News by Subject Technology & Engineering

News Release 21-Aug-2019

Improved functional near infrared spectroscopy enables enhanced brain imaging

SPIE--International Society for Optics and Photonics

In an article published in the peer-reviewed SPIE publication Neurophotonics, 'High density functional diffuse optical tomography based on frequency domain measurements improves image quality and spatial resolution,' researchers demonstrate critical improvements to functional Near Infrared Spectroscopy (fNIRS)-based optical imaging in the brain.

Journal: Neurophotonics

News Release 20-Aug-2019

Laser printing technology: Creating the perfect bioprinter

Sechenov University

Scientists from Russia, China, and the US have drawn the attention of the scientific community to one of the newest and most promising areas in bioprinting -- laser-induced forward transfer (LIFT). They have compared laser printing parameters, bioink composition, donor ribbons, and collector substrates for LIFT bioprinters, as well as post-printing treatments of fabricated materials -- all of this may affect the properties of printed tissues and organs. The details of the analysis were published in Bioprinting.

Journal: Bioprinting

News Release 20-Aug-2019

Mini kidneys grown from stem cells give new insights into kidney disease and therapies

Nanyang Technological University

An international team led by NTU Singapore has grown 'miniature kidneys' in the laboratory that could be used to better understand how kidney diseases develop in individual patients. These kidney organoids were grown outside the body from skin cells derived from a single patient who has polycystic kidney disease. This method has paved the way for tailoring treatment plans specific to each patient, which could be extended to a range of kidney diseases.

Journal: Cell Stem Cell

News Release 20-Aug-2019

A single change at telomeres controls the ability of cells to generate a complete organism

Centro Nacional de Investigaciones Oncológicas (CNIO)

Pluripotent cells can give rise to all cells of the body, a power that researchers are eager to control because it opens the door to regenerative medicine and organ culture for transplants. But pluripotency is still a black box for science, controlled by unknown genetic and epigenetic signals. CNIO researchers now uncovers one of those epigenetic signals, after a detective quest that started almost a decade ago.

Journal: eLife

News Release 20-Aug-2019

A new path to cancer therapy: developing simultaneous multiplexed gene editing technology

National Research Council of Science & Technology

Dr. Mihue Jang's group at the Korea Institute of Science and Technology(KIST) announced that they have developed a new gene editing system that could be used for anticancer immunotherapy through the simultaneous suppression of proteins that interfere with the immune system expressed on the surface of lymphoma cells and activation of cytotoxic T lymphocyte, based on the results of joint research conducted with Prof. Seokmann Hong's group at Sejong University

Journal: Biomaterials
Funder: National Research Foundation of Korea, Ministry of Science and ICT

News Release 19-Aug-2019

Lab-on-a-chip drives search for new drugs to prevent blood clots

RMIT University

The effectiveness of current anti-clotting medication can be limited due to the risk of complications. This is driving a need for alternatives that can both prevent the formation of blood clots and reduce the risk of excessive and life-threatening bleeding. A new biocompatible lab-on-a-chip could help accelerate the discovery and development of new anti-clotting therapies, with automated processes that can achieve in a few minutes what could take days in a full-sized lab.

Journal: Analytical Chemistry
Funder: Australian Research Council, National Health and Medical Research Council

News Release 19-Aug-2019

Scientists uncover mystery of DNA methylation

Technical University of Denmark

To a large extent, DNA methylation, which regulates vital cell functions, is still a big mystery to the scientific world. Now, scientists have developed a method to quickly couple methylation enzymes to their respective methylation pattern. This finding could become essential for successful gene engineering in many species.

Journal: Nature Communications
Funder: Novo Nordisk Foundation

News Release 19-Aug-2019

DGIST succeeded in materials synthesis for high efficiency in biological reaction

DGIST (Daegu Gyeongbuk Institute of Science and Technology)

DGIST Professor Jaeheung Cho in the Department of Emerging Materials Science secured materials that lead aldehyde deformylation reaction. Confirmed the nucleophilic reactions by biomimetic materials... Expects to bring positive impacts on related research.

Journal: Communications Chemistry

News Release 19-Aug-2019

Lighting up proteins with Immuno-SABER

Wyss Institute for Biologically Inspired Engineering at Harvard

Harvard researchers have developed a new DNA-nanotechnology-based approach called Immuno-SABER, that combines the protein targeting specificity of commonly available antibodies with a DNA-based signal-amplification strategy that enables the highly multiplexed visualization of many proteins in the same sample with pre-programmable and tunable fluorescence signals at each target site.

Journal: Nature Biotechnology

News Release 19-Aug-2019

Optic nerve stimulation to aid the blind

Ecole Polytechnique Fédérale de Lausanne

EPFL scientists are investigating new ways to provide visual signals to the blind by directly stimulating the optic nerve. Their preliminary study uses a new type of neural electrode and provides distinct signals.

Journal: Nature Biomedical Engineering

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