Stem Cells

Alomac® is a unique aloe, found only in Madagascar, shown to upregulate the stem cells in the body better than any other natural product and without the toxicity of unnatural products. Alomac is derived from a species of Aloe vera called Aloe macroclada that is native to and exclusively grown in Madagascar. 

The following research has proven Alomac’s ability to create an increase in adult circulating stem cells. Many conditions have been studied and are benefiting from this gift from nature including:

• Arthritis
• Heart/cardiovascular
• Kidney, pancreas and thyroid
• Muscles/performance

NIS Report 209-008.  Immune Activation and Modulation of Inflammation In Vitro
Jensen, G. (2025) Immune Activation and Modulation of Inflammation In Vitro

Evaluation of the immunomodulatory effects of Alomac using human immune cell cultures under normal, inflamed, and viral mimetic conditions, measuring cytokine and growth factor after 2 hours.

Alomac demonstrates dual-phase immune modulation:

• • • Activation under normal and viral conditions
    • Suppression under inflammatory stress

NIS Report 209-002. Comparative in vitro analysis of immune-modulating effects of Alomac vs. Aloe vera.
Jensen, G. (2025) In-Vitro Study of Immune Modulation in Alomac® versus high-end aloe vera. Summarized by James, J.

Evaluation of the immune-activating effects of Alomac compared to premium Aloe vera using human immune cell cultures under direct exposure, bacterial challenge, and viral mimetic challenge.

Alomac demonstrated broad, potent immune activation and modulation:

• • • Stronger activation of innate immune cells (especially NK cells)
    • Enhanced antiviral cytokine and chemokine responses
    • More robust immune priming under both bacterial and viral challenges

The Effect of Endogenous Stem Cell Mobilization on Congestive Heart Failure
Drapeau, C., Komaran, G., Pedrero, F., and Garber, M. (2025) The Effect of Endogenous Stem Cell Mobilization on Congestive Heart Failure

Four week study of 20 CHF patients to assess the clinical impact of Alomac-induced stem cell mobilization on heart function, inflammation, and quality of life in CHF patients.

Alamac’s ability to mobilize stem cells correlates with measurable improvements in heart function and inflammation in CHF patients. This supports its potential as a novel, non-pharmaceutical adjunct for:

• • • Cardiac rehabilitation
    • Inflammation control
    • Improved patient well-being

The Therapeutic Potential of Stimulating Endogenous Stem Cell Mobilization
Drapeau, C. Eufemio, G., Mazzoni, P.  Roth, G. D., and Strandberg, S. (2017) The Therapeutic Potential of Stimulating Endogenous Stem Cell Mobilization

Evaluation of the clinical relevance of transient stem cell mobilization triggered by Alomac, and its potential therapeutic applications across various health conditions.

Alomac’s ability to stimulate endogenous stem cell release offers a promising, non-invasive strategy for:

• • • Regenerative medicine
    • Immune system enhancement
    • Preventive health support

Its rapid, transient action avoids the risks of sustained immune activation seen with synthetic mobilizers.

Aloe macroclada from Madagascar Triggers Transient Bone Marrow Stem Cell Mobilization
Drapeau, C, Benson, K.F, James. J, and Jensen, G.S. (2015) Aloe macroclada from Madagascar Triggers Transient Bone Marrow Stem Cell Mobilization, Journal of Stem Cell Research & Therapy, 5:6, DOI: 10.4172/2157-7633.1000287

Blood sample analysis of 12 health adults following oral ingestion of Alomac to assess impact on the release of stem cells from bone marrow into peripheral blood, supporting tissue repair and immune surveillance.

Alomac triggers a short-lived but measurable release of stem cells from bone marrow, peaking at 1 hour. This supports its potential as a natural agent for:

• • • Tissue regeneration
    • Immune system priming
    • Post-injury recovery support
      
      

Handout: Alomac Stem Cell Studiesy