Seizure Implant - Pain & Sex Differences - Sexual Touch - Chimp Pharmacy
Breedlove, S
UK boy has brain implant fitted to control epilepsy seizures in world first
Hannah Devlin Science correspondent
A UK teenager with severe epilepsy has become the first person in the world to be fitted with a brain implant aimed at bringing seizures under control.
Oran Knowlson’s neurostimulator sits under the skull and sends electrical signals deep into the brain, reducing his daytime seizures by 80%.
His mother, Justine, said that her son had been happier, chattier and had a much better quality of life since receiving the device. “The future looks hopeful, which I wouldn’t have dreamed of saying six months ago,” she said.
Martin Tisdall, a consultant paediatric neurosurgeon who led the surgical team at Great Ormond Street hospital (Gosh) in London, said: “For Oran and his family, epilepsy completely changed their lives and so to see him riding a horse and getting his independence back is absolutely astounding. We couldn’t be happier to be part of their journey.”
Oran, who is 13 and lives in Somerset, had the surgery in October as part of a trial at Gosh in partnership with University College London, King’s College hospital and the University of Oxford. Oran has Lennox-Gastaut syndrome, external, a treatment-resistant form of epilepsy which he developed at the age of three.
Between then and having the device fitted, he hasn’t had a single day without a seizure and sometimes suffered hundreds in a day. He often lost consciousness and would stop breathing, needing resuscitation. This means Oran needed round-the-clock care, as seizures could happen at any time of day, and he was at a significantly increased risk of sudden unexpected death in epilepsy (Sudep).
© 2024 Guardian News & Media Limited
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https://www.sciencenews.org/article/pain-nerve-cells-different-men-women
Pain may take different pathways in men and women
By Claire Yuan
Men and women experience pain differently, and until now, scientists didn’t know why. New research says it may be in part due to differences in male and female nerve cells.
Pain-sensing nerve cells from male and female animal tissues responded differently to the same sensitizing substances, researchers report June 3 in Brain. The results suggest that at the cellular level, pain is produced differently between the sexes.
The results might allow researchers “to come up with drugs that would be specific to treat female patients or male patients,” says Katherine Martucci, a neuroscientist who studies chronic pain at Duke University School of Medicine and was not involved in the study. “There’s no debate about it. They’re seeing these differences in the cells.”
Some types of chronic and acute pain appear more often in one sex, but it’s unclear why. For instance, about 50 million adults in the United States suffer from chronic pain conditions, many of which are more common in women (SN: 5/22/23). Similar disparities exist for acute conditions.
Such differences prompted pain researcher Frank Porreca of the University of Arizona Health Sciences in Tucson and colleagues to study nerve cells called nociceptors, which can act like alarm sensors for the body. The cells’ pain sensors, found in skin, organs and elsewhere in the body, can detect potentially dangerous stimuli and send signals to the brain, which then interprets the information as pain. In some cases, the nerve cells can become more sensitive to outside stimulation, registering even gentle sensations — like a shirt rubbing sunburned skin — as pain.
© Society for Science & the Public 2000–2024.
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https://www.nature.com/articles/d41586-024-02058-5
Sensory secrets of penis and clitoris unlocked after more than 150 years
By Sara Reardon
Specific nerve cells on the penis and clitoris detect vibrations and then become activated, causing sexual behaviours such as erections, a study in mice has revealed1. The findings could lead to new treatments for conditions such as erectile dysfunction, or for restoring sexual function in people with lower-body paralysis.
Krause corpuscles — nerve endings in tightly wrapped balls located just under the skin — were first discovered in human genitals more than 150 years ago. The structures are similar to touch-activated corpuscles found on people’s fingers and hands, which respond to vibrations as the skin moves across a textured surface.
But there is little research into how the genital corpuscles work and how they are involved in sex, probably because the topic is sometimes considered taboo. “It’s been hard to get people to work on this because some people have a hard time talking about it,” says David Ginty, a sensory neurobiologist at Harvard Medical School in Boston, Massachusetts, who led the team that conducted the latest research. “But I don’t, because the biology is so interesting.”
Ginty and other sensory biologists have long wanted to study these mysterious neuron balls. But activating and tracking specific neurons was nearly impossible until advanced molecular techniques emerged in the past 20 years.
In a 19 June paper in Nature1, Ginty and his collaborators activated the Krause corpuscles in both male and female mice using various mechanical and electrical stimuli. The neurons fired in response to low-frequency vibrations in the range of 40–80 hertz. Ginty notes that these frequencies are generally used in many sex toys; humans, it seems, realized that this was the best way to stimulate Krause corpuscles before any official experiments were published.
© 2024 Springer Nature Limited
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https://www.science.org/content/article/chimps-use-more-plant-medicines-any-other-animal
Chimps use more plant medicines than any other animal
By Dennis Normile
For several decades, evidence has accumulated that animals turn to medicinal plants to relieve their ailments. Chimpanzees (and some other species) swallow leaves to mechanically clear the gut of parasites. Chimps also rely on the ingested pith of an African relative of the daisy, Vernonia amygdalina, to rid themselves of intestinal worms. Dolphins rub against antibacterial corals and sponges to treat skin infections. And recently, a male Sumatran orangutan was observed chewing the leaves of Fibraurea tinctoria, a South Asian plant with antibacterial and anti-inflammatory properties, and dabbing the juice onto a wound.
These instances of animals playing doctor with therapeutic plants have typically been identified one by one. Today, in PLOS ONE, a multinational team proposes adding 17 samples from 13 plant species to the chimpanzee pharmacopia.
“The paper provides important new findings about self-medication behavior in wild chimpanzees,” a topic that’s still relatively unknown, says Isabelle Laumer, a cognitive biologist at the Max Planck Institute of Animal Behavior and lead author on the orangutan self-medication paper who was not involved in the new chimp research.
Observers with the team behind today's paper spent 4 months with each of two chimp communities habituated to human observers in Uganda’s Budongo Forest. The researchers supplemented their own observations with historical data.
From the 170 chimps in the two communities, the observers zeroed in on 51 individuals suffering bacterial infections and inflammation as indicated by abnormal urine composition, diarrhea, traces of parasites, or apparent wounds. For 10 hours a day they followed the sick chimps through the forest, noting which plants they ate and when, and watching in particular to see whether the animals went out of their way to find and consume plants not part of their usual diet.
In one example, researchers observed an individual suffering from diarrhea very briefly venture outside the group’s safe home territory to eat a small amount of dead wood from Alstonia boonei, a tree in the dogbane family. Chimps rarely eat dead wood, which is not nutritious for them, the team says.
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