Weight Loss Education
Pharmacist-led education focused on how weight-management medications interact with normal physiological pathways. Educational only. No diagnosis. No prescribing.
***Structurally similar to the molecule below. A visual representation of a condensed 3D structure vs a flattened molecule.
Semaglutide
GLP-1 Receptor–Based Signaling
Semaglutide is a medication that acts on glucagon-like peptide-1 (GLP-1) receptors involved in appetite regulation and satiety signaling.
Educational discussions focus on:
How GLP-1 signaling affects hunger and fullness
The relationship between appetite suppression and caloric intake
Why response and tolerability vary between individuals
Semaglutide is discussed as a satiety-modulating agent, not a standalone solution for weight regulation.
Tirzepatide
Dual Agonist Signaling (GLP-1 / GIP)
Tirzepatide acts on both GLP-1 and glucose-dependent insulinotropic polypeptide (GIP) receptors, engaging multiple appetite and metabolic pathways simultaneously.
Educational focus includes:
Differences between single-pathway and dual-pathway signaling
How broader receptor activity may influence appetite perception
Why stronger signaling does not guarantee uniform outcomes
Tirzepatide is discussed to illustrate how pathway complexity can change physiological response, not to imply superiority for all individuals.
Lipo-B / Lipo-C
Evia's Metabolic Nutrient Support Program™
Lipo-B and Lipo-C are injectable nutritional formulations designed to support metabolic pathways involved in fat handling, energy metabolism, and nutritional coverage during periods of increased metabolic demand.
The Lipo-B formulation combines methionine, inositol, choline, and vitamin B12—nutrients that participate in normal liver lipid processing, cellular signaling, and energy-related biochemical pathways. Some partner pharmacies may dispense this formulation under the label MIC B12, reflecting its core ingredient composition.
The Lipo-C formulation combines L-carnitine and B-complex vitamins—nutrients that participate in normal fatty-acid transport and mitochondrial energy-related biochemical pathways.