Clinical Trials Logo

Clinical Trial Summary

The purpose of this study was to investigate whether polyethylene (Vitamin E-containing polyethylene), which has been newly introduced and widely used clinically as a biomaterial for tibial inserts in total knee arthroplasty, but whose mid- to long-term clinical results are still unknown, is more effective than conventional polyethylene. Our goal is to clarify through an international multi-center joint study using in vivo polyethylene wear particle analysis, which the investigators developed as a method to provide early feedback, as to whether polyethylene wear debris production in vivo can be reduced.


Clinical Trial Description

Anticipated medical contribution and significance In this study, the investigators investigate whether a newly introduced polyethylene (highly cross-linked polyethylene, vitamin E-containing polyethylene in vivo) can suppress wear debris production more than conventional polyethylene. If the newly introduced polyethylene can reduce wear debris production, it is expected to reduce failure of artificial joints in the future. However, if newly introduced polyethylene is actually increasing wear debris production, it could be an early alarm bell for surgeons around the world. In other words, the international and social impact of this research is extremely large. Two unique requirements are necessary to carry out this research. Firstly, in vivo analysis of polyethylene wear particles is possible, and secondly, the number of surgical cases of revision knee arthroplasty targeted for investigation is large. The first requirement is that the applicants have published many English-language papers on in vivo polyethylene wear debris analysis, and that their facilities are the most suitable and fully capable of carrying out the analysis worldwide. be. The second requirement is that the investigators need to collaborate not only with our hospital but also with facilities that perform a large number of revision knee arthroplasty surgeries. Not only our hospital, but also our affiliated hospital, which is one of the facilities in Japan that performs the most knee joint surgeries (Naniwa Ikuno Hospital), and the hospital that performs the most knee joint surgeries worldwide (Mayo Clinic [USA]). , Hospital for Special Surgery [USA], Istituto Ortopedico Rizzoli [Italy]). Research method In this study, the investigators conducted the following steps to determine the in vivo wear particles (number, size, and morphology) of conventional polyethylene, whose long-term results have already been clarified, and vitamin E-containing polyethylene, whose mid- to long-term results have not yet been clarified. Clarifying the difference [Figure 3]. Target of this research In this study, the investigators will focus on patients undergoing revision knee arthroplasty as a routine medical treatment. First total joint replacement - 30 patients using polyethylene containing Vitamin E - 30 patients using conventional polyethylene (no highly cross-linking) - 30 patients using conventional polyethylene (with highly cross-linking) Accumulation of periarticular tissue In this study, the investigators will focus on patients undergoing revision knee arthroplasty as a routine medical treatment. The test will be conducted after obtaining approval from the ethics committee at each facility and obtaining informed consent. The pericapsular tissue, which is removed during surgery and usually discarded, is obtained and fixed in formalin fixative. The tissue will be transported to the Department of Orthopedic Surgery, Osaka Public University Graduate School of Medicine for analysis. International transportation of tissues requires outsourcing to specialized companies with experience in transporting tissues from overseas. Isolation of polyethylene wear debris The collected tissue around the joint capsule is immersed in 5M NaOH at 65°C for 1 hour to decompose the protein. Make a sucrose layer (5, 10, 20%) in a 14ml tube (14PA tube, Hitachi Koki Co, Ltd, Tokyo, Japan), add the dissolved solution, and place in an ultracentrifuge (CP100a, P28S1014 rotor, Hitachi Koki). Ultracentrifuge at 28,000 rpm [103,7009g] for 3 hours at 4°C. Prepare an isopropanol layer (0.90 and 0.96 g/mL) in a 40 ml tube (40PA tube, Hitachi Koki Co, Ltd, Tokyo, Japan), add the upper layer of sucrose layer, and centrifuge at 28,000 rpm (103,7009 g ) and perform ultracentrifugation at 4°C for 1 hour. The isopropanol interlayer is collected to isolate polyethylene wear debris. Analysis of polyethylene wear debris The isopropanol interlayer is filtered through a 0.1 μm polycarbonate filter (VCTP 013-00, Millipore Corporation, Bedford, MA). Dry the polycarbonate filter, fix it on an aluminum pedestal (M4, Nisshin EM Co, Ltd, Tokyo, Japan), and apply platinum coating (E-1030 ion sputter, Hitachi Science Systems Ltd, Tokyo, Japan). Observe the polyethylene wear particles on the polycarbonate filter using a scanning electron microscope (S4700SI, Hitachi Ltd, Tokyo, Japan), and analyze the following items using an image analyzer (Mac Scope, Mitani Co, Tokyo, Japan). - Number of polyethylene wear particles (number per 1g of tissue) - Size (Equivalent circle diameter [μm]) - Shape (aspect ratio, roundness) Comparison of iv vivo polyethylene wear powder morphology depending on polyethylene material The number, size, and form of polyethylene wear debris will be compared between conventional polyethylene, whose long-term results have already been clarified, and vitamin E-containing polyethylene, whose medium- to long-term results have not yet been clarified. The investigators also investigated factors that affect polyethylene wear in vivo (age, height, weight, period from initial surgery to revision surgery, knee joint range of motion, knee prosthesis clinical score [Knee Society Score, University of California at Los Angeles activity score]). Evaluation items (outcome) Main evaluation items: Polyethylene wear particle morphology (number of wear particles, equivalent circle diameter [㎛], aspect ratio, roundness) [Reason for setting primary endpoints] Because it is a standard evaluation item for evaluating polyethylene wear debris. Secondary endpoints: - Body mass index - Knee joint range of motion - Clinical score (2011Knee Society Score, Knee injury and Osteoarthritis Outcome Score for Joint Replacement, University of California at Los Angeles activity score) [Reason for setting secondary endpoints] Because it may affect the production of polyethylene wear debris. Planned number of research subjects and basis for setting it (including cases where the number of research subjects is set without relying on statistical grounds) Total 90 cases - 30 patients using polyethylene containing Vitamin E - 30 patients using conventional polyethylene (no high cross-linking) - 30 patients using conventional polyethylene (with high cross-linking) Rationale for setting: The target number of cases was determined from the number of cases at related institutions within the study period. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06426641
Study type Observational
Source Osaka Metropolitan University
Contact
Status Active, not recruiting
Phase
Start date December 5, 2023
Completion date December 31, 2028

See also
  Status Clinical Trial Phase
Completed NCT03542981 - Interferential Current Therapy After Total Knee Arthroplasty N/A
Recruiting NCT04458480 - Effect of Fast Inpatient Rehabilitation After TKA
Completed NCT03286543 - Electrical Stimulation for the Treatment of Pain Following Total Knee Arthroplasty Using the SPRINT Beta System N/A
Recruiting NCT06061367 - Muscles Strength and Gait Parameteres After TKA
Recruiting NCT05391828 - Persona MC vs PS RCT With ROSA N/A
Active, not recruiting NCT04850300 - Efficiency Assessment of the Methodology for the Follow-up of Patients With Knee Prostheses Phase 3
Completed NCT05635916 - Trial of Liposomal Bupivacaine for TKA Phase 4
Enrolling by invitation NCT05130216 - Genicular Nerve Radiofrequency Ablation for Chronic Knee Pain After Total Knee Arthroplasty
Completed NCT03206554 - Local Infiltration Analgesia in Total Knee Arthroplasty Phase 2
Withdrawn NCT02495805 - Ultrasound-guided Continuous Proximal Adductor Canal vs Continuous Femoral Nerve Block for Postoperative Pain Control and Rehabilitation Following Total Knee Arthroplasty N/A
Completed NCT01616836 - Optimizing Pain and Rehabilitation After Knee Arthroplasty Phase 3
Withdrawn NCT01511211 - Duration of Leg Nerve Blocks With Dexamethasone Added to Local Anesthetic Phase 4
Not yet recruiting NCT00958945 - Retrospective Chart Analysis in the Effective Use of FloSeal in Post-Operative Joint Replacements N/A
Completed NCT00985920 - Topical Tranexamic Acid for Total Knee Arthroplasty Phase 4
Completed NCT00761956 - A Study to Compare the NexGen CR and CR-Flex Knee Implants N/A
Completed NCT03289247 - Tissue Adhaesive in Wound Closure Following Primary Total Knee Arthroplasty N/A
Terminated NCT03316118 - US Guided GNB vs Saline Injection for TKA Phase 4
Recruiting NCT05962970 - Continuous Adductor Canal Block in Fast Track Total Knee Arthroplasty N/A
Completed NCT03317834 - Navio With Total Knee Arthroplasty
Enrolling by invitation NCT06188091 - Joint Movement to Increase Range of Motion in Knee Joint After Primary Total Knee Arthroplasty N/A