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View article: Microfluidic Interfaces for Chronic Bidirectional Access to the Brain
Microfluidic Interfaces for Chronic Bidirectional Access to the Brain Open
Two‐photon polymerization (TPP) is an additive manufacturing technique with micron‐scale resolution that is rapidly gaining ground for a range of biomedical applications. TPP is particularly attractive for the creation of microscopic three…
View article: Advanced imaging shows extra-articular abscesses in two out of three adult patients with septic arthritis of the native hip joint
Advanced imaging shows extra-articular abscesses in two out of three adult patients with septic arthritis of the native hip joint Open
Background: Septic arthritis (SA) of the native adult hip is a rare orthopaedic emergency requiring prompt diagnosis and treatment. As clinical presentation and laboratory findings are frequently atypical, advanced imaging is often request…
View article: Multiplexed Surface Electrode Arrays Based on Metal Oxide Thin‐Film Electronics for High‐Resolution Cortical Mapping
Multiplexed Surface Electrode Arrays Based on Metal Oxide Thin‐Film Electronics for High‐Resolution Cortical Mapping Open
Electrode grids are used in neuroscience research and clinical practice to record electrical activity from the surface of the brain. However, existing passive electrocorticography (ECoG) technologies are unable to offer both high spatial r…
View article: Should treatment decisions in septic arthritis of the native hip joint be based on the route of infection?
Should treatment decisions in septic arthritis of the native hip joint be based on the route of infection? Open
Background: Surgical management of septic arthritis (SA) of the hip aims at treating the infection by either preserving, resecting or replacing the joint. In some cases, joint preservation should be attempted, whereas other cases would ben…
View article: Microfluidic interfaces for chronic bidirectional access to the brain
Microfluidic interfaces for chronic bidirectional access to the brain Open
A bstract Here, we used micron-scale 3D printing to develop microfluidic interfaces which provide chronic fluidic access to the brain of preclinical research models. In mice, we show the delivery interface enables faster, more precise and …
View article: Biosensing: A Micropatterned Multielectrode Shell for 3D Spatiotemporal Recording from Live Cells (Adv. Sci. 4/2018)
Biosensing: A Micropatterned Multielectrode Shell for 3D Spatiotemporal Recording from Live Cells (Adv. Sci. 4/2018) Open
While there is a growing need for soft and 3D cell interfacing, presentâday microelectrode arrays are largely rigid and planar. In article number https://doi.org/10.1002/advs.201700731, Dries Braeken, David H. Gracias, and coâworkers r…
View article: A Micropatterned Multielectrode Shell for 3D Spatiotemporal Recording from Live Cells
A Micropatterned Multielectrode Shell for 3D Spatiotemporal Recording from Live Cells Open
Microelectrode arrays (MEAs) have proved to be useful tools for characterizing electrically active cells such as cardiomyocytes and neurons. While there exist a number of integrated electronic chips for recording from small populations or …
View article: 3D Microstructured Carbon Nanotube Electrodes for Trapping and Recording Electrogenic Cells
3D Microstructured Carbon Nanotube Electrodes for Trapping and Recording Electrogenic Cells Open
Electrogenic cells such as cardiomyocytes and neurons rely mainly on electrical signals for intercellular communication. Microelectrode arrays (MEAs) have been developed for long-term recording of cell signals and stimulation of electrogen…
View article: 3D Microstructured Carbon Nanotube Electrodes for Trapping and Recording Electrogenic Cells
3D Microstructured Carbon Nanotube Electrodes for Trapping and Recording Electrogenic Cells Open
Electrogenic cells such as cardiomyocytes and neurons rely mainly on electrical signals for intercellular communication. Microelectrode arrays (MEAs) have been developed for long‐term recording of cell signals and stimulation of electrogen…