#microbubbles

Ultrasonic Drug Delivery

Treating diseases in the brain is challenging because its natural armour – the blood-brain barrier – prevents not only pathogens and toxins from entering, but also drugs. In search of non-surgical options for accessing the brain, researchers have discovered that targeted ultrasound combined with gas-filled microbubbles can briefly and safely open the barrier. The bubbles are intravenously injected along with the drug and the ultrasound beams are then focussed at the site to be treated. The sound waves agitate the bubbles in the region, disrupting the normally impenetrable vessel walls (the barrier) and allowing the drug to pass through. Already tested in animals, the technique is now in small-scale human trials, like the one that included this brain cancer patient. The right-hand image shows entry of the drug into the brain tumour (arrow) following targeted ultrasound, while the left-hand image shows almost no drug uptake when ultrasound was not applied.

Written by Ruth Williams

Image from work by Ying Meng and colleagues

Sunnybrook Research Institute, Harquail Centre for Neuromodulation, Toronto, ON, Canada

Image copyright held by the original authors

Research published in Science Translational Medicine, October 2021

Painstaking Details

A milestone in many pregnancies, harmless pulses of ultrasound waves bend and deflect around chubby limbs and beating hearts – structures too delicate to examine directly, pictured from the patterns they leave behind. Here though, scientists take ultrasound even further. These are trigeminal ganglions, sort of 'hubs' for nerves in the jaw (of a rat in this case) – where bundles of nerve cells rub up against veins and arteries. Ultrasound localisation microscopy highlights streams of microbubbles – piped into the blood they deflect the ultrasound waves, allowing researchers (and their computer algorithms) to map out blood vessels (left) and even spot the direction of flow (right, blue flowing upwards, yellow downwards) and speed (brighter is faster). The technique could now be modified to scan human faces, where knowing more about these neurovascular meeting points may help to treat painful trigeminal neuralgia and facial migraines.

Written by John Ankers

Image from work by Annabelle Réaux-Le-Goazigo and colleagues

Physics for Medicine Paris, Inserm, ESPCI Paris, CNRS, PSL Research University, Paris, France

Image originally published with a Creative Commons Attribution 4.0 International (CC BY 4.0)

Published in Communications Biology, April 2022

NIT Rourkela's breakthrough Eco-friendly procedure that removes harmful dyes from Wastewater @neosciencehub #NITRourkela #Wastewater #harmfuldyes #neosciencehub #Sciencenews

Researchers at the National Institute of Technology Rourkela revealed a novel method for effectively treating industrial effluent that contains cancer-causing persistent dyes. The study, which was funded by the Anusandhan National Research Foundation, demonstrated how combining microbubble technology with ceramic membranes based on nanocomposite technology might improve the effectiveness of dye…

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Scientists decode how severe Covid-19 patients develop low blood oxygen levels – Times of India

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NEW YORK: Covid-19 is causing significant dilation of the blood vessels of the lungs, contributing to the very low oxygen levels seen in patients with respiratory failure, according to a new research that may help provide better treatment to those who are severely affected by the disease. The pilot study of 18 patients, published in the American Journal of Respiratory and Critical Care…

Israelis Turn Ultrasound into Powerful Cancer-Fighting Weapon

A breakthrough ultrasound technique developed at Tel Aviv University to treat cancer may be applicable to Parkinson’s, Alzheimer’s and other diseases.

A Tel Aviv-based research team has developed a method to fight cancer by shooting microbubbles at cancer cells and then blowing them up using ultrasound.

The microbubbles explode like targeted smart warheads, creating holes in cancer cells’…