Simple Smart Implants: Simultaneous Monitoring of Loosening and Temperature in Orthopaedics With an Embedded Ultrasound Transducer

Hall, Thomas A.; Cegla, Frederic; Arkel, Richard J. van

doi:10.1109/tbcas.2021.3052970

Cited by 9 publications

(11 citation statements)

References 43 publications

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“…The sensor must be compact to avoid relevant changes in the original architecture of the implant, but it still must be able to harvest and store energy or to provide a self-powering system ( 13 ). Hall et al recently presented an in vitro trial to test an alternative for ultrasound-guided implant sensor that is able to detect loosening and temperature changes even though this technology does not expire ( 14 ). This leads to biocompatibility that is also an important aspect of implantables.…”

Section: Implantablesmentioning

confidence: 99%

Best practice in digital orthopaedics

Halm-Pozniak,

Lohmann,

Zagra

et al. 2023

EFORT Open Reviews

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Digitization in orthopaedics and traumatology is an enormously fast-evolving field with numerous players and stakeholders. It will be of utmost importance that the different groups of technologists, users, patients, and actors in the healthcare systems learn to communicate in a language with a common basis. Understanding the requirements of technologies, the potentials of digital application, their interplay, and the combined aim to improve health of patients, would lead to an extraordinary chance to improve health care. Patients' expectations and surgeons’ capacities to use digital technologies must be transparent and accepted by both sides. The management of big data needs tremendous care as well as concepts for the ethics in handling data and technologies have to be established while also considering the impact of withholding or delaying benefits thereof. This review focuses on the available technologies such as Apps, wearables, robotics, artificial intelligence, virtual and augmented reality, smart implants, and telemedicine. It will be necessary to closely follow the future developments and carefully pay attention to ethical aspects and transparency.

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Section: Implantablesmentioning

confidence: 99%

Best practice in digital orthopaedics

Halm-Pozniak,

Lohmann,

Zagra

et al. 2023

EFORT Open Reviews

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“…It is true that extracorporeal therapeutic ultrasound stimulation is widely used for bone growth and/or fracture healing of peri-implant regions (Palanisamy et al 2022 ). Recent advances already succeeded to incorporate ultrasound systems inside implants, but their performances as stimulation systems have never been tested so far (Hall et al 2021 ). Electromagnetic-stimulating implant systems are promising technologies towards the delivery of controllable stimuli to target regions (Peres et al 2022a ).…”

Section: Smart Implantsmentioning

confidence: 99%

“…3 a) (Marschner et al 2009 ). A simple ultrasonic sensor was designed for smart implants to monitor implant fixation states, intracorporeally only requiring a piezoelectric transducer and a coil (Hall et al 2021 ). Another impacting technology uses extracorporeal magnetic induction to excite magnetic oscillators inside instrumented implants, such that extracorporeal mechanical transduction (using inercial sensors) can be performed (Fig.…”

Section: Smart Implantsmentioning

confidence: 99%

Bioelectronic multifunctional bone implants: recent trends

Santos

Bernardo

2022

Bioelectron Med

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The concept of Instrumented Smart Implant emerged as a leading research topic that aims to revolutionize the field of orthopaedic implantology. These implants have been designed incorporating biophysical therapeutic actuation, bone-implant interface sensing, implant-clinician communication and self-powering ability. The ultimate goal is to implement revist interface, controlled by clinicians/surgeons without troubling the quotidian activities of patients. Developing such high-performance technologies is of utmost importance, as bone replacements are among the most performed surgeries worldwide and implant failure rates can still exceed 10%. In this review paper, an overview to the major breakthroughs carried out in the scope of multifunctional smart bone implants is provided. One can conclude that many challenges must be overcome to successfully develop them as revision-free implants, but their many strengths highlight a huge potential to effectively establish a new generation of high-sophisticated biodevices.

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“…Loosening is a frequent cause for TKR failure [ 1 , 10 ]. Early detection of implant loosening, or bone resorption could be achieved by measuring temperature around the implant [ 58 ], by using mechanical magnetic sensors with an oscillating membrane [ 59 ] or with an embedded ultrasound system [ 60 ].…”

Section: Futurementioning

confidence: 99%

“…Several sensor technologies have been explored to facilitate early infection detection. The simplest approach is to measure the temperature of implant components or the surrounding tissue [ 60 , 65 ]. More advanced approaches involve the analysis of bodily fluids with biosensors [ 20 ].…”

Section: Futurementioning

confidence: 99%

“Smart Knee Implants: An Overview of Current Technologies and Future Possibilities”

Kelmers

Szuba

King

et al. 2022

JOIO

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Background This article focuses on clinical implementation of smart knee implants for total knee replacement and the future development of smart implant technology. With the number of total knee replacements undertaken growing worldwide, smart implants incorporating embedded sensor technology offer opportunity to improve post-operative recovery, reducing implant failure rates, and increasing overall patient satisfaction. Methods A literature review on smart implants, historical prototypes, current clinically available smart implants, and the future potential for conventional implant instrumentation with embedded sensors and electronics was undertaken. Results The overview of current and future technology describes use cases for various diagnostic and therapeutic treatment solutions. Conclusion Smart knee implants are at an early development stage, with the first generation of smart implants being available to patients and with more novel technologies under development.

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Simple Smart Implants: Simultaneous Monitoring of Loosening and Temperature in Orthopaedics With an Embedded Ultrasound Transducer

Cited by 9 publications

References 43 publications

Best practice in digital orthopaedics

Best practice in digital orthopaedics

Bioelectronic multifunctional bone implants: recent trends

“Smart Knee Implants: An Overview of Current Technologies and Future Possibilities”

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