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Algoritmos desigualdad: Guetos digitales: cuando el algoritmo se ceba con los más pobres

Algoritmos desigualdad: Guetos digitales: cuando el algoritmo se ceba con los más pobres
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Lensless imaging enables cost-effective phage-therapy diagnosis

Lensless imaging enables cost-effective phage-therapy diagnosis
Leti scientists have demonstrated a lensless imaging technique that could be implemented in cost-effective and compact devices in phage laboratories to accelerate phage-therapy diagnosis.
The growing number of drug-resistant bacterial infections worldwide is driving renewed interest in phage therapy. The WHO has warned of “a slow tsunami” of antibiotic resistance that by 2050 could result in 10 million annual deaths from antibiotic-resistant infections.
Based on the use of a personalized cocktail composed of highly specific bacterial viruses, phage therapy employs bacteriophages, a form of virus, to treat pathogenic bacterial infections. Following promising phage-therapy clinical studies treating infection of burn wounds, urinary tract infections and other problems caused by antibiotic-resistant bacteria, a growing body of evidence has built a consensus among scientists that there is synergism betwee ....

Pierre Marcoux , Lausanne University Hospital , Department Of Microtechnologies , Research Institute Of Grenoble , French National Centre For Scientific Research , Susceptibility Testing , Phage Plaque , Interdisciplinary Research Institute , French National Centre , பிரஞ்சு தேசிய மையம் க்கு அறிவியல் ஆராய்ச்சி , இடைநிலை ஆராய்ச்சி நிறுவனம் , பிரஞ்சு தேசிய மையம் ,

Nanotechnology Now - Press Release: French & Swiss Scientists Demonstrate 'All-in-One' Technique that Could Accelerate Phage-Therapy Diagnosis: Lensless Imaging System Affirms Phage Therapy's Value in Treating Serious Infection, Tracks Phage Resistance and Could Easily Be Implemented in Compact Devices at Phage Lab

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Home > Press > French & Swiss Scientists Demonstrate All-in-One Technique that Could Accelerate Phage-Therapy Diagnosis: Lensless Imaging System Affirms Phage Therapys Value in Treating Serious Infection, Tracks Phage Resistance and Could Easily Be Implemented in Compact Devices at Phage Lab
Abstract:
A team of French and Swiss scientists has demonstrated a lensless imaging technique that could easily be implemented in cost-effective and compact devices in phage laboratories to accelerate phage-therapy diagnosis.
French & Swiss Scientists Demonstrate All-in-One Technique that Could Accelerate Phage-Therapy Diagnosis: Lensless Imaging System Affirms Phage Therapys Value in Treating Serious Infection, Tracks Phage Resistance and Could Easily Be Implemented in Compact Devices at Phage Lab ....

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New Bluetooth-Low-Energy-Based Wireless Neuronal Recording System

New Bluetooth-Low-Energy-Based Wireless Neuronal Recording System
Scientists have now created a compact, lightweight, Bluetooth-low-energy-based wireless neuronal recording system.
The wireless system was developed by researchers from the Department of Electrical and Electronic Information Engineering, Department of Computer Science and Engineering, Department of Applied Chemistry and Life Science, and the Electronics-Inspired Interdisciplinary Research Institute (EIIRIS) at the Toyohashi University of Technology.
The weight of the system is less than 3.9 g and it measures 15 × 15 × 12 mm
3 together with the battery. The system offers the benefits of ideal versatility, high signal quality, and low cost than wired recording using a commercial neurophysiology system. The study was published online on January 8 ....

Shinnosuke Idogawa , Takeshi Kawano , Kowa Koida , Rika Numano , Interdisciplinary Research Institute , Nagai Foundation For Science Technology , Development Background , Research Team Leader , Takeda Science Foundation , Department Of Computer Science , Toyohashi University Of Technology , Department Of Electrical , Department Of Applied Chemistry , Electronic Information Engineering , Computer Science , Applied Chemistry , Life Science , Toyohashi University , Study First Author , Phd Candidate , Associate Professor , Strategic Advancement , Multi Purpose Ultra Human Robot , Artificial Intelligence Technologies , Nagai Foundation , Takeda Science ,

'A Bluetooth mouse'--you can wirelessly read a mouse's mind

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IMAGE: Mouse with a head-mounted Bluetooth wireless system that transmits neuronal signals from cortex implanted microneedle electrodes
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Credit: COPYRIGHT (C) TOYOHASHI UNIVERSITY OF TECHNOLOGY. ALL RIGHTS RESERVED.
Overview:
A research team at the Department of Electrical and Electronic Information Engineering, Department of Computer Science and Engineering, Department of Applied Chemistry and Life Science, and the Electronics-Inspired Interdisciplinary Research Institute (EIIRIS) at Toyohashi University of Technology has developed a lightweight, compact, Bluetooth-low-energy-based wireless neuronal recording system for use in mice. The wireless system weighs 3 with the battery, having advantages of high signal quality, good versatility, and low cost, compared to wired recording with a commercial neurophysiology system. The study was published online in ....

Shinnosuke Idogawa , Takeshi Kawano , Interdisciplinary Research Institute , Nagai Foundation For Science Technology , Development Background , Takeda Science Foundation , Department Of Computer Science , Toyohashi University Of Technology , Department Of Electrical , Department Of Applied Chemistry , Electronic Information Engineering , Computer Science , Applied Chemistry , Life Science , Toyohashi University , Associate Professor Takeshi Kawano , Strategic Advancement , Multi Purpose Ultra Human Robot , Artificial Intelligence Technologies , Nagai Foundation , Takeda Science , Technology Engineering Computer Science , Biomedical Environmental Chemical Engineering , Electrical Engineering Electronics , Nanotechnology Micromachines , இடைநிலை ஆராய்ச்சி நிறுவனம் ,