OBJECTIVES: Dandruff is a chronic, relapsing scalp condition that negatively impacts the quality of life of sufferers. Regular use of anti-fungal shampoos represents a proven therapeutic strategy to improve the most common symptoms of flakes and itch. Two recent approaches for enhancing the efficacy of anti-fungal shampoos are maximizing bio-availability of the active material or the addition of a second active material. Our aim is to compare the therapeutic efficacy of these two approaches - maximization of bio-availability of the zinc pyrithione (ZPT) active material or the combination of ZPT with a secondary active material. METHODS: The anti-fungal potency of shampoos representing each of these approaches was evaluated in vitro using a standard microbiology method. Spatial delivery of ZPT particles in the follicular infundibulum was assessed in vivo using a novel confocal microscopy methodology. Clinical efficacy was assessed in a randomized, double-blind trial involving 620 male and female subjects using scalp flaking and epidermal histamine level as endpoints. RESULTS: The shampoo formula with maximized ZPT bio-availability known as the Potentiated ZPT formula exhibited greater anti-fungal potency than the Dual Active shampoo containing both ZPT and climbazole. The Potentiated ZPT formula also delivered more ZPT to the lower infundibulum than the Dual Active shampoo. A 4-week treatment with the Potentiated ZPT formula resulted in superior clinical efficacy compared with the Dual Active product at all 4 weekly time points for both flaking and epidermal histamine endpoints. CONCLUSION: These results highlight the critical role that the shampoo vehicle plays in realizing full potency of active materials. By optimizing the delivery vehicle, the enhanced anti-fungal potency and the maximized spatial delivery of active materials result in greater symptomatic improvement than a product with two active materials. The therapeutic efficacy of a product based on a complex delivery vehicle such as a shampoo must be considered from a full-product perspective rather than just the active system as the non-active components of the composition will often play a significant role in the overall product pharmacology and resultant efficacy.
OBJECTIVES: Dandruff is a chronic, relapsing scalp condition that negatively impacts the quality of life of sufferers. Regular use of anti-fungal shampoos represents a proven therapeutic strategy to improve the most common symptoms of flakes and itch. Two recent approaches for enhancing the efficacy of anti-fungal shampoos are maximizing bio-availability of the active material or the addition of a second active material. Our aim is to compare the therapeutic efficacy of these two approaches - maximization of bio-availability of the zinc pyrithione (ZPT) active material or the combination of ZPT with a secondary active material. METHODS: The anti-fungal potency of shampoos representing each of these approaches was evaluated in vitro using a standard microbiology method. Spatial delivery of ZPT particles in the follicular infundibulum was assessed in vivo using a novel confocal microscopy methodology. Clinical efficacy was assessed in a randomized, double-blind trial involving 620 male and female subjects using scalp flaking and epidermal histamine level as endpoints. RESULTS: The shampoo formula with maximized ZPT bio-availability known as the Potentiated ZPT formula exhibited greater anti-fungal potency than the Dual Active shampoo containing both ZPT and climbazole. The Potentiated ZPT formula also delivered more ZPT to the lower infundibulum than the Dual Active shampoo. A 4-week treatment with the Potentiated ZPT formula resulted in superior clinical efficacy compared with the Dual Active product at all 4 weekly time points for both flaking and epidermal histamine endpoints. CONCLUSION: These results highlight the critical role that the shampoo vehicle plays in realizing full potency of active materials. By optimizing the delivery vehicle, the enhanced anti-fungal potency and the maximized spatial delivery of active materials result in greater symptomatic improvement than a product with two active materials. The therapeutic efficacy of a product based on a complex delivery vehicle such as a shampoo must be considered from a full-product perspective rather than just the active system as the non-active components of the composition will often play a significant role in the overall product pharmacology and resultant efficacy.
Authors: Enembe O Okokon; Jos H Verbeek; Jani H Ruotsalainen; Olumuyiwa A Ojo; Victor Nyange Bakhoya Journal: Cochrane Database Syst Rev Date: 2015-05-02
Authors: Sean E Mangion; Lydia Sandiford; Yousuf Mohammed; Michael S Roberts; Amy M Holmes Journal: Pharmaceutics Date: 2022-05-17 Impact factor: 6.525
Authors: Yuanyuan Diao; Jane R Matheson; Yingying Pi; Fiona L Baines; Shuliang Zhang; Yuanpei Li Journal: Int J Cosmet Sci Date: 2021-08-23 Impact factor: 2.416