Bradford Peripheral Blood Assessments (BPBAT M) are a cost effective way to assess the amount and general location of oxidative energy, as well as hormones, enzymes, toxicities and other by products of biological stress. The generation of reactive oxygen species (ROS) affects the body's basic cellular structures cellular energy, and redox processes in biochemical systems. This leads to accelerated stresses, metabolic dysfunctions, aging and degeneration. These ROS processes may be in a chronic, progressive pattern such as cancer, cardiovascular diseases, diabetes, the collagen diseases and the progressive neurological diseases.

Bradford Peripheral Blood Assessments can help determine cellular nutritional status. Nutritional status is essential to aid in curbing and reversing the free radical cascade of destructive, deteriorating cell structures. The interaction of the toxins given off by these cell structures increase oxidative energy and produce major systemic effects of accelerated aging, metabolic dysfunctions and disease.

This unique assessment of peripheral blood can reveal a good prospectus of the immune system. By observing the morphology of the white blood cells and their activity in contrast to the extent of active foreign antigens and microbes within the serum and red blood cells, the strength of the immune system can be judged. Weakness and dysfunction in any one of these three major components can influence the strength and function of the other two. This can be indicative of functional stress, accelerated aging or a progressive disease process.

The Bradford Allen Coagulation Pathway Reactive Oxygen Species (ROS) are defined as reactive species generated from both the normal utilization of oxygen for the production of energy as well as numerous other biochemical pathways, imbalance, deficiencies, toxicities, and pathologies. The effect of ROS on peripheral blood morphology is evident on blood drops where the sample is allowed to dry and coagulate as a result of the blood coming in contact with a glass microscope slide, the "HLB® Blood Test". Both the variation in the classic fibrin net morphology as a result of coagulation factor modulations and the soluble fibrin complexes as a result of the polymerization of soluble fibrinogen can be observed under low power, light microscopy. The HLB® coagulation morphologies are uniquely altered by various pathologies, deficiencies, hormonal imbalances, toxicities and free radical stress. The HLB Blood Test in conjunction with High Resolution Blood Morphology (HRBM®) wet coverslip yields 67 altered morphologies which are correlated with 104 biological risk factors.

Dr. Sangeeta Shah with her hematopathology background and special
training, can assess and help evaluate the unique treatment plan for you.
“Healthy Blood Healthy Body” If your blood is not healthy your body is not either.
Come Check Your Blood Today !!!!