Results 191 to 200 of about 3,498,043 (366)

Artificial Tongue-Placed Tactile Biofeedback for perceptual supplementation: application to human disability and biomedical engineering

, 2007
The present paper aims at introducing the innovative technologies, based on the concept of "sensory substitution" or "perceptual supplementation", we are developing in the fields of human disability and biomedical engineering.
Chenu, Olivier, Demongeot, Jacques, Moreau-Gaudry, Alexandre, Payan, Yohan, Vuillerme, Nicolas   +4 more
core   +1 more source

Biomedical Engineering International

, 2020

openalex   +1 more source

Primary Human Tissue Models for Metabolic Dysfunction‐Associated Liver Disease ‐ toward Streamlining Drug Discovery with Patient‐Derived Assays

Advanced Biology, EarlyView.
The review provides a critical up‐to‐date overview of the current landscape of human in vitro models for fatty liver disease, including spheroids, organoids, organ‐on‐a‐chip systems, bioprinted liver constructs and precision‐cut liver slices. Their utility for faithfully modeling different stages of MASLD and MASH are evaluated and their compatibility ...
Sonia Youhanna, Nayere Taebnia, Yingxin Liang, Ningtao Cheng, Yi Wang, Maurice Michel, Volker M. Lauschke   +6 more
wiley   +1 more source

Emerging biotechnologies and biomedical engineering technologies for hearing reconstruction (4/2023) [PDF]

, 2023
Yangnan Hu, Le Fang, Hui Zhang, Shasha Zheng, Menghui Liao, Qingyue Cui, Wei Hao, Danqi Wu, Hong Cheng, Yanru Qi, Huan Wang, Xin Tao, Tian Wang, Renjie Chai   +13 more
openalex   +1 more source

FOXP3 Polymorphism and Upregulation of the CXCL12‐CXCR4‐SNAIL Axis with High Infiltration of M2TAM by STAT3/NFKB Pathways Influence the Survival of Cervical Cancer Patients

Advanced Biology, EarlyView.
This study highlights how cervical carcinoma progression is shaped by immune–tumor interactions within the TME. M2‐TAM infiltration, regulated through STAT3/NF‐κB and linked to CXCL12–CXCR4, promotes immune suppression, angiogenesis, and poor survival.
George A. Lira, Fábio M. de Azevedo, Ingrid G. S. Lins, Janaína C. O. Crispim, Giovanna A. Lira, Rômulo S. Cavalcante, Ricardo Cobucci, Carolina O. Mendes‐Aguiar, Rafaela Torres Dantas Da Silva, Vinícius E. da Silva, Ryan C. Q. Aquino, Raimundo F. Araújo Júnior   +11 more
wiley   +1 more source

Polymeric Materials in Biomedical Engineering: A Bibliometric Mapping. [PDF]

Polymers (Basel)
Veres C, Tănase M, Szabo DA.
europepmc   +1 more source

Innovation and Entrepreneurship in Promotion and Tenure in Biomedical Engineering: Communication from the Biomedical Engineering Society Long Range Planning Committee. [PDF]

Cell Mol Bioeng, 2023
Kohs TCL, Clarin SN, Carter RG, Mundorff K, Imoukhuede PI, Ramamurthi A, Bao G, King MR, McCarty OJT.   +8 more
europepmc   +1 more source

An overview of applications of CRISPR-Cas technologies in biomedical engineering

, 2020
Saleh Jamehdor, Kasra Arbabi Zaboli, Sina Naserian, Jose Thekkiniath, Honey Alef Omidy, Ali Teimoori, Behrooz Johari, Amir Hossein Taromchi, Yu Sasano, Saeed Kaboli   +9 more
openalex   +2 more sources

A Spatially Resolved View on the Aging Substantia nigra: An Exploratory Proteomic Study

Advanced Biology, EarlyView.
Although aging is the most important risk factor for several neurodegenerative diseases, the molecular effects of physiological aging are still understudied. By applying spatially‐resolved proteomic analyses of the human substantia nigra pars compacta, alterations in vesicular trafficking and mitochondrial proteins are observed, as well as reduced ...
Britta Eggers, Maximilian Hausherr, Michel Lim, Karin Schork, Bilhan Karacora, Robin Grugel, Martin Eisenacher, Isabel Gil Aldea, Peter Riederer, Manfred Gerlach, Katrin Marcus   +10 more
wiley   +1 more source

Biomedical Engineering and Computational Biology

Biomedical Engineering and Computational Biology, 2009
Kayvan Najarian
doaj   +1 more source