research Interleukin-15 is a hair follicle immune privilege guardian
Interleukin-15 can help hair growth and protect hair follicles.
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720-750 / 1000+ results research Human dermal Vδ1 + T-cells recognize “stressed” HFs and may induce alopecia areata
Certain immune cells may cause hair loss by reacting to stressed hair follicles.
research 396 Vδ1 + T-cells are stress-sentinels in human skin and are implicated in alopecia areata pathogenesis
Vδ1+ T-cells in the skin contribute to hair loss in alopecia areata and could be targeted for treatment.
research Towards cell-based therapy of alopecia areata: Autologous human Vδ2+ Foxp3+ γδTreg cells restore hair-follicle immune privilege and promote hair regrowth in human alopecia areata models ex vivo and in vivo
Special cells can help regrow hair in alopecia areata.
research 0009 Regulatory γδ T cells protect human scalp hair follicles from alopecia areata in vivo and represent potential therapeutic target
research 508 Hair follicle rejuvenation is induced by topical minoxidil administration in a humanized mouse model of androgenetic alopecia
Minoxidil rejuvenates hair follicles and reduces aging signs in male pattern baldness.
research 001 Human scalp hair follicles are protected from alopecia areata in vivo by regulatory γδT cells
research Human regulatory γδT lymphocytes as novel autoimmunity-protective cells: Lessons from alopecia areata
γδTregs may help treat autoimmune diseases like alopecia areata by promoting hair regrowth and reducing immune attacks.
research 52814 Minoxidil exerts skin rejuvenation effects in human androgenetic alopecia xenotransplants in vivo
Minoxidil helps hair regrowth and has anti-aging effects on hair follicles.
research 52993 Regulatory γδ T cells protect human scalp hair follicles from alopecia areata in vivo
Regulatory γδ T cells help protect hair follicles from alopecia areata and promote hair regrowth.
research 185 Regulatory γδ T cells protect human scalp hair follicles from alopecia areata in vivo
γδTregs can protect hair follicles from alopecia areata and may help regrow hair.
research 153 Effectiveness of OR-101, a next generation highly selective JAK3 inhibitor, in a humanized murine model of alopecia areata
OR-101 shows promise for treating alopecia areata by improving hair growth.
research 27 Preclinical ex vivo and in vivo evidence supporting selective inhibition of tyrosine kinase 2-dependent, IL-12-mediated signaling as a novel pharmacological strategy for alopecia areata management
Blocking TYK2 might be a new way to treat hair loss from alopecia areata.
research Vellus-to-terminal Hair Follicle Reconversion Occurs in Male Pattern Balding and is Promoted by Minoxidil and Platelet-rich Plasma: In Vivo Evidence from a New Humanized Mouse Model of Androgenetic Alopecia
Minoxidil and platelet-rich plasma can help turn thin hair into thicker hair in male pattern baldness.
research Author response: Involvement of ILC1-like innate lymphocytes in human autoimmunity, lessons from alopecia areata
ILC1-like cells may contribute to hair loss in alopecia areata.
research 004 Cell-based therapy may be effective in alopecia areata: Preclinical evidence that autologous, peripheral regulatory γdT cells are preventive in human ex vivo and therapeutic in human in vivo models
Cell-based therapy using specific immune cells may help treat alopecia areata by promoting hair regrowth.
research Involvement of ILC1-like innate lymphocytes in human autoimmunity, lessons from alopecia areata
ILC1-like cells can cause alopecia areata by attacking hair follicles.
research New frontiers in CRISPR/Cas9 delivery systems delivery for gene editing
Efficient delivery systems are needed for the clinical use of CRISPR-Cas9 gene editing.
research LB708 ILC1-like innate lymphocytes in human autoimmunity: Lessons from Alopecia Areata
ILC1-like cells can cause alopecia areata by disrupting hair follicle immunity, suggesting a new treatment approach.
research 431 Innate lymphoid cells type 1 may be new, non-antigen-specific player in the pathogenesis of alopecia areata
Innate lymphoid cells type 1 may contribute to alopecia areata.
research Innate lymphoid cells type 1 may be new, non-antigen-specific player in the pathogenesis of alopecia areata
Innate lymphoid cells type 1 may contribute to alopecia areata by damaging hair follicles.
research 080 Mouse models of alopecia areata: C3H/HeJ mice versus the humanized AA mouse model
The humanized AA mouse model is better for testing new alopecia areata treatments.
research 1371 FGF7-dependent inhibition of human hair growth byan osteopontin-derived peptide: A novel solution for hirsutism and hypertrichosis?
A new peptide, FOL-005, may help treat excessive hair growth by reducing a hair growth promoter, FGF7.
research ESDR561 – Vellus-to-terminal hair follicle reconversion does occur in male pattern balding in a new humanized mouse model of androgenetic alopecia and is promoted by minoxidil and PRP
research Demodex Folliculitis of the Scalp: Clinicopathological Study of an Uncommon Entity
Demodex mites rarely cause scalp infections leading to hair loss, but when they do, treatment is effective.
research A novel nonsense CDH3 mutation in hypotrichosis with juvenile macular dystrophy
A new genetic mutation in the CDH3 gene causes hair loss and eye problems in young people.
research Fibrosing alopecia in a pattern distribution after hair transplantation: A case report and literature review
Hair transplants can trigger a rare scarring hair loss that is hard to treat.
research Clinical and molecular features in a cohort of Middle Eastern patients with epidermolysis bullosa
Middle Eastern patients with epidermolysis bullosa show specific genetic mutations linked to different types of the disease.
research Delayed hypersensitivity reaction to intralesional triamcinolone acetonide following treatment for alopecia areata. Intradermal testing.
Intradermal testing can better detect corticosteroid allergies than patch testing.
research Microbial allies in skin trauma recovery: from immune modulation to engineered probiotic therapeutics
Engineered probiotics can help heal wounds faster, especially in diabetic foot ulcers.