Surgical treatment for both-column acetabular fractures using pre-operative virtual simulation and three-dimensional printing techniques
10.1097/CM9.0000000000000649
- Author:
Huang JI-HUI
1
;
Liao HUI
;
Tan XIN-YU
;
Xing WEI-RONG
;
Zhou QI
;
Zheng YU-SHI
;
Cao HONG-YU
;
Zeng CAN-JUN
Author Information
1. Department of Orthopedics
- Keywords:
Both-column;
Acetabulum fractures;
Computer simulation;
Three-dimensional printing;
Internal fracture fixation
- From:
Chinese Medical Journal
2020;133(4):395-401
- CountryChina
- Language:Chinese
-
Abstract:
Background:Surgical treatment of both-column acetabular fractures is challenging because of the complex acetabular fracture patterns and the curved surface of the acetabulum.Seldom study has compared the application of three-dimensional (3D) printing technology and traditional methods of contouring plates intra-operatively for the surgical treatment of both-column acetabular fractures.We presented the use of both 3D printing technology and a virtual simulation in pre-operative planning for both-column acetabular fractures.We hypothesized that 3D printing technology will assist orthopedic surgeons in shortening the surgical time and improving the clinical outcomes.Methods:Forty patients with both-column acetabular fractures were recruited in the randomized prospective case-control study from September 2013 to September 2017 for this prospective study (No.ChiCTR1900028230).We allocated the patients to two groups using block randomization (3D printing group,n =20;conventional method group,n =20).For the 3D printing group,1:1 scaled pelvic models were created using 3D printing,and the plates were pre-contoured according to the pelvic models.The plates for the conventional method group were contoured during the operation without 3D printed pelvic models.The operation time,instrumentation time,time of intra-operative fluoroscopy,blood loss,number of times the approach was performed,blood transfusion,post-operative fracture reduction quality,hip joint function,and complications were recorded and compared between the two groups.Results:The operation and instrumentation times in the 3D printing group were significantly shorter (130.8 ± 29.2 min,t =-7.5,P < 0.001 and 32.1 ± 9.5 min,t =-6.5,P < 0.001,respectively) than those in the conventional method group.The amount of blood loss and blood transfusion in the 3D printing group were significandy lower (500 [400,800] mL,Mann-Whitney U=74.5,P < 0.001 and 0 [0,400] mL,Mann-Whitney U =59.5,P < 0.001,respectively) than those in the conventional method group.The number of the approach performed in the 3D printing group was significantly smaller than that in the conventional method group (pararectus + Kocher-Langenbeck [K-L] approach rate:35% vs.85%;X2 =10.4,P < 0.05).The time of intra-operative fluoroscopy in the 3D printing group was significantly shorter than that in the conventional method group (4.2 ± 1.8 vs.7.7 ± 2.6 s;t =-5.0,P < 0.001).The post-operative fracture reduction quality in the 3D printing group was significantly better than that in the conventional method group (good reduction rate:80% vs.30%;X2 =10.1,P < 0.05).The hip joint function (based on the Harris score 1 year after the operation) in the 3D printing group was significantly better than that in the conventional method group (excellengood rate:75% vs.30%;x2 =8.1,P < 0.05).The complication was similar in both groups (5.0 % vs.25 %;x2=3.1,P =0.182).Conclusions:The use of a pre-operative virtual simulation and 3D printing technology is a more effective method for treating bothcolumn acetabular fractures.This method can shorten the operation and instrumentation times,reduce Mood loss,blood transfusion and the time of intra-operative fluoroscopy,and improve the post-operative fracture reduction quality.
