The Open Orthopaedics Journal




ISSN: 1874-3250 ― Volume 12, 2018
RESEARCH ARTICLE

Minimal Increase in Total Hip Arthroplasty Surgical Procedural Time with the Use of a Novel Surgical Navigation Tool



Alexander Christ1, Danielle Ponzio1, Michael Pitta1, Kaitlin Carroll1, Jeffrey M. Muir2, *, Peter K. Sculco1
1 Division of Adult Reconstruction and Joint Replacement, Department of Orthopedic Surgery, Hospital for Special Surgery, 535 East 70th Street, New York, NY, 10021, USA
2 Intellijoint Surgical, 60 Bathurst St., Suite 6, Waterloo, ON, N2V 2A9, Canada

Abstract

Background:

Computer-assisted navigation has proven effective at improving the accuracy of component placement during Total Hip Arthroplasty (THA); however, the material costs, line-of-site issues and potential for significant time increases have limited their widespread use.

Objective:

The purpose of this study was to investigate the impact of an imageless navigation device on surgical time, when compared with standard mechanical guides.

Methods:

We retrospectively reviewed prospectively collected data from 61 consecutive primary unilateral THA cases (posterior approach) performed by a single surgeon. Procedural time (incision to closure) for THA performed with (intervention) or without (control) a computer-assisted navigation system was compared. In the intervention group, the additional time associated with the use of the device was recorded. Mean times were compared using independent samples t-tests with statistical significance set a priori at p<0.05.

Results:

There was no statistically significant difference between procedural time in the intervention and control groups (102.3±28.3 mins vs. 99.1±14.7 mins, p=0.60). The installation and use of the navigation device accounted for an average of 2.9 mins (SD: 1.6) per procedure, of which device-related setup performed prior to skin incision accounted for 1.1 mins (SD: 1.1) and intra-operative tasks accounted for 1.6 mins (SD: 1.2).

Conclusion:

In this series of 61 consecutive THAs performed by a single surgeon, the set-up and hands-on utilization of a novel surgical navigation tool required an additional 2.9 minutes per case. We suggest that the intraoperative benefits of this novel computer-assisted navigation platform outweigh the minimal operative time spent using this technology.

Keywords: Total hip arthroplasty, Computer-assisted navigation, Procedural time.


Article Information


Identifiers and Pagination:

Year: 2018
Volume: 12
First Page: 389
Last Page: 395
Publisher Id: TOORTHJ-12-389
DOI: 10.2174/1874325001812010389

Article History:

Received Date: 15/5/2018
Revision Received Date: 5/9/2018
Acceptance Date: 7/9/2018
Electronic publication date: 28/09/2018
Collection year: 2018

Article Metrics:

CrossRef Citations:
0

Total Statistics:

Full-Text HTML Views: 113
Abstract HTML Views: 68
PDF Downloads: 37
ePub Downloads: 21
Total Views/Downloads: 239

Unique Statistics:

Full-Text HTML Views: 73
Abstract HTML Views: 48
PDF Downloads: 31
ePub Downloads: 18
Total Views/Downloads: 170
Geographical View

© 2018 Pinzio et al.

open-access license: This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International Public License (CC-BY 4.0), a copy of which is available at: (https://creativecommons.org/licenses/by/4.0/legalcode). This license permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


* Address correspondence to this author at the Intellijoint Surgical, 60 Bathurst St., Suite 6, Waterloo, ON N2V 2A9, Canada, Tel: 519-342-3178; E-mail: j.muir@intellijointsurgical.com




1. INTRODUCTION

Accurate acetabular component placement during Total Hip Arthroplasty (THA) is essential to minimize bearing wear, noise generation, and post-operative complications such as instability and iliopsoas impingement [1Malik A, Maheshwari A, Dorr LD. Impingement with total hip replacement. J Bone Joint Surg Am 2007; 89(8): 1832-42.[PMID: 17671025] -3Nishii T, Sugano N, Miki H, Koyama T, Takao M, Yoshikawa H. Influence of component positions on dislocation: computed tomographic evaluations in a consecutive series of total hip arthroplasty. J Arthroplasty 2004; 19(2): 162-6.[http://dx.doi.org/10.1016/j.arth.2003.09.005] [PMID: 14973858] ]. Instability, increased wear and persistent pain secondary to component malposition may lead to decreased patient satisfaction, readmission, reoperation and an increased financial burden on the healthcare system [2Masaoka T, Yamamoto K, Shishido T, et al. Study of hip joint dislocation after total hip arthroplasty. Int Orthop 2006; 30(1): 26-30.[http://dx.doi.org/10.1007/s00264-005-0032-4] [PMID: 16344996] -4Crowe JF, Sculco TP, Kahn B. Revision total hip arthroplasty: Hospital cost and reimbursement analysis. Clin Orthop Relat Res 2003; (413): 175-82.[http://dx.doi.org/10.1097/01.blo.0000072469.32680.b6] [PMID: 12897608] ]. As the number of primary THAs continues to increase around the world, health care systems are implementing standard of care perioperative protocols to minimize complications leading to revision surgery. The cost of revision arthroplasty is high and ranges from $29,000 to $54,000 per procedure in the United States [4Crowe JF, Sculco TP, Kahn B. Revision total hip arthroplasty: Hospital cost and reimbursement analysis. Clin Orthop Relat Res 2003; (413): 175-82.[http://dx.doi.org/10.1097/01.blo.0000072469.32680.b6] [PMID: 12897608] , 5Bozic KJ, Kurtz SM, Lau E, Ong K, Vail TP, Berry DJ. The epidemiology of revision total hip arthroplasty in the united states. J Bone Joint Surg Am 2009; 91(1): 128-33.[http://dx.doi.org/10.2106/JBJS.H.00155] [PMID: 19122087] ] and any increase in the number of preventable revision surgeries places even further economic burden on an already strained healthcare system. In addition, in the United States, the implementation of bundled payment systems and the subsequent potential penalties for hospitals and health care systems has the potential to reduce costs, with the hospital responsible for the financial penalty for 90 days postoperatively [6Medicare program; Comprehensive care for joint replacement payment model for acute care hospitals furnishing lower extremity joint replacement services. Final rule. Fed Regist 2015; 80(226): 73273-554.[PMID: 26606762] ]. As the majority of dislocations (60%) occur during the first 3 months, the importance of maximizing accuracy when implanting THA components cannot be underemphasized [7Berry DJ, von Knoch M, Schleck CD, Harmsen WS. Effect of femoral head diameter and operative approach on risk of dislocation after primary total hip arthroplasty. J Bone Joint Surg Am 2005; 87(11): 2456-63.[PMID: 16264121] ].

Traditionally, surgeons rely on experience, anatomic landmarks, and alignment guides to guide component placement during THA. Simple mechanical alignment guides may provide additional information on cup position but are often dependant on accurate patient positioning which has been shown to change up to 20 degrees during the surgical approach and retractor placement [8Schwarzkopf R, Muir JM, Paprosky WG, Seymour S, Cross MB, Vigdorchik JM. Quantifying pelvic motion during total hip arthroplasty using a new surgical navigation device. J Arthroplasty 2017; 32(10): 3056-60.[http://dx.doi.org/10.1016/j.arth.2017.04.046] [PMID: 28559196] ]. Patient anatomic landmarks can often be obscured secondary to large acetabular osteophytes that may also obscure the transverse acetabular ligament. Since, their introduction over a decade ago, multiple studies have demonstrated the improved accuracy and precision of computer-assisted navigation devices acetabular component placement [9Lass R, Kubista B, Olischar B, Frantal S, Windhager R, Giurea A. Total hip arthroplasty using imageless computer-assisted hip navigation: A prospective randomized study. J Arthroplasty 2014; 29(4): 786-91.[http://dx.doi.org/10.1016/j.arth.2013.08.020] [PMID: 24290738] -12Kalteis T, Handel M, Herold T, Perlick L, Baethis H, Grifka J. Greater accuracy in positioning of the acetabular cup by using an image-free navigation system. Int Orthop 2005; 29(5): 272-6.[http://dx.doi.org/10.1007/s00264-005-0671-5] [PMID: 16082540] ]. However, there are several drawbacks with computer navigation, including increased procedural cost, cumbersome technology, line-of-site issues and additional operative time, which have limited its widespread adoption [13Jassim SS, Benjamin-Laing H, Douglas SL, Haddad FS. Robotic and navigation systems in orthopaedic surgery: How much do our patients understand? Clin Orthop Surg 2014; 6(4): 462-7.[http://dx.doi.org/10.4055/cios.2014.6.4.462] [PMID: 25436072] ]. While usage has increased over the last 5 years, most estimates suggest that navigation is used in only 5-7% of THA procedures [13Jassim SS, Benjamin-Laing H, Douglas SL, Haddad FS. Robotic and navigation systems in orthopaedic surgery: How much do our patients understand? Clin Orthop Surg 2014; 6(4): 462-7.[http://dx.doi.org/10.4055/cios.2014.6.4.462] [PMID: 25436072] , 14National Joint Registry, c 2008-2014 2016. cited 2016 October 14. Available from: http://www.njrcentre.org.uk/njrcentre/default.aspx]. Increased operative time significantly increases overall procedural cost, which has been estimated at between $37-62 per minute in the United States [15Childers CP, Maggard-Gibbons M. Understanding costs of care in the operating room. JAMA Surg 2018; 153(4): e176233.[http://dx.doi.org/10.1001/jamasurg.2017.6233] [PMID: 29490366] , 16Macario A. What does one minute of operating room time cost? J Clin Anesth 2010; 22(4): 233-6.[http://dx.doi.org/10.1016/j.jclinane.2010.02.003] [PMID: 20522350] ]. In addition, increased operative time reduces the total number of cases that can be complete each day, while also increasing the risk of perioperative complications, including infection [17Manzotti A, Cerveri P, De Momi E, Pullen C, Confalonieri N. Does computer-assisted surgery benefit leg length restoration in total hip replacement? Navigation versus conventional freehand. Int Orthop 2011; 35(1): 19-24.[http://dx.doi.org/10.1007/s00264-009-0903-1] [PMID: 19904533] , 18Sendtner E, Schuster T, Wörner M, Kalteis T, Grifka J, Renkawitz T. Accuracy of acetabular cup placement in computer-assisted, minimally-invasive THR in a lateral decubitus position. Int Orthop 2011; 35(6): 809-15.[http://dx.doi.org/10.1007/s00264-010-1042-4] [PMID: 20495801] ]. For this reason, any additional operative time must be recorded and justified. In several studies, traditional navigation has been shown to lengthen procedural time between 12 to 23 minutes [17Manzotti A, Cerveri P, De Momi E, Pullen C, Confalonieri N. Does computer-assisted surgery benefit leg length restoration in total hip replacement? Navigation versus conventional freehand. Int Orthop 2011; 35(1): 19-24.[http://dx.doi.org/10.1007/s00264-009-0903-1] [PMID: 19904533] -19Parratte S, Argenson JN. Validation and usefulness of a computer-assisted cup-positioning system in total hip arthroplasty. A prospective, randomized, controlled study. J Bone Joint Surg Am 2007; 89(3): 494-9.[http://dx.doi.org/10.2106/JBJS.F.00529] [PMID: 17332097] ], an increase that could potentially decrease operating room efficiency and surgeon/hospital surgical volume.

At our institution, we have begun to utilize a novel, 3D mini-optical navigation device comprised of a miniature camera and optical tracker during THA procedures. This device has demonstrated excellent accuracy [20Grosso P, Snider M, Muir JM. A smart tool for intraoperative leg length targeting in total hip arthroplasty: A retrospective cohort study. Open Orthop J 2016; 10: 490-9.[http://dx.doi.org/10.2174/1874325001610010490] [PMID: 27843511] -24Paprosky WG, Muir JM. Improved accuracy of component placement during total hip arthroplasty: A retrospective cohort study. 2017.December 12-15; In: CCJR WInter Hip Course; Orlando, FL 2017.. 2017.] and, in early clinical studies, was not associated with a significant increase in procedural time [21Wolfstadt J, Amenabar T, Safir O, Backstein D, Gros A, Kuzyk P. An intelligent instrument for improved leg length and hip offset accuracy in total hip arthroplasty. 2014.June 18-21; In: The Combined Meeting of the American Orthopedic Association and the Canadian Orthopaedic Association; Montreal, Quebec. 2014.]. The purpose of this study was to evaluate the impact of this novel mini-navigation system on a consecutive series of THA procedures. Our hypothesis is that there would be no significant difference in procedural time between THA cases performed with the navigation device compared to THA performed using traditional mechanical guides.

2. MATERIALS & METHODS

2.1. Study Design and Study Groups

This study was an Institutional Review Board-approved retrospective cohort study of patients who underwent primary unilateral THA via the posterior approach between May 2016 and June 2017 by a single surgeon.

Patients who underwent a primary unilateral posterior approach THA performed by the senior author (PKS) were included in this study. Two groups were compared: in Group 1 (control), THA was performed using standard mechanical guides and in Group 2 (intervention), THA was performed using a novel computer-assisted navigation system (Intellijoint HIP, Intellijoint Surgical, Waterloo, ON).

Primary outcomes for this study included total procedural time and time required to complete device-related tasks. Procedure time was defined as the time between primary incision and procedure completion. Device-related times were collected for each step required to use the navigation system, including: 1) installation of the pelvic platform, 2) camera aiming and registration, 3) femoral platform installation, 4) baseline leg length and hip center of rotation measurement and 5) final hip center of rotation measurement. A minimum of 5 seconds was required to be spent on a given task for that time to be recorded. Finally, total procedural time – including pre-incision tasks required for use of the navigation device – was calculated.

2.2. Hip Navigation System

The use of the novel imageless hip navigation tool (Intellijoint HIP, Intellijoint Surgical, Waterloo, ON) has been described in detail elsewhere previously [20Grosso P, Snider M, Muir JM. A smart tool for intraoperative leg length targeting in total hip arthroplasty: A retrospective cohort study. Open Orthop J 2016; 10: 490-9.[http://dx.doi.org/10.2174/1874325001610010490] [PMID: 27843511] , 25Paprosky WG, Muir JM. Intellijoint HIP: A 3D mini-optical navigation tool for improving intraoperative accuracy during total hip arthroplasty. Med dev: Evi res 2016; 9: 401-8.]. The navigation tool consists of a camera, a tracker and a computer workstation Fig. (1). The camera is magnetically attached to a pelvic platform, which is itself rigidly fixed to the pelvis via two threaded pins that are drilled into the iliac crest. The camera captures the movements and position of the tracker, which can be magnetically fixed to various instruments during surgery. Acetabular cup position is measured with the tracker attached to the impactor, while changes in leg length are measured by attaching the tracker to a platform fixed to the greater trochanter by a single screw. The tracker can also be magnetically attached to a surgical probe, thus allowing specific measurement of objects or distances. All data is relayed from the camera and captured on a laptop workstation.

Fig. (1)
The Intellijoint HIP® mini-navigation system. The camera (A) sits atop a pelvic platform (B), fixed to the iliac crest via two surgical pins. The camera tracks movement of the tracker (C), which can be magnetically attached to a platform fixed to the greater trochanter (as illustrated) or to other objects during surgery (e.g. impactor, surgical probe).


2.3. Statistics

Statistical significance was set a priori at p<0.05 for all comparisons. Mean values were compared using independent samples t-test and/or single-factor ANOVA. Mean values are presented as mean (Standard Deviation (SD), range).

3. RESULTS

A total of 61 patients (30 intervention, 31 control) were evaluated for inclusion in this study. Four patients were excluded from the intervention group: one required reinstallation of the femoral platform during their procedure and three required removal of pre-existing hardware. No patients were excluded from the control group. As such, 57 patients (26 intervention, 31 control) were included in the final analysis.

3.1. Procedural Time

There was no statistically significant difference between procedural time in the intervention (102.3 ± 27.7 mins) and control groups (99.1 ± 14.7 mins, p = 0.60).

3.2. Device-Related Time

The mean total time required for all device-related tasks (both pre- and intraoperative) was 2.9 ± 1.6 mins Table 1. Pre-incision tasks included the installation of the pelvic platform and accounted for a mean of 1.1 ± 1.1 mins. Device-specific tasks occurring during surgery accounted for 1.6 ± 1.2 mins, including installation of the femoral platform prior to dislocation, which accounted for a mean of 0.5 ± 0.5 minutes.

Table 1
Summary of time associated with computer navigation-related tasks.


4. DISCUSSION

Accurate restoration of leg length, offset, and acetabular component positioning during THA minimizes complication and encourages optimal clinical outcomes. Computer-assisted navigation systems have been shown to improve both precision and accuracy in component placement; however, the majority of surgeons continue to rely on traditional methods and mechanical guides. Navigation systems have failed to gain widespread adoption in THA due to several drawbacks including increased cost, technical challenges, and overall longer operative times. We evaluated a novel image-less navigation system for THA and compared the procedural time of THA performed with device with that of THA performed via traditional methods, and found that the use of navigation did not significantly lengthen procedural time (mean 2.9 minutes). Our data suggest that this new navigation system offers a computer-assisted navigation option that provides the accuracy benefits of navigation without significantly increasing surgical time.

Current computer-assisted navigation systems provide important intraoperative data that helps to improve component selection and placement. This improved accuracy is thought to be associated with a decrease in the likelihood of dislocation and revision surgery [26Sugano N, Nishii T, Miki H, Yoshikawa H, Sato Y, Tamura S. Mid-term results of cementless total hip replacement using a ceramic-on-ceramic bearing with and without computer navigation. J Bone Joint Surg Br 2007; 89(4): 455-60.[http://dx.doi.org/10.1302/0301-620X.89B4.18458] [PMID: 17463111] , 27Sugano N, Takao M, Sakai T, Nishii T, Miki H. Does CT-based navigation improve the long-term survival in ceramic-on-ceramic THA? Clin Orthop Relat Res 2012; 470(11): 3054-9.[http://dx.doi.org/10.1007/s11999-012-2378-4] [PMID: 22569720] ], and has been associated with good outcomes [28Xu K, Li YM, Zhang HF, Wang CG, Xu YQ, Li ZJ. Computer navigation in total hip arthroplasty: A meta-analysis of randomized controlled trials. Int J Surg 2014; 12(5): 528-33.[http://dx.doi.org/10.1016/j.ijsu.2014.02.014] [PMID: 24583365] ]. Indeed, several systematic reviews and meta-analyses have demonstrated improvements in component accuracy and outcomes when comparing navigation-assisted THA with traditional THA. One recent review [29Snijders T, van Gaalen SM, de Gast A. Precision and accuracy of imageless navigation versus freehand implantation of total hip arthroplasty: A systematic review and meta-analysis. Int J Med Robot 2017; 13(4)[http://dx.doi.org/10.1002/rcs.1843] [PMID: 28556582] ] pooled results from seven randomized, controlled trials and found that the use of navigation was associated with significant improvements in the accuracy of acetabular cup orientation (anteversion: Z=3.07, p=0.002; inclination: Z=2.56, p=0.01). Several other systematic reviews have demonstrated the additional ability of navigation to limit safe zone outliers [28Xu K, Li YM, Zhang HF, Wang CG, Xu YQ, Li ZJ. Computer navigation in total hip arthroplasty: A meta-analysis of randomized controlled trials. Int J Surg 2014; 12(5): 528-33.[http://dx.doi.org/10.1016/j.ijsu.2014.02.014] [PMID: 24583365] , 30Liu Z, Gao Y, Cai L. Imageless navigation versus traditional method in total hip arthroplasty: A meta-analysis. Int J Surg 2015; 21: 122-7.[http://dx.doi.org/10.1016/j.ijsu.2015.07.707] [PMID: 26253850] -32Moskal JT, Capps SG. Acetabular component positioning in total hip arthroplasty: An evidence-based analysis. J Arthroplasty 2011; 26(8): 1432-7.[http://dx.doi.org/10.1016/j.arth.2010.11.011] [PMID: 21296551] ], a key to the purported value of navigation in improving long-term outcomes and decreasing dislocation rates. The navigation system used in this study has itself been the subject of several recent studies examining its accuracy in comparison with post-operative imaging. Specifically, in two recent clinical studies, the device demonstrated the ability to measure anteversion to within 2.97°±4.05° [33Pitta M, Ponzio D, Mayman D, Jerabek SA, Sculco PK. Validation of a novel optical surgical navigation system for total hip arthroplasty. AAOS Annual Meeting Las Vegas, NV. 2019.2019.] and 3.26°±3.11° [34Pitta M, Ponzio D, Mayman DJ, Jerabek SA, Sculco PK. Validating the accuracy of a novel computer-assisted system using two-dimensional and three-dimensional radiographic analysis. 13th Congress of the European Hip Society The Hague, The Netherlands. 2018.2018.] and inclination to within 1.06°±0.94° [34Pitta M, Ponzio D, Mayman DJ, Jerabek SA, Sculco PK. Validating the accuracy of a novel computer-assisted system using two-dimensional and three-dimensional radiographic analysis. 13th Congress of the European Hip Society The Hague, The Netherlands. 2018.2018.] and 2.17°±2.50° [33Pitta M, Ponzio D, Mayman D, Jerabek SA, Sculco PK. Validation of a novel optical surgical navigation system for total hip arthroplasty. AAOS Annual Meeting Las Vegas, NV. 2019.2019.] of EOS-derived values. In another study [35Meftah M, Muir JM. Navigation improves accuracy of acetabular cup placement during primary THA. 2018.October 10-13; In: SICOT; Montreal, PQ. 2018.], use of the device was associated with an increased proportion of acetabular components placed in the safe zone (92% vs. 67% traditional, p = 0.002) and a decrease in the number of post-operative leg length differentials greater than 5 mm (7.1% vs. 31% traditional, p=0.007).

Despite these observed improvements in component accuracy associated with navigation, there are several drawbacks to their use. The costs associated with these devices can be prohibitive for some facilities, with capital costs reaching $250,000 and software/maintenance accounting for tens of thousands of dollars of additional costs per year [36Slover JD, Tosteson AN, Bozic KJ, Rubash HE, Malchau H. Impact of hospital volume on the economic value of computer navigation for total knee replacement. J Bone Joint Surg Am 2008; 90(7): 1492-500.[http://dx.doi.org/10.2106/JBJS.G.00888] [PMID: 18594098] , 37Brown ML, Reed JD, Drinkwater CJ. Imageless computer-assisted versus conventional total hip arthroplasty: One surgeon’s initial experience. J Arthroplasty 2014; 29(5): 1015-20.[http://dx.doi.org/10.1016/j.arth.2013.10.007] [PMID: 24287127] ]. Additionally, the learning curve associated with their use can require extended periods of time (up to 50 cases) before surgeons achieve proficiency [38Thorey F, Klages P, Lerch M, Flörkemeier T, Windhagen H, von Lewinski G. Cup positioning in primary total hip arthroplasty using an imageless navigation device: Is there a learning curve? Orthopedics 2009; 32(10)(Suppl.): 14-7.[http://dx.doi.org/10.3928/01477447-20090915-52] [PMID: 19835301] ]. Finally, while providing accurate measurements, these devices have been associated with significant increases in procedural time, ranging from 12 to 23 minutes per procedure [11Kalteis T, Handel M, Bäthis H, Perlick L, Tingart M, Grifka J. Imageless navigation for insertion of the acetabular component in total hip arthroplasty: Is it as accurate as CT-based navigation? J Bone Joint Surg Br 2006; 88(2): 163-7.[http://dx.doi.org/10.1302/0301-620X.88B2.17163] [PMID: 16434517] , 17Manzotti A, Cerveri P, De Momi E, Pullen C, Confalonieri N. Does computer-assisted surgery benefit leg length restoration in total hip replacement? Navigation versus conventional freehand. Int Orthop 2011; 35(1): 19-24.[http://dx.doi.org/10.1007/s00264-009-0903-1] [PMID: 19904533] ]. For high volume surgeons, increases in time of this magnitude can have a substantial impact on efficiency, resulting in a decrease in surgeon and hospital volume. As such, an important finding in our study was that the use of the device did not add significantly to procedural time. The addition of 1.6 minutes to procedural time (incision to completion) is not statistically significant, and does not represent additional time that would be associated with a decrease in operating room efficiency. Likewise, the pre-incision time of 1.1 minutes is also not statistically significant, and indicates that there is no appreciable addition to the preparation time prior to primary incision. Specifically, our study demonstrated that the device adds 2.9 minutes, all of which was accounted for by the device-specific tasks. No additional time was required due to the use of the device (e.g. intraoperative imaging, device calibration). In comparison, several studies have examined the additional time required for traditional imageless navigation, which has been found to add from between 12 to 23 minutes [9Lass R, Kubista B, Olischar B, Frantal S, Windhager R, Giurea A. Total hip arthroplasty using imageless computer-assisted hip navigation: A prospective randomized study. J Arthroplasty 2014; 29(4): 786-91.[http://dx.doi.org/10.1016/j.arth.2013.08.020] [PMID: 24290738] , 11Kalteis T, Handel M, Bäthis H, Perlick L, Tingart M, Grifka J. Imageless navigation for insertion of the acetabular component in total hip arthroplasty: Is it as accurate as CT-based navigation? J Bone Joint Surg Br 2006; 88(2): 163-7.[http://dx.doi.org/10.1302/0301-620X.88B2.17163] [PMID: 16434517] , 17Manzotti A, Cerveri P, De Momi E, Pullen C, Confalonieri N. Does computer-assisted surgery benefit leg length restoration in total hip replacement? Navigation versus conventional freehand. Int Orthop 2011; 35(1): 19-24.[http://dx.doi.org/10.1007/s00264-009-0903-1] [PMID: 19904533] -19Parratte S, Argenson JN. Validation and usefulness of a computer-assisted cup-positioning system in total hip arthroplasty. A prospective, randomized, controlled study. J Bone Joint Surg Am 2007; 89(3): 494-9.[http://dx.doi.org/10.2106/JBJS.F.00529] [PMID: 17332097] ]. Extending procedural time by this amount has a substantial impact on efficiency. Using even the most conservative of cost estimates, traditional navigation can be associated with an increased cost of $851 per primary THA, compared with a more modest increase of $60 for the system used in this study.

Our study has several limitations. The retrospective nature of our study is limiting, and future prospective studies should be performed to assess a larger cohort of patients. Additionally, this study summarizes the results of one surgeon at a high-volume institution which may make the results difficult to extrapolate to lower volume and/or less experienced surgeons. However, the senior author practices at an academic institution, frequently teaching residents and fellows, which would increase overall surgical time compared to surgeons in non-academic settings.

CONCLUSION

We found that a novel mini-navigation tool for total hip arthroplasty did not significantly lengthen procedural time while providing the precision and accuracy benefits of computer-assisted navigation.

ETHICS APPROVAL AND CONSENT TO PARTICIPATE

This study was an Institutional Review Board-approved retrospective cohort study of patients who underwent primary unilateral THA via the posterior approach between May 2016 and June 2017 by a single surgeon.

HUMAN AND ANIMAL RIGHTS

The reported experiments are in accordance with the ethical standards of the committee responsible for human experimentation (institutional and national), and with the Helsinki Declaration of 1975, as revised in 2013 (http://ethics.iit.edu/ecodes/node/3931).

CONSENT FOR PUBLICATION

Written, informed consent was taken from the patients.

CONFLICTS OF INTEREST

JMM is an employee of and holds stock options in Intellijoint Surgical, Inc. No other potential conflicts are reported.

ACKNOWLEDGEMENTS

No specific funding was used to support this study.

REFERENCES

[1] Malik A, Maheshwari A, Dorr LD. Impingement with total hip replacement. J Bone Joint Surg Am 2007; 89(8): 1832-42.[PMID: 17671025]
[2] Masaoka T, Yamamoto K, Shishido T, et al. Study of hip joint dislocation after total hip arthroplasty. Int Orthop 2006; 30(1): 26-30.[http://dx.doi.org/10.1007/s00264-005-0032-4] [PMID: 16344996]
[3] Nishii T, Sugano N, Miki H, Koyama T, Takao M, Yoshikawa H. Influence of component positions on dislocation: computed tomographic evaluations in a consecutive series of total hip arthroplasty. J Arthroplasty 2004; 19(2): 162-6.[http://dx.doi.org/10.1016/j.arth.2003.09.005] [PMID: 14973858]
[4] Crowe JF, Sculco TP, Kahn B. Revision total hip arthroplasty: Hospital cost and reimbursement analysis. Clin Orthop Relat Res 2003; (413): 175-82.[http://dx.doi.org/10.1097/01.blo.0000072469.32680.b6] [PMID: 12897608]
[5] Bozic KJ, Kurtz SM, Lau E, Ong K, Vail TP, Berry DJ. The epidemiology of revision total hip arthroplasty in the united states. J Bone Joint Surg Am 2009; 91(1): 128-33.[http://dx.doi.org/10.2106/JBJS.H.00155] [PMID: 19122087]
[6] Medicare program; Comprehensive care for joint replacement payment model for acute care hospitals furnishing lower extremity joint replacement services. Final rule. Fed Regist 2015; 80(226): 73273-554.[PMID: 26606762]
[7] Berry DJ, von Knoch M, Schleck CD, Harmsen WS. Effect of femoral head diameter and operative approach on risk of dislocation after primary total hip arthroplasty. J Bone Joint Surg Am 2005; 87(11): 2456-63.[PMID: 16264121]
[8] Schwarzkopf R, Muir JM, Paprosky WG, Seymour S, Cross MB, Vigdorchik JM. Quantifying pelvic motion during total hip arthroplasty using a new surgical navigation device. J Arthroplasty 2017; 32(10): 3056-60.[http://dx.doi.org/10.1016/j.arth.2017.04.046] [PMID: 28559196]
[9] Lass R, Kubista B, Olischar B, Frantal S, Windhager R, Giurea A. Total hip arthroplasty using imageless computer-assisted hip navigation: A prospective randomized study. J Arthroplasty 2014; 29(4): 786-91.[http://dx.doi.org/10.1016/j.arth.2013.08.020] [PMID: 24290738]
[10] Gurgel HM, Croci AT, Cabrita HA, Vicente JR, Leonhardt MC, Rodrigues JC. Acetabular component positioning in total hip arthroplasty with and without a computer-assisted system: A prospective, randomized and controlled study. J Arthroplasty 2014; 29(1): 167-71.[http://dx.doi.org/10.1016/j.arth.2013.04.017] [PMID: 23711798]
[11] Kalteis T, Handel M, Bäthis H, Perlick L, Tingart M, Grifka J. Imageless navigation for insertion of the acetabular component in total hip arthroplasty: Is it as accurate as CT-based navigation? J Bone Joint Surg Br 2006; 88(2): 163-7.[http://dx.doi.org/10.1302/0301-620X.88B2.17163] [PMID: 16434517]
[12] Kalteis T, Handel M, Herold T, Perlick L, Baethis H, Grifka J. Greater accuracy in positioning of the acetabular cup by using an image-free navigation system. Int Orthop 2005; 29(5): 272-6.[http://dx.doi.org/10.1007/s00264-005-0671-5] [PMID: 16082540]
[13] Jassim SS, Benjamin-Laing H, Douglas SL, Haddad FS. Robotic and navigation systems in orthopaedic surgery: How much do our patients understand? Clin Orthop Surg 2014; 6(4): 462-7.[http://dx.doi.org/10.4055/cios.2014.6.4.462] [PMID: 25436072]
[14] National Joint Registry, c 2008-2014 2016. cited 2016 October 14. Available from: http://www.njrcentre.org.uk/njrcentre/default.aspx
[15] Childers CP, Maggard-Gibbons M. Understanding costs of care in the operating room. JAMA Surg 2018; 153(4): e176233.[http://dx.doi.org/10.1001/jamasurg.2017.6233] [PMID: 29490366]
[16] Macario A. What does one minute of operating room time cost? J Clin Anesth 2010; 22(4): 233-6.[http://dx.doi.org/10.1016/j.jclinane.2010.02.003] [PMID: 20522350]
[17] Manzotti A, Cerveri P, De Momi E, Pullen C, Confalonieri N. Does computer-assisted surgery benefit leg length restoration in total hip replacement? Navigation versus conventional freehand. Int Orthop 2011; 35(1): 19-24.[http://dx.doi.org/10.1007/s00264-009-0903-1] [PMID: 19904533]
[18] Sendtner E, Schuster T, Wörner M, Kalteis T, Grifka J, Renkawitz T. Accuracy of acetabular cup placement in computer-assisted, minimally-invasive THR in a lateral decubitus position. Int Orthop 2011; 35(6): 809-15.[http://dx.doi.org/10.1007/s00264-010-1042-4] [PMID: 20495801]
[19] Parratte S, Argenson JN. Validation and usefulness of a computer-assisted cup-positioning system in total hip arthroplasty. A prospective, randomized, controlled study. J Bone Joint Surg Am 2007; 89(3): 494-9.[http://dx.doi.org/10.2106/JBJS.F.00529] [PMID: 17332097]
[20] Grosso P, Snider M, Muir JM. A smart tool for intraoperative leg length targeting in total hip arthroplasty: A retrospective cohort study. Open Orthop J 2016; 10: 490-9.[http://dx.doi.org/10.2174/1874325001610010490] [PMID: 27843511]
[21] Wolfstadt J, Amenabar T, Safir O, Backstein D, Gros A, Kuzyk P. An intelligent instrument for improved leg length and hip offset accuracy in total hip arthroplasty. 2014.June 18-21; In: The Combined Meeting of the American Orthopedic Association and the Canadian Orthopaedic Association; Montreal, Quebec. 2014.
[22] Cross MB, Schwarzkopf R, Miller TT, Bogner EA, Muir JM, Vigdorchik JM. Improving registration accuracy during total hip arthroplasty: A cadaver study of a new, 3-D mini-optical navigation system. Hip Int 2018; 28(1): 33-9.[http://dx.doi.org/10.5301/hipint.5000533] [PMID: 28885648]
[23] Vigdorchik JM, Cross MB, Bogner EA, Miller TT, Muir JM, Schwarzkopf R. A cadaver study to evaluate the accuracy of a new 3D mini-optical navigation tool for total hip arthroplasty. Surg Technol Int 2017; 30: 447-54.[PMID: 28537348]
[24] Paprosky WG, Muir JM. Improved accuracy of component placement during total hip arthroplasty: A retrospective cohort study. 2017.December 12-15; In: CCJR WInter Hip Course; Orlando, FL 2017.. 2017.
[25] Paprosky WG, Muir JM. Intellijoint HIP: A 3D mini-optical navigation tool for improving intraoperative accuracy during total hip arthroplasty. Med dev: Evi res 2016; 9: 401-8.
[26] Sugano N, Nishii T, Miki H, Yoshikawa H, Sato Y, Tamura S. Mid-term results of cementless total hip replacement using a ceramic-on-ceramic bearing with and without computer navigation. J Bone Joint Surg Br 2007; 89(4): 455-60.[http://dx.doi.org/10.1302/0301-620X.89B4.18458] [PMID: 17463111]
[27] Sugano N, Takao M, Sakai T, Nishii T, Miki H. Does CT-based navigation improve the long-term survival in ceramic-on-ceramic THA? Clin Orthop Relat Res 2012; 470(11): 3054-9.[http://dx.doi.org/10.1007/s11999-012-2378-4] [PMID: 22569720]
[28] Xu K, Li YM, Zhang HF, Wang CG, Xu YQ, Li ZJ. Computer navigation in total hip arthroplasty: A meta-analysis of randomized controlled trials. Int J Surg 2014; 12(5): 528-33.[http://dx.doi.org/10.1016/j.ijsu.2014.02.014] [PMID: 24583365]
[29] Snijders T, van Gaalen SM, de Gast A. Precision and accuracy of imageless navigation versus freehand implantation of total hip arthroplasty: A systematic review and meta-analysis. Int J Med Robot 2017; 13(4)[http://dx.doi.org/10.1002/rcs.1843] [PMID: 28556582]
[30] Liu Z, Gao Y, Cai L. Imageless navigation versus traditional method in total hip arthroplasty: A meta-analysis. Int J Surg 2015; 21: 122-7.[http://dx.doi.org/10.1016/j.ijsu.2015.07.707] [PMID: 26253850]
[31] Li YL, Jia J, Wu Q, Ning GZ, Wu QL, Feng SQ. Evidence-based computer-navigated total hip arthroplasty: An updated analysis of randomized controlled trials. Eur J Orthop Surg Traumatol 2014; 24(4): 531-8.[http://dx.doi.org/10.1007/s00590-013-1222-1] [PMID: 23589032]
[32] Moskal JT, Capps SG. Acetabular component positioning in total hip arthroplasty: An evidence-based analysis. J Arthroplasty 2011; 26(8): 1432-7.[http://dx.doi.org/10.1016/j.arth.2010.11.011] [PMID: 21296551]
[33] Pitta M, Ponzio D, Mayman D, Jerabek SA, Sculco PK. Validation of a novel optical surgical navigation system for total hip arthroplasty. AAOS Annual Meeting Las Vegas, NV. 2019.2019.
[34] Pitta M, Ponzio D, Mayman DJ, Jerabek SA, Sculco PK. Validating the accuracy of a novel computer-assisted system using two-dimensional and three-dimensional radiographic analysis. 13th Congress of the European Hip Society The Hague, The Netherlands. 2018.2018.
[35] Meftah M, Muir JM. Navigation improves accuracy of acetabular cup placement during primary THA. 2018.October 10-13; In: SICOT; Montreal, PQ. 2018.
[36] Slover JD, Tosteson AN, Bozic KJ, Rubash HE, Malchau H. Impact of hospital volume on the economic value of computer navigation for total knee replacement. J Bone Joint Surg Am 2008; 90(7): 1492-500.[http://dx.doi.org/10.2106/JBJS.G.00888] [PMID: 18594098]
[37] Brown ML, Reed JD, Drinkwater CJ. Imageless computer-assisted versus conventional total hip arthroplasty: One surgeon’s initial experience. J Arthroplasty 2014; 29(5): 1015-20.[http://dx.doi.org/10.1016/j.arth.2013.10.007] [PMID: 24287127]
[38] Thorey F, Klages P, Lerch M, Flörkemeier T, Windhagen H, von Lewinski G. Cup positioning in primary total hip arthroplasty using an imageless navigation device: Is there a learning curve? Orthopedics 2009; 32(10)(Suppl.): 14-7.[http://dx.doi.org/10.3928/01477447-20090915-52] [PMID: 19835301]

Endorsements



"Open access will revolutionize 21st century knowledge work and accelerate the diffusion of ideas and evidence that support just in time learning and the evolution of thinking in a number of disciplines."


Daniel Pesut
(Indiana University School of Nursing, USA)

"It is important that students and researchers from all over the world can have easy access to relevant, high-standard and timely scientific information. This is exactly what Open Access Journals provide and this is the reason why I support this endeavor."


Jacques Descotes
(Centre Antipoison-Centre de Pharmacovigilance, France)

"Publishing research articles is the key for future scientific progress. Open Access publishing is therefore of utmost importance for wider dissemination of information, and will help serving the best interest of the scientific community."


Patrice Talaga
(UCB S.A., Belgium)

"Open access journals are a novel concept in the medical literature. They offer accessible information to a wide variety of individuals, including physicians, medical students, clinical investigators, and the general public. They are an outstanding source of medical and scientific information."


Jeffrey M. Weinberg
(St. Luke's-Roosevelt Hospital Center, USA)

"Open access journals are extremely useful for graduate students, investigators and all other interested persons to read important scientific articles and subscribe scientific journals. Indeed, the research articles span a wide range of area and of high quality. This is specially a must for researchers belonging to institutions with limited library facility and funding to subscribe scientific journals."


Debomoy K. Lahiri
(Indiana University School of Medicine, USA)

"Open access journals represent a major break-through in publishing. They provide easy access to the latest research on a wide variety of issues. Relevant and timely articles are made available in a fraction of the time taken by more conventional publishers. Articles are of uniformly high quality and written by the world's leading authorities."


Robert Looney
(Naval Postgraduate School, USA)

"Open access journals have transformed the way scientific data is published and disseminated: particularly, whilst ensuring a high quality standard and transparency in the editorial process, they have increased the access to the scientific literature by those researchers that have limited library support or that are working on small budgets."


Richard Reithinger
(Westat, USA)

"Not only do open access journals greatly improve the access to high quality information for scientists in the developing world, it also provides extra exposure for our papers."


J. Ferwerda
(University of Oxford, UK)

"Open Access 'Chemistry' Journals allow the dissemination of knowledge at your finger tips without paying for the scientific content."


Sean L. Kitson
(Almac Sciences, Northern Ireland)

"In principle, all scientific journals should have open access, as should be science itself. Open access journals are very helpful for students, researchers and the general public including people from institutions which do not have library or cannot afford to subscribe scientific journals. The articles are high standard and cover a wide area."


Hubert Wolterbeek
(Delft University of Technology, The Netherlands)

"The widest possible diffusion of information is critical for the advancement of science. In this perspective, open access journals are instrumental in fostering researches and achievements."


Alessandro Laviano
(Sapienza - University of Rome, Italy)

"Open access journals are very useful for all scientists as they can have quick information in the different fields of science."


Philippe Hernigou
(Paris University, France)

"There are many scientists who can not afford the rather expensive subscriptions to scientific journals. Open access journals offer a good alternative for free access to good quality scientific information."


Fidel Toldrá
(Instituto de Agroquimica y Tecnologia de Alimentos, Spain)

"Open access journals have become a fundamental tool for students, researchers, patients and the general public. Many people from institutions which do not have library or cannot afford to subscribe scientific journals benefit of them on a daily basis. The articles are among the best and cover most scientific areas."


M. Bendandi
(University Clinic of Navarre, Spain)

"These journals provide researchers with a platform for rapid, open access scientific communication. The articles are of high quality and broad scope."


Peter Chiba
(University of Vienna, Austria)

"Open access journals are probably one of the most important contributions to promote and diffuse science worldwide."


Jaime Sampaio
(University of Trás-os-Montes e Alto Douro, Portugal)

"Open access journals make up a new and rather revolutionary way to scientific publication. This option opens several quite interesting possibilities to disseminate openly and freely new knowledge and even to facilitate interpersonal communication among scientists."


Eduardo A. Castro
(INIFTA, Argentina)

"Open access journals are freely available online throughout the world, for you to read, download, copy, distribute, and use. The articles published in the open access journals are high quality and cover a wide range of fields."


Kenji Hashimoto
(Chiba University, Japan)

"Open Access journals offer an innovative and efficient way of publication for academics and professionals in a wide range of disciplines. The papers published are of high quality after rigorous peer review and they are Indexed in: major international databases. I read Open Access journals to keep abreast of the recent development in my field of study."


Daniel Shek
(Chinese University of Hong Kong, Hong Kong)

"It is a modern trend for publishers to establish open access journals. Researchers, faculty members, and students will be greatly benefited by the new journals of Bentham Science Publishers Ltd. in this category."


Jih Ru Hwu
(National Central University, Taiwan)


Browse Contents



Advertisements


8th International Conference On Drug Discovery & Therapy
5th Biotechnology World Congress
Webmaster Contact: info@benthamopen.com
Copyright © 2018 Bentham Open