This study helps to close the gap involving cannabis and weight loss.
Can cannabidiol (CBD) or other cannabis-related products help with weight loss? This is what a recent study published in the journal Cannabis hopes to address as a researcher from NeX Therapeutics investigated how two phytocannabinoids, tetrahydrocannabivarin (THCV) and cannabidiol (CBD), could be used to manage weight loss. This study has the potential to help researchers, legislators, and the public better understand the benefits of cannabis for weight loss compared to prescription drugs currently on the market.
The study was conducted by Dr. Gregory Smith, who is the Founder, CEO, and Scientific Advisor of NeX Therapeutics, and involved 44 participants (31 women and 13 men) with an average age of 51.75. For the study, the participants used consumed mucoadhesive oral strips, which are drug delivery strips that adhere to the inside of the mouth, over 90 days. They were split into Group A, Group B, and Group P which involved single dose, double dose, and placebo, respectively, with one dose equaling 8 mg THCV/10 mg CBD. In the end, Dr. Smith made some interesting findings regarding how the strips helped manage weight loss.
According to the study, “The 16mg/20mg daily dose was superior for weight loss compared to the 8mg/10mg daily dose; both sets of results differed from placebo in a way that was statistically significant. The results of this study were congruent with the prior unpublished studies of a hemp extract containing significant percentages of THCV, CBDV and CBD.”
face_with_colon_three Year 2017 nad plus is essentially immortality of the colon which can reduce colon aging.
Boosting the level of a coenzyme regulating metabolism could help treat constipation and other aging-related intestinal problems. Researchers in Hangzhou, China, led by Qinsong Sheng from the First Affiliated Hospital of Zhejiang University and Zhenyu Ju from Hangzhou Normal University studied differences in colon function between young and old mice. They showed that older animals had more difficulty in defecation through the gastrointestinal tract and that this was associated with a lower level of the coenzyme nicotinamide adenine dinucleotide (NAD). Treatment with an NAD precursor improved defecation ability, whereas administering a drug that blocks NAD synthesis led to worsened colon function in mice. These findings point to NAD as a key regulator of colon motility and suggest a therapeutic strategy for older individuals with bowel-movement problems.
face_with_colon_three year 2024.
Genes from regenerative organisms rejuvenate intestinal stem cells in fruit flies.
In a groundbreaking experiment, Japanese researchers transferred regenerative genes to fruit flies, leading to improved intestinal health and enhanced stem cell activity. This discovery opens new possibilities for anti-aging strategies in higher organisms, including humans, through targeted gene therapy.
Researchers including those from the University of Tokyo’s Graduate School of Pharmaceutical Sciences transferred genes from simple organisms capable of regenerating their bodies into common fruit flies, more complex animals that cannot. They found the transferred gene suppressed an age-related intestinal issue in the flies. Their results suggest studying genes specific to animals with high regenerative capability may uncover new mechanisms for rejuvenating stem cell function and extending the healthy lifespan of unrelated organisms.
A battery that’s safer and cheaper than lithium-ion while offering comparable energy density? That sounds like a pipe dream. But such a battery is in fact in the works, using a chemistry of renewables to store over 220 Wh/kg. Singaporean startup Flint believes it has the formula for the most sustainable battery the world has ever seen, capable of replacing lithium for applications like EV power and grid storage. Maybe that is a dream. Or maybe it’s the revolutionary eco-optimized battery of the near-future.
A fully sustainable paper battery that can be recycled and dropped in compost at the end of its life cycle sounds too good to be true. It kicks off a major cynicism alert, and the questions flow like water through a burst dam.
Does it offer such low capacity as to be useless for anything outside a laboratory? No, Flint estimates energy density at 226 Wh/kg, which falls comfortably within the range of existing lithium tech.
“This discovery not only sets a new standard for superelastic materials but also introduces new principles for material design, which will undoubtedly inspire further breakthroughs in materials science,” Xu said.
The newly developed Ti-Al-Cr shape-memory alloy is part of the titanium alloy family, known for being lightweight, strong, biocompatible, and resistant to corrosion. What makes this alloy particularly exciting is its ability to maintain superelasticity across a wide temperature range, making it highly suitable for extreme environments such as deep space and deep-sea exploration.
In space missions, materials must endure harsh conditions while remaining functional. Current superelastic tires made from nickel-titanium (Ni-Ti) for upcoming Moon and Mars missions have limited temperature ranges, which could affect their durability.
Understanding AI agents with Anthropic’s playbook: what they are, what they can do for your business, and how to set one up. Automate your way to success and freedom.
You may soon be able to activate the Android assistant with ‘Hey Gemini,’ potentially signaling the end for ‘Hey Google.’