Research & Patents Behind
Activation Technology
This page provides direct access to published research, third-party studies, and patent documentation related to activation products featured on this site. The resources below are organized by product to make it easy to review.
Explore by Product
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Healthy Glow® (Nrf2 + Collagen)
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Explore by Product
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Healthy Glow® (Nrf2 + Collagen)
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Explore by Product
Stacking Activation Products
How Combined Pathways Create Broader System Response
Each activation product is supported by its own body of research and intellectual property. In addition, independent studies and internal validation explore what happens when multiple activation pathways are supported at the same time.
This research focuses on how cellular defense signaling, energy regulation, metabolic communication, and digestive pathways interact as a system rather than as isolated functions. Findings from these studies show that combined pathway activation can produce broader and more adaptive biological responses than individual pathways alone.
For this reason, you'll find stacking and synergy research links within each product section below, where applicable.
PubMed.gov & Further Research
Independent Verification
Many of the biological pathways that activation products support are widely studied in the scientific community. For independent verification, explore peer-reviewed publications through PubMed.gov, a public database maintained by the U.S. National Library of Medicine.
Use the suggested search links/terms listed under each product to find published studies related to the same pathways, ingredients, and mechanisms referenced in the research provided on this page.
Example Search:
Searching "Oxidative stress and [topic of interest]" will return published studies examining how oxidative stress is connected to different health concerns.
Protandim® - Cellular Activation Product Line
The Protandim line is built around 3 individual products and the concept of activating the body's own cellular defense and repair systems. Stacking them becomes even more powerful. Below are the links to research and patents.
Protandim® Nrf2
Research & Patents
Lowers Oxidative Stress 40% in 30 days. Increases Glutathione up to 300% in 120 days. Activates cellular resilience & antioxidant enzyme capable of neutralizing more than 1 million free radicals per second.
Explore Related Peer-Reviewed Research (PubMed.gov)
The NRF2 pathway and oxidative stress response are widely studied in scientific literature. Explore independent, peer-reviewed publications on PubMed.gov. See below for a few examples of how to research.
Nrf2 pathway
Research on how Nrf2 regulates cellular defense and antioxidant signaling.
Oxidative stress
View how widely researched oxidative stress is & learn how detrimental it can be.
Oxidative stress and [topic of interest]
Explore how oxidative stress is studied in relation to specific areas of health.
Synergy & Stacking Research
In addition to standalone research, studies and internal validation explore how Nrf2 activation interacts with other cellular and metabolic pathways when used as part of combined product systems, referred to as Stacks. This research examines system-level responses rather than isolated biological functions.
Enhanced Cell Activation
Dual Synergizer Research
Nrf2 + NRF1
Enhanced Protein Turnover without increased mitochondrial respiration
Complete Cell Activation
Tri-Synergizer Research
Nrf2 + NRF1 + NAD+
Multi-pathway activation for multiplied effects
Gut-CEll ACTIVATION
Healthy Edge Research
Nrf2 + P84
358 genes activated, improving Cell adaptability and resilience
Tissue-Cell ACTIVATION
Healthy Glow Research
Nrf2 + TrueScience® Liquid Collagen
Balances Innate Immune Response System
Metabolic-Cell ACTIVATION
Healthy Weight Research
Nrf2 + MindBody
Activates 22 new genes, 9 fatty acid metabolism pathways
Protandim® NRF1
Activates Mitochondria Biogenesis, improving Cellular Energy.
Explore Related Peer-Reviewed Research (PubMed.gov)
The NRF1 pathway and mitochondria are widely studied in scientific literature. Explore independent, peer-reviewed publications on PubMed.gov.
Mitochondria dysfunction
View how widely researched mitochondrial dysfunction is & learn how detrimental it can be
Mitochondria and [topic of interest]
Explore how Mitochondria is studied in relation to specific areas of health
Protandim® NAD+
Increases Sirtuin Proteins to activate NAD, improves cell communication.
Explore Related Peer-Reviewed Research (PubMed.gov)
The NAD pathway and metabolic regulation are widely studied in scientific literature. Explore independent, peer-reviewed publications on PubMed.gov.
NAD and (topic of interest)
Explore how NAD is studied in relation to specific areas of health
Synergy & Stacking Research
In addition to standalone research, studies and internal validation explore how Nrf2, NRF1 and NAD activation interact when used as part of combined product systems, referred to as Stacks.
Enhanced Cell Activation
Dual Synergizer Research
Nrf2 + NRF1
Enhanced Protein Turnover without increased mitochondrial respiration
Complete Cell Activation
Tri-Synergizer Research
Nrf2 + NRF1 + NAD+
Multi-pathway activation for multiplied effects
P84® - Gut Health Activation
Supporting digestive health through targeted pathway activation.
P84®
Balances Gut Microbiome, improves digestive signaling and Activates Gut Peptides.
Explore Related Peer-Reviewed Research (PubMed.gov)
The gut microbiome and digestive signaling systems are widely studied in scientific literature. You can explore independent, peer-reviewed publications by searching the terms below on PubMed.gov.
Gut Microbiome
Research on how microbial communities influence digestion, metabolism, and cellular signaling.
Intestinal Barrier Dysfunction
Studies examining how the gut lining regulates immune signaling and nutrient communication
Microbiome and (topic of interest)
Explore how gut microbial balance is studied in relation to specific areas of health
Synergy & Stacking Research
In addition to standalone research, studies and internal validation explore how gut activation interacts with cellular defense and metabolic pathways when used as part of combined product systems, referred to as Stacks.
Gut-Cell Interaction
Healthy Edge Research
Nrf2 + P84
358 genes activated, improving Cell adaptability and resilience
TrueScience® - Liquid Collagen Activation
Supporting connective tissue integrity and protein signaling.
TrueScience® Liquid Collagen
100% increase in Collagen density and activation of 5 different types of collagen in 8 weeks or less. Activate, Replenish and Maintain Collagen and protein signaling processes that influence connective tissue integrity and cellular response systems
Explore Related Peer-Reviewed Research (PubMed.gov)
Collagen metabolism and protein signaling pathways are widely studied in scientific literature. You can explore independent, peer-reviewed publications by searching the terms below on PubMed.gov.
Collagen Protein
Research on how collagen peptides are absorbed, utilized, and distributed within biological systems
Connective Tissue Metabolism
Explore how connective tissue and collagen turnover are studied across different biological contexts
Collagen and [topic of interest]
Explore how Collagen is studied in relation to specific areas of health
Synergy & Stacking Research
In addition to standalone research, studies and internal validation explore how collagen bioavailability and protein signaling interact with cellular pathways when used as part of combined product systems, referred to as Stacks.
Tissue-Cell ACTIVATION
Healthy Glow Research
Nrf2 + TrueScience® Liquid Collagen
Balances Innate Immune Response System
MindBody® - GLP-1 Activation
Supporting metabolic communication and brain-gut interaction.
MindBody® Activation
Naturally increased GLP-1 by 200% on average. Improves metabolic communication, appetite signaling, and brain-gut interaction.
Explore Related Peer-Reviewed Research (PubMed.gov)
GLP-1 signaling and metabolic communication pathways are widely studied in scientific literature. You can explore independent, peer-reviewed publications by searching the terms below on PubMed.gov.
GLP-1
Research on how glucagon-like peptide-1 influences appetite, metabolism, and energy regulation
Gut Brain Axis
Studies examining how digestive signaling pathways interact with neurological and metabolic systems
GLP-1 and [topic of interest]
Explore how appetite and metabolic signaling are studied across different biological contexts
Synergy & Stacking Research
In addition to standalone research, studies, and internal validation explore how metabolic signaling and appetite regulation interact with cellular pathways when used as part of combined product systems, referred to as Stacks.
Metabolic-Cell ACTIVAtion
Healthy Weight Research
Nrf2 + MindBody
Activates 22 new genes, 9 fatty acid metabolism pathways
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