about
Room temperature operable autonomously moving bio-microrobot powered by insect dorsal vessel tissueClosed-looped in situ nano processing on a culturing cell using an inverted electron beam lithography system.Simple micropatterning method for enhancing fusion efficiency and responsiveness to electrical stimulation of C2C12 myotubes.Micropatterning C2C12 myotubes for orderly recording of intracellular calcium transients.Atmospheric-operable bioactuator powered by insect muscle packaged with medium.Neurite outgrowth of PC12 cells on diX (parylene) family materials.Fabrication and evaluation of reconstructed cardiac tissue and its application to bio-actuated microdevices.Efficient sequential Bayesian inference method for real-time detection and sorting of overlapped neural spikes.Temporal relation between neural activity and neurite pruning on a numerical model and a microchannel device with micro electrode array.Pharmacological targeting of HSP90 with 17-AAG induces apoptosis of myogenic cells through activation of the intrinsic pathway.Preliminary study of multichannel flexible neural probes coated with hybrid biodegradable polymer.A gait support system for human locomotion without restriction of the lower extremities: preliminary mechanism and control design.Effects of ageing on expression of the muscle-specific E3 ubiquitin ligases and Akt-dependent regulation of Foxo transcription factors in skeletal muscle.Cardiomyocyte-driven gel network for bio mechano-informatic wet robotics.Rapidly-moving insect muscle-powered microrobot and its chemical acceleration.Insect biofuel cells using trehalose included in insect hemolymph leading to an insect-mountable biofuel cell.Pinpoint Delivery of Molecules by Using Electron Beam Addressing Virtual Cathode DisplayContracting cardiomyocytes in hydrophobic room-temperature ionic liquidImprovement of neuronal cell adhesiveness on parylene with oxygen plasma treatmentComparison of neuronal cell adhesiveness of materials in the diX (Parylene) familySpatiotemporal Control of Electrokinetic Transport in Nanofluidics Using an Inverted Electron-Beam Lithography SystemEngineered topographical structure to control spatial cell density using cell migration
P50
Q27301657-6BF15E3C-3098-4E3D-A5B8-684DC5F3BC99Q34581733-83AE7246-E049-4EEB-B28D-C4E9B1711F47Q38948264-3C1FAE40-7FD2-4B6C-B39F-5AD48906F326Q39083503-BB22F5FD-8F91-4DBE-ADA7-972E3EADA73AQ39321944-A94102BF-B99A-45F1-B858-B7310738DAB8Q39448221-125178D7-69C3-411B-AEDD-B8891B0777FAQ43168465-FF980135-66D5-45A4-8A7A-E0CC2FEED00AQ44672009-3873AD4E-AA7D-42C3-9F3F-15B9CC0D4C50Q48254464-65C19A30-A4C1-41F3-B7E1-9C7C5FBDACEBQ49719110-ED5B936C-FA9F-4912-9AA5-873FE077EE9EQ50883200-FB0006C1-591C-4ED7-AC57-7D6107EF1E22Q50883848-BFEFECDA-2EDC-4F2A-8586-5DC694629855Q50958141-EEDBDD48-E457-4861-B4D1-3EE3440EA898Q51311706-E5256B87-94F2-4B68-84E1-857EA88ED1B5Q51327336-833C8771-3350-4792-A0E3-45091297D8F7Q52743352-6CE4C053-2A2F-49C9-B960-51AD979DCBCDQ57121434-820AC4ED-156A-4722-B797-73F12C5D233EQ57149069-8889C98E-CF94-4A85-ACE2-309D89C99D99Q82790968-C4D3F4AB-D83F-43F1-906D-AC5C8262F465Q84372246-AA1CB3BB-2138-4F40-BC78-70C059296E1AQ87352085-486A03E2-AB9C-4A8B-BC65-E3969227EBDDQ91292697-78DCAA46-1AFD-4FFB-8ED4-11D8D10369E0
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Takayuki Hoshino
@ast
Takayuki Hoshino
@en
Takayuki Hoshino
@es
Takayuki Hoshino
@nl
Takayuki Hoshino
@sl
type
label
Takayuki Hoshino
@ast
Takayuki Hoshino
@en
Takayuki Hoshino
@es
Takayuki Hoshino
@nl
Takayuki Hoshino
@sl
prefLabel
Takayuki Hoshino
@ast
Takayuki Hoshino
@en
Takayuki Hoshino
@es
Takayuki Hoshino
@nl
Takayuki Hoshino
@sl
P1053
O-6226-2015
P106
P1153
35229648500
P21
P31
P3829
P496
0000-0003-4376-7853
P569
2000-01-01T00:00:00Z