Ground-breaking evidence reveals scalp cooling physically protects hair follicles

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Ground-breaking research from the University of Huddersfield, announced ahead of World Cancer Day 2021, proves that scalp cooling physically protects hair follicles from chemotherapy drugs. It is the world's first piece of biological evidence that explains how scalp cooling actually works and the mechanism behind its protection of the hair follicle.

The study, entitled 'Cooling-mediated protection from -induced cytotoxicity in human keratinocytes by inhibition of cellular drug uptake', has been published in the peer-reviewed journal PLOS ONE .

The data was part of an innovative research project carried out by the dedicated Scalp Cooling Research Center based at the University of Huddersfield. It involved the cultivation of cells isolated from human follicles in the lab.

The £1 million Scalp Cooling Research Center was established at the University in 2019 with the backing of Huddersfield firm Paxman—global leaders in cooling technology.

The team of experts in biology and design technology have been working together with the aim of Paxman becoming the only hair loss-preventing scalp cooling provider firmly based on biological research. It also brings the family-run business one step closer to achieving in its vision of 'zero hair loss' for cancer patients undergoing chemotherapy treatment.

Chemotherapy works by targeting all rapidly dividing cells in the body. Hair is the second fastest dividing cell, and this is the reason why many cause alopecia. The hair follicles in the growth phase are attacked, resulting in hair loss approximately two weeks after the commencement of chemotherapy treatment.

Co-director of the center and lead author of the journal article is Dr. Nik Georgopoulos, a cancer expert at the University's Department of Biological Sciences who has collaborated with Paxman since 2011.

"Scalp cooling is currently the only treatment to combat 'chemotherapy-induced alopecia', yet little is known about its cytoprotective effect on human hair follicles," said Dr. Georgopoulos.

Before now, he explained, the most common and obvious presumption to describe how scalp cooling worked was that as the scalp is cooled, the veins become constricted thereby reducing the amount of blood flow, meaning less of the chemotherapy drug enters the hair .

Paxman Scalp Cooling Limited and the University of Huddersfield signed a five-year research and collaboration agreement covering the PAXMAN Scalp Cooling Research Centre (PSC), a multi-disciplinary research group based at the University. The Centre has been focusing on biological hair follicle research as well as developing innovative scalp cooling-related treatments and individual 3D-printed cooling caps. In the video, the University's Dr Nik Georgopoulos explains the science behind scalp cooling. Credit: University of Huddersfield and Paxman

"However, this is a really exciting discovery because our research now shows it is not as simple as that. We were able to measure how much chemotherapy drug goes into the cultured cells from hair follicles and what we have found is that cooling actually dramatically reduces the amount of chemotherapy drug being absorbed by the rapidly-diving cells of the hair follicle," he added.

This means there is now evidence for the first time, which demonstrates cooling has a direct effect on reducing the amount of drug that goes in and is not an indirect effect as thought before with the restricted blood flow.

"Our results provide evidence that attenuation of cellular drug uptake represents at least one of the mechanisms underpinning the ability of cooling to rescue human keratinocytes from chemotherapy drug-cytotoxicity, thus supporting the clinical efficacy of scalp cooling," he added.

In addition to providing evidence of how the treatment works, the Center has also been working on developing innovative scalp cooling-related treatments and individual 3-D-printed cooling caps. This has involved a collaboration of researchers from across two of the University's schools of study, the School of Applied Sciences and the School of Art, Design and Architecture.

"This latest project builds upon our previous research," continued Dr. Georgopoulos.

"We had already demonstrated that if you cool at just 3 or 4 degrees lower, this can be the difference between the cells surviving or dying. We have now shown that a few degrees in temperature can also mean a more dramatic reduction in chemotherapy drug uptake by cells.

"The more evidence we can provide, the more data the designers have to facilitate the design of a better a cap. A better fit could mean more of a reduction in temperature, so more effective cooling means more survival of the follicles, leading to a better outcome."

The percentage of hair loss can be further reduced when scalp cooling is combined with the application of a topical agent. One of the Center's tasks has been to develop the best way to deliver this agent to hair follicles on the scalp.

Richard Paxman, CEO of Paxman, added: "This latest research brings us one step closer to achieving our vision of 'zero hair loss' for cancer patients undergoing chemotherapy treatment. This is fabulous news and is a ground-breaking step in the field of scalp research."

More information: Christopher Dunnill et al, Cooling-mediated protection from chemotherapy drug-induced cytotoxicity in human keratinocytes by inhibition of cellular drug uptake, PLOS ONE (2020). DOI: 10.1371/journal.pone.0240454

Journal information: PLoS ONE

Citation: Ground-breaking evidence reveals scalp cooling physically protects hair follicles (2021, February 3) retrieved 29 November 2023 from
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