![]() You can gain deeper knowledge around a complicated topic that you're interested in, like studies in the field of astronomy, by exploring related citations, authors, and publications. You can create a library of research around a topic of interest, like global warming, and create alerts for it so that you're always up-to-date on the latest research. Here are just a few examples of what you can do through Google Scholar: In upcoming years, PEEK materials to create a higher impact on various fields of engineering, medical, dentistry, and associated areas.On the Google Scholar homepage, you can search by "Articles" or "Case law." It is used for a wide variety of applications in bone tissue engineering, post teeth bleaching, spinal implants, Joint replacement and restoration of periodontal defects, therefore, helping improved patient outcomes with higher reliability. It has outstanding properties like biocompatibility, non-toxicity, osteoconductivity, and non-inflammatory nature. PEEK materials match with human body fluids. PEEK is an advanced biomaterial which manufactures lesser weight implants to provide satisfaction to the patient with efficient performance. In the Orthopaedic field, it is applicable for manufacturing of load-bearing implants with similar properties as of human bone. The surgeon can quickly tackle the medical problem of the patient. These 3D manufactured PEEK implants improve patient satisfaction and safety. It opens a new market which has various benefits like customisation, manufacture a replica of bones and other human parts with exact shape and size. 3D printing technologies easily fabricate complex shape PEEK implants by taking data of patient through CT/MRI scan. ![]() It is colourless, and the models manufactured by them are suitable for various medical applications. For patient-specific implants and devices, PEEK material seems a satisfactory material to fulfil the requirement of medical. In the field of medical, fabrication of a customised implant is the primary goal. 3D printing will be useful for manufacturing of different PEEK implants of head, neck, skull, jaw, face and other associated bones. It improves the biocompatibility of load-bearing implants. It provides cost-effective and innovative parts with requisite wear and mechanical strength. In future, it may also make development in the medical field such as tissue engineering. It provides close collaboration between the surgeon, doctors and patient. In future, AM technology will help easy manufacture of customised/designer PEEK implant. This provides better surgery of patient and helps to create patient implants. It will create development in medical and become more common in other fields. Doctors and surgeon adopt PEEK for the best treatment of the patient. In the future, the applications of this material will create possibilities in the medical field. It will manufacture any biomedical splint, stents, and orthodontics devices as per patient requirement of strength. It will replace conventional material for fabricating medical implants. It creates a disruptive effect and increases the performance of surgery. Due to its higher capability of patient comfort, it provides an essential improvement in medical and other associated fields. ![]() In future, PEEK may become suitable material to manufacture implantable medical devices having efficient output and can fulfil the innovative requirements. The application of PEEK is becoming popular due to its better elasticity as similar to natural bone. In dentistry, PEEK implants are used for tooth replacement. Another application of PEEK material in cardiology is the manufacturing of rotor of a micro axial pump. It is efficient for the cardio patient to provide comfort as it not provided by other materials. It is also applicable for cardiac surgery like manufacturing of heart valve prostheses, leaflet heart valves and stents. It converts innovative ideas of doctors and surgeon into reality. 3D printing produces implants with higher accuracy that reduces the risk of surgery and maximises the success rate of operation. It has more benefits over traditional manufacturing methods. Now, 3D printing is also available to manufacture implants with exact dimensioning as per patient requirements. PEEK is used for reconstruction of the customised face of the individual patient with a required strength, durability and stiffness. It creates innovation for spinal arthroplasty devices. These materials are tough having the capability to withstand high temperatures. It can replace titanium and ceramic implants which are being used for different surgeries of orthopaedic, maxilla-facial, cranial and spine. PEEK materials are applicable for different surgical applications in the medical field.
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