AIMC Topic: Printing, Three-Dimensional

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3D Bioprinting and Artificial Intelligence-Assisted Biofabrication of Personalized Oral Soft Tissue Constructs.

Advanced healthcare materials Dec 17, 2024
Regeneration of oral soft tissue defects, including mucogingival defects associated with the recession or loss of gingival and/or mucosal tissues around teeth and implants, is crucial for restoring oral tissue form, function, and health. This study p...
Humans Artificial Intelligence Printing, Three-Dimensional Tissue Engineering Tissue Scaffolds Gingiva Fibrinogen Bioprinting
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3D Printing of a Biomimetic Myotendinous Junction Assisted by Artificial Intelligence.

Biomaterials science Nov 19, 2024
The myotendinous junction (MTJ) facilitates force transmission between muscle and tendon to produce joint movement. The complex microarchitecture and regional mechanical heterogeneity of the myotendinous junction pose major challenges in creating thi...
Tissue Engineering Decanoates Tissue Scaffolds Myotendinous Junction Biomimetic Materials Artificial Intelligence Animals Printing, Three-Dimensional Glycerol Tendons Polymers
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Large Scale Ultrafast Manufacturing of Wireless Soft Bioelectronics Enabled by Autonomous Robot Arm Printing Assisted by a Computer Vision-Enabled Guidance System for Personalized Wound Healing.

Advanced healthcare materials Nov 15, 2024
A Customized wound patch for Advanced tissue Regeneration with Electric field (CARE), featuring an autonomous robot arm printing system guided by a computer vision-enabled guidance system for fast image recognition is introduced. CARE addresses the g...
Humans Precision Medicine Printing, Three-Dimensional Robotics Human Umbilical Vein Endothelial Cells Wound Healing Fibroblasts Wireless Technology
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A Systematic Review on Rigid Exoskeleton Robot Design for Wearing Comfort: Joint Self-Alignment, Attachment Interface, and Structure Customization.

IEEE transactions on neural systems and rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society Oct 25, 2024
Exoskeleton robots enable individuals with impaired physical functions to perform daily activities and maintain independence. However, the discomfort experienced by users when using these devices may limit the application scope of exoskeleton robots....
Joints Printing, Three-Dimensional Exoskeleton Device Patient Comfort Robotics Humans Equipment Design Biomechanical Phenomena
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Development and validation of a robotic system for milling individualized jawbone cavities in oral and maxillofacial surgery.

Journal of dentistry Sep 30, 2024
OBJECTIVES: This study aimed to develop and validate a robotic system capable of performing accurate and minimally invasive jawbone milling procedures in oral and maxillofacial surgery.
Stereolithography Humans Software Robotics Minimally Invasive Surgical Procedures Surgery, Computer-Assisted Computer-Aided Design Models, Anatomic Printing, Three-Dimensional Surgery, Oral Maxilla Models, Dental Tooth, Supernumerary
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A transcrestal sinus floor elevation strategy based on a haptic robot system: An in vitro study.

Clinical implant dentistry and related research Sep 12, 2024
OBJECTIVES: To reveal the force profiles recorded by haptic autonomous robotic force feedback during the transcrestal sinus floor elevation (TSFE) process, providing a reference for the surgery strategy during TSFE.
Robotic Surgical Procedures Sinus Floor Augmentation In Vitro Techniques Printing, Three-Dimensional Robotics Humans
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Classification of 3D shoe prints using the PointNet architecture: proof of concept investigation of binary classification of nike and adidas outsoles.

Forensic science, medicine, and pathology Sep 5, 2024
Shoe prints are one of the most common types of evidence found at crime scenes, second only to fingerprints. However, studies involving modern approaches such as machine learning and deep learning for the detection and analysis of shoe prints are qui...
Shoes Proof of Concept Study Forensic Sciences Deep Learning Printing, Three-Dimensional Humans
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3D-printed microrobots for biomedical applications.

Biomaterials science Aug 20, 2024
Microrobots, which can perform tasks in difficult-to-reach parts of the human body under their own or external power supply, are potential tools for biomedical applications, such as drug delivery, microsurgery, imaging and monitoring, tissue engineer...
Printing, Three-Dimensional Robotics Tissue Engineering Humans Drug Delivery Systems
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A deep learning-based real-time hypothermia and hyperthermia monitoring system with a simple body sensor.

Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine Aug 6, 2024
A real-time hypothermia and hyperthermia monitoring system with a simple body sensor based on a Convolutional Neural Network (CNN) is presented. The sensor is produced with 3D-printed thermochromic material. Due to the color change feature of thermoc...
Monitoring, Physiologic Printing, Three-Dimensional Polyesters Deep Learning Hypothermia Humans Time Factors Hyperthermia Temperature
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Precision improvement of robotic bioprinting via vision-based tool path compensation.

Scientific reports Aug 1, 2024
Robotic 3D bioprinting is a rapidly advancing technology with applications in organ fabrication, tissue restoration, and pharmaceutical testing. While the stepwise generation of organs characterizes bioprinting, challenges such as non-linear material...
Tissue Engineering Hydrogels Humans Bioprinting Printing, Three-Dimensional Robotics
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