Enhancing the Performance of Medical Implant Communication Systems through Cooperative Diversity by Barnabás Hegyi, János Levendovszky

“…Battery-operated medical implants—such as pacemakers or cardioverter-defibrillators—have already been widely used in practical telemedicine and telecare applications. …”
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A 31.5 GHz Patch Antenna Design for Medical Implants by Yasir Ahmed, Yang Hao, Clive Parini

“…We have proposed a 31.5 GHz patch antenna for medical implants. The design is based on the transmission line model and is simulated in CST. …”
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Reconfigurable Ultra-Miniaturized MIMO Antenna for Tissue-Independent Communication in Injectable Medical Implants by L. Harlan, M. Susila, Sachin Kumar, Hyun Chul Choi, Kang Wook Kim

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Phase Transition and Controlled Zirconia Implant Patterning Using Laser-Induced Shockwaves by Inomjon Majidov, Yaran Allamyradov, Salizhan Kylychbekov, Zikrulloh Khuzhakulov, Ali Oguz Er

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Porous Biodegradable Metals for Hard Tissue Scaffolds: A Review by A. H. Yusop, A. A. Bakir, N. A. Shaharom, M. R. Abdul Kadir, H. Hermawan

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Circularly polarized dual-band resonance in a miniaturized implantable antenna using combined hexagonal and rhombic patches by Shanmugam Kumaravel, Madurakavi Karthikeyan

“…The design represents a significant advancement in the field of medical implant technology since it prioritizes effective wireless communication capabilities while upholding strict safety regulations.…”
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Integration of Resonant Coil for Wireless Power Transfer and Implantable Antenna for Signal Transfer by Dong-Wook Seo, Jae-Ho Lee, Hyungsoo Lee

“…While the resonant coils resonate at the frequency of 13.56 MHz for the WPT, the implantable antenna works in the medical implant communications service (MICS) band of 402–405 MHz for wireless communications. …”
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Improved Reception of In-Body Signals by Means of a Wearable Multi-Antenna System by Thijs Castel, Patrick Van Torre, Emmeric Tanghe, Sam Agneessens, Günter Vermeeren, Wout Joseph, Hendrik Rogier

“…High data-rate wireless communication for in-body human implants is mainly performed in the 402–405 MHz Medical Implant Communication System band and the 2.45 GHz Industrial, Scientific and Medical band. …”
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Preparation and in vitro biological evaluation of strontium doped β-tricalcium phosphate scaffolds for alveolar bone tissue regeneration by Congrui Liu, Guiyong Xiao, Zichen Wang, Mengchen Xu, Yinchuan Wang, Nan Wang, Zhenlong Sun, Xiaoyan Li, Yixin Yin

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Corrosion and degradation behavior of MCSTE-Processed AZ31 magnesium alloy by Khaled B. Abdelfattah, Marwa A. Abbas, Waleed H. El-Garaihy, Adel M. A. Mohamed, Hanadi G. Salem

“…These findings imply that the developed MCSTE process can be adopted for industrial use, especially in the manufacturing of biodegradable magnesium alloys for medical implants.…”
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Optimization of Electrical Discharge Machining Process by Metaheuristic Algorithms by Nurezayana Zainal, Mohanavali Sithambranathan, Umar Farooq Khattak, Azlan Mohd Zain, Salama A. Mostafa, Ashanira Mat Deris

“…EDM has transformed fabrication processes in a variety of industries, including aerospace and electronics, medical implants and surgical instruments, and the shaping of small components. …”
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Millimeter-scale radioluminescent power for electronic sensors by Averal N. Kandala, Sinan Wang, Joseph E. Blecha, Yung-Hua Wang, Rahul K. Lall, Ali M. Niknejad, Youngho Seo, Michael J. Evans, Robert R. Flavell, Henry F. VanBrocklin, Mekhail Anwar

“…Summary: The storage and generation of electrical energy at the mm-scale is a core roadblock to realizing many untethered miniature systems, including industrial, environmental, and medically implanted sensors. We describe the potential to address the sensor energy requirement in a two-step process by first converting alpha radiation into light, which can then be translated into electrical power through a photovoltaic harvester circuit protected by a clear sealant. …”
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Tissue engineering and biosensing applications of carbon-based nanomaterials by Seydanur Yücer, Begüm Sarac, Fatih Ciftci

“…This study highlights the unique mechanical, electrical, and biocompatible properties of CNMs that make them indispensable for applications such as drug delivery, biosensing, tissue engineering, and medical implants. Specifically, graphene's remarkable conductivity and mechanical strength enhance biosensor sensitivity and scaffold durability, while the tubular structure and functional surface chemistry of carbon nanotubes (CNTs) improve cellular interactions and mechanical stability in implants. …”
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Application of low frequency vibration to the turning of ultra-high molecular weight polyethylene by Jack Rooke, Richard Bonnell, Emily Pickford, Adam Brown, David Curtis

“…Medical implant manufacturing is a growing sector and therefore requires improved manufacturing practices. …”
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Recent achievement of graphene in biomedicine: Advancements by integrated microfluidics system and conventional techniques by Mohammad Aminul Islam, Aslam Hossain, Nayem Hossain, Md Mir Shakib Ahmed, Safiul Islam, A.M.A. Henaish, A.V. Soldatov, Mohammad Asaduzzaman Chowdhury

“…We explore the fundamental concepts of graphene, its properties, and its latest applications in medical implants and biological fields within the context of microfluidics and conventional prospects. …”
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Modification of Mechanical Properties of Ti–6Al–4V Using L-PBF for Anatomical Plates by Soumyabrata Basak, Sang-Hun Lee, Jeong-Rim Lee, Dong-Hyun Kim, Jeong Hun Lee, Myunghwan Byun, Dong-Hyun Kim

“…Heat treatment of the anatomical plates at 950 °C demonstrated an excellent strength–ductility synergy under tensile deformation and the highest energy absorption capability under bending deformation, indicating sufficient durability for medical implantation applications.…”
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Multiscale mechanical analysis for biomimetic implant design based on Triply Periodic Minimal Surfaces (TPMS) lattices: Application to partial replacement of femoral bone by Chrysoula Chatzigeorgiou, Boris Piotrowski, Fodil Meraghni, Yves Chemisky

“…Medical implants are a common treatment for orthopedic injuries. …”
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Precision nanoparticles for drug delivery, cell therapy tracking, and theranostics by Felder-Flesch, Delphine, Talamini, Laura, Muller, Sylviane

“…Unique constructions have thus opened up original and innovative possibilities in biotechnological and biomedical fields such as imaging, biosensors, rapid diagnostics, drug delivery, medical implants, and tissue engineering. This article briefly describes the main types of nanoparticles that have been developed and their advantages and disadvantages depending on the intended application, and highlights some remarkable results achieved recently in the biomedical field. …”
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Modulation of Biomaterial‐Associated Fibrosis by Means of Combined Physicochemical Material Properties by Lisa E. Tromp, Torben A.B. van derBoon, Roderick H.J. deHilster, Ruud Bank, Patrick van Rijn

“…Abstract Biomaterial‐associated fibrosis remains a significant challenge in medical implants. To optimize implant design, understanding the interplay between biomaterials and host cells during the foreign body response (FBR) is crucial. …”
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Innovative 3D printing technologies and advanced materials revolutionizing orthopedic surgery: current applications and future directions by Bo Cong, Bo Cong, Haiguang Zhang, Haiguang Zhang

“…Three-dimensional (3D) printing has rapidly become a transformative force in orthopedic surgery, enabling the creation of highly customized and precise medical implants and surgical tools. This review aims to provide a more systematic and comprehensive perspective on emerging 3D printing technologies—ranging from extrusion-based methods and bioink printing to powder bed fusion—and the broadening array of materials, including bioactive agents and cell-laden inks. …”
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