Comment

Comment by Dr. Krishna Kumari Challa 8 hours ago

Fish oil supplements may not prevent Alzheimer's-related decline, clinical trial suggests
A two-year randomized, placebo-controlled trial in 365 older adults at elevated Alzheimer’s risk found that 2,000 mg/day DHA increased cerebrospinal fluid DHA by 17% but did not improve cognition or memory, nor prevent hippocampal atrophy. Results do not support high-dose fish oil supplements for Alzheimer’s prevention; broader lifestyle measures remain primary for risk reduction.

eBioMedicine (2026). www.thelancet.com/journals/EBI … (26)00198-2/fulltext

Comment by Dr. Krishna Kumari Challa 8 hours ago

Bending forward and walking a lot at work may raise miscarriage risk in early pregnancy

Bending forward and, to a lesser extent, walking a lot at work in early pregnancy may raise the risk of miscarriage, finds a large study of more than 470,000 Danish women, published online in the journal Occupational and Environmental Medicine.
Each additional hour of bending forward, particularly at a 30-degree angle, was associated with a 36% higher risk, while each additional hour of walking was associated with an 18% higher risk, although the pattern was consistent only for bending forward, the findings show.

Miscarriage is relatively common, affecting around 15% of women. Risk factors include parental age, smoking, night shift work, and exposure to air pollution and various chemical compounds, note the researchers.

In >800,000 Danish pregnancies, occupational standing, walking, and especially forward bending in early pregnancy were associated with increased miscarriage risk. Each additional hour of bending ≥30° correlated with ~36% higher risk, walking with 18%, and standing with 3%, with a clear dose–response only for bending.

Occupational standing, walking and forward bending during pregnancy and the risk of miscarriage: a Danish nationwide, register-based, cohort study, Occupational and Environmental Medicine (2026). DOI: 10.1136/oemed-2025-110712

Comment by Dr. Krishna Kumari Challa 8 hours ago

Animals communicate to work together across species boundaries

An international team of researchers have published a new review in Animal Behaviour revealing how communication enables cooperation between different animal species. The review, titled "The ecology and evolution of cues and signals in animal interspecies cooperation," highlights how movements, visual displays, calls, and other behavioural cues and signals help partners coordinate interactions and align interests across species boundaries.

From birds guiding humans to bees' nests in return for access to beeswax, to cleaner fish removing ectoparasites from larger reef fishes in exchange for a meal, cooperation between species occurs across a remarkable range of ecological settings. By gathering examples from birds, fish, insects and mammals, the authors highlight the diverse ways that animals exchange information to organize their actions and sustain mutually beneficial partnerships.

Communication via visual, acoustic, chemical, tactile, and multimodal cues enables interspecies partners to coordinate actions, access shared or exchanged resources, and limit exploitation. Signals range from stable, stereotyped displays to context-dependent, learned behaviours and can evolve from noncommunicative cues or behaviours in other contexts, illuminating the coevolution and flexibility of cooperative interactions across taxa.

Cues and signals help animals identify cooperative partners, initiate interactions, and ensure they benefit from the partnership. Because interacting with members of another species can carry risks, communication is also important for avoiding individuals that might exploit them.
Many species rely on multiple senses to improve communication, and the review suggests that focusing only on obvious visual signals may overlook important ways animals exchange information across species.
The review also explores how communication systems between species may evolve. Some signals begin as simple cues, features or behaviors that influence how others respond, even though they did not originally evolve for communication.

Over time, these cues can develop into clear signals. Other signals originate as behaviours used in different contexts, such as settling conflicts or caring for young, before being adapted for communication in interspecies cooperation.

K. Dunkley et al, The ecology and evolution of cues and signals in animal interspecies cooperation, Animal Behaviour (2026). DOI: 10.1016/j.anbehav.2026.123611

Comment by Dr. Krishna Kumari Challa 8 hours ago

The Sun may not engulf Earth after all, scientists say

The Earth may not be engulfed by the expanding fireball of the dying sun, which has long been assumed to be our home planet's ultimate fate, according to scientists.
New tidal-dissipation models and constraints on solar mass loss suggest the Sun’s future expansion will likely not engulf Earth or Mars, as reduced tidal dissipation and stronger mass loss allow their orbits to expand beyond the solar radius. Mercury and Venus remain destined for engulfment, and the Sun will ultimately evolve into a cooling white dwarf.
Don't worry: This is not expected to happen for another 5 billion years, long after all life on Earth has been wiped out.

When the sun burns through all of the hydrogen in its core, it will go through two immense expansion phases: first becoming a red giant, then, when its helium is spent, an "AGB" star.

This fiery death will bring about some significant changes back here on Earth.

As the sun grows, increasing gravitational forces will pull the Earth toward it.

For the Earth and the moon, this force creates the push and pull of the tides in our oceans. The energy from these tides, which dissipates at the bottom of the ocean, slows Earth's rotation and gradually pushes the moon away from us.

As the sun expands and its blistering surface approaches Earth, intense tidal waves will stir within the star. When they dissipate, they will pull Earth into its doomed embrace.

However, the growing sun will also lose a lot of its mass due to stellar wind, which pushes our planet farther away.

"Earth's fate depends on a delicate balance between these two effects," say the scientists.
If tidal interactions predominate, Earth is engulfed by the sun. If the sun's mass loss predominates, Earth escapes into an orbit larger than the radius of its star.

M. Esseldeurs et al, The fate of Earth during the Sun's giant phases, Astronomy & Astrophysics (2026). DOI: 10.1051/0004-6361/202660576

Comment by Dr. Krishna Kumari Challa 8 hours ago

Palm oil, coconut and soybean drive more species extinction than previously thought

Oils from crops such as coconut, palm oil and soybean are used in a range of applications, from cosmetics and makeup to margarine and spreads, and from medicines to animal feed. These oil crops, as they are known, are increasingly consumed and cultivated. This has an impact on the environment. But what exactly is that impact?

Tropical regions are especially impacted, with agricultural land use causing significant biodiversity loss. This is due not only to the fact that oil crops such as oil palm and coconut are exclusive to these regions, but also because they support high biodiversity and typically yield less per unit of land. As a result, there is often a need for  agricultural expansion, which can lead to ecosystem destruction, such as deforestation.
Global analysis of 19 oil crops attributes about 75% of oil‑crop–driven biodiversity loss to oil palm, soybean, and coconut. Biodiversity loss from these crops increased ~80% between 1995 and 2020, concentrated in tropical regions and strongly driven by consumption in other countries, notably the EU, China, and the US. Mitigation requires reduced deforestation and more biodiversity‑friendly production.

Oil crop supply chains drive rising global biodiversity loss and outsource impacts to the tropics, Nature Food (2026). DOI: 10.1038/s43016-026-01375-4

Comment by Dr. Krishna Kumari Challa 9 hours ago

In a brained animal, sensing a poke might involve nerves; here, the entire epithelium seems to have that built in. It's as if a crawling baby, upon feeling a prick, instantly flips all four limbs to scuttle off. (In Trichoplax's case, the "limbs" are cilia on every ventral cell.)

To test the mechanism, the team filled the seawater with a calcium chelator and specific channel blockers—the result: no flip, no escape. Blocking voltage-gated Ca²⁺ channels left Trichoplax insensitive; it kept crawling as if unperturbed.

These results show the trick is calcium-dependent. In short, a mechanical jolt triggers a wave of calcium in the lower cell layer, causing thousands of basal bodies to rotate almost instantaneously. The animal then resumes crawling—in the opposite direction.

Marvin Leria et al, Fast mechanosensitive and Ca²⁺-dependent reorientation of motile cilia basal bodies in the placozoan Trichoplax, Current Biology (2026). DOI: 10.1016/j.cub.2026.04.054

part 2

Comment by Dr. Krishna Kumari Challa 9 hours ago

How a brainless sea blob still 'feels' touch and crawls away in seconds without nerves or muscles
For a flat sea creature just a few millimeters across, a gentle poke is instantly recognized as danger. Trichoplax adhaerens—a translucent blob with no head, brain or muscles—scuttles away in seconds when touched. Imagine a flattened multicellular amoeba moving as a single unit: Trichoplax is only ~20 microns thick and a few millimeters wide. It glides on surfaces by beating tens of thousands of cilia on its lower epithelium (the underside), like microscopic oars dragging against the water.
Yet unlike most animals, Trichoplax has no obvious front or back end, no nerves or muscles at all. How can such a simple "crawling carpet" steer or change direction without a brain?

A new study reveals the remarkable flexibility of this pinhead-sized animal. While in most creatures, the orientation of each cilium is fixed early in development and locked to the body's axes, Trichoplax achieves its swift escape by reorienting its thousands of hairlike cilia.

The whole animal's direction is determined by the tiny anchors (basal bodies) that set each cilium's beat, allowing it to behave as though it "feels" the touch and flips the direction of its ciliary oars in unison.
Deep video analysis revealed that the basal bodies under Trichoplax all line up with the animal's current heading. As it crawls, there's a smooth gradient of basal-body angles from one side of the disk to the other, effectively setting the front of the animal. When Trichoplax stretches or folds its body, these gradients shift—the pattern of ciliary beat changes in step with the shape.

The new study shows that even a tiny change in body shape or mechanical stress causes the basal bodies to rotate in synchrony. This means Trichoplax steers by reorienting its oars, not by any hidden neurons. As the authors summarize, "Together, our results uncover a rapid and coordinated mechanism of BB [basal body] reorientation that links subcellular organization to whole-animal behaviour."
It wasn't obvious that a brainless blob could even detect touch. The researchers gently poked Trichoplax individuals with a fine probe and even bisected some with a microscalpel. Almost immediately—within seconds—the basal bodies swung around together. The beating cilia literally flipped direction. Each half of a cut animal suddenly crawled away from the wound.

This negative mechanotactic response (moving away from a touch) relies on basal-body rotation: as one scientist put it, "This negative mechanotactic behavior is enabled by the reorientation of BBs, which takes place across the entire lower epithelium on a timescale of seconds." One of the authors even said the lab was "jaw-on-the-floor surprised" when they first saw how quickly the cilia all pivoted around.

part1

Comment by Dr. Krishna Kumari Challa 9 hours ago

Hibernation-like cooling after stroke may reduce brain damage

Our body loves the state of homeostasis, where everything is in perfect equilibrium, from temperature to pH levels to fluid balance. As soon as the body's core temperature drops below 95°F (35°C) and stays there for a long time, the heart, nervous system and other organs start to function poorly, which makes hypothermia extremely dangerous when not dealt with immediately. It is a medical emergency that can result in loss of consciousness or death.

Researchers have now found a way to turn this emergency into a tool to protect the body from the devastating effects of another health emergency—a stroke. A recent study investigated whether drugs like chlorpromazine and promethazine (C+P) can be used to mimic the chilling effects of hypothermia to protect the brain from the aftereffects of stroke.

C+P treatment reduced brain damage and improved neurological function in a mouse stroke model. In rhesus monkeys, the drugs lowered body temperature, which suppressed the metabolic rate and protected the brain from stroke-related injury.

The researchers then moved to a small Phase I clinical trial with 32 stroke patients. The treatment was safe at a 100 mg dose and successfully lowered body temperature while slowing the body's energy use, an effect that the researchers suggest helps protect the brain after a stroke.

Shuaili Xu et al, The translational potential of drug-induced hypothermia in acute ischemic stroke, Science Translational Medicine (2026). DOI: 10.1126/scitranslmed.ady7847

Comment by Dr. Krishna Kumari Challa 9 hours ago

For babies hospitalized with bronchiolitis, lying on stomach shows no clear benefit over lying on back

Acute viral bronchiolitis ranks among the top reasons infants land in the hospital .
Placing a baby on their stomach in the prone position can help them breathe more comfortably. With the chest facing down and the back facing up, this position takes pressure off the lungs, allowing for better oxygen exchange and helping fluid drain more effectively. In a randomized clinical trial, named PROPOSITIS, researchers investigated whether the prone sleeping position could help very young babies with a lung infection called bronchiolitis, not to be confused with bronchitis.
They followed 451 infants ages 6 months or younger who were hospitalized in France with bronchiolitis and were struggling to breathe. Some babies were placed in the prone position, lying on their stomachs, while others remained in the supine position, lying on their backs, as we typically do when sleeping.

Babies who were placed on their stomachs did not do much better than those who remained on their backs. About 15% of those on their stomachs needed stronger breathing support, compared with about 21% of those on their backs. Prone positioning was better, but the improvement was not statistically significant.

There was another challenge, too. Many babies became fussy or uncomfortable when placed on their stomachs, making it difficult for them to stay in that position for long.

Florent Baudin et al, Prone Positioning in Infants With Acute Bronchiolitis, JAMA (2026). DOI: 10.1001/jama.2026.11078

Comment by Dr. Krishna Kumari Challa 9 hours ago

Scientists discover 'hyperparasite' in Malaysia Borneo jungle

Scientists have discovered a new species of parasitic fungus in Borneo's jungles that preys on "zombie fungi" known to infect insects before subjecting them to a gruesome death.

It was dubbed a "hyperparasite" because it "effectively parasitizes the primary pathogen.

The fungus belongs to the genus Pleurocordyceps and acts as a specialized hyperparasite.

The new species targets ants already infected by Ophiocordyceps, or "zombie fungus," which manipulates the infected insect's nervous system and makes it behave erratically before killing it and bursting from its carcass.

Rather than manipulating the insect's nervous system itself, Pleurocordyceps infiltrates and feeds directly on the thriving Ophiocordyceps tissue inside the host.

Named after its unique, distinctly horn-shaped structure, Pleurocordyceps cornusynnemata was discovered after scientists studied a dead ant collected from the Danum Valley, a remote area in southern Sabah.

MUHAMMAD SHAHBAZ et al, Taxonomy and phylogeny of Pleurocordyceps (Polycephalomycetaceae, Hypocreales) associated with ants and cicadas from Malaysia, including a new species and new records, Phytotaxa (2026). DOI: 10.11646/phytotaxa.750.4.1

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