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Certain facets of the disclosure concern an adjustable implant that can be inserted into a patient and has an adjustable component that can move in relation to a housing. The smart components of the adjustable implant may come in a variety of forms to improve implant functionality.
A controller for overseeing operations and a transducer for sharing ultrasonic data with an external interface device are examples of smart components.
A load cell inside the housing to measure an imparted load, a sensor to measure the angular position of the adjustable portion, and a dual sensor setup to measure an imparted force are possible additional smart components.
The Global adjustable implant systems market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The launch of Modulus® XLIF® titanium implants has been announced by NuVasive, Inc.), a premier medical device business dedicated to revolutionising spine surgery with minimally disruptive, procedurally-integrated solutions.
The new totally porous, 3D-printed device offers a distinctive option for the company’s flagship XLIF technique and showcases its ongoing dedication to innovation in creating ground-breaking technologies to assist its premier lateral spine procedure.
Utilizing additive manufacturing, often known as 3D printing, the new Modulus titanium implants were developed to have an organic, porous architecture that mimics the porosity and stiffness of bone for lessened stress shielding. Modulus XLIF delivers the optimum environment for bone in-growth by using cutting-edge microporous surface topography1.
In comparison to conventional titanium interbody devices, the device’s optimised construction also results in better imaging qualities.
