Analysis

Dry Blood Analysis

Understanding the Dry Blood Analysis

What is the Dry Blood Analysis?

The Dry Blood Analysis uses a tiny drop of your blood to see what might be going on inside your body. By looking at the blood under a microscope, experts can tell if there are signs of health issues or if something in your body isn't working right.

How Does It Work?

When we do the test, we look at different "layers" and "rings" in the blood. Think of it like looking at a target with different circles:

Layers

- Outer Layers (1 and 2): These layers tell about the health of parts you can see or feel, like skin and eyes.

- Middle Layers (3, 4, and 5): These layers give information about important organs like your liver and stomach.

- Inner Layers (6, 7, and 8): These layers help understand more serious or long-term issues, especially with organs deep inside your body.

 Rings

- Center Ring (Ring 1): Focuses on reproductive organs.

- Middle Rings (Rings 2 to 5): These rings can show if there's something wrong with your lungs, stomach, or if you have allergies.

- Outer Rings (Rings 6 to 8): These rings look at the health of your skin and other outer parts of your body.

What Do we Look For?

In the blood, we look for weird patterns or spots:

- White Spots (PPPs or ROTS): These spots can show if there's inflammation or if your lymph system is clogged.

- Fibrin Network: This is like a web in your blood that can tell if your hormones or thyroid might be out of balance.

- Color Changes or Weird Shapes: These can indicate inflammation, infections, or even if there are toxins like heavy metals in your body.

Key Points to Remember

- The test uses your blood to give clues about your health.

- It checks different layers and rings in the blood, each representing different parts of your body.

- It helps identify issues like organ problems, allergies, and even stress levels.

- It's a tool used in alternative medicine, which means it's not the standard way doctors usually check your health, and some doctors might not agree with how it's used or its results.

 

RBTI Urine analysis

Understanding the Ideal Body Chemistry Equation

Imagine your body as a finely tuned machine that needs the right balance of ingredients to run smoothly. The equation we're talking about is like a recipe that tells you exactly what amounts of these ingredients you need to keep your body in perfect health.

The Ingredients of the Equation:

  1. Carbohydrates (1.5): This number tells us about the sugar and other solids in your pee. It's like checking the fuel quality in a car.
  2. pH Level (6.4/6.4): This shows how acidic or basic your pee and saliva are. It's like checking the oil in your car to make sure it's not too acidic or too basic, which can mess up the engine.
  3. Salts (6.5C): This tells us about the saltiness or electrical conductance of your pee. It's like making sure your car has the right amount of electrolytes in its battery.
  4. Cell Debris (.04M): This number indicates how much waste your cells are throwing out. It's like checking the exhaust of the car to see if it's running clean.
  5. Urea (3/3): This part of the equation looks at certain nitrogen levels in your pee, showing how well your body is using proteins. It's like checking how efficiently a car is using its fuel.

Why It Matters:

If all these numbers are in their ideal ranges, it means your body is working at its best, just like a car running smoothly on the right kind of fuel and with a good engine. If the numbers are off, it might mean something is wrong, just like if your car starts making weird noises or the check engine light comes on.

Real-Life Impact:

Keeping these numbers balanced can help you avoid sickness, feel more energetic, and overall just be healthier. It's a bit like making sure your car is well-maintained so it doesn’t break down unexpectedly.

Key Points to Remember:

- The equation is like a recipe for your body's health.

- Each part of the equation tells us something important about how your body is functioning.

- Keeping everything balanced according to this equation helps you stay healthy and feel good.

Think of it as a way to keep your body's "engine" in tip-top shape!

 

Thyroid Activity Range

Understanding the TAR Measure

What is the TAR Measure?

The TAR (Thyroid Activity Range) measure is a way to check if your thyroid, a gland in your neck that controls metabolism, is working properly. You calculate it by taking your blood pressure and pulse. First, you subtract the lower blood pressure number (diastolic) from the higher one (systolic). Then, you add your pulse rate to that result. The number you get is your TAR, and you compare it to a chart that tells you what the normal range should be for your age. If your TAR is lower than it should be, it might mean there's a problem with your thyroid.

Examples:

Example 1: A 45-Year-Old's TAR

Imagine someone who is 45 years old with these numbers:

- Systolic Blood Pressure: 130

- Diastolic Blood Pressure: 85

- Pulse: 72

To find the TAR, subtract 85 from 130 (which is 45), then add 72. That gives you 117. For a 45-year-old, the normal TAR range is 116-152. Since 117 is in this range, their thyroid is likely fine.

Example 2: What Blood Pressure and Pulse Can Tell You

Different combinations of blood pressure and pulse can hint at other health issues. For example, if someone's systolic blood pressure is between 60-90, diastolic is 110-170, and pulse is 72-86, it might suggest problems like hardening of the arteries.

Example 3: Checking for Adrenal Problems

If someone's blood pressure is higher when they're sitting down than when standing up, it could be a sign of adrenal gland issues. The adrenal glands sit above your kidneys and help control things like your blood pressure.

 Key Points to Remember:

- TAR is calculated using your blood pressure and pulse.

- Compare your TAR to a chart to see if your thyroid might be having issues.

- Blood pressure and pulse readings can also suggest other health conditions.

- Changes in blood pressure when sitting versus standing can indicate adrenal problems.

Find the box where the row and column for your systolic and diastolic readings intersect.  If your pulse rate falls within the range in that box, refer to the Suspect Indicator as listed below.

*1 Suggests a poor myocardium; incipient dilatation (tissue of the heart)

*2 Suggests an overworked heart; incipient hypertrophy (increase of the size of heart)

*3 Suggests aortic insufficiency; diastolic is failing in its effort to companionate for the increased cardiac effort (relaxation of heart cycle)

*4 Intracranial tension; seen in arteriosclerosis or cardiorenal diseases (hardening or furring of the arteries)

*5 Suggests failing myocardium, nephritis and/or stroke

*6 Seen in neurasthenia, neurosis, etc. (exhaustion of the central nervous system)

*7 Cardiac insufficiencies; suggests tuberculosis or other infections

*8 Suggests abnormal relation of blood as seen in anemia, cardiac weakness, tuberculosis, typhoid, septic endocarditis, etc.

*9 Cardiovascular strain; incipient cardiorenal disease

*10 Hyperpiesia (a condition of arterial tension existing prior to cardiovascular changes)

*11 Suggests extreme toxicity; may precede cardiac failure

*12 Suggests thyroid intoxication and/or endocrine dysfunction

*13 When continual, it points to kidney dysfunction, with or without albuminoidal 

*14   Nervous hypertension; look for causes

*15   Points to heart failing