Mechanical studies of the third dimension in cancer: From 2D to 3D model
F Paradiso, S Serpelloni, LW Francis… - International Journal of …, 2021 - mdpi.com
From the development of self-aggregating, scaffold-free multicellular spheroids to the
inclusion of scaffold systems, 3D models have progressively increased in complexity to …
inclusion of scaffold systems, 3D models have progressively increased in complexity to …
Unraveling the complex genetics of neural tube defects: From biological models to human genomics and back
Neural tube defects (NTDs) are a classic example of preventable birth defects for which
there is a proven‐effective intervention, folic acid (FA); however, further methods of …
there is a proven‐effective intervention, folic acid (FA); however, further methods of …
[HTML][HTML] An osteogenic bioink composed of alginate, cellulose nanofibrils, and polydopamine nanoparticles for 3D bioprinting and bone tissue engineering
S Im, G Choe, JM Seok, SJ Yeo, JH Lee… - International Journal of …, 2022 - Elsevier
Bioprinting is an emerging technology for manufacturing cell-laden three-dimensional (3D)
scaffolds, which are used to fabricate complex 3D constructs and provide specific …
scaffolds, which are used to fabricate complex 3D constructs and provide specific …
Remotely Actuated Magnetic Nanocarpets for Bone Tissue Engineering: Non‐Invasive Modulation of Mechanosensitive Ion Channels for Enhanced Osteogenesis
AR Unnithan, ARK Sasikala… - Advanced Functional …, 2022 - Wiley Online Library
Non‐invasive approaches using remotely controllable nanomaterials have demonstrated
their potential ability to enhance treatment efficacy in regenerative medicine and tissue …
their potential ability to enhance treatment efficacy in regenerative medicine and tissue …
Emerging role and promise of nanomaterials in organoid research
Organoids are 3D stem cell-derived self-organization of cells. Organoid bioengineering
helps recreate and tailor their architecture in vitro to generate mini organ-like properties …
helps recreate and tailor their architecture in vitro to generate mini organ-like properties …
Recent advances in brain organoid technology for human brain research
Brain organoids are self-assembled three-dimensional aggregates with brain-like cell types
and structures and have emerged as new model systems that can be used to investigate …
and structures and have emerged as new model systems that can be used to investigate …
Low forces push the maturation of neural precursors into neurons
S De Vincentiis, M Baggiani, F Merighi, V Cappello… - Small, 2023 - Wiley Online Library
Mechanical stimulation modulates neural development and neuronal activity. In a previous
study, magnetic “nano‐pulling” is proposed as a tool to generate active forces. By loading …
study, magnetic “nano‐pulling” is proposed as a tool to generate active forces. By loading …
Organoids: A new approach in toxicity testing of nanotherapeutics
Nanotechnology has revolutionized diverse fields, which include agriculture, the consumer
market, medicine, and other fields. Widespread use of nanotechnology‐based products has …
market, medicine, and other fields. Widespread use of nanotechnology‐based products has …
[HTML][HTML] Magnetic colloidal nanoformulations to remotely trigger mechanotransduction for osteogenic differentiation
M Estévez, M Cicuéndez, M Colilla… - Journal of Colloid and …, 2024 - Elsevier
Nowadays, diseases associated with an ageing population, such as osteoporosis, require
the development of new biomedical approaches to bone regeneration. In this regard …
the development of new biomedical approaches to bone regeneration. In this regard …
Nanomaterial additives for fabrication of stimuli‐responsive skeletal muscle tissue engineering constructs
Volumetric muscle loss necessitates novel tissue engineering strategies for skeletal muscle
repair, which have traditionally involved cells and extracellular matrix‐mimicking scaffolds …
repair, which have traditionally involved cells and extracellular matrix‐mimicking scaffolds …