Want to be a Thriving Medical Service Provider?
Want to be different and make a difference?
Medical Professionals strive to improve the quality of their patient’s lives while helping them reach their ultimate health potential.
So what makes a practice thrive? What makes one health professional different from all of the others in their market area?
Thriving Medical Professionals are integrating various diagnostic tools and “thinking out of the box” to add new dimensions to their practices.
Thriving Medical Professionals make a lasting impression with their first impression.
Use our FDA approved medical screening device called the Max Pulse
The Max Pulse is a FDA Class II medical device that Medical Professionals are adding to their practices. It is accepted by most insurance and serves as an excellent way to potentially double your earning potential.
How do you integrate Nitric Oxide Therapy with the Max Pulse?
Nitric Oxide therapy is steadily being integrated in to medical practices. Nitric Oxide therapy repairs and maintains the health of the endothelium. This is important in cardiovascular health, healing and poor circulation to name a few. The benefit of nitric oxide therapy was discovered in 1998. Its finding was awarded the Nobel Prize in Medicine.
ProArgi9+ has been noted in the 2014-2018 Edition of the Physician Desk Reference as the world’s best pharmaceutical grade l-arginine.
Additional Revenue for Your Practice
Approximately $149.00 reimbursable average. If you screen 30 patients per month @ $149.00, this would increase your income by $4,470 per month.
FIFTY patients per month @ $149 per patient, will increase your income by $7450 per month.
Your device cost could be retired in a very short period of time depending on your patient population.
By also adding neutraceuticals such as ProArgi-9+ your yearly revenue for 600 screenings/year could be increased in excess of $83,400.
The Max Pulse Provides a 3 Minute Test To Detect Arterial Hardening and Stress Levels
The Max Pulse test is non-invasive and uses a photoelectric clip on the fingertip. By measuring the blood at the finger tip, the Max Pulse can graph the heart beat as it moves through systolic and dystolic. As you can probably imagine, if a persons arterials are flexible, the pressure at the finger tip has lots of small deviations as the arteries flex. If a persons arteries are very stiff, the graph becomes very tight and regular. The machine uses a very sophisticated algorithm to track variations in the graph that are not visible to the naked eye, and then interprets those results against a huge body of research. The result is an assessment of arterial hardening and that is very accurate.
In addition to a very accurate assessment of arterial hardening, the final report also shows an index for circulation, indicating if circulation is inhibited. There is a separate result for large arteries, small arteries and capillaries. This information is also very valuable to a practitioner. Larger arterial constriction and arterial hardening at the same time is of course a huge cause for concern.
HOW DOES THE MAX PULSE GET ITS READINGS FROM A FINGER PROBE?
Simplistically, the Max Pulse uses an infrared light finger sensor which implements LEDs as both light emitter and detector to measure one’s pulse wave. A Pulse Wave occurs when the heart pumps and it generates a contour wave that travels along the arterial tree. The wave form is generated from the left ventricular chamber of the heart to the big aorta, and is reflected back when the big aorta bifurcates or divides into two arteries. The Max Pulse then uses pulse-based signal conversion techniques and converts the wave into a digital signal. The digital signal can then be broken down using a variety of mathematical algorithms. Some of the algorithms which are used are Time Domain Analysis (TDA) and Frequency Domain Analysis (FDA). TDA measures the RR interval variation in the time domain. FDA uses the Fourier Transformation (FFT) to access the frequencies and amplitude of the oscillatory components hidden in the variability signal.
WHAT IS A PHOTOPLETHYSMOGRAPH? Photoplethysmography measures one’s pulse wave signal that indicates pulsation of the chest wall and great arteries followed by the heartbeat. The change in volume caused by the pressure pulse is detected by illuminating the skin with the light from a LED and then measuring the amount of light either transmitted or reflected to a photodiode. Each cardiac cycle appears as a peak. Photoplethysmographs have been around for over 25 years and are currently being used in many clinical applications. Photoplethysmography is classified into two groups in terms of physical characteristics of parameters. One is “pressure Photoplethsmography”, which represents the change of intravascular pressure. The other is “volume capacity Photoplethysmography”, which indicates the change of vascular volume capacity. Volume Capacity Photoplethysmography is then classified into three categories by signal processing method for velocity. The categories are Photoplethysmography (PTG), Velocity Pulse Photoplethysmography, and Accelerated Photoplethysmography (APG). The Max Pulse uses PTG and APG analysis.