The Full Story

The History of Live Blood Analysis

Discovered and studied by numerous scientists and doctors since the 1800’s, Live Blood Cell Analysis is the study of blood structures (red and white blood cells, platelets, crystals and microorganisms) and is based on the Polymorphic theory. We are born with a plethora of microorganisms which are sensitive to changes within our body’s biological terrain, especially changes in pH, and can evolve based on the environment they are presented with. The process of this evolution is called Polymorphism (many-forms) and with this evolution, we are able to see how these microorganisms are contributing to our health or hindering our health.

Live blood cell analysis is a functional tool used to educate clients on where appropriate adjustments can be made to prevent the onset of disease. Because this test is so visually powerful, it can have lasting effects on the client as they are able to see for themselves what their blood looks like and how it’s directly affected by their diet and lifestyle choices.

What happens during a test? What kinds of things can be seen?

Live Blood Cell Analysis examines blood in its natural state, unaltered by stains or solutions. A small amount of blood is taken from the fingertip and observed under a specialized high-powered microscope which is viewed by both the client and practitioner on a big screen or monitor. This provides a detailed ‘live snapshot’ of the body’s overall health.

We are able to see how red and white blood cells are functioning, observe their shape, movement and magnetism along with microorganisms and other structures. This gives the practitioner information about nutritional deficiencies and hindrances the body might be struggling with.

Because one anomaly can indicate several things, I look for re-occurrences or ‘themes’ that point to areas of focus such as digestion, hormonal imbalances, dehydration, pH imbalance etc. If several anomalies point towards inflammation, then the focus is put on correcting inflammation.

What can it detect?

A motile, balanced immune system
Well functioning healthy red blood cells
Iron deficiency
Latent Tissue Acidosis
Low Enzyme Production
Inflammation
Immune Hindrances
Candida Overgrowth
Heavy Metal Toxicity
Lymph Congestion
Circulatory Stress
Acidity

Toxicity
Free Radical Damage
Dehydration
Liver Stress
Kidney Stress
Vitamin and Mineral Deficiencies
Hormonal Imbalances
Poor Digestion & Absorption
Toxic Bowel
Adrenal Stress
Thyroid Stress