Deep learning-based holographic point-of-care sensor
Researchers have developed a rapid and cost-effective particle agglutination based sensor that is powered by holographic imaging and deep learning
Researchers have developed a rapid and cost-effective particle agglutination based sensor that is powered by holographic imaging and deep learning
研究人员表明,由于皮肤下的免疫细胞高丰度,使用微针进行免疫疗法。目的是以最少的侵袭性疫苗或治疗不同的疾病。
Scientists are working toward advances that, using nanotechnology, could lead to a hospital bed or doorknob that naturally destroys viruses.
Researchers have developed a new method to better understand how nanomedicines interact with patients' biomolecules.
Engineers have developed a microneedle patch that can be applied to the skin, capture a biomarker of interest and, thanks to its unprecedented sensitivity, allow clinicians to detect its presence.
Researchers have developed a rapid, ultrasensitive test using a paper-based electrochemical sensor that can detect the presence of the virus in less than five minutes.
Although true “cyborgs” — part human, part robotic beings — are science fiction, researchers are taking steps toward integrating electronics with the body.
Researchers are using high-resolution printing technology and the unique properties of graphene to make low-cost biosensors to monitor food safety and livestock health.
Scientists invented a tiny microrobot that resembles a white blood cell travelling through the circulatory system.
Rutgers大学设计了一种方法来将微针与后向倒钩整合,使得微针阵列只需需要尽可能长。
几个柏林理工学院的研究小组Health (BIH) are working on digitally combating cancer, comparing experiences with different diagnostic and treatment methods.
Engineers have designed a novel sensor that can detect SARS-CoV-2 without any antibodies, giving a result within minutes.
A 3D printed microneedle vaccine patch delivers stronger immune response than a vaccine shot.
Researchers at the University of Bonn show how artificial intelligence improves the evaluation of blood analysis data.
研究人员使用石墨烯检测实验室实验中的SARS-COV-2病毒。它可能是冠状病毒检测中的突破,潜在的应用在斗争与Covid-19及其变体中。
Researchers used an artificial intelligence (AI) algorithm to sift through terabytes of gene expression data to look for shared patterns in patients with past pandemic viral infections, including SARS, MERS and swine flu.
Progressive Mechanoporation makes it possible to mechanically disrupt the membranes of cells for a short time period and let drugs or genes inside cells.
一种新的3D新利18官方打印技术,延伸了横向流动测试的可能性。通过打印技术,可以生产先进的诊断测试,这是快速,便宜,易于使用的。
Artificial intelligence could help to optimise the development of antibody drugs. This leads to active substances with improved properties, also with regard to tolerability in the body.
Scientists report preliminary results on a sweat sensor that acts as an early warning system for an impending cytokine storm, which could help doctors more effectively treat patients.
Powerful algorithms used by Netflix, Amazon and Facebook can ‘predict’ the biological language of cancer and neurodegenerative diseases like Alzheimer's.
Artificial Intelligence is now capable of generating novel, functionally active proteins.
COVID-19 can be diagnosed in 55 minutes or less with the help of programmed magnetic nanobeads and a diagnostic tool that plugs into an off-the-shelf cellphone.
The Wyss Institute's eRapid electrochemical sensor technology now enables specific and multiplexed detection of blood biomarkers at low cost.
Researchers are developing a COVID-19 testing method that uses a smartphone microscope to analyze saliva samples and deliver results in about 10 minutes.
Scientists have created a new way to detect the proteins that make up the pandemic coronavirus, as well as antibodies against it.
SARS-COV-2可以检测到有多快?研究人员已经为Covid-19开发了一种精确,高速和便携式探测器。
通过降尺度micrometer-size针工具, researchers open even more areas of application for them, while bypassing some of the most important issues.
University of Illinois Chicago is one of the U.S. sites participating in clinical trials to cure severe red blood congenital diseases such as sickle cell anemia or Thalassemia by safely modifying the DNA of patients’ blood cells.
高级纳米材料的生物传感平台在几秒钟内检测特异于SARS-COV-2的抗体。
The new device can continuously sense levels of virtually any protein or molecule in the blood. The researchers say it could be transformative for disease detection, patient monitoring and biomedical research.
Research has shown how microbubbles carrying powerful cancer drugs can be guided to the site of a tumour using antibodies.
Researchers at have revealed how high-frequency sound waves can be used to build new materials, make smart nanoparticles and even deliver drugs to the lungs for painless, needle-free vaccinations.
Scientists develop a label-free method for identifying respiratory viruses based on changes in electrical current when they pass through silicon nanopores.
Graphene has a vast variety of practical applications in the creation of new materials. But what exactly is graphene and what makes it so special?
Researchers have created a deep learning model for drug developers targeting the SARS-CoV-2 main protease.
Scientists have developed an extremely rapid diagnostic test that detects and identifies viruses in less than five minutes.
A new approach using holographic imaging to detect both viruses and antibodies has the potential to aid in medical diagnoses and, specifically, those related to the COVID-19 pandemic.
研究人员建立了一个低成本的多路复用测试,可以在Covid-19上快速提供三种不同类型的数据。
Researchers have developed biomaterial-based inks that respond to and quantify chemicals released from the body or in the surrounding environment by changing color.
Researchers have developed an artificial intelligence platform to dramatically increase the efficiency of drug combination therapies.
Researchers developed a modular system for the genetic reprogramming of bacteria, thereby turning the organisms into cell factories for multifunctional magnetic nanoparticles.
研究人员已经开发出一种肿瘤生物传感芯片,可以帮助确定癌症患者所需化疗的最佳剂量。
In a proof-of-concept work, scientists demonstrated their photonics-based sensors using fibers and liquid-filled petri dishes.
研究人员开发了一种新的算法,可以在整个小鼠中自动检测单一播种癌细胞水平的转移。
Revolutionary material could lead to 3D-printable magnetic liquid devices for the fabrication of artificial cells that deliver targeted drug therapies to diseased cells.
Using AI and biosensors, researchers have created a device that can determine whether targeted chemotherapy drugs are working on individual cancer patients.
In a new study, researchers have demonstrated a novel and non-invasive way to manipulate cells through microrobotics.
渴望为医疗诊断进行常见的实验室测试,LED研究人员开发一种降低成本和时间的新实验室技术。
普林斯顿大学的研究人员开发了一种新技术,可以使用单一微芯片更换实验室。
Algorithms using data from antibody signatures in peoples’ blood may enable scientists to assess the size of cholera outbreaks and identify hotspots of cholera transmission more accurately than ever.
Engineers have developed a method to 3D print cells to produce human tissue such as ligaments and tendons, a process that will greatly improve a patient's recovery.
A drinking solution containing millions of tiny electronic sensors disguised as bacteria could helppatients in tracking their illness.
MIT engineers have developed new technology that could be used to evaluate new drugs and detect possible side effects before the drugs are tested in humans.