Category Health/Medical

New-found Stem cell helps Regenerate Lung tissue after Acute Injury

Mouse (left) and human (right) alveolar progenitor cells grow into large lung organoids in culture, and make multiple types of epithelial cells including gas exchange type 1 cells (red) and surfactant-producing type 2 cells (green). Credit: The lab of Ed Morrisey, Perelman School of Medicine, University of Pennsylvania.

Mouse (left) and human (right) alveolar progenitor cells grow into large lung organoids in culture, and make multiple types of epithelial cells including gas exchange type 1 cells (red) and surfactant-producing type 2 cells (green). Credit: The lab of Ed Morrisey, Perelman School of Medicine, University of Pennsylvania.

Implications for new approaches to repair damaged lung disease. Researchers have identified a lung stem cell that repairs the organ’s gas exchange compartment, according to a new study from the Perelman School of Medicine at the University of Pennsylvania. They isolated and characterized these progenitor cells from mouse and human lungs and demonstrated they are essential to repairing lung tissue damaged by severe influenza and other respiratory ailments.

The development of...

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Hidden Secret of Immortality Enzyme Telomerase

This figure depicts the enzyme telomerase as well as telomeres relative to a chromosome.

This figure depicts the enzyme telomerase as well as telomeres relative to a chromosome.

Can we stay young forever, or even recapture lost youth? Can we stay young forever, or even recapture lost youth? Research from the laboratory of Professor Julian Chen in the School of Molecular Sciences at Arizona State University recently uncovered a crucial step in the telomerase enzyme catalytic cycle. This catalytic cycle determines the ability of the human telomerase enzyme to synthesize DNA “repeats” (specific DNA segments of six nucleotides) onto chromosome ends, and so afford immortality in cells. Understanding the underlying mechanism of telomerase action offers new avenues toward effective anti-aging therapeutics.

Typical human cells are mortal and cannot forever renew themselves...

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Low Magnesium levels make Vitamin D Ineffective

Possible roles of magnesium in vitamin D synthesis. Magnesium is involved in both activation and inactivation of vitamin D. Abbreviations: 1,25(OH)2D, 1,25-dihydroxyvitamin D (biologically active form); 24,25(OH)2D, 24,25-Dihydroxyvitamin D; 25(OH)D, calciferol (inactive form); D2, vitamin D2 (from nonanimal sources); D3, vitamin D3 (from animal sources); DBP, vitamin D–binding protein; Mg, magnesium; VDR, vitamin D receptors.

Possible roles of magnesium in vitamin D synthesis. Magnesium is involved in both activation and inactivation of vitamin D. Abbreviations: 1,25(OH)2D, 1,25-dihydroxyvitamin D (biologically active form); 24,25(OH)2D, 24,25-Dihydroxyvitamin D; 25(OH)D, calciferol (inactive form); D2, vitamin D2 (from nonanimal sources); D3, vitamin D3 (from animal sources); DBP, vitamin D–binding protein; Mg, magnesium; VDR, vitamin D receptors.

Up to 50% of US population is magnesium deficient. Vitamin D can’t be metabolized without sufficient magnesium levels, meaning Vitamin D remains stored and inactive for as many as 50% of Americans. In addition, Vitamin D supplements can increase a person’s calcium and phosphate levels even while they remain Vitamin D deficient...

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Metalens combined with an Artificial Muscle

metalens (made of silicon) mounted on a transparent, stretchy polymer film, without any electrodes. The colorful iridescence is produced by the large number of nanostructures within the metalens. (Image courtesy of the Capasso Lab/Harvard SEAS)

Metalens (made of silicon) mounted on a transparent, stretchy polymer film, without any electrodes. The colorful iridescence is produced by the large number of nanostructures within the metalens. (Image courtesy of the Capasso Lab/Harvard SEAS)

Artificial eye automatically stretches to simultaneously focus and correct astigmatism and image shift. Inspired by the human eye, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed an adaptive metalens, that is essentially a flat, electronically controlled artificial eye. The adaptive metalens simultaneously controls for 3 of the major contributors to blurry images: focus, astigmatism, and image shift.

“This research combines breakthroughs in artificial muscle technology with metalens technol...

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