A recent article in the Journal of Thrombosis and Haemostasis determined that drinkers of wine benefit from its cardio-protective effects, more so than those who drink beer or other spirits, and may also live longer. The article is part of a series of papers published in an open forum on wine, alcohol and cardiovascular risk. The analysis, encompassing various international studies, further confirms the agreement among researchers that any alcohol, in light to moderate intake, puts drinkers at lower risk for cardiovascular disease and death than non-drinkers.
"It is also known from a number of studies that wine drinkers in many cultures are from a higher socio-economic status and have a better diet than non-wine drinkers," states Professor Morten Grønbæk, author of the article. This may be an important factor adding to the beneficial results of wine intake. The French are noted to have a relatively low rate of cardiovascular disease, despite high smoking rates and a typical high fat diet. The fact that the French consume more wine than Americans, for example, is a probable reason to explain this so-called paradox.
According to the article, substances in wine have been shown to share the characteristics of ethanol, which can help to prevent blood clotting, in addition to cardio-protective effects. Additional data revealed benefits from wine with regard to mortality from cancer, over other alcoholic beverages. Further evidence show that the disease fighting antioxidants present in fruit and vegetables, are also present in wine.
Sharon Agsalda | EurekAlert!
Monitoring the heart's mitochondria to predict cardiac arrest?
21.09.2017 | Boston Children's Hospital
Highly precise wiring in the Cerebral Cortex
21.09.2017 | Max-Planck-Institut für Hirnforschung
Our brains house extremely complex neuronal circuits, whose detailed structures are still largely unknown. This is especially true for the so-called cerebral cortex of mammals, where among other things vision, thoughts or spatial orientation are being computed. Here the rules by which nerve cells are connected to each other are only partly understood. A team of scientists around Moritz Helmstaedter at the Frankfiurt Max Planck Institute for Brain Research and Helene Schmidt (Humboldt University in Berlin) have now discovered a surprisingly precise nerve cell connectivity pattern in the part of the cerebral cortex that is responsible for orienting the individual animal or human in space.
The researchers report online in Nature (Schmidt et al., 2017. Axonal synapse sorting in medial entorhinal cortex, DOI: 10.1038/nature24005) that synapses in...
Whispering gallery mode (WGM) resonators are used to make tiny micro-lasers, sensors, switches, routers and other devices. These tiny structures rely on a...
Using ultrafast flashes of laser and x-ray radiation, scientists at the Max Planck Institute of Quantum Optics (Garching, Germany) took snapshots of the briefest electron motion inside a solid material to date. The electron motion lasted only 750 billionths of the billionth of a second before it fainted, setting a new record of human capability to capture ultrafast processes inside solids!
When x-rays shine onto solid materials or large molecules, an electron is pushed away from its original place near the nucleus of the atom, leaving a hole...
For the first time, physicists have successfully imaged spiral magnetic ordering in a multiferroic material. These materials are considered highly promising candidates for future data storage media. The researchers were able to prove their findings using unique quantum sensors that were developed at Basel University and that can analyze electromagnetic fields on the nanometer scale. The results – obtained by scientists from the University of Basel’s Department of Physics, the Swiss Nanoscience Institute, the University of Montpellier and several laboratories from University Paris-Saclay – were recently published in the journal Nature.
Multiferroics are materials that simultaneously react to electric and magnetic fields. These two properties are rarely found together, and their combined...
MBM ScienceBridge GmbH successfully negotiated a license agreement between University Medical Center Göttingen (UMG) and the biotech company Tissue Systems Holding GmbH about commercial use of a multi-well tissue plate for automated and reliable tissue engineering & drug testing.
MBM ScienceBridge GmbH successfully negotiated a license agreement between University Medical Center Göttingen (UMG) and the biotech company Tissue Systems...
19.09.2017 | Event News
12.09.2017 | Event News
06.09.2017 | Event News
21.09.2017 | Physics and Astronomy
21.09.2017 | Life Sciences
21.09.2017 | Health and Medicine