Taking vitamins is only as beneficial as the body’s ability to absorb and use the nutrients they contain, and Stack by Phi is a new system that applies phase-release micropill technology to deliver essential nutrients at optimal times.
Many supplements aren’t readily absorbed, leaving people unaware that they’re getting far less benefit than the label promises. As a result, some formulas overload ingredients to compensate for poor absorption, which can strain the body without truly improving outcomes. Stack's system consists of daily capsules, one for the morning (featuring folate, biotin, and copper to name a few) and another for the night (with calming magnesium, calcium, zinc and more.) As Phi puts it, "With Stack, you get what your body truly needs. It's the closest thing to a vitamin IV without a needle."
Two-Part Vitamin Systems
Stack by Phi Delivers Nutrients in Phase-Release Day & Night Formulas
Trend Themes
-
Customized Micropill Delivery — Phase-release micropill technology allows for customized nutrient delivery, ensuring that vitamins are absorbed efficiently when the body needs them most.
-
Day-night Supplementation — The concept of day-night formula supplementation tailors nutrient intake to natural bodily rhythms, enhancing nutrient effectiveness and reducing nutrient overload.
-
Optimized Nutrient Absorption — Focus on optimizing nutrient absorption addresses issues of bioavailability, offering more efficient nutrient delivery systems as an alternative to traditional high-dose supplements.
Industry Implications
-
Nutraceuticals — Nutraceuticals industry can leverage phase-release systems to create more effective supplements that fit into consumer lifestyles seamlessly.
-
Health Technology — The integration of phase-release micropill technology presents a disruptive opportunity within health technology to improve user outcomes with personalized health solutions.
-
Pharmaceuticals — Implementing novel delivery technologies in the pharmaceutical industry can innovate drug absorption efficiency, mirroring advances seen in vitamin delivery systems.