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| System Name | AlderLake / Laptop |
|---|---|
| Processor | Intel i7 12700K P-Cores @ 5Ghz / Intel i3 7100U |
| Motherboard | Gigabyte Z690 Aorus Master / HP 83A3 (U3E1) |
| Cooling | Noctua NH-U12A 2 fans + Thermal Grizzly Kryonaut Extreme + 5 case fans / Fan |
| Memory | 32GB DDR5 Corsair Dominator Platinum RGB 6000MHz CL36 / 8GB DDR4 HyperX CL13 |
| Video Card(s) | MSI RTX 2070 Super Gaming X Trio / Intel HD620 |
| Storage | Samsung 980 Pro 1TB + 970 Evo 500GB + 850 Pro 512GB + 860 Evo 1TB x2 / Samsung 256GB M.2 SSD |
| Display(s) | 23.8" Dell S2417DG 165Hz G-Sync 1440p / 14" 1080p IPS Glossy |
| Case | Be quiet! Silent Base 600 - Window / HP Pavilion |
| Audio Device(s) | Panasonic SA-PMX94 / Realtek onboard + B&O speaker system / Harman Kardon Go + Play / Logitech G533 |
| Power Supply | Seasonic Focus Plus Gold 750W / Powerbrick |
| Mouse | Logitech MX Anywhere 2 Laser wireless / Logitech M330 wireless |
| Keyboard | RAPOO E9270P Black 5GHz wireless / HP backlit |
| Software | Windows 11 / Windows 10 |
| Benchmark Scores | Cinebench R23 (Single Core) 1936 @ stock Cinebench R23 (Multi Core) 23006 @ stock |
Tiny robots can heal him
Mark Bowler/Nature Picture Library/Getty
"Tiny robotic drug deliveries could soon be treating diseases inside your body. For the first time, micromotors – autonomous vehicles the width of a human hair – have cured bacterial infections in the stomachs of mice, using bubbles to power the transport of antibiotics.
“The movement itself improves the retention of antibiotics on the stomach lining where the bacteria are concentrated,” says Joseph Wang at the University of California San Diego, who led the research with Liangfang Zhang.
In mice with bacterial stomach infections, the team used the micromotors to administer a dose of antibiotics daily for five days. At the end of the treatment, they found their approach was more effective than regular doses of medicine.
The tiny vehicles consist of a spherical magnesium core coated with several different layers that offer protection, treatment, and the ability to stick to stomach walls. After they are swallowed, the magnesium cores react with gastric acid to produce a stream of hydrogen bubbles that propel the motors around. This process briefly reduces acidity in the stomach. The antibiotic layer of the micromotor is sensitive to the surrounding acidity, and when this is lowered, the antibiotics are released."
Suppress stomach acid
"Without this reduction, antibiotics and protein-based pharmaceuticals can be destroyed before they do any good. This mechanism means that drugs normally used to treat bacterial infections, such as ulcers, normally have to be taken alongside proton pump inhibitors that suppress gastric acid production. Long-term use of proton pump inhibitors can lead to some nasty side effects including headaches, diarrhoea, fatigue and even anxiety or depression. So being able to use tiny vehicles instead is a big step forward.
After 24 hours, the stomach acid of the mice returned to normal levels, and as the micromotors are mostly made of biodegradable materials, they were dissolved by the stomach, leaving no harmful residues.
“It’s a really nifty and impressive application. Micromotors are still new, but their impact will be big,” says Thomas Mallouk at Pennsylvania State University.
Samuel Sanchez at Max Planck Institute for Intelligent Systems says the new work is “pushing the field of micro-motors forward” and shows the benefits of using micromotors over traditional approaches.
The next steps are to look at a larger animal study, followed by eventual trials in humans. “There is still a long way to go, but we are on a fantastic voyage,” says Wang.
Journal reference: Nature Communications, DOI: 10.1038/s41467-017-00309-w "
Medical microbots
"Micromotors have huge promise in many different areas. Earlier this month, for example, researchers demonstrated that they could be used to propel drugs through the blood-brain barrier. Most drugs never make it from the bloodstream into the brain - the blood-brain barrier is just too good at its job. However, by using micromotors fuelled by glucose, the team increased penetration by 400 per cent. This could have big implications for treating diseases like Parkinson’s or Alzheimer’s.
The tiny vehicles also look like they will be effective for neutralising biological and chemical weapons like sarin gas. Normally, large machinery is required to help mix the neutralising compounds in a way that renders the weapons useless, but this machinery is often not available in the field. Wang found that using around 1.5 million micromotors - about 15 millilitres’ worth, was as effective as using a clunky mechanical mixer. "
https://www.newscientist.com/articl...-crawl-through-mouses-stomach-to-heal-ulcers/