Touch-sensing glove detects and maps tactile stimuli
Engineers have designed a new touch-sensing glove that can “feel” pressure and other tactile stimuli. The design could help restore motor function after stroke.
Engineers have designed a new touch-sensing glove that can “feel” pressure and other tactile stimuli. The design could help restore motor function after stroke.
Researchers have developed a morphing nozzle for additive manufacturing of fiber‐filled composite materials that hold promise for “4D printing” applications.
Researchers mechanically reprocess silk into a biologically compatible component of bioinks that improves the structural fidelity of 3D-printed hydrogels containing cells for use in drug development and regrowing lost or damaged body
A new smart fabric that can be inflated and deflated by temperature-dependent liquid-vapor phase changes could enable a range of medical therapeutics.
Researchers at the University of Stuttgart have built an exoskeleton with which the gripping ability of a paralyzed hand can be restored.
The new version of the TWIICE walking-assistance system is not only lighter, more comfortable and more powerful, but patients can also put it on and use it themselves.
The advent of electronic medical records with large image databases, along with advances in AI with deep learning, is offering medical professionals new opportunities to improve image analysis and disease diagnostics.
Researchers developed a novel method of growing whole muscles from hydrogel sheets impregnated with myoblasts and incorporated these muscles into a biohybrid robot.
“The antifungal application could prove invaluable among those highly susceptible to infection, such as the elderly, hospitalized or disabled patients.”
Scientists have created a new triboelectric fabric that generates electricity from the movement of the body while remaining flexible and breathable.
Engineers have designed a novel sensor that can detect SARS-CoV-2 without any antibodies, giving a result within minutes.
“Robotic” textiles could help patients recovering from postsurgery breathing changes.
A versatile composite fabric can deactivate both biological threats and chemical threats.
轻量级动力的外骨骼有助于降低肢体急性努力。
Graphene could advance flexible electronics according to a Penn State-led international research team.
A flexible carbon nanotube fibers can be incorporated into clothing to function as wearable health monitors.
Biomedical engineers at Duke University have developed an open-source software platform that automates 3D electrical nerve stimulation modeling.
科学家们开发了一种生物兼容的植入AI平台,可以在生物信号中实时对实时进行健康和病理模式进行分类。
Researchers have used machine learning to help reconstruct three-dimensional micro-CT images of fibrous materials.
Researchers have developed a regenerative implant that could help repair bone-deep damage following physical trauma, surgery or osteoporosis.
Researchers are taking steps to incorporate actual muscles or neurons into a robotic system.
Engineers have designed a novel face mask that can diagnose the wearer with Covid-19 within about 90 minutes.
Researchers have developed smart wound dressings with built-in nanosensors that glow to alert patients when a wound is not healing properly.
Fraunhofer-Gesellschaft's German-Polish High-Performance Center brings additive manufacturing to medical technology – first demonstrators will already be presented by the end of 2021.
In a first, the digital fiber contains memory, temperature sensors, and a trained neural network program for inferring physical activity.
Researchers at University of Pittsburgh have developed a revolutionary scalable material that senses and powers itself.
Researchers have experimentally demonstrated a novel cancer diagnosis technique based on the scattering of circularly polarized light.
研究人员开发了使用特殊纤维来感知一个人的运动通过触摸的衣服。
Advances in wearable devices have enabled e-textiles, which fuse lightweight and comfortable textiles with smart electronics, and are garnering attention as the next-generation wearable technology.
The work could lead to efficient, detailed artificial bone tissue, opening doors to disease modeling, in vitro cell research on targeted therapies and drug screening.
Researchers have developed an “organs-on-a-chip” system that replicates interactions between the brain, liver, and colon.
Researchers have developed a millimeter-size flat lens for #virtualreality and #augmentedreality platforms.
By embedding nanosensors in the fibers of a bandage, researchers have created a continuous, noninvasive way to detect and monitor an infection in a wound.
Researchers are developing a color-changing test strip that can be stuck on a mask and used to detect SARS-CoV-2 in a user’s breath or saliva.
A microrobotic opto-electro-mechanical device able to steer a laser beam with high speed and a large range of motion could enhance the possibilities of minimally invasive surgeries.
High-five or thumbs-up? Researchers have developed a wearable sensor that detects which hand gesture you want to make.
Researchers have designed a new soft robotic gripper that draws inspiration from an unusual source: pole beans
Experts working at the intersection of robotics, machine learning, and physics-based simulation share how computer simulation could accelerate the development of "smart robots" which "might interact with humans"
A shirt that monitors your blood pressure or a pair of socks that can keep track of your cholesterol levels might be just a few years away from becoming reality.
用于皮肤的超薄压力传感器测量手指如何与对象相互作用以产生用于医疗应用的有用数据。
皮肤和软骨既有强度又柔韧 - 难以在人造材料中复制的性质。但是新的制造过程带来了寿命的合成聚合物较近的一步。
Researchers at Cornell University have developed stretchable sensors that gives robots and VirtualReality a human touch.
An ultra-sensitive, resilient strain sensor that can be embedded in textiles and soft robotic systems survived being tested by a washing machine and a car.
Researchers are testing new ways to spin liquid crystals into fibers that could be used in camouflage clothing or to create cleaning wipes that can detect the presence of bacteria.
Scientists have shown how smart textiles can be produced in a comparatively easy way, thus opening up new use cases.
Researchers used 3D printing techniques to make electronic fibres, each 100 times thinner than a human hair, creating sensors beyond the capabilities of conventional film-based devices.
科学家发明了一个光学平台,可能成为光学生物界面中的新标准。
Researchers have used 3D micro-printing to develop the world’s smallest, flexible scope for looking inside blood vessels.
Researchers combine for the first time gene therapy in the cochlea with optical cochlear implants to optogenetically activate the auditory pathway in gerbils.
Researchers have developed a microneedle patch to deliver mesenchymal stem cells (MSCs) into the skin.
Researchers have developed electronic fibers that, when embedded in textiles, can collect a wealth of information about our bodies by measuring subtle and complex fabrics deformations.
A researcher provides caution on the use of 3D printing to make masks and other PPE for individuals on the front lines of the Covid-19 crisis.
Researchers find that a motorized device that attaches around the ankle and foot can drastically reduce the energy cost of running.
The UNC School of Medicine lab of Jason Franz, PhD, created virtual reality experiments to show how a potentially portable and inexpensive test could reduce falls and related injuries in people with multiple sclerosis.
Researchers have developed a computer model which predicts the neuronal activation patterns that the cochlear implant creates in the auditory nerve fibers.
Researchers have tapped faint, latent signals from arm nerves and amplified them to enable real-time, intuitive, finger-level control of a robotic hand.
Biomedical engineers developed a handheld 3D bioprinter that could revolutionize the way musculoskeletal surgical procedures are performed.
研究人员是3D印刷“Groovy新利18官方”组织工程支架,具有活细胞,以帮助愈合伤害。
Engineers from the Massachusetts Institute of Technology have developed a biorobotic hybrid heart for testing prosthetic valves and other cardiac devices.
Reserchers have made progress developing living heart valves that can grow with the body and integrate with the patient's native tissue.
In a proof-of-concept work, scientists demonstrated their photonics-based sensors using fibers and liquid-filled petri dishes.
Researchers have been investigating whether artificial intelligence might be used to steer a catheter automatically and reliably to a blocked blood vessel.
A new 3D printing platform is able to fabricate multi-component scaffolds that “steal from nature” to engineer tissues organized like native tissues.
Researchers have now produced a novel flexible sensor that lies on the skin surface and is biocompatible because it is made of nanocellulose.
Engineers have developed a magnetically steerable, thread-like robot that can actively glide through narrow, winding pathways, such as the labrynthine vasculature of the brain.
一个科学家团队发明了一种可以使用由智能手机控制的微小脑植入来控制神经电路的设备。
Virtual doppelgangers could one day revolutionize medicine: Researchers are developing a digital twin, which should facilitate the development of personalized therapies.
Engineers have designed pliable, 3D printed mesh materials whose flexibility and toughness they can tune to emulate and support softer tissues such as muscles and tendons.
3D printing: Researchers from across disciplines are developing new approaches and new materials for creating soft tissues.
Scientists have now developed a new type of biomaterial that could help the healing of injuries, especially of severed nerve tracts.
Nanotech-powered electrodes help solve the challenges of using sweat to assess biological conditions in real time.
Researchers have developed the first wearable probe that enhances the sense of touch by imaging and quantifying the elasticity of biological tissue.
Researchers launch study to compare wearable brain-based device called 'NGoggle' with conventional detection methods.
斜纹布ls scientists have developed an alternative to batteries that could power wearable biosensors for health monitoring.
Three patients with chronic paraplegia were able to walk over ground thanks to precise electrical stimulation of their spinal cords via a wireless implant.
科学家开发出了一种小型electronic platform for the stimulation and recording of peripheral nerve fibers-on-a-chip.
Researchers are developing polymer fibers that recognize the need for therapy all by themselves and dose the active ingredients with precision and accuracy.
Engineers use carbon nanotube composite coatings for novel sensors that could enable smart textiles.
Using robotic technology, researchers have created an exoskeleton to help people with paraplegia regain or improve mobility.