Episode #156: Bioregulator Basics
If you’ve been wondering what exactly bioregulators are and what differentiates them from the peptides you’re already familiar with, then this episode is for you.
Today we’re diving into the world of bioregulator peptides, and covering everything from how they work to where they come from. We’ll also discuss why there has been an increasing number of physicians that are starting to implement bioregulator peptides into their protocol, and how bioregulators are often used in conjunction with conventional therapy. We’ll also talk a bit about the history behind bioregulators, and the connection between bioregulator peptides and the 12 hallmarks of aging.
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What we discuss:
[00:07:08] A bioregulator peptide is an epigenetic switch
[00:09:03] Who discovered bioregulators?
[00:11:55] Other than our own bodies, where else can we get bioregulators from?
[00:13:31] Taking extracts from tissues, glands, and organs to isolate bioregulator peptides
[00:17:31] The three different forms of bioregulator peptides
[00:21:54] How safe are bioregulator peptides?
[00:22:45] What are some of the organ systems that bioregulators address?
[00:25:34] Why bioregulators are often used in conjunction with conventional therapy
[00:26:35] Why bioregulators don't need to be used indefinitely
Key Takeaways:
Bioregulator peptides are molecules that can act as epigenetic switches, meaning they can modify gene expression without altering the genetic code itself. By selectively turning on or off certain genes, bioregulator peptides can help regulate a variety of biological processes, from inflammation and immune response to tissue repair and regeneration.
There are currently 21 bioregulator peptides that address many different organ systems and can be used to improve your overall health. These peptides are derived from various sources, including plant and animal tissues, and work by signaling cells to perform specific functions.
In many cases, bioregulators are used to enhance the effects of other forms of treatment. For example, they may be used alongside medication or physical therapy to help improve overall health and well-being. By using bioregulators in combination with conventional therapy, patients may be able to experience greater symptom relief and faster healing times.