Comparison of Patient-Specific Instruments with Standard Surgical Instruments in Determining Glenoid Component Position

Three-dimensional (3D) printing is a novel modality with the potential to make a huge impact in the surgical field. The aim of this paper is to provide an overview on the current use of 3D printing in shoulder surgery. We have reviewed the use of this new method in 3 fields of shoulder surgery: shoulder arthroplasty, recurrent shoulder instability and orthopedic shoulder traumatology. In shoulder arthroplasty, several authors have shown that the use of the 3D printer improves the positioning of the glenoid component, even if longer clinical follow-up is needed to determine whether the cost of this system rationalizes the potential improved functional outcomes and decreases glenoid revision rates. In the treatment of anterior shoulder instability, the literature agrees on the fact that the use of the 3D printing can: enhance the dept and size of bony lesions, allowing a patient tailored surgical planning and potentially reducing operative times; allow the production of personalized implants to restore substantial bone loss; restore glenohumeral morphology and instability. In orthopedic trauma, the use of 3D printing can be helpful to increase the understanding of fracture patterns, facilitating a more personalized planning, and can be used for resident training and education. We can conclude the current literature regarding the use of 3D printed models in orthopedic surgery agrees finding objective improvements to preoperative planning and to the surgical procedure itself, by shortening the intraoperative time and by the possibility to develop custom-made, patient-specific surgical instruments, and it suggests that there are tangible benefits for its implementation.

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Three-dimensional planning and use of patient-specific guides improve glenoid component position: an in vitro study

Journal of Shoulder and Elbow Surgery ◽

10.1016/j.jse.2014.05.029 ◽

2015 ◽

Vol 24 (2) ◽

pp. 302-309 ◽

Cited By ~ 118

Author(s):

Gilles Walch ◽

Peter S. Vezeridis ◽

Pascal Boileau ◽

Pierric Deransart ◽

Jean Chaoui

Keyword(s):

Three Dimensional ◽

In Vitro Study ◽

Vitro Study ◽

Patient Specific ◽

Glenoid Component ◽

Component Position

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Surgical Advances in Osteosarcoma

Cancers ◽

10.3390/cancers13030388 ◽

2021 ◽

Vol 13 (3) ◽

pp. 388

Author(s):

Marcus J. Brookes ◽

Corey D. Chan ◽

Bence Baljer ◽

Sachin Wimalagunaratna ◽

Timothy P. Crowley ◽

...

Keyword(s):

Fluorescent Dyes ◽

Imaging Techniques ◽

Intraoperative Imaging ◽

Survival Rates ◽

Computer Navigation ◽

Bone Cancer ◽

Technical Difficulty ◽

Implant Design ◽

Patient Specific ◽

Patient Specific Instruments

Osteosarcoma (OS) is the most common primary bone cancer in children and, unfortunately, is associated with poor survival rates. OS most commonly arises around the knee joint, and was traditionally treated with amputation until surgeons began to favour limb-preserving surgery in the 1990s. Whilst improving functional outcomes, this was not without problems, such as implant failure and limb length discrepancies. OS can also arise in areas such as the pelvis, spine, head, and neck, which creates additional technical difficulty given the anatomical complexity of the areas. We reviewed the literature and summarised the recent advances in OS surgery. Improvements have been made in many areas; developments in pre-operative imaging technology have allowed improved planning, whilst the ongoing development of intraoperative imaging techniques, such as fluorescent dyes, offer the possibility of improved surgical margins. Technological developments, such as computer navigation, patient specific instruments, and improved implant design similarly provide the opportunity to improve patient outcomes. Going forward, there are a number of promising avenues currently being pursued, such as targeted fluorescent dyes, robotics, and augmented reality, which bring the prospect of improving these outcomes further.

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An Innovative and Cost-Advantage CAD Solution for Cubitus Varus Surgical Planning in Children

Applied Sciences ◽

10.3390/app11094057 ◽

2021 ◽

Vol 11 (9) ◽

pp. 4057

Author(s):

Leonardo Frizziero ◽

Gian Maria Santi ◽

Christian Leon-Cardenas ◽

Giampiero Donnici ◽

Alfredo Liverani ◽

...

Keyword(s):

Computer Aided Design ◽

Low Cost ◽

Cost Effective ◽

Varus Deformity ◽

Patient Specific ◽

Cubitus Varus ◽

Surgical Guide ◽

Traditional Procedure ◽

Custom Made ◽

Patient Specific Instruments

The study of CAD (computer aided design) modeling, design and manufacturing techniques has undergone a rapid growth over the past decades. In medicine, this development mainly concerned the dental and maxillofacial sectors. Significant progress has also been made in orthopedics with pre-operative CAD simulations, printing of bone models and production of patient-specific instruments. However, the traditional procedure that formulates the surgical plan based exclusively on two-dimensional images and interventions performed without the aid of specific instruments for the patient and is currently the most used surgical technique. The production of custom-made tools for the patient, in fact, is often expensive and its use is limited to a few hospitals. The purpose of this study is to show an innovative and cost-effective procedure aimed at prototyping a custom-made surgical guide for address the cubitus varus deformity on a pediatric patient. The cutting guides were obtained through an additive manufacturing process that starts from the 3D digital model of the patient’s bone and allows to design specific models using Creo Parametric. The result is a tool that adheres perfectly to the patient’s bone and guides the surgeon during the osteotomy procedure. The low cost of the methodology described makes it worth noticing by any health institution.

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True Kinematic Alignment Is Applicable in 44% of Patients Applying Restrictive Indication Criteria—A Retrospective Analysis of 111 TKA Using Robotic Assistance

Journal of Personalized Medicine ◽

10.3390/jpm11070662 ◽

2021 ◽

Vol 11 (7) ◽

pp. 662

Author(s):

Kim Huber ◽

Bernhard Christen ◽

Sarah Calliess ◽

Tilman Calliess

Keyword(s):

Soft Tissue ◽

Retrospective Analysis ◽

Patient Specific ◽

Kinematic Alignment ◽

Postoperative Phase ◽

Robotic Assistance ◽

Component Position ◽

Joint Stability ◽

Robotic Assisted ◽

Primary Tkas

Introduction: Image-based robotic assistance appears to be a promising tool for individualizing alignment in total knee arthroplasty (TKA). The patient-specific model of the knee enables a preoperative 3D planning of component position. Adjustments to the individual soft-tissue situation can be done intraoperatively. Based on this, we have established a standardized workflow to implement the idea of kinematic alignment (KA) for robotic-assisted TKA. In addition, we have defined limits for its use. If these limits are reached, we switch to a restricted KA (rKA). The aim of the study was to evaluate (1) in what percentage of patients a true KA or an rKA is applicable, (2) whether there were differences regarding knee phenotypes, and (3) what the differences of philosophies in terms of component position, joint stability, and early patient outcome were. Methods: The study included a retrospective analysis of 111 robotic-assisted primary TKAs. Based on preoperative long leg standing radiographs, the patients were categorized into a varus, valgus, or neutral subgroup. Initially, all patients were planned for KA TKA. When the defined safe zone had been exceeded, adjustments to an rKA were made. Intraoperatively, the alignment of the components and joint gaps were recorded by robotic software. Results and conclusion: With our indication for TKA and the defined boundaries, “only” 44% of the patients were suitable for a true KA with no adjustments or soft tissue releases. In the varus group, it was about 70%, whereas it was 0% in the valgus group and 25% in the neutral alignment group. Thus, significant differences with regard to knee morphotypes were evident. In the KA group, a more physiological knee balance reconstructing the trapezoidal flexion gap (+2 mm on average laterally) was seen as well as a closer reconstruction of the surface anatomy and joint line in all dimensions compared to rKA. This resulted in a higher improvement in the collected outcome scores in favor of KA in the very early postoperative phase.

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Patient-specific instruments for total knee arthroplasty can accurately predict the component size as used peroperative

Knee Surgery Sports Traumatology Arthroscopy ◽

10.1007/s00167-016-4345-1 ◽

2016 ◽

Vol 25 (12) ◽

pp. 3844-3848 ◽

Cited By ~ 10

Author(s):

Martijn G. M. Schotanus ◽

Daphne A. L. Schoenmakers ◽

Rob Sollie ◽

Nanne P. Kort

Keyword(s):

Total Knee Arthroplasty ◽

Knee Arthroplasty ◽

Patient Specific ◽

Component Size ◽

Patient Specific Instruments ◽

Total Knee

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Journey of the glenoid in anatomic total shoulder replacement

Shoulder & Elbow ◽

10.1177/1758573218790119 ◽

2018 ◽

Vol 11 (2) ◽

pp. 140-148 ◽

Cited By ~ 4

Author(s):

Alessandro Castagna ◽

Raffaele Garofalo

Keyword(s):

Shoulder Arthroplasty ◽

Current Practice ◽

Total Shoulder Arthroplasty ◽

Shoulder Function ◽

Patient Specific ◽

Glenoid Component ◽

Shoulder Replacement ◽

Final Destination ◽

Component Loosening

Anatomic total shoulder arthroplasty (TSR) has been shown to generate good to excellent results for patients with osteoarthritis and a functioning rotator cuff. Many studies have reported that the glenoid component loosening and failure remain the most common long-term complication of total shoulder arthroplasty. The approach to glenoid component is critical because a surgeon should consider patient-specific anatomy, preserving bone stock and joint line restoration, for a good and durable shoulder function. Over the years, different glenoid design and materials have been tried in various configurations. These include cemented polyethylene, uncemented metal-backed and hybrid implants. Although advances in biomechanics, design and tribology have improved our understanding of the glenoid, the journey of the glenoid component in anatomic total shoulder arthroplasty has not yet reached its final destination. This article attempts to describe the evolution of the glenoid component in anatomic TSR and current practice.

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Use of a custom alignment guide to improve glenoid component position in total shoulder arthroplasty

Knee Surgery Sports Traumatology Arthroscopy ◽

10.1007/s00167-012-2177-1 ◽

2012 ◽

Vol 21 (12) ◽

pp. 2860-2866 ◽

Cited By ~ 29

Author(s):

Eduardo M. Suero ◽

Musa Citak ◽

Darrick Lo ◽

Aaron J. Krych ◽

Edward V. Craig ◽

...

Keyword(s):

Shoulder Arthroplasty ◽

Total Shoulder Arthroplasty ◽

Glenoid Component ◽

Component Position ◽

Alignment Guide

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Three-dimensional technologies used for patient specific applications in orthopedics

Acta Marisiensis - Seria Medica ◽

10.2478/amma-2021-0020 ◽

2021 ◽

Vol 67 (2) ◽

pp. 77-85

Author(s):

Flaviu Moldovan ◽

Tiberiu Bataga

Keyword(s):

Orthopedic Surgery ◽

Three Dimensional ◽

Medical Application ◽

Surgical Instruments ◽

Patient Specific ◽

Innovative Technology ◽

Clinical Environment ◽

Clinical Practices ◽

Content Description ◽

Almost All

Abstract Background: Three-dimensional (3D) technologies have numerous medical applications and have gained a lot of interest in medical world. After the advent of three-dimensional printing technology, and especially in last decade, orthopedic surgeons began to apply this innovative technology in almost all areas of orthopedic traumatic surgery. Objective: The aim of this paper is to give an overview of 3D technologies current usage in orthopedic surgery for patient specific applications. Methods: Two major databases PubMed and Web of Science were explored for content description and applications of 3D technologies in orthopedic surgery. It was considered papers presenting controlled studies and series of cases that include descriptions of 3D technologies compatible with applications to human medical purposes. Results: First it is presented the available three-dimensional technologies that can be used in orthopedic surgery as well as methods of integration in order to achieve the desired medical application for patient specific orthopedics. Technology starts with medical images acquisition, followed by design, numerical simulation, and printing. Then it is described the state of the art clinical applications of 3D technologies in orthopedics, by selecting the latest reported articles in medical literature. It is focused on preoperative visualization and planning, trauma, injuries, elective orthopedic surgery, guides and customized surgical instrumentation, implants, orthopedic fixators, orthoses and prostheses. Conclusion: The new 3D digital technologies are revolutionizing orthopedic clinical practices. The vast potential of 3D technologies is increasingly used in clinical practice. These technologies provide useful tools for clinical environment: accurate preoperative planning for cases of complex trauma and elective cases, personalized surgical instruments and personalized implants. There is a need to further explore the vast potential of 3D technologies in many other areas of orthopedics and to accommodate healthcare professionals with these technologies, as well as to study their effectiveness compared to conventional methods.

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