Top 5 Digestive Bioregulators for a Healthy Gastrointestinal System

August 30, 2024

What are Digestive Bioregulators?

Today, gastrointestinal disorders are increasingly common worldwide, impacting millions of people. They can significantly deteriorate an individual’s quality of life, causing persistent discomfort, digestive issues, and nutritional deficiencies. As a result, individuals often experience reduced productivity and overall well-being. Addressing these health challenges is crucial for improving daily functioning and enhancing life satisfaction.

In recent years, bioregulatory therapy using peptide drugs has emerged as a promising method for regulating organ and tissue functions. These peptides work by modulating gene expression to restore normal functionality.

Peptide bioregulators for the digestive system in particular are specialized peptides that help modulate and optimize digestive functions. They work by influencing various physiological processes to improve digestion, absorption, and overall gastrointestinal health.

The Science Behind Digestive Bioregulators

Low molecular weight peptides are naturally produced in cells and help transfer information between them through amino acid sequences and structural changes. They regulate key processes like cell growth, differentiation, and death.

Peptide bioregulators affect gene expression, boosting protein production in cells, which improves organ and system function. This regulatory effect helps prevent or reduce DNA damage and supports the body’s repair processes, counteracting disease and aging effects. Essentially, peptides help maintain and restore healthy cell functions.

Types of Digestive Bioregulators

  1. Suprefort is a cytomax with peptide bioregulators specifically designed for the pancreas. These peptides target pancreatic cells directly, without affecting other organs. They help restore proper organ function, normalize metabolism, and enhance overall digestive health.
  2. Stamakort is a cytomax made from natural peptides extracted from the stomach lining of healthy calves. It is recommended for preventing and treating stomach and duodenal ulcers. These peptides target the stomach tissues, promoting regeneration and normalizing cellular metabolism, which helps restore the gastric mucosa, improve its health, and increase resistance.
  3. Ovagen is a cytogen that includes peptide bioregulators designed to support liver function. It is effective for preventing liver issues during chemotherapy or long-term antibiotic use and aids in the comprehensive treatment of hepatitis. Ovagen helps restore and protect liver cells from factors such as poor diet, alcohol, exposure to hazardous environments, and pollution
  4. Pancragen provides peptides that specifically target pancreatic cells. These peptides enhance the production of digestive enzymes in the pancreas, improving digestion and alleviating symptoms such as bloating, abdominal discomfort, and exocrine insufficiency.
  5. Svetinorm is a natural peptide containing hepatic bioregulators that specifically target liver cells to restore their function. It helps the liver efficiently detoxify the body, prevent intoxication, and normalize intracellular metabolism. It can be used both as part of a comprehensive treatment plan for liver diseases and for preventive care.

Conclusion

Peptides designed for gastrointestinal health offer some benefits in supporting and restoring the function of the digestive system. They can enhance digestive enzyme production, improve gut health, and aid in the management of various gastrointestinal disorders. However, it is crucial to consult a healthcare professional before starting any peptide therapy.

Bibliography

1. Anisimov VN., et al. “Effect of Epitalon on biomarkers of aging, life span and spontaneous tumor incidence in female Swiss derived SHR mice”. Biogerontology 24 (2003): 193-202.

2. Anisimov VN and Khavinson VKh. “Peptide bioregulation of aging: results and prospects”. Biogerontology 11 (2010): 139-149.

3. Bai JP., et al. “Targeting of peptide and protein drugs to specific sites in the oral route”. Critical Reviews in Therapeutic Drug Carrier Systems (1995): 339-371.

4. Diao L and Meibohm B. “Pharmacokinetics and pharmacokinetic-pharmacodynamic correlations of therapeutic peptides”. Clinical Pharmacokinetics (2013): 855-868.

5. Furrer K., et al. “Serotonin reverts age-related capillarization and failure of regeneration in the liver through a VEGF-dependent pathway”. Proceedings of the National Academy of Sciences of the United States of America 108.7 (2011): 2945-2950.

6. Hoare M., et al. “Ageing, telomeres, senescence, and liver injury”. Journal of Hepatology 53.5 (2010): 950-961.

7. Tuteljan VA., et al. “Physiological role of short peptides in nutrition”. Bulletin of Experimental Т 135.1 (2003): 4-10.

Legal Disclaimer

All statements on this page are for informational purposes only and have not been evaluated or approved by the US FDA.
Products mentioned on this page are not intended to diagnose, treat, cure, or prevent any disease. See more

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