# Analysis of Common Treatment Drugs and Allergen Sensitization in Hair Loss Patients

**Authors:** Chengcheng Feng, Ying Wang, Dingquan Yang, Hui Shen

PMC · DOI: 10.1111/jocd.16798 · 2025-02-18

## TL;DR

This study examines how hair loss patients react to common hair products and drugs, aiming to improve safe and personalized treatment options.

## Contribution

The study introduces a hair patch test to identify allergens in hair care products and drugs, supporting personalized treatment strategies.

## Key findings

- Common allergens like dodecyl polyglucoside and Balsam of Peru showed significant sensitization rates in hair loss patients.
- Reducing minoxidil concentration from 5% to 2% significantly lowered sensitization rates.
- Hasonide solution reduced the sensitization potential of minoxidil tincture and liniment.

## Abstract

Hair loss significantly impacts an individual's appearance, self‐confidence, quality of life, and social competitiveness. Over 250 million people in China suffer from hair loss, accounting for 18% of the population. To ensure the safe selection of topical hair products for hair loss patients, reduce the risks of allergies and irritation, and improve clinical efficacy and adherence, we developed a hair patch test based on clinical needs.

In this study, we explored the allergic situation of hair diseases through the test of patch products, which provided a strong basis for clinical personalized treatment.

We designed a hair patch test to screen for allergens that are highly associated with hair diseases. The experiment is based on screening of haptens and drugs commonly encountered by hair and scalp, covering hair dyes, scalp care products, and therapeutic drugs. The research subjects are patients diagnosed with hair related diseases (such as androgenetic alopecia, alopecia areata, etc.), ensuring that the samples are targeted. The allergen patch is fixed on the surface of the skin, with a contact time of 48 h, followed by recording and evaluating local skin reactions within 72 h. The experiment aims to identify allergens that may cause or exacerbate hair diseases, providing a basis for the etiology research and treatment of related diseases.

Common allergens in daily hair care products include dodecyl polyglucoside (10.2% positivity rate) and Balsam of Peru (8.67% positivity rate). Cobalt chloride (56.63% positivity rate) and nickel sulfate (32.65% positivity rate) were prevalent metal semiallergens. The positive rates of 5% minoxidil liniment were 22.96%, and the positive rate of 5% minoxidil tincture was 27.04%, indicating significant sensitization potential. Lowering minoxidil liniment concentration to 2% reduced positivity to 4.08%. The positive rate of Hasonide solution mixed with 5% minoxidil tincture was 16.33%, while Hasinide solution and 5% minoxidil liniment were not positive, suggesting that the addition of both Hasonide solution could reduce the sensitization of 5% minoxidil tincture and minoxidil liniment.

The increasing prevalence of hair disorders necessitates personalized treatment approaches. This study demonstrated the utility of patch testing with hair care products to investigate allergenic reactions, offering robust evidence for tailored clinical interventions. Future research should refine patch testing methodologies to better simulate real‐world conditions and conduct larger‐scale studies to optimize therapeutic strategies.

## Linked entities

- **Chemicals:** Cobalt chloride (PubChem CID 24288), nickel sulfate (PubChem CID 24586), minoxidil (PubChem CID 4201)
- **Diseases:** androgenetic alopecia (MONDO:0005339), alopecia areata (MONDO:0004907)

## Full-text entities

- **Diseases:** Hair Loss (MESH:D000505), hair diseases (MESH:D006201), alopecia areata (MESH:D000506), allergic (MESH:D004342)
- **Chemicals:** nickel sulfate (MESH:C029938), Cobalt chloride (MESH:C018021), Hasinide solution (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11833418/full.md

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Source: https://tomesphere.com/paper/PMC11833418