Multidisciplinary Learning Extends Communication Skill, and Helps Cross Cultural Understandings: Biomedical Engineering [PDF]
Journal of Systemics, Cybernetics and Informatics, 2017 The effects of multidisciplinary learning on extension of communication skill and on cross-cultural understandings have been discussed. "Biomedical engineering" is exemplified for the multidisciplinary field, which includes biology, medicine, engineering,
Shigehiro Hashimoto
doaj
Overview of molecular signatures of senescence and associated resources: pros and cons
FEBS Open Bio, EarlyView.Cells can enter a stress response state termed cellular senescence that is involved in various diseases and aging. Detecting these cells is challenging due to the lack of universal biomarkers. This review presents the current state of senescence identification, from biomarkers to molecular signatures, compares tools and approaches, and highlights ...
Orestis A. Ntintas +6 more
wiley +1 more source
Raman‐based label‐free microscopic analysis of the pancreas in living zebrafish larvae
FEBS Open Bio, EarlyView.Forward stimulated Raman scattering (F‐SRS) and epi coherent anti‐Stokes Raman scattering (E‐CARS) allow label‐free discrimination of distinct subcellular structures in the pancreas of living zebrafish larvae. Given the straightforward applicability, we anticipate broad implementation of Raman microscopy in other organs and across various biomedical ...
Noura Faraj +3 more
wiley +1 more source
Sustainable bioplastics manufacturing from renewable sources
FEBS Open Bio, EarlyView.Bioplastics are manufactured by using polymers from different bio‐based sources. These novel materials not only offer biodegradability but also possess various functional properties that make them suitable for diverse applications. Recent developments in the preparation of bioplastics are reported, highlighting the distinct properties of each type of ...
C. Valeria L. Giosafatto +6 more
wiley +1 more source
Artificial intelligence‐enabled digital biomedical engineering
BMEMatArtificial intelligence (AI) has emerged as a transformative force in biomedical engineering, catalyzing a shift toward data‐driven, intelligent research paradigms.
Peiran Song +6 more
doaj +1 more source
Gold Nanomaterials and Bone/Cartilage Tissue Engineering: Biomedical Applications and Molecular Mechanisms. [PDF]
Front Chem, 2021 Shi Y +7 more
europepmc +1 more source
FEBS Open Bio, EarlyView.Aged human bmMSCs are seeded in the scaffold. Osteoblastic induction can slightly increase cell's bone‐forming activity to produce bone‐like tissues, shown as the sporadic xylenol orange‐stained spots (the lower left image). Notably, pioglitazone plus EGCG co‐treatment dramatically increases cell's bone‐forming activity and bone‐like tissue production (
Ching‐Yun Chen +6 more
wiley +1 more source
The development of biomedical engineering as experienced by one biomedical engineer
BioMedical Engineering OnLine, 2012 This personal essay described the development of the field of Biomedical Engineering from its early days, from the perspective of one who lived through that development.
Newell Jonathan C
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[From Passive Application to Active Design -Restructuring and Reshaping of Core Specialty Knowledge Systems of Biomedical Engineering (Biomedical Materials Track) Undergraduate Education]. [PDF]
Sichuan Da Xue Xue Bao Yi Xue Ban, 2021 Yin GF, Yang WZ, Lin JL, Gou L, Pu XM.
europepmc +1 more source
FEBS Open Bio, EarlyView.This review provides an overview of bio‐based polymer sources, their unique functional properties and their environmental impact, and addresses their role as sustainable alternatives. It discusses end‐of‐life options, including composting and anaerobic digestion for renewable energy.
Sabina Kolbl Repinc +8 more
wiley +1 more source