Stem cells preserve sense of smell

This is a news story, published by ScienceDaily, that relates primarily to Constantin A. Hintschich news.

Constantin A. Hintschich news

For more Constantin A. Hintschich news, you can click here:

more Constantin A. Hintschich news

biology news

For more biology news, you can click here:

more biology news

ScienceDaily news

For more news from ScienceDaily, you can click here:

more news from ScienceDaily

About the Otherweb

Otherweb, Inc is a public benefit corporation, dedicated to improving the quality of news people consume. We are non-partisan, junk-free, and ad-free. We use artificial intelligence (AI) to remove junk from your news feed, and allow you to select the best science news, business news, entertainment news, and much more. If you like biology news, you might also like this article about

human olfactory stem cells

. We are dedicated to bringing you the highest-quality news, junk-free and ad-free, about your favorite topics. Please come every day to read the latest olfactory epithelial cells news, olfactory neurogenesis news, biology news, and other high-quality news about any topic that interests you. We are working hard to create the best news aggregator on the web, and to put you in control of your news feed - whether you choose to read the latest news through our website, our news app, or our daily newsletter - all free!

olfactory stem cells

ScienceDaily

•

Science

Researchers develop innovative model to study sense of smell

Summary

Nutrition label

79% Informative

Tufts University researchers develop innovative model to study sense of smell.

New study suggests stem cells thought to be dormant may offer clues to why sense is lost or declines.

Sensual neurons in the nasal cavity have remarkable ability to regenerate throughout life.

Viral infections such as COVID-19 , exposure to toxins, or even aging itself can diminish their function.

Story Source: Journal Reference: - Juliana Gutschow Gameiro, Constantin A. Hintschich , Agnès Dekeyser , Valérie Hox , James E. Schwob , Eric H. Holbrook , Marco Aurélio Fornazieri , Brian Lin . Quiescent horizontal basal stem cells act as a niche for olfactory neurogenesis in a mouse 3D organoid model. Cell Reports Methods, 2025 ; 101055 DOI: 10.1016 /j.crmeth.2025.101055 Cite This Page:.