can help the surgeon to obtain more predictable results in Medial Opening Wedge High Tibial Osteotomy (mOW-HTO) than the conventional techniques. We compared the accuracy of the PSI and standard techniques and measured the learning curve for surgery time and number of fluoroscopic shots.

Published

2024

4. Three-dimensional planning, navigation, patient-specific instrumentation and mixed reality in shoulder arthroplasty: a digital orthopedic renaissance

Author

Ulas Can Kolac, Alp Paksoy, and Doruk Akgün

Subjects

shoulder arthroplasty, 3d planning, navigation, patient-specific instrumentation, virtual reality, augmented reality, mixed reality, Orthopedic surgery, RD701-811

Abstract

Accurate component placement in shoulder arthroplasty is crucial for avoiding complications, achieving superior biomechanical performance and optimizing functional outcomes. Shoulder and elbow surgeons have explored various methods to improve surgical understanding and precise execution including preoperative planning with 3D computed tomography (CT), patient-specific instrumentation (PSI), intraoperative navigation, and mixed reality (MR). 3D preoperative planning facilitated by CT scans and advanced software, enhances surgical precision, influences decision-making for implant types and approaches, reduces errors in guide pin placement, and contributes to cost-effectiveness. Navigation demonstrates benefits in reducing malpositioning, optimizing baseplate stability, improving humeral cut, and potentially conserving bone stock, although challenges such as varied operating times and costs warrant further investigation. The personalized patient care and enhanced operational efficiency associated with PSI are not only attractive for achieving desired component positions but also hold promise for improved outcomes in complex cases involving glenoid bone loss. Augmented reality (AR) and virtual reality (VR) technologies play a pivotal role in reshaping shoulder arthroplasty. They offer benefits in preoperative planning, intraoperative guidance, and interactive surgery. Studies demonstrate their effectiveness in AR-guided guidewire placement, providing real-time surgical advice during reverse total shoulder arthroplasty (RTSA). Additionally, these technologies show promise in orthopedic training, delivering superior realism and accelerating learning compared to conventional methods.

Published

2024

5. Surgical Navigation and CAD-CAM-Designed PEEK Prosthesis for the Surgical Treatment of Facial Intraosseous Vascular Anomalies.

Author

Dean, Alicia, Estévez, Orlando, Centella, Concepción, Sanjuan-Sanjuan, Alba, Sánchez-Frías, Marina E., and Alamillos, Francisco J.

Subjects

*FACIAL bones, *PIEZOELECTRIC devices, *FRONTAL bone, *COMPUTER-assisted surgery, *ARTERIOVENOUS malformation, *PIEZOSURGERY, *INTRAOSSEOUS infusions

Abstract

Background: Intraosseous vascular anomalies in the facial skeleton present significant diagnostic and therapeutic challenges due to complex anatomy. These anomalies represent about 0.5–1% of bony neoplastic and tumor-like lesions, usually presenting as a firm, painless mass. Most described intraosseous vascular malformations are venous malformations (VMs) and, more rarely, arteriovenous malformations. Objectives: The objectives of this work are to show our experience, protocol and the applications of computer planning, virtual surgery, CAD-CAM design, surgical navigation, and computer-assisted navigated piezoelectric surgery in the treatment of facial intraosseous vascular anomalies and to evaluate the advantages and disadvantages. Methods: Three females and one male with periorbital intraosseous vascular anomalies were treated using en-block resection and immediate reconstruction with a custom-made PEEK prosthesis. One lesion was in the supraorbital rim and orbital roof, one in the frontal bone and orbital roof, and two in the zygomatic region. We accomplished the resection and reconstruction of the lesion using virtual planning, CAD-CAM design, surgical navigation and piezoelectric device navigation. Results: There were no complications related to the surgery assisted with navigation. With an accuracy of less than 1 mm, the procedure may be carried out in accordance with the surgical plan. The surgeon's degree of uncertainty during deep osteotomies and in locations with low visibility was decreased by the use of the navigated piezoelectric device. Conclusions: Resection and reconstruction of facial intraosseous vascular anomalies benefit from this new surgical strategy using CAD-CAM technologies, computer-assisted navigated piezoelectric surgery, and surgical navigation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Preparations for the Surgical Procedure

Author

Timmer, Veronique C. M. L., Kessler, Peter, Hardt, Nicolas, Kessler, Peter, editor, Hardt, Nicolas, editor, and Yamauchi, Kensuke, editor

Published

2024

7. General Planning and Preoperative Assessment

Author

Timmer, Veronique C. M. L., Kessler, Peter, Hardt, Nicolas, Kessler, Peter, editor, Hardt, Nicolas, editor, and Yamauchi, Kensuke, editor

Published

2024

8. Special Surgical Aspects in Mandibular Advancement - Flaring

Author

Kessler, Peter, Lie, Suen An Nynke, Kessler, Peter, editor, Hardt, Nicolas, editor, and Yamauchi, Kensuke, editor

Published

2024

9. Radiology and Basic Measurements

Author

Timmer, Veronique C. M. L., Kessler, Peter, Hardt, Nicolas, Kessler, Peter, editor, Hardt, Nicolas, editor, and Yamauchi, Kensuke, editor

Published

2024

10. The necessity of preoperative planning and nodule localization in the modern era of thoracic surgeryCentral Message

Author

Stijn Vanstraelen, MD, Gaetano Rocco, MD, Bernard J. Park, MD, and David R. Jones, MD

Subjects

3D planning, localization, segmentectomy, sublobar resection, small pulmonary nodules, Diseases of the circulatory (Cardiovascular) system, RC666-701, Surgery, RD1-811

Published

2024

11. The clinical value of preoperative 3D planning and 3D surgical guides for Imhäuser osteotomy in slipped capital femoral epipysis: a retrospective study

Author

Vera Lagerburg, Michelle van den Boorn, Sigrid Vorrink, Ihsane Amajjar, and Melinda M. E. H. Witbreuk

Subjects

3D printed surgical guide, 3D planning, Slipped capital femoral epiphysis, Imhäuser osteotomy, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Accurate repositioning of the femoral head in patients with Slipped Capital Femoral Epiphysis (SCFE) undergoing Imhäuser osteotomy is very challenging. The objective of this study is to determine if preoperative 3D planning and a 3D-printed surgical guide improve the accuracy of the placement of the femoral head. Methods This retrospective study compared outcome parameters of patients who underwent a classic Imhäuser osteotomy from 2009 to 2013 with those who underwent an Imhäuser osteotomy using 3D preoperative planning and 3D-printed surgical guides from 2014 to 2021. The primary endpoint was improvement in Range of Motion (ROM) of the hip. Secondary outcomes were radiographic improvement (Southwick angle), patient-reported clinical outcomes regarding hip and psychosocial complaints assessed with two questionnaires and duration of surgery. Results In the 14 patients of the 3D group radiographic improvement was slightly greater and duration of surgery was slightly shorter than in the 7 patients of the classis Imhäuser group. No difference was found in the ROM, and patient reported clinical outcomes were slightly less favourable. Conclusions Surprisingly we didn’t find a significant difference between the two groups. Further research on the use of 3D planning an 3D-printed surgical guides is needed. Trial registration Approval for this study was obtained of the local ethics committees of both hospitals.

Published

2024

12. Anatomical cup implantation assisted with dynamic 3D planning improves functional outcomes in primary total hip arthroplasty: A retrospective study.

Author

Sun, Zhenhui, Li, Nan, Yang, Zhi, Zhang, Wenhui, and Liu, Jie

Subjects

*BIOMECHANICS, *TOTAL hip replacement, *THREE-dimensional imaging, *T-test (Statistics), *HUMAN anatomical models, *FUNCTIONAL status, *TREATMENT effectiveness, *RETROSPECTIVE studies, *HEALTH surveys, *DESCRIPTIVE statistics, *HIP joint, *ONE-leg resting position, *ARTIFICIAL joints, *ABDUCTION (Kinesiology), *BODY movement

Abstract

BACKGROUND: Anatomical cup implantation is a promising approach in primary total hip arthroplasty (THA) and improves functional outcomes. OBJECTIVE: We aimed to evaluate the cup position and functional outcomes in primary THA with preoperative dynamic 3D planning. METHODS: We retrospectively reviewed 54 hips in 48 patients who underwent primary THA with anatomical cup implantation (mean follow-up time: 52 months). Cup positions were evaluated based on patient-specific morphology, the acetabular fossa and the combined anteversion test. Functional outcomes were assessed after THA. The paired-sample t -test was performed for surgical and contralateral native hips among 42 patients who underwent unilateral THA. RESULTS: Two hips suffered intraoperative trochanteric fracture, but no hip dislocations occurred. No patients reported groin or thigh pain, and all patients were capable of deep squatting and one-leg standing. The mean Harris hip score, WOMAC score, and physical SF-36 score were 94.46 ± 6.16, 10.41 ± 3.62, and 95.19 ± 8.74, respectively. Except for acetabular offset, THA restored biomechanics to those of contralateral native hip, including cup anteversion, abduction, femoral offset and acetabular height (P > 0.05). CONCLUSION: This study provided evidence for the application of anatomical cup implantation assisted with dynamic 3D planning in primary THA, which restored morphology and improved functional outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

13. The clinical value of preoperative 3D planning and 3D surgical guides for Imhäuser osteotomy in slipped capital femoral epipysis: a retrospective study.

Author

Lagerburg, Vera, van den Boorn, Michelle, Vorrink, Sigrid, Amajjar, Ihsane, and Witbreuk, Melinda M. E. H.

Subjects

OSTEOTOMY, FEMORAL epiphysis, FEMUR head, MEDICAL ethics committees, RANGE of motion of joints

Abstract

Background: Accurate repositioning of the femoral head in patients with Slipped Capital Femoral Epiphysis (SCFE) undergoing Imhäuser osteotomy is very challenging. The objective of this study is to determine if preoperative 3D planning and a 3D-printed surgical guide improve the accuracy of the placement of the femoral head. Methods: This retrospective study compared outcome parameters of patients who underwent a classic Imhäuser osteotomy from 2009 to 2013 with those who underwent an Imhäuser osteotomy using 3D preoperative planning and 3D-printed surgical guides from 2014 to 2021. The primary endpoint was improvement in Range of Motion (ROM) of the hip. Secondary outcomes were radiographic improvement (Southwick angle), patient-reported clinical outcomes regarding hip and psychosocial complaints assessed with two questionnaires and duration of surgery. Results: In the 14 patients of the 3D group radiographic improvement was slightly greater and duration of surgery was slightly shorter than in the 7 patients of the classis Imhäuser group. No difference was found in the ROM, and patient reported clinical outcomes were slightly less favourable. Conclusions: Surprisingly we didn't find a significant difference between the two groups. Further research on the use of 3D planning an 3D-printed surgical guides is needed. Trial registration: Approval for this study was obtained of the local ethics committees of both hospitals. [ABSTRACT FROM AUTHOR]

Published

2024

14. 3D surgical planning including patient-specific drilling guides for tibial plateau fractures: a prospective feasibility study

Author

Nick Assink, Kaj ten Duis, Jean-Paul P. M. de Vries, Max J. H. Witjes, Joep Kraeima, Job N. Doornberg, and Frank F. A. IJpma

Subjects

tibial plateau fracture, 3d, virtual planning, 3d planning, surgical guides, tibial plateau fractures, fracture reduction, ct scans, kirschner (k)-wires, anesthesiologists, locking compression plates, surgical treatment, randomized controlled trial, fracture fixation, clinical studies, Orthopedic surgery, RD701-811

Abstract

Aims: Proper preoperative planning benefits fracture reduction, fixation, and stability in tibial plateau fracture surgery. We developed and clinically implemented a novel workflow for 3D surgical planning including patient-specific drilling guides in tibial plateau fracture surgery. Methods: A prospective feasibility study was performed in which consecutive tibial plateau fracture patients were treated with 3D surgical planning, including patient-specific drilling guides applied to standard off-the-shelf plates. A postoperative CT scan was obtained to assess whether the screw directions, screw lengths, and plate position were performed according the preoperative planning. Quality of the fracture reduction was assessed by measuring residual intra-articular incongruence (maximum gap and step-off) and compared to a historical matched control group. Results: A total of 15 patients were treated with 3D surgical planning in which 83 screws were placed by using drilling guides. The median deviation of the achieved screw trajectory from the planned trajectory was 3.4° (interquartile range (IQR) 2.5 to 5.4) and the difference in entry points (i.e. plate position) was 3.0 mm (IQR 2.0 to 5.5) compared to the 3D preoperative planning. The length of 72 screws (86.7%) were according to the planning. Compared to the historical cohort, 3D-guided surgery showed an improved surgical reduction in terms of median gap (3.1 vs 4.7 mm; p = 0.126) and step-off (2.9 vs 4.0 mm; p = 0.026). Conclusion: The use of 3D surgical planning including drilling guides was feasible, and facilitated accurate screw directions, screw lengths, and plate positioning. Moreover, the personalized approach improved fracture reduction as compared to a historical cohort. Cite this article: Bone Jt Open 2024;5(1):46–52.

Published

2024

15. MRI-based navigated cryosurgery of extra-abdominal desmoid tumors using skin fiducial markers: a case series of 15 cases

Author

Ortal Segal, Amit Benady, Eliana Pickholz, Joshua E. Ovadia, Ido Druckmann, Solomon Dadia, Ehud Rath, Assaf Albagli, and Ben Efrima

Subjects

MRI-based navigation, Fiducial markers, Percutaneous CRA, Desmoid Tumor, 3D planning, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Precision surgery is becoming increasingly important in the field of Orthopaedic Oncology. Image-guided percutaneous cryosurgery (CRA) has emerged as a valid treatment modality for extra-abdominal desmoid tumors (EDTs). To date, most CRA procedures use CT-based guidance which fails to properly characterize tumor segments. Computer-guided MRI navigation can address this issue however, the lack of a fixed landmark for registration remains a challenge. Successful CRA correlates directly with precision approaches facilitated by intraoperative imaging guidance. This is the first study that attempts to assess the feasibility and efficacy of a novel approach of using skin fiducial markers to overcome the challenge of a MRI-based navigation CRA for symptomatic or progressive EDTs. Methods In this retrospective study conducted between 2018 and 2020, 11 patients at a single center with symptomatic or progressive EDTs were treated with CRA using intraoperative MRI navigation. Fifteen cryosurgery procedures were performed, each adhering to a personalized pre-operative plan. Total tumor size, viable and non-viable portions pre- and post-operation, and SF-36 questionnaire evaluating subjective health were recorded. Results All CRAs demonstrated 100% adherence to the predetermined plan. Overall, tumor size decreased Median= -56.9% [-25.6, -72.4]) with a reduction in viable tissue, (Median= -80.4% [-53.3, -95.2]). Four patients required additional CRAs. Only one patient’s tumor did not reduce in size. One patient suffered from local muscle necrosis. Pre-operation, the average physical and mental scores 41.6 [29.4, 43] and 26.3 [17.6, 40.9] respectively. Post-operation, the average physical and mental scores were 53.4[38, 59.7] and 38 [31.2, 52.7] respectively. Conclusion These findings provide an early indication of the feasibility and efficacy of performing percutaneous cryosurgery using skin fiducial marker registration for MRI-computed navigation to treat EDTs safely. Larger cohorts and multicenter evaluations are needed to determine the efficacy of this technique.

Published

2023

16. Analysis of the implementation of a circuit for intra-operative superposition and comparison of the surgical outcomes using ICBCT in maxillofacial surgery

Author

Adell-Gómez, Núria, Valls-Ontañón, Adaia, Malet-Contreras, Albert, García-Piñeiro, Andrés, Gómez-Chiari, Marta, Valls-Esteve, Arnau, Krauel, Lucas, and Rubio-Palau, Josep

Published

2024

17. Orientation of the Scapula in the Standing Position.

Author

Andro, Christophe, Garraud, Charles, Deransart, Pierrick, Stindel, Eric, Letissier, Hoel, and Dardenne, Guillaume

Subjects

STANDING position, ANATOMICAL planes, USER experience, ARTHROPLASTY

Abstract

Objectives: A new ultrasound‐based device is proposed to non‐invasively measure the orientation of the scapula in the standing position to consider this parameter for Total Shoulder Arthroplasty. The aim of this study was to assess the accuracy and reliability of this device. Methods: Accuracy was assessed by comparing measurements made with the ultrasound device to those acquired with a three‐dimensional (3D) optical localization system (Northern Digital, Canada) on a dedicated mechanical phantom. Three users performed 10 measurements on three healthy volunteers with different body mass (BMI) indices to analyze the reliability of the device by measuring the intra and interobserver variabilities. Results: The mean accuracy of the device was 0.9°± 0.7 (0.01–3.03), 1.3°± 0.8 (0.03–4.55), 1.9°± 1.5 (0.05–5.76), respectively, in the axial, coronal, and sagittal planes. The interobserver and intraobserver variabilities were excellent whatever the BMI and the users experience. Conclusions: The device is accurate and reliable enough for the measurement of the scapula orientation in the standing position. Access the CME test here and search by article title. [ABSTRACT FROM AUTHOR]

Published

2024

18. MRI-based navigated cryosurgery of extra-abdominal desmoid tumors using skin fiducial markers: a case series of 15 cases.

Author

Segal, Ortal, Benady, Amit, Pickholz, Eliana, Ovadia, Joshua E., Druckmann, Ido, Dadia, Solomon, Rath, Ehud, Albagli, Assaf, and Efrima, Ben

Subjects

*CRYOSURGERY, *DESMOID tumors, *FIDUCIAL markers (Imaging systems), *SKIN tumors

Abstract

Background: Precision surgery is becoming increasingly important in the field of Orthopaedic Oncology. Image-guided percutaneous cryosurgery (CRA) has emerged as a valid treatment modality for extra-abdominal desmoid tumors (EDTs). To date, most CRA procedures use CT-based guidance which fails to properly characterize tumor segments. Computer-guided MRI navigation can address this issue however, the lack of a fixed landmark for registration remains a challenge. Successful CRA correlates directly with precision approaches facilitated by intraoperative imaging guidance. This is the first study that attempts to assess the feasibility and efficacy of a novel approach of using skin fiducial markers to overcome the challenge of a MRI-based navigation CRA for symptomatic or progressive EDTs. Methods: In this retrospective study conducted between 2018 and 2020, 11 patients at a single center with symptomatic or progressive EDTs were treated with CRA using intraoperative MRI navigation. Fifteen cryosurgery procedures were performed, each adhering to a personalized pre-operative plan. Total tumor size, viable and non-viable portions pre- and post-operation, and SF-36 questionnaire evaluating subjective health were recorded. Results: All CRAs demonstrated 100% adherence to the predetermined plan. Overall, tumor size decreased Median= -56.9% [-25.6, -72.4]) with a reduction in viable tissue, (Median= -80.4% [-53.3, -95.2]). Four patients required additional CRAs. Only one patient's tumor did not reduce in size. One patient suffered from local muscle necrosis. Pre-operation, the average physical and mental scores 41.6 [29.4, 43] and 26.3 [17.6, 40.9] respectively. Post-operation, the average physical and mental scores were 53.4[38, 59.7] and 38 [31.2, 52.7] respectively. Conclusion: These findings provide an early indication of the feasibility and efficacy of performing percutaneous cryosurgery using skin fiducial marker registration for MRI-computed navigation to treat EDTs safely. Larger cohorts and multicenter evaluations are needed to determine the efficacy of this technique. [ABSTRACT FROM AUTHOR]

Published

2023

19. Management of Failure and Implant-Related Complications in Graft-Less Implant Reconstructions (for Atrophic Jaws)

Author

Dawood, Andrew, Tanner, Susan, and Jivraj, Saj, editor

Published

2023

20. The Helsinki Vascularized Composite Allograft Program

Author

Lassus, Patrik, Gurunian, Raffi, editor, Rampazzo, Antonio, editor, Papay, Frank, editor, and Bassiri Gharb, Bahar, editor

Published

2023

21. Prediction of the Proximal Humerus Morphology Based on a Statistical Shape Model with Two Parameters: Comparison to Contralateral Registration Method.

Author

van Schaardenburgh, Florianne E., Nguyen, H. Chien, Magré, Joëll, Willemsen, Koen, van Rietbergen, Bert, and Nijs, Stefaan

Subjects

*HUMERUS, *STATISTICAL models, *HUMERAL fractures, *MORPHOLOGY, *COMPUTED tomography

Abstract

(1) Background: Complex proximal humerus fractures often result in complications following surgical treatment. A better understanding of the full 3D displacement would provide insight into the fracture morphology. Repositioning of fracture elements is often conducted by using the contralateral side as a reconstruction template. However, this requires healthy contralateral anatomy. The purpose of this study was to create a Statistical Shape Model (SSM) and compare its effectiveness to the contralateral registration method for the prediction of the humeral proximal segment; (2) Methods: An SSM was created from 137 healthy humeri. A prediction for the proximal segment of the left humeri from eight healthy patients was made by combining the SSM with parameters. The predicted proximal segment was compared to the left proximal segment of the patients. Their left humerus was also compared to the contralateral (right) humerus; (3) Results: Eight modes explained 95% of the variation. Most deviations of the SSM prediction and the contralateral registration method were below the clinically relevant 2 mm distance threshold.; (4) Conclusions: An SSM combined with parameters is a suitable method to predict the proximal humeral segment when the contralateral CT scan is unavailable or the contralateral humerus is unhealthy, provided that the fracture pattern allows measurements of these parameters. [ABSTRACT FROM AUTHOR]

Published

2023

22. Stem size prediction in shoulder arthroplasty with preoperative 3D planning.

Author

Wittmann, Thomas, Befrui, Nima, Rieger, Tim, and Raiss, Patric

Subjects

*TOTAL shoulder replacement, *ARTHROPLASTY, *SHOULDER joint, *SHOULDER, *HUMERUS

Abstract

Introduction: Three-dimensional surgical planning software provides virtual reconstructions of the shoulder with automated joint indices for a preoperative case assessment. The aim of this single center study was to evaluate the concordance between the preoperatively selected humeral components and the final implants used in shoulder arthroplasty. Methods: 129 cases who had undergone anatomic (n = 16) or reverse shoulder arthroplasty (n = 117) using the same type of uncemented short stem implant and were included for review in this study. The type of arthroplasty, stem size, stem inclination, tray-offset and liner-thickness were noted preoperatively and compared to the final implant specifications used in surgery. Results: The type of arthroplasty matched the surgical plan in 99.2% of cases, as one case was converted from RSA to TSA. The concordance of planned to implanted stem size was 44.2% and the planned size was in range of one adjacent size in 87.6% of cases. Stem inclination in TSA matched the surgical plan in 50% of cases. Tray offset in RSA was predicted correctly in 65% and liner-thickness matched the surgical plan in 98.3% of cases. Conclusion: Despite a low degree of concordance of planned to implanted stem sizes of 44.2%, the choice of stem size was found to be in range of one adjacent size in 87.6% of cases. Further investigations of other contributing factors are necessary to increase the accuracy of the preoperative selection of humeral implants. Level of evidence: level IV, retrospective case study. [ABSTRACT FROM AUTHOR]

Published

2023

23. Higher femoral anteversion restoration accuracy after total hip arthroplasty with a proximally fixed anatomic stem than with a generic straight double-tapered stem.

Author

Sariali, Elhadi and Pascal Moussellard, Hugues

Subjects

*HIP joint physiology, *TOTAL hip replacement, *THREE-dimensional imaging, *SURGEONS, *SURGICAL complications, *COMPARATIVE studies, *OSTEOARTHRITIS, *PSYCHOSOCIAL factors, *DESCRIPTIVE statistics, *PROSTHESIS design & construction, *COMPUTED tomography, FEMUR radiography, FEMUR surgery, PLANNING techniques

Abstract

Background: Femoral antetorsion in uncemented hip replacement hardly can be modified and the restoration of the anatomic anteversion might be difficult with standard stems. We compared femoral anteversion restoration of a generic straight stem with a proximally fixed anatomic stem that included a dual sagittal curvature and a proximal torsion. It was hypothesised that the restoration of the anteversion was more accurate with the anatomic stem. Patients and methods: In this comparative study data were collected prospectively of 80 consecutive patients with total hip arthroplasty for primary osteoarthritis. In the first 40 patients (Group I) a cementless proximally fixed anatomic stem with 15° antetorsion of the shaft and a dual sagittal curvature was used. Its design was based on a database of 3D CT images of 600 hips. For comparison a cementless generic straight double-tapered stem was implanted in the next 40 patients (Group II). All operations were performed by one experienced surgeon. All patients had a preoperative 3D planning. A low-dose CT scan was performed at 3 months postoperatively to determine the postoperative stem anteversion. Results: The demographics were similar in both groups. In group I the mean postoperative femoral anteversion was similar to the preoperative one (22.1° ± 10.2° vs. 20.4° ± 9°; p = 0.2). In Group II, the mean postoperative femoral anteversion was lower (12.9° ± 10.8°, vs. 18.3° ± 12°; p = 0.02). Conclusions: Uncemented standard femoral stems tend to reduce femoral anteversion. The used anatomic stem restored femoral anteversion better. The clinical impact of this finding has to be proven. [ABSTRACT FROM AUTHOR]

Published

2023

24. Three-Dimensional Measurement of Proximal Humerus Fractures Displacement: A Computerized Analysis.

Author

Ripoll, Thomas, Chelli, Mikaël, Johnston, Tyler, Chaoui, Jean, Gauci, Marc-Olivier, Vasseur, Heloïse, Poltaretskyi, Sergii, and Boileau, Pascal

Subjects

*HUMERAL fractures, *ANATOMICAL planes, *COMPUTED tomography, *HUMERUS, *STATISTICAL models

Abstract

Neer's classification for proximal humerus fractures (PHFs) uses 10 mm and 45° thresholds to distinguish displaced fragments. While this system was originally developed referencing 2D X-rays, fracture displacements occur in three dimensions. Our work aimed to develop a standardized and reliable computerized method for measuring PHF 3D spatial displacements. CT scans of 77 PHFs were analyzed. A statistical shape model (SSM) was used to generate the pre-fracture humerus. This predicted proximal humerus was then used as a "layer" to manually reduce fragments to their native positions and quantify translation and rotation in three dimensions. 3D computerized measurements could be calculated for 96% of fractures and revealed that 47% of PHFs were displaced according to Neer's criteria. Valgus and varus head rotations in the coronal plane were present in 39% and 45% of cases; these were greater than 45° in 8% of cases and were always associated with axial and sagittal rotations. When compared to 3D measurements, 2D methods underestimated the displacement of tuberosity fragments and did not accurately assess rotational displacements. The use of 3D measurements of fracture displacement is feasible with a computerized method and may help further refine PHF analysis and surgical planning. [ABSTRACT FROM AUTHOR]

Published

2023

25. Conformal Radiation Therapy

Author

Boopathy, Raghavendiran, Heard, Malcolm, Heard, Malcolm, editor, Boopathy, Raghavendiran, editor, and Thomas, Jr., Charles R., editor

Published

2022

26. 3D Planning of Total Knee Arthroplasty: Why and How?

Author

Hess, Silvan, Hirschmann, Michael T., Becker, Roland, editor, Hirschmann, Michael T., editor, and Kort, Nanne P., editor

Published

2022

27. Implant Reconstruction of the Distal Femur: II—Joint-Preserving Resection and Reconstruction with Image-Guided Computer Navigation

Author

Wong, Kwok Chuen, Kumta, Shekhar Madhukar, Özger, Harzem, editor, Sim, Franklin H., editor, Puri, Ajay, editor, and Eralp, Levent, editor

Published

2022

28. Management of Distal Radius Malunions

Author

Krimmer, Hermann and Geissler, William B., editor

Published

2022

29. Validation of the distal filling ratio in uncemented convertible short-stem shoulder arthroplasty.

Author

Raiss, Patric, Wittmann, Thomas, Blakeney, William, Urvoy, Manuel, and Walch, Gilles

Subjects

*RADIOGRAPHS, *ARTHROPLASTY, *COMPUTED tomography, *TOTAL shoulder replacement, *SHOULDER, *AUTOMATED planning & scheduling, *X-rays

Abstract

Introduction: Radiographic stress shielding is a common finding in uncemented convertible short-stem shoulder arthroplasty (UCSSSA). The distal filling ratio (DFR) has been described as a predictor for the occurrence of stress shielding. A DFR > 70% was mentioned as a risk factor for the occurrence of stress shielding for some UCSSSA. However, measurements were only performed on conventional radiographs and no validation exists for 3D automated planning tools. Methods: DFR was manually measured on postoperative true ap radiographs of 76 shoulder arthroplasties using a standardized protocol and were compared to preoperative CT scans with an automated calculation of the DFR after virtual implantation of the stem. Results: The mean DFR measured on X-rays was 75.9% (SD = 8.7; 95% CI = 74–78) vs. 78.9% (SD = 9.1; 95% CI = 76.8–83) automatically measured on CT scans. This difference was significant (p < 0.001). In 7 out of 76 cases (9%) the difference between manual measurement on radiographs and computerized measurement on CT scans was > 10%. Conclusion: Manual measurement of the DFR is underestimated on conventional radiographs compared to automated calculation on CT scans be a mean of 3%. Therefore, automated measurement of the DFR on CT scans seems to be beneficial, especially in cases with osteopenic cortices. Manual measurement of the DFR on conventional ap radiographs in cases without CT scans, however, is still a viable alternative. Level of evidence: Level IV, retrospective study. [ABSTRACT FROM AUTHOR]

Published

2023

30. Impacted bone allograft personalised by a novel 3D printed customization kit produces high surgical accuracy in medial opening wedge high tibial osteotomy: a pilot study.

Author

Van Genechten, Wouter, Van Haver, Annemieke, Bartholomeeusen, Stijn, Claes, Toon, Van Beek, Nathalie, Michielsen, Jozef, Claes, Steven, and Verdonk, Peter

Subjects

OSTEOTOMY, ANALGESIA, HOMOGRAFTS, PILOT projects, CUSTOMIZATION, WEDGES, THIRD molars, TREATMENT effectiveness

Abstract

Purpose: Contemporary medial opening wedge high tibial osteotomy (MOWHTO) still seems to struggle with inconsistent accuracy outcomes. Our objective was to assess surgical accuracy and short-term clinical outcomes when using 3D planning and a patient-specific instrumentation (PSI) kit to prepare customized bone allografts. Methods: Thirty subjects (age 48y ± 13) were included in a double-center prospective case series. A low-dose CT-scan was performed to generate 3D bone models, a MOWHTO was simulated, and PSI was designed and 3D printed based on the complementary negative of the planned osteotomy gap. Clinical outcome was assessed at two, four, 12 weeks and one year using NRS, KOOS, UCLA activity score, EQ-5D and anchor questions. A linear-mixed model approach was implemented for data analysis. Results: Preoperative 3D values were 175.0° ± 2.2 mechanical tibiofemoral angle (mTFA), 85.0° ± 3.0 medial proximal tibial angle (MPTA), and 94.1° ± 3.4 medial posterior tibial slope (MPTS). Target planning ranged from slight varus to the lateral tibial spine (slight valgus). Postoperative 3D analysis showed an accuracy of 1.1° ± 0.7 ΔMPTA (p = 0.04) and 1.2° ± 1.2 ΔMPTS (p = 0.11). NRS decreased from baseline 6.1 ± 1.9 to 2.7 ± 1.9 at four weeks (p < 0.001) and 1.7 ± 1.9 at one year (p < 0.001). KOOS increased from 31.4 ± 17.6 to 50.6 ± 20.6 at 12 weeks (p < 0.001) and to 71.8 ± 15.6 at one year (p < 0.001). Conclusion: The study suggests that 3D printed instrumentation to personalize structural bone allograft is a viable alternative method in MOWHTO that has the benefit of optimizing surgical accuracy while providing early and consistent pain relief after surgery. [ABSTRACT FROM AUTHOR]

Published

2023

31. Primary Reconstruction in Segmental Resection of Mandible—An Outcome Analysis of Different Reconstructive Techniques.

Author

Kumar, K. P. Manoj, Varma, Sujatha, Vipindas, A. P., Das Ajay, T., Vinod, Aswathi, and Mullath, Aswin

Subjects

*MANDIBLE, *BENIGN tumors, *OPERATIVE surgery, *ODONTOGENIC cysts, *ODONTOGENIC tumors, MANDIBLE surgery

Abstract

Functional and cosmetic defects in the maxillofacial region may result from trauma, inflammatory disease, benign or malignant tumors. There are several well established reconstructive options for restoring mandibular continuity and function. Traditionally, surgeons have used their past experience to determine the best way to perform the osteotomy, graft harvesting, and graft shaping procedures for mandibular reconstruction. Focus has now shifted to optimize functional and aesthetic outcomes in mandible reconstruction. Refinements in surgical techniques continue to improve patient's quality of life. The purpose of this study was to evaluate the outcome of a range of reconstructive techniques in 20 patients who underwent segmental resection of mandible during the period 2004-2017. [ABSTRACT FROM AUTHOR]

Published

2022

32. Prediction of the Proximal Humerus Morphology Based on a Statistical Shape Model with Two Parameters: Comparison to Contralateral Registration Method

Author

Florianne E. van Schaardenburgh, H. Chien Nguyen, Joëll Magré, Koen Willemsen, Bert van Rietbergen, and Stefaan Nijs

Subjects

statistical shape modelling, proximal humerus fractures, humeral anatomy, 3D planning, Technology, Biology (General), QH301-705.5

Abstract

(1) Background: Complex proximal humerus fractures often result in complications following surgical treatment. A better understanding of the full 3D displacement would provide insight into the fracture morphology. Repositioning of fracture elements is often conducted by using the contralateral side as a reconstruction template. However, this requires healthy contralateral anatomy. The purpose of this study was to create a Statistical Shape Model (SSM) and compare its effectiveness to the contralateral registration method for the prediction of the humeral proximal segment; (2) Methods: An SSM was created from 137 healthy humeri. A prediction for the proximal segment of the left humeri from eight healthy patients was made by combining the SSM with parameters. The predicted proximal segment was compared to the left proximal segment of the patients. Their left humerus was also compared to the contralateral (right) humerus; (3) Results: Eight modes explained 95% of the variation. Most deviations of the SSM prediction and the contralateral registration method were below the clinically relevant 2 mm distance threshold.; (4) Conclusions: An SSM combined with parameters is a suitable method to predict the proximal humeral segment when the contralateral CT scan is unavailable or the contralateral humerus is unhealthy, provided that the fracture pattern allows measurements of these parameters.

Published

2023

33. 3D Orthopaedic Preoperative Surgical Planning for Total Ankle Replacement

Author

Mauldin, R. Garret, Bradfish, Cindy, Roukis, Thomas S., editor, Hyer, Christopher F., editor, Berlet, Gregory C., editor, Bibbo, Christopher, editor, and Penner, Murray J., editor

Published

2021

34. Orthognathic Surgery

Author

Sierra, Nicolas E., Agell-Sogbe, Adriana, Pamias, Jorge, Bartlett, Scott P., Alonso, Nivaldo, Swanson, Jordan W., editor, and Low, David W., Illustrations by

Published

2021

35. 3D Planning for Complex Cases in Orthognathic Surgery

Author

Caminiti, Marco, Lou, Tiantong, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021

36. Digital Planning in Orthognathic Surgery

Author

Caminiti, Marco, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021

37. Impacted bone allograft personalised by a novel 3D printed customization kit produces high surgical accuracy in medial opening wedge high tibial osteotomy: a pilot study

Author

Wouter Van Genechten, Annemieke Van Haver, Stijn Bartholomeeusen, Toon Claes, Nathalie Van Beek, Jozef Michielsen, Steven Claes, and Peter Verdonk

Subjects

High tibial osteotomy, 3D planning, Patient‐specific instrumentation, Accuracy, Joint preservation, Orthopedic surgery, RD701-811

Abstract

Abstract Purpose Contemporary medial opening wedge high tibial osteotomy (MOWHTO) still seems to struggle with inconsistent accuracy outcomes. Our objective was to assess surgical accuracy and short‐term clinical outcomes when using 3D planning and a patient‐specific instrumentation (PSI) kit to prepare customized bone allografts. Methods Thirty subjects (age 48y ± 13) were included in a double‐center prospective case series. A low‐dose CT‐scan was performed to generate 3D bone models, a MOWHTO was simulated, and PSI was designed and 3D printed based on the complementary negative of the planned osteotomy gap. Clinical outcome was assessed at two, four, 12 weeks and one year using NRS, KOOS, UCLA activity score, EQ‐5D and anchor questions. A linear‐mixed model approach was implemented for data analysis. Results Preoperative 3D values were 175.0° ± 2.2 mechanical tibiofemoral angle (mTFA), 85.0° ± 3.0 medial proximal tibial angle (MPTA), and 94.1° ± 3.4 medial posterior tibial slope (MPTS). Target planning ranged from slight varus to the lateral tibial spine (slight valgus). Postoperative 3D analysis showed an accuracy of 1.1° ± 0.7 ΔMPTA (p = 0.04) and 1.2° ± 1.2 ΔMPTS (p = 0.11). NRS decreased from baseline 6.1 ± 1.9 to 2.7 ± 1.9 at four weeks (p

Published

2023

38. Cranial reconstruction evaluation - comparison of European statistical shape model performance on Chinese dataset

Author

Marc Anton Fuessinger, Marc Christian Metzger, Rene Rothweiler, Leonard Simon Brandenburg, and Stefan Schlager

Subjects

Statistical shape model (SSM), Computer-assisted surgery (CAS), Virtual defect reconstruction, 3D planning, Virtual planning, Skull defects, Diseases of the musculoskeletal system, RC925-935

Abstract

Purpose: Morphological variability of the skull is an important consideration for cranioplasty and implant design. Differences in morphology of the skull based on the ethnicity are known. In a previous study we could show the accuracy and benefits of virtual reconstructions based on a statistical shape model (SSM) for neurocranial defects. As the SSM is trained on European data, the question arises how well this model fares when dealing with patients with a different ethnic background. In this study we aim to evaluate the accuracy and applicability of our proposed method when deploying a cranial SSM generated from European data to estimate missing parts of the neurocranium in a Chinese population. Methods: We used the same data and methods as in our previous study and compared the outcomes when applied to Chinese individuals. A large unilateral defect on the right side and a bilateral defect were created. The outer surface of the cranial table was reconstructed from CT scans, meshed with triangular elements, and registered to a template. Principal component analysis together with Thin Plate Spines (TPS) deformation was applied to quantify modes of variation. The mesh to mesh distances between the original defects´ surfaces and the reconstructed surface were computed. Results: Comparing the Chinese test group with the European control group, regarding the entire defect the analysis shows no significant difference for unilateral defects (test vs. control group/0.46 mm ± vs. 0.44 mm). Reconstruction of bilateral defects exhibited only in slightly higher prediction errors than those of unilateral defects (0.49 mm ± vs. 0.45 mm). Conclusion: The proposed method shows a high accuracy that seems to be ethnical independent - with low error margins for virtual skull reconstruction and implant design.Clinical relevance: Metallic objects may severely impact image quality in several CBCT devices.

Published

2022

39. Immediate Nonsubmerged Custom Root Analog Implants: A Prospective Pilot Clinical Study.

Author

Moin, David Anssari, Hassan, Bassam, and Wismeijer, Daniel

Subjects

CAD/CAM systems, CONE beam computed tomography, DENTAL implants -- Design & construction, DIGITAL dental impression systems, MEDICAL imaging systems, THREE-dimensional imaging, STANDARDS, EQUIPMENT & supplies, BONE substitutes, COMPUTED tomography, COMPUTER-aided design, DENTAL impressions, DENTAL implants, LONGITUDINAL method, COMPLICATIONS of prosthesis, DENTAL extraction, DENTAL radiography, TOOTH roots, PILOT projects, TREATMENT effectiveness, MEDICAL equipment reliability

Abstract

Purpose: To evaluate the feasibility of a commercially available immediate root analog implant system Replicate (Natural Dental Implants). Materials and Methods: Five consecutive patients in need of an implant in the premolar region were recruited for this pilot study. Following clinical examination, a cone beam computed tomography scan was made and the dental impressions digitized. On the basis of the superimposition of these datasets, a three-dimensional (3D) envelope was created for the selected tooth. Subsequently, the tooth root at the prospective implant site was segmented to create a 3D surface, and the obtained mesh data were used as the basis for designing a single-piece root analog implant within the 3D envelope. The designed root analog implant was fabricated using a five-axis computer-aided manufacturing machine. The root analog implants were inserted following flapless minimally invasive root extraction. Following 3 months of uninterrupted healing, definitive restorations were fabricated. Peri-implant clinical and radiographic measurements were obtained up to 12 months follow-up. Results: All patients functioned well following 12 months of functional loading. Within one patient, one of the two root analog implants failed early. Peri-implant clinical and radiographic measurements demonstrated a stable situation after 12 months of functional loading. Conclusion: A novel digital approach for immediately restoring single teeth using root analog implants was introduced. In the future, long-term evaluation of the root analog implant technique is necessary to evaluate the success and survival of implants that were inserted using this technique. [ABSTRACT FROM AUTHOR]

Published

2018

40. Entry Point Variation in the Osseous Fixation Pathway of the Anterior Column of the Pelvis—A Three-Dimensional Analysis.

Author

Dupuis, Lotte, van Ginkel, Laura A., Verhamme, Luc M., Maal, Thomas J. J., Hermans, Erik, and Stirler, Vincent M. A.

Subjects

*COLUMNS, *TRAUMA centers, *COMPUTER-assisted surgery, *HIP fractures, *SCREWS, *HIP joint

Abstract

Fractures of the superior pubic ramus can be treated with screw insertion into the osseous fixation pathway (OFP) of the anterior column (AC). The entry point determines whether the screw exits the OFP prematurely. This can be harmful when it enters the hip joint or damages soft tissues inside the lesser pelvis. The exact entry point varies between patients and can be difficult to ascertain on fluoroscopy during surgery. The aim of this study was to determine variation in the location of the entry point. A retrospective single center study was performed at a level 1 trauma center in the Netherlands. Nineteen adult patients were included with an undisplaced fracture of the superior pubic ramus on computer tomography (CT)-scan. Virtual three-dimensional (3D) models of the pelvises were created. Multiple screws were placed per AC and the models were superimposed. A total of 157 screws were placed, of which 109 did not exit the OFP prematurely. A universally reproducible entry point could not be identified. A typical crescent shaped region of entry points did exist and was located more laterally in females when compared to males. Three-dimensional virtual surgery planning can be helpful to identify the ideal entry points in each case. [ABSTRACT FROM AUTHOR]

Published

2022

41. Nota técnica: planificación virtual 3D en el tratamiento de fractura doble en mandíbula atrófica.

Author

López-Chicharro, Alba García, Pampín Martínez, Marta María, Moreiras Damián, Álvaro, López Martínez, Clara, Aragón Niño, Íñigo, and Cebrián Carretero, José Luis

Subjects

MANDIBULAR fractures, FREEWARE (Computer software), MANDIBLE, EDENTULOUS mouth, POSSIBILITY, MANDIBLE surgery

Abstract

Copyright of Revista Española de Cirugía Oral y Maxilofacial is the property of Sociedad Espanola de Cirugia Oral y Maxilofacial (SECOM) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

42. Accuracy of a digital workflow for bimaxillary orthognathic surgery: comparison of planned and actual outcomes.

Author

Ker Jia Cheryl Lee, Suat Li Tan, Danny Ben Poon Tan, Chee Weng Yong, and Ming Tak Chew

Subjects

ORTHOGNATHIC surgery, CEPHALOMETRY, SURGICAL errors, CONE beam computed tomography, ANATOMICAL planes, POSTOPERATIVE period

Abstract

Copyright of International Journal of Computerized Dentistry is the property of Quintessence Publishing Company Inc. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

43. Optimizing Revision Total Knee Arthroplasty: An In-Depth Analysis of 3D Planning Prediction and Patient-Specific Instruments for Revision Surgery

Author

van der Laan, Thom (author) and van der Laan, Thom (author)

Abstract

In today’s medicine, 3D planning and PSI are not commonly used in revision TKA surgery and little is known about the accuracy and implementation of these techniques in revision TKA. Therefore, the question arises, what are the potential benefits of 3D planning and PSI in revision surgery? The goal of this thesis is to explore the potential benefits of 3D planning and PSI in revision surgery. To achieve this, a retrospective study and a prospective study are performed, and a first design of a 3D printed PSI is created. For both retrospective and prospective study, 3D plannings are made of patients undergoing revision TKA, comparing the pre-operative planning with the post-operative results based on size prediction, augmentation prediction and component placement analysis. The results of the studies conducted in this research align closely with each other, providing similar results for size and augmentation prediction and component placement analysis. All in all, these studies indicated consistency and reliability of the 3D prediction in different scenarios, affirming the potential of 3D planning in revision TKA surgery. Additionally, the first design for a PSI, a 3D-printed guide, is constructed. This design incorporates several important landmarks for component placement during revision TKA, increasing the outcome of these surgeries, especially if landmarks are missing or unidentifiable during surgery. Together 3D planning and PSI have a bright future in revision surgery, however, future research needs to be conducted to implement 3D planning and PSI in modern-day healthcare., TM30004; 35 ECTS, Technical Medicine

Published

2024

44. Three-dimensional secondary reconstruction of mistreated zygomatic fractures using patient specific surgical guides and implants.

Author

Krasovsky A, Hija A, Zeineh N, Bilder A, Emodi O, Rachmiel A, and Shilo D

Abstract

Introduction: The zygomatic bone has a great impact on the anterior and lateral projection of the midface as well as the proper position of the globe. Primary alignment of zygomatic fractures is very important as secondary reconstruction is far more challenging. Treatment of misaligned zygoma requires refracturing of the bone to allow for repositioning. Due to the great impact of the zygoma on the projection of the midface, a precise 3D realignment is of great importance. Technology nowadays develops rapidly and allows for superior results in many surgical fields. The use of patient specific surgical guides and fixation plates is becoming more abundant., Methods: Using 3D segmentation and design software, we developed a sequence for using 3D planning and printing both for the refracturing stage, avoiding a coronal approach, and for precise repositioning and fixation of the zygoma in the new position., Results: The method is described as well as a unique advanced 3D analysis, allowing for objectively assessing the results. Two cases are presented, including the design and post operative changes., Discussion: Pre-op, planned and final positions were compared and showed exceptional accuracy allowing for the elimination of human errors which are common in a 3D sensitive procedure such as refracturing of the zygoma. This method can easily be applied to other secondary reconstruction procedures requiring realignment., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2024 Krasovsky, Hija, Zeineh, Bilder, Emodi, Rachmiel and Shilo.)

Published

2024

45. Corrective Osteotomies Around the Elbow Using 3D Planning and Patient-Specific Instrumentation

Author

Walschot, Lucas H. B., van Riet, Roger P., Van Haver, Annemieke, Verstreken, Frederik, Bain, Gregory, editor, Eygendaal, Denise, editor, and van Riet, Roger P., editor

Published

2020

46. Modern Imaging Techniques and Their Role in Contact Radiation Therapy (Brachytherapy) Planning

Author

N. V. Nudnov and V. A. Titova

Subjects

ultrasonography, computed tomography, positron emission tomography, magnetic resonance imaging, 3d planning, brachytherapy, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

The paper considers an algorithm for the diagnostic study of patients with cancer of different localization, the possibility and feasibility of involving imaging techniques in radiation therapy and brachytherapy (BT) planning. The most widely used ultrasound in BT planning does not exclude a subjective assessment of the boundaries of the tumor and organs at risk, as well as the inaccuracies caused by endostatic devices. Magnetic resonance imaging (MRI) provides a high level of achievement of the criteria necessary for BT planning, but it has financial constraints and the need for individual selection of research conditions. Computed tomography (CT) is the most effective technique for visualizing the tumor, endostatic devices, and organs at risk for BT 3D planning. The involvement of MRI and positron emission tomography with CT in BT planning is a promising area that requires equipping with a mathematical tool for double and triple contouring of the tumor and organs at risk and for defining protection priorities. The prescribed and used focal dose should be controlled by direct dosimetry methods to ensure quality assurance.

Published

2021

47. The statistical shape model as a quality assurance measure in the treatment of complex midface fractures: a case control study

Author

Marc Anton Fuessinger, Steffen Schwarz, Mathieu Gass, Philipp Poxleitner, Leonard Brandenburg, Stefan Schlager, and Marc Christian Metzger

Subjects

Statistical shape model (SSM), Computer-assisted surgery (CAS), Virtual defect reconstruction, 3D planning, Virtual planning, Bilateral midface fracture, Specialties of internal medicine, RC581-951

Abstract

Abstract Background Complex bilateral midface fractures necessitate a surgically challenging procedure to preserve or restore the occlusion and the sensitive eye area. In this case control study, we aim to show the potential of a statistical shape model (SSM) for measuring the quality of the midface reconstruction, compared to the estimated preoperative situation. Methods An individualized SSM was postoperatively registered on 19 reconstructed complex bilateral midface fractures. Using this SSM, the distances from the simulated preoperative situation to the postoperative positions of the fracture segments were calculated. The fracture lines for Le Fort II, Le Fort III, and NOE fractures were chosen as reference points for the distance measurements. Results The SSM could be registered on all 19 complex bilateral midface fractures. All analyzed fractures showed a dorsal impaction (negative values) of the midface. Le Fort II fractures showed deviation values of –0.98 ± 4.6 mm, Le Fort III fractures showed values of –3.68 ± 3.6 mm, NOE type 2 fractures showed values of –0.25 ± 4.6 mm, and NOE type 1 fractures showed values of –0.25 ± 4.6 mm. Conclusions The SSM can be used to measure the quality of the achieved reduction of complex bilateral midface fractures based on the estimated preoperative situation. Trial registration DRKS00009719.

Published

2021

48. Patient specific bony and soft-tissue fibular reconstruction: Perforator virtual surgical planning technique

Author

Mohammed Qaisi, Wu Zheng, Thaer Al Azzawi, and James Murphy

Subjects

Free flaps, Perforator, 3D planning, And VSP, Internal medicine, RC31-1245, Surgery, RD1-811

Abstract

Recent development in Virtual Surgical Planning (VSP) allows for planning of both the bony and soft tissue reconstruction by incorporating skin paddle perforator planning to the 3D planning module. This study aims to describe the perforator planning technique and report on its intraoperative predictability. Methods: A retrospective chart review identified all cases of fibular free flap reconstruction in which VSP was used in combination with perforator soft tissue planning from 2016 to 2022. Data collection included the accuracy of perforator location based on VSP planning versus clinical insitu measurements. Results: Of 61 patients that underwent free flap reconstruction between 2016 and 2022, a total of 19 patients were identified to have undergone fibula free flap reconstruction with the aid of virtual surgical planning utilizing the perforator planning technique. The average number of fibular segments utilized per patient were 2.15. The mean size of the skin paddle harvested was 5.75 cm × 7.25 cm.The VSP planned perforator vessels were identified clinically in all patients. Exact measurement of the dopplerable skin perforator measured from the lateral malleolus were recorded in 8/19 patients. In the remaining 11 patients estimated data was recorded to indicate whether the perforator was located within 2 cm of the pre-planned VSP perforator location; All 11 perforators were identified within a 2 cm radius.In the 8 cases with exact measurements, the insitu clinical perforator measurements differed by a mean 0.55 cm from the predicted locations (range 0–1.8 cm). In 18/19 cases the perforator was reported to be at the same level or inferior to the predicted perforator location. The pearson correlation coefficient showed a strong correlation between virtual and intraoperative measurements r = 0.984; p

Published

2022

49. Can surgeons optimize range of motion and reduce scapulohumeral impingements in reverse shoulder arthroplasty? A computational study.

Author

Gauci, Marc-Olivier, Chaoui, Jean, Berhouet, Julien, Jacquot, Adrien, Walch, Gilles, and Boileau, Pascal

Subjects

*REVERSE total shoulder replacement, *RANGE of motion of joints, *HUMERUS, *SURGEONS

Abstract

Background: Early glenohumeral impingement leads to poor range of motion and notching in reverse shoulder arthroplasty. The aim was to find from planning software which implant configuration provides the best motions in reverse shoulder arthroplasty. Patients and Methods: Reverse shoulder arthroplasty planning (Glenosys) was made in 31 patients (12 men, 19 women, 76 ± 6 yo) and impingements were analyzed. Inlay (155°-inclined) and Onlay (145°-inclined) humeral designs were tested. Four configurations were tested for each shoulder: "INLAY": non-lateralized glenoid-inlay humerus, "BIO-INLAY": lateralized glenoid (BIO-RSA)-inlay humerus, "ONLAY": non-lateralized glenoid-onlay humerus, and "BIO-ONLAY": lateralized (BIO-RSA) glenoid-onlay humerus. Results: BIO-ONLAY and BIO-INLAY groups presented a significantly better result in all tested motion (p < 0.001 for all tests). BIO-ONLAY allowed a significantly better external rotation, extension and adduction than BIO-INLAY with decreased impingements with the pilar. BIO-INLAY presented a significantly better abduction. In abduction, an abutment of the greater tuberosity against the acromion was associated with a lower range of motion (p < 0.0001) and did not depend on the lateralization. Conclusion: Glenoid lateralization delays the glenohumeral impingement in reverse shoulder arthroplasty and gives the best rotations, adduction and extension when associated with neutral inclination and humeral 145° inclination. Greater tuberosity abutment has to be avoided in abduction and the Inlay design provides the best abduction. [ABSTRACT FROM AUTHOR]

Published

2022

50. 3D planning in revision total knee arthroplasty following periprosthetic joint infection. A pilot study.

Author

Balato, Giovanni, Lenzi, Marco, de Matteo, Vincenzo, Verrazzo, Raffaele, de Giovanni, Roberto, Baldi, Dario, and Mariconda, Massimo

Abstract

Objective. Revision total knee arthroplasty (TKA) following a periprosthetic joint infection (PJI) represents a considerable challenge. The geometry of bony defects can be hard to assess on standard x-rays, thus requiring CT evaluation. CT data can be processed to create physical replicas by 3D printing. This model can be used as means of 3D planning through surgical simulation. This study aims to compare the ability to predict the need for augmentation to restore limb alignment between 2D and 3D planning. Methods. Ten consecutive patients undergoing second-stage TKA revision following PJI were included. Pre-operative CT and standard x-rays were obtained in all patients. CT data were used to produce a model using a 3D printer. The surgical simulation was then conducted using TKA revision instrumentation. Standard 2D planning and 3D planning were independently performed by two investigators. Interclass correlation coefficient was used to evaluate agreement on the use of augment. Results. For femoral augment, 3D and 2D accuracies were 80.8 and 37.5%, respectively. For tibial augment, 3D and 2D accuracies were 66.7 and 23.0%, respectively. Conclusions. 3D planning with surgical simulation has shown to be a valuable method to predict the need of augment in revision TKA following PJI. [ABSTRACT FROM AUTHOR]

Published

2022