By blending scientific accuracy with creative design, one builder hopes to make the history of DNA accessible, interactive, and fun for all ages.
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How Artificial Intelligence Is Creating New Job Opportunities
Artificial Intelligence (AI) has become a buzzword in recent years. We’ve heard countless stories about how AI could potentially eliminate jobs, particularly in the engineering and contracting realm. However, we tend to forget that AI is also capable of creating new opportunities for employment and growth. I’d like to explore exactly how AI can help create jobs for engineers and other professionals in the contracting industry.
AI Enhances Demand for Skilled Workers
One of the most significant ways that AI can create jobs is by enhancing efficiency and productivity. By reducing manual labor and streamlining processes, organizations are able to focus their energy on more complex tasks that require human expertise. This shift means a greater need for skilled labor, which means more job openings for engineers and other professionals. For example, AI can be used to automate mundane tasks such as data entry or administrative work, allowing humans to focus their attention on more technical projects – and this means engineers have more time to create solutions that change the world.
How ADHD Stimulants
In a large US-based brain imaging study, researchers found that these drugs do not primarily affect attention networks, but instead act on systems linked to arousal, sleep, and motivation.
The puzzle of ADHD stimulants
Prescription stimulants such as methylphenidate and amphetamines are among the most used psychoactive drugs in children and adolescents with ADHD, where they remain a first-line treatment. Estimates for receiving a prescription for ADHD medication among diagnosed children vary from 38–81%. Despite their widespread use, there is still disagreement about how these drugs work in the brain.
Sjögren Syndrome Candidate Autoantigen AQP5 Triggers AQP4 CNS Autoimmunity Through Self-Antigen Mimicry
Tumor-immune-neural circuit in cancer cachexia.
The mechanisms involved in cancer-mediated cachexia and anorexia are not well understood.
The researchers in this study delineate an interplay among tumor cells, immune cells, and the nervous system that drives cancer cachexia and anorexia.
The authors show thay loss of GDF15 protects against appetite loss, muscle wasting, and fat loss in pancreatic, lung, and skin cancers.
Disrupting this feedforward loop with GDF15-neutralizing antibody, anti-CSF1R antibody, or Rearranged during Transfection (RET) inhibitor alleviates cachexia and anorexia across cancer models. sciencenewshighlights ScienceMission https://sciencemission.com/Tumor-immune-neural-circuit
Shi et al. delineate an interplay among tumor cells, immune cells, and the nervous system that drives cancer cachexia and anorexia. Specifically, tumor-derived CSF1 induces macrophage GDF15, which signals through the GFRAL-RET neural axis to enhance β-adrenergic activity and systemic wasting. Disrupting this feedforward loop alleviates cachexia across cancer models.
A Clearer Look at the Rise of Myopia
Reading this on your phone in the dark?
A new study suggests that focusing up close in low-light settings may contribute to rising myopia rates.
Here’s what the researchers found.
Half of the world’s population will be nearsighted by 2050. Scientists propose that the amount of light reaching the retina in dark environments could be why.
