Psychiatry: In-Depth Description

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Psychiatry is the branch of medicine exclusively dedicated to the diagnosis, treatment, and prevention of mental, emotional, and behavioral disorders.

Unlike psychology, which is the study of the mind and behavior, psychiatry is a medical discipline. Psychiatrists are qualified medical doctors (MD or DO) who specialize in the complex intersection of physical and mental health. The primary goal of the field is to alleviate suffering and improve well-being by managing conditions ranging from transient emotional crises to chronic, life-altering mental illnesses through a combination of pharmacological, psychotherapeutic, and psychosocial interventions.

Planetary Science: In-Depth Description

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Planetary Science is the cross-disciplinary scientific study of planets, moons, and planetary systems—including our Solar System and those orbiting other stars—aiming to understand their formation, evolution, and current physical and chemical states. By integrating principles from astronomy, geology, atmospheric science, and physics, planetary science seeks to decipher the history of matter in the solar neighborhood and determine the potential for habitability beyond Earth.

Physics: In-Depth Description

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Physics is the fundamental natural science dealing with the study of matter, energy, space, and time, and the interactions between them. Its primary goal is to understand how the universe behaves at every scale, from the subatomic particles that constitute matter to the vast structure of the cosmos.

Pharmaceutical: In-Depth Description

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Pharmaceutical science is the multidisciplinary field concerned with the discovery, development, manufacturing, and regulation of medications. It acts as the critical bridge between the chemical and biological sciences, focusing on the complex process of turning a chemical entity or biologic agent into a safe and effective therapeutic product. Its primary goals are to understand how drugs interact with biological systems, to design optimal delivery mechanisms for these drugs, and to ensure their safety and efficacy for the prevention and treatment of human and animal diseases.

The Invisible Scale: Measuring AI’s Return on Energy

The Coin of Energy: Efficiency Paying for Itself
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In the public imagination, Artificial Intelligence is often visualized as a chatbot writing a poem or a generator creating a surreal image. This trivializes the technology and magnifies the scrutiny on its energy consumption. When AI is viewed as a toy, its electricity bill seems indefensible.

But when viewed as a scientific instrument—akin to a particle accelerator or an electron microscope—the equation shifts. The question is not "How much power does AI use?" but rather "What is the return on that energy investment?"

When measured across a single human lifetime, the dividends of AI in time, cost, and survival are staggering.

Paleontology: In-Depth Description

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Paleontology is the scientific study of the history of life on Earth as based on fossils. It examines the origins, evolution, distribution, and extinction of ancient organisms, seeking to reconstruct the biological and environmental history of our planet spanning over 3.5 billion years.

Chew on this: Losing teeth weakens key memory hub in mouse brains

Mice that lost their molars showed significant memory decline despite receiving the same diet as controls, hinting at the impact of reduced chewing on brain health.
Illustration Credit: Rie Hatakeyama

Tooth loss doesn’t just make eating harder, it may also make thinking more challenging. A new study from Hiroshima University shows that aging mice missing their molars experience measurable cognitive decline, even when their nutrition remains perfectly intact.

“Tooth loss is common in aging populations, yet its direct neurological impact has remained unclear,” said Rie Hatakeyama, postdoctoral researcher at Hiroshima University’s (HU) Graduate School of Biomedical and Health Sciences and first author of the study. 

What Is: Biological Plasticity

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The Paradigm of the Reactive Genome 

The history of biological thought has long been dominated by a tension between the deterministic rigidity of the genotype and the fluid adaptability of the phenotype. For much of the 20th century, the Modern Synthesis emphasized the primacy of genetic mutation and natural selection, often relegating environmental influence to a mere background filter against which genes were selected. In this view, the organism was a fixed readout of a genetic program, stable and unwavering until a random mutation altered the code. However, a profound paradigm shift has occurred, repositioning the organism not as a static entity but as a dynamic system capable of producing distinct, often dramatically different phenotypes from a single genotype in response to environmental variation. This capacity, known as biological or phenotypic plasticity, is now recognized as a fundamental property of life, permeating every level of biological organization—from the epigenetic modification of chromatin in a stem cell nucleus to the behavioral phase transitions of swarming locusts, and ultimately to the structural rewiring of the mammalian cortex following injury. 

Menopause hormone therapy does not appear to impact dementia risk

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A major review of prior research has found no evidence that menopause hormone therapy either increases or decreases dementia risk in post-menopausal women, in a new study led by University College London researchers and supported by the University of Exeter. 

The findings, commissioned by the World Health Organization (WHO) and published in The Lancet Healthy Longevity, add much-needed clarity to a hotly debated topic, and reinforce current clinical guidance that menopause hormone therapy, also called hormone replacement therapy or HRT, should be guided by perceived benefits and risks and not for dementia prevention. 

Professor Chris Fox from the University of Exeter Medical School said: “The role of menopause hormone treatment and relationship to dementia is a worry for many women. But our state-of-the-art review indicates there is no evidence that menopause hormone treatment reduces or increases the risk of dementia. When deciding whether to take menopause hormone treatment, reducing one’s risk of dementia should not be part of that decision “ 

Escherichia albertii: The still unfolding journey of a misdiagnosed pathogen

Animal to human bacteria pathways
Escherichia albertii is primarily found in mammals and birds, suggesting it is a novel zoonotic pathogen.
Image Credit: Osaka Metropolitan University

Escherichia albertii, initially identified as Hafnia alvei, by the commercial identification biochemical strip, API 20E, was isolated from an infant with diarrhea in Bangladesh in 1989. However, this bacterium was later renamed as a novel species, E. albertii because of its similarities in biochemical and genetic properties to the genus Escherichia, but different from those of any known species in the genus. E. albertii possesses many pathogenic attributes including a key one, which is the ability to produce attaching and effacing (A/E) lesions in the intestinal mucosa mediated by genes on a 35-kb pathogenicity island called the locus of enterocyte effacement. Therefore, it is a member of the family of A/E pathogens.