Researchers identify mechanism that controls activation of stem cells during hair regeneration

User rating: 4.4 / 5 after 14 vote(s)

Researchers at the University of Southern California have identified a novel cyclic signaling in the dermis that coordinates stem cell activity and regulates regeneration in large populations of hairs in animal models. The signaling switch involves bone morphogenetic protein (Bmp) pathway, according to the study that will be published in the Jan. 17 issue of the journal Nature.

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All News summaries from Medicine & Health news
All News summaries for January 16, 2008

Surgical Instrument Size Studied

12 minutes ago | User rating: not rated yet

The concept of one size fits all works with many things—smocks, baseball caps and inner tubes. But not disposable laparoscopic surgical instruments.

Hip Bone Density Helps Predict Breast Cancer Risk

20 minutes ago | User rating: not rated yet

Measuring a woman’s bone mineral density can provide additional information that may help more accurately determine a woman’s risk of developing breast cancer. That is the conclusion of a new study published in the September ...

Overweight elderly Americans contribute to financial burdens of the US health care system

41 minutes ago | User rating: not rated yet

Being overweight or obese is not only a personal issue that affects one's health but is also a public health issue that impacts other people in society. A new study in the journal Health Services Research reveals that ...

'Lazy eye' discovery of how an old gene learns new tricks

49 minutes ago | User rating: not rated yet

(PhysOrg.com) -- Researchers have made a discovery which could lead the way for new treatments into a rare eye disorder which if not treated can result in permanent blindness in childhood.

Antimicrobial sutures reduce infections in brain shunt surgery, study finds

1 hour ago | User rating: not rated yet

Children born with hydrocephalus, or "water on the brain" must have shunts implanted to drain the fluid away from the brain to reduce harmful pressure.

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