Use of Three-dimensional Printing in Orthopaedic Surgical Planning

Overview

Journal J Am Acad Orthop Surg Glob Res Rev

Specialty Orthopedics

Date 2018 Sep 14

PMID 30211394

Citations 20

Authors

Marcelo Galvez

Takeshi Asahi

Alejandro Baar

Giovanni Carcuro

Natalio Cuchacovich

Jorge A Fuentes

Rodrigo Mardones

Carlos E Montoya

Roberto Negrin

Felipe Otayza

Gonzalo M Rojas

Andres Chahin

Affiliations

Soon will be listed here.

Abstract

Background: Three-dimensional (3D) printing is a technique based on overlapping layers of a material (eg, plastic, clay, and metal). The widespread implementation of 3D printers has resulted in a notable increase in use. Fields such as construction, engineering, and medicine benefit from this technique.

Aim: The use of 3D printed scale models permits better surgical planning and results.

Methods: The models were created based on CT images of seven patients (age range, 5 to 61 years) with different pathologies who were candidates for surgery.

Results: Surgical time decreased as a result of detailed surgical planning with printed models. This technique also was associated with a decrease in bleeding, a reduction in the amount of anesthesia required, and greater precision. In some patients, a change in surgical strategy was noted, thus allowing for a reduction in the number of surgeries and the aggressiveness of surgery. Finally, the preoperative practice (virtual and physical osteotomies using cutting tools) that was performed in two cases allowed the surgeon to evaluate the different approach alternatives and establish the best strategy.

Conclusions: The use of 3D-printed anatomic models has improved surgical planning, especially for patients in whom the conventional techniques are insufficient for establishing a proper strategy. The extra information provided by 3D-printed models can lead to a better intervention strategy, which is beneficial for patients because it decreases the risks, procedure times, and recovery times.

Citing Articles

The use of three-dimensional printing and virtual reality technologies in orthopaedics-with a focus on orthopaedic trauma.

Policicchio T, Konar K, Brameier D, Sadoghi P, Suneja N, Stenquist D J Clin Orthop Trauma. 2025; 63:102930.

PMID: 40012847 PMC: 11850734. DOI: 10.1016/j.jcot.2025.102930.

Advancements and Applications of Three-dimensional Printing Technology in Surgery.

Kanumilli S, Kosuru B, Shaukat F, Repalle U J Med Phys. 2024; 49(3):319-325.

PMID: 39526161 PMC: 11548071. DOI: 10.4103/jmp.jmp_89_24.

Emerging Technologies in Hand Orthopedic Surgery: Current Trends and Future Directions.

Dashtbozorg A, Heidarian E, Sagheb Ray Shirazi M, Movahednia Z, Jafari M, Abedi Azar R Galen Med J. 2024; 13:e3325.

PMID: 39224550 PMC: 11368481. DOI: 10.31661/gmj.v13i.3325.

Enhancing Hip Arthroplasty Outcomes: The Multifaceted Advantages, Limitations, and Future Directions of 3D Printing Technology.

Barakeh W, Zein O, Hemdanieh M, Sleem B, Nassereddine M Cureus. 2024; 16(5):e60201.

PMID: 38868274 PMC: 11167579. DOI: 10.7759/cureus.60201.

3D printing-assisted surgery for the treatment of proximal clavicle fracture with ipsilateral acromioclavicular joint dislocation: a case description.

Gu Y, Zhuang Y Quant Imaging Med Surg. 2024; 14(1):1234-1240.

PMID: 38223100 PMC: 10784062. DOI: 10.21037/qims-23-720.

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