Azhar Ahmed scite author profile

People commonly inquire about vitamin and mineral supplementation and diet as a means to prevent or manage dermatological diseases and, in particular, hair loss. Answering these queries is frequently challenging, given the enormous and conflicting evidence that exists on this subject. There are several reasons to suspect a role for micronutrients in non-scarring alopecia. Micronutrients are major elements in the normal hair follicle cycle, playing a role in cellular turnover, a frequent occurrence in the matrix cells in the follicle bulb that are rapidly dividing. Management of alopecia is an essential aspect of clinical dermatology given the prevalence of hair loss and its significant impact on patients’ quality of life. The role of nutrition and diet in treating hair loss represents a dynamic and growing area of inquiry. In this review we summarize the role of vitamins and minerals, such as vitamin A, vitamin B, vitamin C, vitamin D, vitamin E, iron, selenium, and zinc, in non-scarring alopecia. A broad literature search of PubMed and Google Scholar was performed in July 2018 to compile published articles that study the relationship between vitamins and minerals, and hair loss. Micronutrients such as vitamins and minerals play an important, but not entirely clear role in normal hair follicle development and immune cell function. Deficiency of such micronutrients may represent a modifiable risk factor associated with the development, prevention, and treatment of alopecia. Given the role of vitamins and minerals in the hair cycle and immune defense mechanism, large double-blind placebo-controlled trials are required to determine the effect of specific micronutrient supplementation on hair growth in those with both micronutrient deficiency and non-scarring alopecia to establish any association between hair loss and such micronutrient deficiency. Plain Language Summary: Plain language summary available for this article.

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Genetic Hair Disorders: A Review

Ahmed

Almohanna

Griggs

et al. 2019

Dermatol Ther (Heidelb)

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Hair loss in early childhood represents a broad differential diagnosis which can be a diagnostic and therapeutic challenge for a physician. It is important to consider the diagnosis of a genetic hair disorder. Genetic hair disorders are a large group of inherited disorders, many of which are rare. Genetic hair abnormalities in children can be an isolated phenomenon or part of genetic syndromes. Hair changes may be a significant finding or even the initial presentation of a syndrome giving a clue to the diagnosis, such as Netherton syndrome and trichothiodystrophy. Detailed history including family history and physical examination of hair and other ectodermal structures such as nails, sweat glands, and sebaceous glands with the use of dermoscopic devices and biopsy all provide important clues to establish the correct diagnosis. Understanding the pathophysiology of genetic hair defects will allow for better comprehension of their treatment and prognosis. For example, in patients with an isolated hair defect, the main problem is aesthetic. In contrast, when the hair defect is associated with a syndrome, the prognosis will depend mainly on the associated condition. Treatment of many genetic hair disorders is focused on treating the primary cause and minimizing trauma to the hair.

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Platelet-Rich Plasma in the Treatment of Alopecia Areata: A Review

Almohanna

Ahmed

Griggs

et al. 2020

Journal of Investigative Dermatology Symposium Proceedings

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The Role of Diet as an Adjuvant Treatment in Scarring and Nonscarring Alopecia

Pham

Romero²,

Almohanna

et al. 2020

Skin Appendage Disord

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Background: Diet is known to affect a wide range of health disorders. Many patients with hair and scalp diseases often inquire about special diets that may improve their symptoms. Objective: To evaluate nutrition and diet as adjunct treatments in nonscarring and scarring alopecia. Methods: A primary literature search using PRISMA guidelines was conducted using the PubMed database in October 2019. Results: Twenty-four articles with 1,787 patients were included. The Mediterranean diet, which is rich in raw vegetables and fresh herbs, and isoflavone-rich soy contain anti-inflammatory nutrients that may promote hair health and growth in androgenetic alopecia (AGA). The gluten-free diet was shown to stimulate hair growth in alopecia areata (AA) patients with concomitant celiac disease, though no effect was seen with a lactose-free diet. Sufficient protein was found to be necessary for hair health. The human chorionic gonadotropin diet, hypocaloric diet, and increased fish, buckwheat, and millet groats consumption were possible triggers of alopecias such as AGA, AA, telogen effluvium, or frontal fibrosing alopecia. Limitations: This review was limited by the lack of studies and controls. Conclusion: The Mediterranean diet as well as diets rich in protein and soy may be potential adjunct therapeutics for the treatment of nonscarring alopecias. The use of diets in alopecia treatment regimens warrants further exploration.

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Azhar Ahmed

The Role of Vitamins and Minerals in Hair Loss: A Review

Genetic Hair Disorders: A Review

Platelet-Rich Plasma in the Treatment of Alopecia Areata: A Review

The Role of Diet as an Adjuvant Treatment in Scarring and Nonscarring Alopecia

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