Orthopedic implants play a vital part in contemporary medicine

Accident victims and those with joint conditions like osteoarthritis, rheumatoid arthritis, and post-traumatic arthritis may require surgery involving implants such as total hip and knee replacements. Additionally, temporary fracture fixing tools and parts such plates, screws, pins, wires, and nails are included in orthopedic implants. A thorough understanding of the fundamental requirements of orthopedic materials and the ensuing biological response is essential for the design and optimisation of implants under physiological conditions in the human body because orthopedic implants must function under various working conditions in vivo.

Orthopedic implants frequently use ceramics, polymers, and metallic alloys. Different physical, chemical, and biological characteristics of these materials allow them to be used in various applications. Metallic alloys, for example, are frequently used in load-bearing joint prostheses and devices to fix bone fractures due to their good mechanical properties, whereas ceramic materials, which have excellent wear resistance and bioactivity, are frequently used as articulating components or bioactive coatings on implants.

Polymers typically act as a cushion between joints to lessen friction and fixation mechanisms. Orthopedic implants with improved performance and new features have been designed and produced as a result of substantial advancements in this field that have been sparked by the demand for better orthopedic materials. Orthopedic implants have changed over the years with different generations. The focus of recent advancements in implants is on tissue-implant reactions and solutions to them.

Orthopedic implants have changed over the years with different generations. The focus of recent advancements in implants is on tissue-implant reactions and solutions to them.

Orthopedic implants are becoming a crucial part of contemporary medicine. Each year, more than 200,000 total hip replacements are carried out in the US and more than 50,000 in the UK. These implants are extremely safe and biocompatible, and 10 per cent of patients who are at risk for difficulties do so during the course of their lifetimes. Patients over the age of 55 who suffer from significant pain and incapacity due to knee arthritis now prefer arthroplasty [3]. The number of patients needing implants will increase as more people over 65 live in industrialized nations, which will also increase the risk of orthopedic device-related infections (ODRIs). Over 4.4 million persons in the United States have at least one internal fixation device, and over 1.3 million have an artificial joint.

According to data from Data Bridge Market Research, the market for orthopedic implants was worth USD 45,053 million in 2021 and is projected to grow to USD 68,359.6 million by 2029, exhibiting a CAGR of 5.35 per cent from 2022 to 2029.