What follows is a transcript from a conversation with Dr. Latt Mansor on the topic of leveraging ketones for greater metabolic health, athletic performance, and cognitive health.
Current research suggests that NAD+ levels can be raised by taking NAD+ precursors or boosters. Here's the science behind NAD+ and its importance in maintaining optimal cellular function.
NAD+ plays an essential role in the body and can support brain health, healthy aging, and more. Here are the seven of the top NAD + benefits and tips for naturally boosting NAD+ levels.
Learn what NAD+ (nicotinamide adenine dinucleotide) is and why it's vital for healthy and longevity.
Learn why the NAD coenzyme plays a critical role in cellular metabolism and is involved in the synthesis of proteins, lipids, and nucleic acids - making it essential for the maintenance and repair of all tissues in the body.
Discover how akkermansia is beneficial for gut bacterium improves health and metabolism and why it's a vital supplement in your diet.
NAD, or nicotinamide adenine dinucleotide, is a hub molecule in cellular metabolism, directly or indirectly impacting all 12 of the hallmarks of aging. Learn the science behind supporting healthy NAD levels.
NAD+ is a central molecule of cellular function and metabolism that serves many fundamental functions in the human body, particularly in cellular energy production. Learn the benefits of nicotinamide and how it supports general health and healthy aging.
Biohacker Thaddeus Owen discusses how our modern world has largely gotten rid of winter and why it’s come at a cost to our health, waistlines, and resilience in this transcript from a recent Collective Insights episode.
Immunometabolism is the crosstalk between metabolic and immunological processes. Mitochondria, the cellular structures that generate cell energy, are key elements in the crosstalk between metabolic and immune signaling pathways.
Insulin is a hormone produced by beta cells in the pancreas with a central role in the regulation of metabolism and cell energy reserves. The major metabolic action of insulin is to regulate blood glucose levels and to promote the storage of energy substrates as macromolecules that can be mobilized between meals or in contexts of high energy demand.
In this article, we will take a look at the role of the gut microbiota and the gut-brain axis in metabolism and energy homeostasis. We will learn how food-derived chemical signals—nutrients and microbial metabolites—are translated in the gut into endocrine and neural signals that convey information about the caloric load and composition of a meal to the brain.
