Engineering approaches for cardiac organoid formation and their characterization
Cardiac organoids are 3-dimensional (3D) structures composed of tissue or niche-specific
cells, obtained from diverse sources, encapsulated in either a naturally derived or synthetic …
cells, obtained from diverse sources, encapsulated in either a naturally derived or synthetic …
Vascularizing the brain in vitro
The brain is arguably the most fascinating and complex organ in the human body.
Recreating the brain in vitro is an ambition restricted by our limited understanding of its …
Recreating the brain in vitro is an ambition restricted by our limited understanding of its …
Evaluation of the morphological and biological functions of vascularized microphysiological systems with supervised machine learning
Vascularized microphysiological systems and organoids are contemporary preclinical
experimental platforms representing human tissue or organ function in health and disease …
experimental platforms representing human tissue or organ function in health and disease …
Diabetes diminishes muscle precursor cell-mediated microvascular angiogenesis
The skeletal muscles of Type II diabetic (T2D) patients can be characterized by a reduced
vessel density, corresponding to deficiencies in microvascular angiogenesis. Interestingly …
vessel density, corresponding to deficiencies in microvascular angiogenesis. Interestingly …
Digital labeling for 3D histology: segmenting blood vessels without a vascular contrast agent using deep learning
Recent advances in optical tissue clearing and three-dimensional (3D) fluorescence
microscopy have enabled high resolution in situ imaging of intact tissues. Using simply …
microscopy have enabled high resolution in situ imaging of intact tissues. Using simply …
ML-driven segmentation of microvascular features during histological examination of tissue-engineered vascular grafts
VV Danilov, VV Laptev, KY Klyshnikov… - … in Bioengineering and …, 2024 - frontiersin.org
Introduction The development of next-generation tissue-engineered medical devices such
as tissue-engineered vascular grafts (TEVGs) is a leading trend in translational medicine …
as tissue-engineered vascular grafts (TEVGs) is a leading trend in translational medicine …
Code-Free Machine Learning Solutions for Microscopy Image Processing: Deep Learning
E Chechekhina, N Voloshin, K Kulebyakin… - … Engineering Part A, 2024 - liebertpub.com
In recent years, there has been a significant expansion in the realm of processing
microscopy images, thanks to the advent of machine learning techniques. These techniques …
microscopy images, thanks to the advent of machine learning techniques. These techniques …
Machine Learning Approaches to 3D Models for Drug Screening
The creation of precise, functional 3D tissues can enable effective drug screening as well as
advancements in regenerative medicine. However, the inherent limitations present during …
advancements in regenerative medicine. However, the inherent limitations present during …
Microfabrication and Characterization of Micro-Stereolithographically 3d Printed, and Double Metallized Bioplates with 3D Microelectrode Arrays for In-Vitro Analysis …
JM Castro, I Johnson… - 2023 IEEE 36th …, 2023 - ieeexplore.ieee.org
This paper reports for the first time a bioplate microfabrication process using 3D printing
technology and a two-step metallization process (ink-casting and sputtering deposition) that …
technology and a two-step metallization process (ink-casting and sputtering deposition) that …
Перспективы создания искусственных тканей и органов человека на основе метода трехмерной биопечати
ДВ Булгин, АЛ Ковтун, ИВ Решетов… - Вестник …, 2023 - journal.transpl.ru
Аннотация Трехмерная (3D) печать–это процесс послойного создания в пространстве
материального объекта из виртуальной, математической модели. Метод 3D-печати …
материального объекта из виртуальной, математической модели. Метод 3D-печати …