Peptides & Bioregulators

PEPTIDES VS BIOREGULATORS

Peptides focus on immediate repair and recovery from localized issues, while Bioregulators aim for broader systemic rejuvenation by targeting specific organs at the genetic level. Both approaches can complement each other depending on individual health goals.

PEPTIDES
Peptides, such as the PetTides Full Body Support blend and BPC-157, are bioactive compounds designed to accelerate tissue repair, reduce inflammation, and support recovery from injuries or chronic conditions. They are typically synthetic or naturally derived sequences that mimic biological processes involved in healing.

Key Features of Peptides

Mechanism: Healing peptides work by promoting cellular regeneration, angiogenesis (formation of new blood vessels), and modulating inflammatory pathways.  
Applications: Commonly used for musculoskeletal injuries, joint pain, inflammation-related conditions, and gut health.  
Administration: Often administered via subcutaneous injection or orally, depending on the peptide.  

Common Dosing

BIOREGULATORS
Peptide bioregulators are short-chain peptides derived from animal tissues that target specific organs and systems to promote optimal function. The original bioregulator products, Khavinson Peptide Bioregulators, are made in Russia where they have a long history of safe and effective use. They work through epigenetic mechanisms to regulate gene expression and support cellular repair.

Key Features of Bioregulators

Mechanism: These peptides bind to DNA in specific tissues, activating genes that restore normal function and improve cellular health.  
Applications: Used for systemic rejuvenation, organ-specific optimization (e.g., brain, immune system, cardiovascular health), and longevity support.  
Administration: Bioregulators are typically taken orally in capsule form and are safe for long-term use.  

Common Dosing Schedule

Generalized Dosing Guidelines

KHAVINSON BIOREGULATORS VS NATURE’S MARVELS BIOREGULATORS

Both are peptide-based bioregulator products designed to support organ-specific health and longevity. While they share foundational principles, such as being derived from short-chain peptides that target specific organs, they differ in their origins, formulations, and applications. Below is a comparison:

KHAVINSON BIOREGULATORS: ORIGINAL PHARMACOLOGICAL PRODUCT, MADE IN RUSSIA

Overview

- Developed by Professor Vladimir Khavinson during Soviet-era research, these bioregulators are based on ultra-short peptides extracted from animal tissues, particularly fetal cows. 

- They are scientifically formulated to interact directly with DNA in specific organs, normalizing protein synthesis and restoring cellular function. 

Key Features

Mechanism: Epigenetic regulation of gene expression within targeted tissues.

Applications: Primarily used for aging-related conditions, immune system support, and organ rejuvenation.

Production: Manufactured under strict pharmacological standards by Russian companies associated with the St. Petersburg Institute of Bioregulation and Gerontology. 

NATURE’S MARVELS BIOREGULATORS: MODERN CONSUMER-LEVEL PRODUCT, MADE IN THE USA

Overview Nature’s Marvels bioregulators are modern formulations based on Khavinson’s original research but adapted for broader consumer use. They consist of 21 amino acid complexes derived from pork organ tissues raised under high welfare standards. 

Key Features

Mechanism: Similar to Khavinson bioregulators, they work through nutritional signaling to restore organ function and metabolic processes.

Applications: Focused on general wellness, targeted organ support (e.g., heart, kidney, CNS), and prevention of chronic conditions. 

Production: Marketed globally as dietary supplements with no additives or reported side effects. 

Dosing

In summary, Khavinson bioregulators are rooted in scientific research with a focus on aging and disease management, while Nature’s Marvels offers a more accessible version tailored for general health and vitality. Both leverage the benefits of short-chain peptides to support specific organs effectively.