Posts Tagged: Dormant Phase of Hair Cycle

Hair Cloning Shows Promise in New Stem Cell Study

July 15th, 2009

Alopecia areata is an auto-immune disease that causes hair loss that ranges from small circular areas on the scalp to extensive or even total baldness. A new study, using hair cloning therapy to regrow hair, shows promise for all individuals with this condition.

The study, conducted by Marwa Fawzi, a dermatologist at the University of Cairo, used stem cells from the scalps of eight children with alopecia areata to regenerate their own hair. The Cairo researcher took small amounts of skin from the scalps of the children, isolated the hair follicle stem cells that stimulate hair production, and grew them in the lab, increasing the number of cells. After one month, she put the cells back into the scalps of the children, with numerous injections across the bald areas of their heads.

Six months after the hair cloning treatment, an evaluation showed a 50% increase in hair in more than half of the subjects. The stem cells had stimulated the follicles to transition from a dormant phase to a hair-generating phase.

Read the full article in the Hair Cloning News section of the Bernstein Medical – Center for Hair Restoration website.

Topic: Hair Cloning

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Posted by Robert M. Bernstein M.D. at 3:32 pm

After Hair Transplant Does Hair Grow in Stages?

May 30th, 2007

Q: I had my first hair transplant of 1100 grafts five months ago. The hair has been growing in well and I am very satisfied with the progress, but the new growth appears to occur in different cycles. Some of the hair never fell out and started growing within weeks. At around three months, a lot more started to grow, and now there seems to be even more growth of new hair coming in its finer stages. Is it normal for transplanted hair to begin growing at different times? Why does some hair come in looking thick and other hair start off finer and then gradually thicken up?

A: You are describing accurately how hair grows after a hair transplant.

After the hair restoration procedure, the transplanted stubble is shed and the hair goes into a dormant phase.

Several months later, growth begins as fine, vellus hair that thickens over time. The hair usually does not have its original thickness right away.

Typically, growth occurs in waves so that initially some areas will have more hair than others. Over the course of a year the cycles will even out and the hair will thicken to its final diameter.

Topic: Growth After Transplant

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Posted by Robert M. Bernstein M.D. at 8:14 am

What is Difference in Hair Cloning Techniques Studied by Aderans and Intercytex?

November 10th, 2006

Q: I know that both Aderans and Intercytex are doing research with cloning hair. Is there any difference in their approaches?

A: Aderans is using the “two-cell” approach. They feel that the best way to produce viable hair follicles is to use a combination of inducer cells and responder cells. Each would be multiplied separately and then injected together into the skin. The inducer cells are follicular fibroblasts and lie at the base of the hair follicle. The responder cells are keratinocytes. They feel that the combination of cells will have the best chance of producing clinically useful hair.

Intercytex prefers a one-cell approach. Their researchers feel that when the cultured inducer fibroblasts are injected into the skin there will be enough existing cells in the skin to produce a cosmetically viable hair. In their experimentation, Intercytex uses a new animal model, termed the “flap graft” model, that involves the implantation of cultured dermal papilla cells with keratinocytes placed under a flap on the back of hairless mice. Later the flap is exteriorized (turned over), allowing the hair to grow normally. Exactly how this will be applied to clinical use in humans is not clear.

A completely different view is held Dr. Ralf Paus at the University of Luebeck in Germany. He feels that there are already enough stem cells in the bald scalp and that the key to hair re-growth is to target key elements in the hair cycle. He feels that topically applied inhibitors of catagen (the resting phase of the hair cycle), exogen (the formation of an empty hair follicle), or inhibitors of the terminal-to-vellus transformation (the process of a hair shrinking in size under the influence of DHT and referred to as miniaturization) will the most effective way to go.

Finasteride and dutasteride are drugs that work in this way, but are clearly not very effective in stimulating new growth. He also feels that an anagen inducer, along the lines of a minoxidil-type medication has a better chance of success then the stem cell targeting strategies described above. In these cases one would, in a sense, rejuvenate dormant hair follicles rather than induce new ones to grow.

Topic: Hair Cloning

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Posted by Robert M. Bernstein M.D. at 3:23 pm





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