Polyethylene Wear Particle Analysis of THA

Hip Arthropathy Clinical Trial

Official title: Polyethylene Wear Particle Analysis of Total Hip Arthroplasty -International Multicenter Study-

Status Not yet recruiting

Clinical Trial Summary

Purpose of research The purpose of this study was to demonstrate that polyethylene (Vitamin E-containing polyethylene), a newly introduced biomaterial for tibial inserts in hip replacement surgery and widely used clinically, but whose mid- to long-term clinical results are still unknown, is superior to conventional polyethylene in vivo. The aim of this project is to conduct an international multi-center joint research study to determine whether polyethylene wear debris production can be reduced in the future, using an in vivo polyethylene wear debris analysis method that the investigators developed as a method that can provide early feedback.

Clinical Trial Description

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. Target of this research In this study, the investigators will focus on patients undergoing revision hip arthroplasty as a routine medical treatment. First total joint replacement - 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) Accumulation of periarticular tissue In this study, the investigators will focus on patients undergoing revision hip 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 5Mol sodium hydroxide 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, hip joint range of motion, hip prosthesis clinical score [Hip dysfunction and Osteoarthritis Outcome Score for Joint Replacement [HOOS Jr], Harris Hip Score, University of California Los Angeles [UCLA] activity score]). ;

Related Conditions & MeSH terms

• Hip Arthropathy
• Joint Diseases
• Wear of Articular Bearing Surface of Prosthetic Joint

• NCT number: NCT06432543
• Study type: Observational
• Source: Osaka Metropolitan University
• Contact: Yukihide Minoda, MD, PhD
• Phone: 81-6-6645-3851
• Email: yminoda@omu.ac.jp
• Status: Not yet recruiting
• Start date: June 1, 2024
• Completion date: December 31, 2028