Library of peer-reviewed publications – clinical studies on the impact of VERASENSE
sensor-assisted technology in total knee arthroplasty.
1. Chow J, Breslauer L.
The Use of Intraoperative Sensors Significantly Increases the Patient-Reported Rate of Improvement in Primary Total Knee Arthroplasty. Orthopedics. 2017 (In Press).
2. Gustke K, Golladay G, Roche M, Elson L, Anderson C.
A Targeted Approach to Ligament Balancing Using Kinetic Sensors. J Arthroplasty. 2017 (In Press).
3. Geller JA, Lakra A, Murtaugh T.
The Use of Electronic Sensor Device to Augment Ligament Balancing Leads to a Lower Rate of Arthrofibrosis after Total Knee Arthroplasty. J Arthroplasty. 2017 (In Press).
4. Della Valle AG et al.
Algorithmic Pie-Crusting of the Medial Collateral Ligament Guided by Sensing Technology Affects the Use of Constrained Inserts during Total Knee Arthroplasty. International Orthopaedics. 2017 (In Press).
5. Chow J, Wang K, Elson L, Anderson C, Roche M.
Effects of Cementing on Ligament Balance During Total Knee Arthroplasty. Orthopedics. 2017 (In Press).
6. Deehan DJ et al.
Does Maximal External Tibial Component Rotation Influence Tibiofemoral Load Distribution in the Primary Knee Arthroplasty Setting: A Comparison of Neutral Versus Maximal Anatomical External Rotatory States. J Arthroplasty. 2017 (In Press).
7. Delanois R, Mistry J, Chughtai M, Klika A, Khlopas A, Barsoum W, Higuera C, Bhave A, Mont M.
Novel Sensor Tibial Inserts in Total Knee Arthroplasty: A Review. Surgical Technology International. 2016 (In Press).
Using Sensors to Evaluate Revision TKA: Treating the “Looks Good; Feels Bad” Knee. EC Orthopaedics. 3.5 (2016): 381-385.
9. Nodzo S, Franceschini V, Della Valle AG.
Intraoperative Load Sensing Variability During Cemented, Posterior Stabilized Total Knee Arthroplasty. J Arthroplasty. 2016 (In Press).
10. Manning W, Ghosh K, Blain A, Longstaff L, Deehan D.
Tibiofemoral forces for the native and post-arthroplasty knee: relationship to maximal laxity through functional article of motion. Knee Surg Sports Traumatol Arthrosc. (2016). doi:10.1007/s00167-016-4093-2
11. Smith T, Elson L, Anderson C, Leone W.
How are we addressing ligament balance in TKA? A literature review of Revision Etiology and Technological Advancement. Journal of Clin Orthrop Trauma 7.4 (2016): 248–255 .
12. Meere P, Schneider S, Walker P.
Accuracy of Balancing at Total Knee Surgery Using an Instrumented Tibial Trial. J Arthroplasty 31 (2016). 1938-1942.
13. Elmallah R, Mistry J, Cherian J, Chughati M, Bhave A, Roche M, Mont M.
Can we really “feel” a balanced total knee arthroplasty. J Arthroplasty 31 (2016). S102-S105.
14. Anderson C, Roche M, Golladay G, Elson L.
Bony cuts or soft-tissue release? Using intra-operative sensors to refine balancing techniques in TKA. Bone Joint J. Jan 2016, 98-B (SUPP 1) 16.
15. Gustke K
Sensor Technology in Total Knee Arthroplasty. Minimally Invasive Surgery in Orthopedics. 25 Jan 2016. pp 1-15. Springer: New York.
16. Roche M, Gustke K, Law TY.
The Utilization of Smart Trials in PCL Retaining Knees. Seminars in Arthroplasty. 26 (2015); 218-228.
17. Schnaser E, Lee L, Della Valle AG
Patellar Position Affects Intraoperative Compartmental Loads During TKA: A Pilot Study Using A Novel Radiofrequency Knee Soft-Tissue Balancer. J Arthroplasty 30 . 2015. 1348-1353.e3.
18. Meere P, LaMont J, Baez J, Kang M, Rasquinha V, Anderson C, Jacobs C
Surgeon Assessment of Gapping Versus Kinetic Loading Using Intraoperative Sensors During TKA. Reconstructive Review. 2015; 5(3): 29-34.
19. Leone, WA
Using Intraoperative Sensing Technology to Guide Revision in the Chronically Painful Knee: A Two-Patient Case Study. ECOR. 2015; 2(2): 77-81.
20. Meere, P
The Use of Sensor Technology Allowing Implant Salvage In Selected Cases of Revision Total Knee Arthroplasty: A Two-Case Retrospective Case Series. ECOR. 2015; 2(3): 110-116.
21. Leone W, Elson, L, Anderson C
A Systematic Literature Review of Three Modalities in Technologically Assisted TKA. Adv Orthop. 2015.
22. Roche MW, Elson LC, Anderson CR
A Novel Technique Using Sensor-Based Technology To Evaluate Tibial Tray Rotation. Orthopedics. 2015 Mar 1;38(3).
23. Gustke KA, Golladay GJ, Roche M, Elson L, Anderson C
Primary TKA patients with Quantifiably Balanced Soft-Tissue Achieve Significant Clinical Gains Sooner than Unbalanced Patients. Adv Orthop. 2014:628695
24. Gustke K, Golladay G, Jerry G, Roche MW, Elson LC, Anderson CR
Increased Patient Satisfaction After Total Knee replacement using sensor-guided technology. Bone Joint J. 2014 Oct;96-B(10):1333-8
25. Golladay G, Gustke K, Roche M, Elson L, Anderson C
Post-operative Weight Gain After Total Knee Arthroplasty: Prevalence and Its Possible Attenuation Using Intraoperative Sensors. Reconstructive Review. March 2014.
26. Roche M, Elson L, Anderson C
Dynamic Soft-Tissue Balancing in TKA. Orthopedic Clinics of North America. 2014 Apr;45(2):157-65.
27. Gustke K, Golladay G, Roche M, Elson L, Anderson C
A New Method for Defining Balance: Promising Short-term outcomes of Sensor-Guided TKA. J Arthroplasty. 2014 May;29(5):955-60
28. Walker P, Meere P, Bell C
Effects of Surgical Variables in Balancing of Total Knees Using an Instrumented Tibial Trial. Knee. 2014 Jan;21(1):156-61
29. Gustke K
Use of Smart Trials for Soft-Tissue Balancing in Total Knee Replacement Surgery. J Bone Joint Surg Br. 2012 Nov;94(11 Suppl A):147-50
OrthoSensor is leading the development of a new era of intelligent
medical devices through the convergence of ORTHOPAEDICS, TECHNOLOGY and CLOUDCOMPUTING.
OrthoSensor is globally transforming total knee replacement with the goal of improving surgical outcomes and patient satisfaction. With corporate headquarters in Dania Beach, Florida, OrthoSensor partners with global medical technology companies to improve soft tissue balance and implant position through sensor-assisted technology used in primary and revision total knee replacement.