Culture
Femtosecond direct laser writing as a 3D printing technology has been one of the key building blocks for miniaturization in modern times. It has transformed the field of complex microoptics since the early 2000s. Especially medical engineering and consumer electronics as vastly growing fields benefit from these developments. It is now possible to create robust, monolithic and nearly perfectly aligned freeform optical systems on almost arbitrary substrates such as image sensors or optical fibers.
In diagnostic medicine, biopsies, where a sample of tissue is extracted for analysis, is a common tool for the detection of many conditions. But this approach has several drawbacks - it can be painful, doesn't always extract the diseased tissue, and can only be used in a sufficiently advanced disease stage, making it, in some cases, too late for intervention. These concerns have encouraged researchers to find less invasive and more accurate options for diagnoses.
A study has described genetic changes in patients with the most common form of hereditary kidney disease that affects an estimated 12.5 million people worldwide. The research, which focussed on Polycystic Kidney Disease (PKD) in Ireland, provides insights into PKD that will assist doctors and patients in the management of this of inherited condition.
The study, led by researchers from the RCSI University of Medicine and Health Sciences, is published in the European Journal of Human Genetics.
Results from a new study which draws on survey data collected during the peak of the first wave of the pandemic suggests that being forced to slow down life, as a consequence of lockdown, has had significant, positive impacts for many people and their families.
Cells, like humans, cast votes to make decisions as a group. But how do they know what to vote for? Researchers at the Francis Crick Institute and King's College London have uncovered how cells actively seek information in order to make faster and better collective decisions to coordinate the growth of new blood vessels. This provides a new basis for understanding intelligence in cells.
Goal 7 of the Sustainable Development Goals (SDGs) aims to ensure access to affordable, reliable, sustainable and modern energy for all by 2030. Yet according to new research by Copenhagen Business School the poor planning and execution of decarbonisation strategies in emerging markets challenges the aims of Goal 7.
BUFFALO, N.Y. -- In cells, numerous important biochemical functions take place within spherical chambers made from proteins and RNA.
These compartments are akin to specialized rooms inside a house, but their architecture is radically different: They don't have walls. Instead, they take the form of liquid droplets that don't have a membrane, forming spontaneously, similar to oil droplets in water. Sometimes, the droplets are found alone. Other times, one droplet can be found nested inside of another. And these varying assemblies can regulate the functions the droplets perform.
Some coronaviruses can add to their genetic pool some genes belonging to the host they infected. In this way, they can blend in and be less detectable to the immune system. This discovery was published in the journal Viruses by an Italian research team from the IIS (Italian Healthcare Institute), ISPRA (Institute for Environmental Protection and Research), IZSLER (Italian health authority and research organization for animal health and food safety of Lombardy and Emilia-Romagna) and the University of Bologna.
Findings from a new study on Alzheimer's disease (AD), led by researchers at the University of Saskatchewan (USask), could eventually help clinicians identify people at highest risk for developing the irreversible, progressive brain disorder and pave the way for treatments that slow or prevent its onset.
On a brisk November morning in 2018, a fire sparked in a remote stretch of canyon in Butte County, California, a region nestled against the western slopes of the Sierra Nevada mountains. Fueled by a sea of tinder created by drought, and propelled by powerful gusts, the flames grew and traveled rapidly. In less than 24 hours, the fire had swept through the town of Paradise and other communities, leaving a charred ruin in its wake.
An unusual biologically active porphyrin compound was isolated from seabed dweller Ophiura sarsii. The substance might be used as an affordable light-sensitive drug for innovative photodynamic therapy and for targeted treatment of triple-negative breast cancer and some other cancers. Researchers from the School of Biomedicine of Far Eastern Federal University (FEFU) and the University of Geneva reported the findings in Marine Drugs.
COLUMBUS, Ohio - We know that what happens in the mouth doesn't stay in the mouth - but the oral cavity's connection to the rest of the body goes way beyond chewing, swallowing and digestion.
The healthy human oral microbiome consists of not just clean teeth and firm gums, but also energy-efficient bacteria living in an environment rich in blood vessels that enables the organisms' constant communication with immune-system cells and proteins.
DURHAM, N.C. -- The world's most technologically advanced robots would lose in a competition with a tiny crustacean.
Just the size of a sunflower seed, the amphipod Dulichiella cf. appendiculata has been found by Duke researchers to snap its giant claw shut 10,000 times faster than the blink of a human eye.
Ebola and Marburg are among the most deadly viruses, with mortality rates from these infections ranging from 25% to 90%. While no drugs currently are available on the market to prevent infection from these viruses -- they belong to a category of viruses called filoviruses, which are known to cause hemorrhagic fever -- researchers have identified a few small drug molecules that can block filoviruses from infecting cells by occupying a single site on a glycoprotein in the virus.
(Santa Barbara, Calif.) -- Researchers in the labs of Christopher Bates, an assistant professor of materials at UC Santa Barbara, and Michael Chabinyc, a professor of materials and chair of the department, have teamed to develop the first 3D-printable "bottlebrush" elastomer. The new material results in printed objects that have unusual softness and elasticity -- mechanical properties that closely resemble those of human tissue.