Oud Ghazal
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OUD GHAZAL is a modern gourmet Oud perfume with the olfactive texture of
a deliciously decadent fruit syrup drizzled over smouldering and smoky woodchips.
Deeply magnetic and irresistible, the careful blend of ingredients triggers skin-tingling
lust and carnal attraction.
A glossy Black Cherry accord delivers mouth-watering sweetness, with a perfectly balanced overdose of leather, toasted embers and sensual musks. Its aromatic base draws inspiration from Bakhoor, the ancient Arabic tradition of burning agarwood chips soaked in a blend of resins and spices as a relaxing incense. As a result, the lingering scent of OUD GHAZAL on the skin is a silky, smoky, sweet and warm elixir with edible magnetism.
Top Notes: Black cherry accord, Madagascan peppercorn, Cardamom
Middle Notes: Oud, Labdanum resin, TaSuKI oil
Base Notes: Musk, Vetiver, Cedar Atlas oil
Contains a patented Destress Accord scientifically proven to relieve stress.
- Apply your Eau de Parfum liberally. While it settles, select the mood-enhancing Lifeboost according to the emotional desire you’re feeling at that very moment.
- Spray your Lifeboost as you would a perfume, finishing with a spray on each palm. Press your palms together to warm and awaken the Lifeboost molecules, then inhale in three long, deep breaths to fully experience its sensorial active ingredients.
- You can apply different Lifeboosts over the hours as your needs shift and change; they have all been carefully composed by our expert perfumers to harmonize with each other and with each Eau de Parfum.
The patented Destress accord has been validated through Saliva test, measuring biomarkers in saliva (cortisol and alpha amylase) after a stressful task, reducing or inhibiting a subject's physiological reaction to stress.
The Patents and Scientific Publications
The patented Destress accord
1. THE PATENTED DESTRESS ACCORD:
WO 2017/004282 Al 29 June 2016 A fragrance composition comprising one or more musk or fragrance accords for use in reducing or inhibiting a subject's physiological reaction to stress Raphael K. L. Kang Alba T. Cilia