Total Hip Replacement (THR): Effect of Inclination and Anteversion Angle on the Performance of Epoxy-UHMWPE Acetabular Cup

Product details:

ISBN13:	9789819609741
ISBN10:	9819609747
Binding:	Paperback
No. of pages:	124 pages
Size:	235x155 mm
Language:	English
Illustrations:	13 Illustrations, black & white; 48 Illustrations, color
700

Category:

Natural sciences in general, history of science, philosophy of science

Natural sciences in general, history of science, philosophy of science (charity campaign)

Biochemistry (charity campaign)

Applied physics (charity campaign)

Total Hip Replacement (THR)

Effect of Inclination and Anteversion Angle on the Performance of Epoxy-UHMWPE Acetabular Cup

Manap, Muhammad Faris bin Abd; Shuib, Solehuddin; Romli, Ahmad Zafir;

Series: SpringerBriefs in Applied Sciences and Technology;

Publisher: Springer

Date of Publication: 5 February 2025

Number of Volumes: 1 pieces, Book

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Short description:

This book highlights the critical challenges faced in total hip replacement (THR) procedures, particularly concerning the performance and longevity of acetabular components. Despite advancements in implant technology, issues such as improper orientation and material failure continue to result in complications, including dislocation and wear. Recognizing the need for more reliable solutions, this book explores the optimization of safe zone orientation and the development of composite materials, specifically focusing on metal-on-polymer (MoP) implants. By investigating these factors through numerical analysis, finite element analysis (FEA), and experimental studies, the book seeks to enhance implant performance, reduce failure rates, and ultimately improve patient outcomes in THR surgeries.

Long description:

This book highlights the critical challenges faced in total hip replacement (THR) procedures, particularly concerning the performance and longevity of acetabular components. Despite advancements in implant technology, issues such as improper orientation and material failure continue to result in complications, including dislocation and wear. Recognizing the need for more reliable solutions, this book explores the optimization of safe zone orientation and the development of composite materials, specifically focusing on metal-on-polymer (MoP) implants. By investigating these factors through numerical analysis, finite element analysis (FEA), and experimental studies, the book seeks to enhance implant performance, reduce failure rates, and ultimately improve patient outcomes in THR surgeries.

Table of Contents:

Chapter 1. THE EFFECT OF INCLINATION AND ANTEVERSION ANGLE ON THE PERFORMANCE OF EPOXY-UHMWPE ACETABULAR CUP.- Chapter 2. METAL-ON-METAL TOTAL HIP REPLACEMENT AND SAFE ZONE ORIENTATION OF ACETABULAR CUP .- Chapter 3. FINITE ELEMENT ANALYSIS (FEA) OF METAL-ON-POLYMER (MoP) AND ACETABULAR CUP MATERIAL.- Chapter 4. NUMERICAL AND MATHEMATICAL MODELLING FOR ACETABULAR CUP ORIENTATION.- Chapter 5. EXPERIMENTAL WORK OF EPOXY-UHMWPE MATERIALS.- Chapter 6. ANALYTICAL RESULTS OF SAFE ZONE ORIENTATION.- Chapter 7. FINITE ELEMENT ANALYSIS (FEA) STATIC STRUCTURAL ANALYSIS.- Chapter 8. EXPERIMENTAL WORK OF EPUHMWPE MATERIALS.- Chapter 9. THE PERFORMANCE OF EPOXY-UHMWPE AT DIFFERENT INCLINATION AND ANTEVERSION ANGLE.