Jens Duru
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Explore the profile of Jens Duru including associated specialties, affiliations and a list of published articles.
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12
Citations
70
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Recent Articles
1.
Duru J, Maurer B, Ruff T, Vulic K, Hengsteler J, Girardin S, et al.
HardwareX
. 2024 Dec;
20:e00571.
PMID: 39678521
Culturing living cells requires the maintenance of physiological conditions for extended periods of time. Here, we introduce a versatile and affordable incubation system, addressing the limitations of traditional incubation systems....
2.
Sifringer L, De Windt L, Bernhard S, Amos G, Clement B, Duru J, et al.
J Mater Chem B
. 2024 Sep;
12(40):10272-10284.
PMID: 39298131
Hydrogels are three-dimensional, highly tunable material systems that can match the properties of extracellular matrices. In addition to being widely used to grow and modulate cell behavior, hydrogels can be...
3.
Zhang X, Burattini M, Duru J, Chala N, Wyssen N, Cofino-Fabres C, et al.
ACS Nano
. 2024 Aug;
18(35):24060-24075.
PMID: 39172696
The synchronization of the electrical and mechanical coupling assures the physiological pump function of the heart, but life-threatening pathologies may jeopardize this equilibrium. Recently, human induced pluripotent stem cell-derived cardiomyocytes...
4.
Amos G, Ihle S, Clement B, Duru J, Girardin S, Maurer B, et al.
Front Neurosci
. 2024 Jun;
18:1396966.
PMID: 38835836
Understanding the retinogeniculate pathway can offer insights into its development and potential for future therapeutic applications. This study presents a Polydimethylsiloxane-based two-chamber system with axon guidance channels, designed to replicate...
5.
Schlotter T, Kloter T, Hengsteler J, Yang K, Zhan L, Ragavan S, et al.
ACS Nano
. 2024 Feb;
18(8):6286-6297.
PMID: 38355286
Single-molecule proteomics based on nanopore technology has made significant advances in recent years. However, to achieve nanopore sensing with single amino acid resolution, several bottlenecks must be tackled: controlling nanopore...
6.
Duru J, Rufenacht A, Lohle J, Pozzi M, Forro C, Ledermann L, et al.
Lab Chip
. 2023 Nov;
23(23):5047-5058.
PMID: 37916299
Precise control of pH values at electrode interfaces enables the systematic investigation of pH-dependent processes by electrochemical means. In this work, we employed high-density complementary metal-oxide-semiconductor (CMOS) microelectrode arrays (MEAs)...
7.
Duru J, Maurer B, Giles Doran C, Jelitto R, Kuchler J, Ihle S, et al.
Biosens Bioelectron
. 2023 Aug;
239:115591.
PMID: 37634421
Bottom-up neuroscience utilizes small, engineered biological neural networks to study neuronal activity in systems of reduced complexity. We present a platform that establishes up to six independent networks formed by...
8.
Girardin S, Ihle S, Menghini A, Krubner M, Tognola L, Duru J, et al.
Front Neurosci
. 2023 May;
17:1103437.
PMID: 37250404
Novel platforms based on human neurons are needed to improve early drug testing and address the stalling drug discovery in neurological disorders. Topologically controlled circuits of human induced pluripotent stem...
9.
Duru J, Kuchler J, Ihle S, Forro C, Bernardi A, Girardin S, et al.
Front Neurosci
. 2022 Mar;
16:829884.
PMID: 35264928
In bottom-up neuroscience, questions on neural information processing are addressed by engineering small but reproducible biological neural networks of defined network topology . The network topology can be controlled by...
10.
Girardin S, Clement B, Ihle S, Weaver S, Petr J, Mateus J, et al.
Lab Chip
. 2022 Mar;
22(7):1386-1403.
PMID: 35253810
Bottom-up neuroscience, which consists of building and studying controlled networks of neurons , is a promising method to investigate information processing at the neuronal level. However, studies tend to use...