

Our Science
At SIGRID, our mission is to make world-class science accessible to everyone,
empowering you to live life to the fullest.


SiPore® is Patented Worldwide
The SiPore® natural mineral undergoes meticulous purification process to guarantee maximum effectiveness and compliance with the industry's highest standards for supplement safety and quality.
Furthermore, our glucose stabilizer holds a self-affirmed GRAS (Generally Recognized as Safe) certification, making it suitable even for the most cautious users. It is non-systemic and safe to consume, free from GMOs, herbicides, pesticides, harmful chemicals, artificial colors, preservatives, artificial sweeteners, or added sugar.


Science-backed metabolic solutions
In collaboration with leading scientists and global research partners, we are pioneering innovative solutions for metabolic health. Our primary goal is to address the complexities of metabolic processes, focusing on achieving and maintaining stable glucose levels, preventing oxidative damage, and reducing the risk of chronic illnesses such as cardiovascular disease, type 2 diabetes, and potentially even cancer.


How It Works
SiPore®'s micron-sized natural mineral traps stomach enzymes like amylase and lipase in tiny pores, slowing down the speed of digestion of carbs and fats. SiPore® undergoes a stringent purifying and cleaning process, which ensures not just effectiveness, but also aligns with the highest industry standards for supplement safety and quality.
Our Advisory Board
A group of accomplished scientists, doctors, and authors specializing in microbiology, physiology, material chemistry, and more.


Publications
Large Pore Mesoporous Silica Induced Weight Loss in Obese Mice
(Nanomedicine, 2014)
(Nanomedicine, 2020)
Oral intake of mesoporous silica is safe and well tolerated in male humans
(PLOS ONE, 2020)
(Advanced Healthcare Materials, 2020)
(Nanomedicine, 2022)
(European Journal of Pharmaceutics and Biopharmaceutics, 2022)
(Applied Materials & Interfaces, 2023)
Activity and Stability of Nanoconfined Alpha-Amylase in Mesoporous Silica
(ACS MATERIAL Au, 2023)