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Frequently Asked Questions

How does the TM Flow device enhance patient care for older adults and those with a history of smoking or circulation problems?2024-06-26T20:24:37+00:00

For older adults and individuals with a history of smoking or circulation problems, the TM Flow device is particularly beneficial. It performs the ankle-brachial index (ABI) test, which is recommended by the American Heart Association for adults aged 50+ with such histories and all adults over 70 years old. This test helps in the early detection of peripheral artery disease (PAD), enabling timely management and treatment. The TM Flow device’s comprehensive assessments ensure that patients receive accurate diagnoses and appropriate care, improving overall health outcome.

What are the benefits of using the TM Flow device in a medical practice?2024-06-26T20:24:23+00:00

The TM Flow device offers numerous benefits for medical practices, including non-invasive and accurate testing, early detection of autonomic and arterial dysfunctions, and comprehensive diagnostics that reduce the overall cost of patient care. Additionally, the device’s tests are easy to bill with multi-code diagnostics, making it a valuable investment for enhancing patient care and optimizing practice efficiency. It also supports compliance with standards of care recommended by leading health organizations.

Is the TM Flow device covered by insurance?2024-06-26T20:24:12+00:00

Yes, the TM Flow device is covered by Medicare and most private pay carriers. Specific CPT codes, such as 95921 for cardiovagal innervation and 93923 for ankle-brachial pressure index, ensure that the diagnostics are easy to bill. Coverage and reimbursements may vary depending on the Medicare locality, but the comprehensive diagnostics offered by the TM Flow device are widely recognized and supported by insurance providers.

Why is autonomic nervous system testing important for diabetes and cardiovascular patients?2024-06-26T20:23:56+00:00

Autonomic nervous system testing is crucial for diabetes and cardiovascular patients because it helps in the early detection of autonomic neuropathy, which is a common complication in these conditions. Early detection through ANS testing allows for timely intervention and management, reducing the risk of further complications. The American Diabetes Association recommends ANS testing as a standard of care for patients with Type 1 and Type 2 diabetes, highlighting its importance in effective diabetes management.

What is the TM Flow device and how does it work?2024-06-26T20:23:37+00:00

The TM Flow device is an advanced, non-invasive diagnostic tool designed to perform a series of tests that aid in the identification and early detection of autonomic nervous system (ANS) and arterial dysfunctions. It provides quantitative assessments of the ANS, helping to distinguish between early and late stages of autonomic neuropathy. The TM Flow device is particularly valuable for cardiovascular and diabetic autonomic neuropathy (DAN) testing, making it an essential tool in diabetes management and cardiovascular assessments.

TM Flow in St Paul

DPN is a common complication of diabetes that occurs when high blood sugar over time damages the nerves and blood vessels in your legs and feet. As DPN progresses, it can cause numbness, tingling, pain, muscle weakness, and loss of sensation in your feet. These symptoms may make it difficult to walk or work. If you have nerve damage in your feet because of diabetes (also called peripheral neuropathy) or another condition, the doctor may recommend using special shoes to help prevent foot injury or ulcers.

Normal discharge of nerve impulses acts like a back-gate for other signals to the brain.

When you think of neurons, the first thing that comes to mind would be their role in transmitting signals through your nervous system. This is because nerve impulses are like back-gates for other signals to transmit through. The various types of nerve impulses include:

  • Sensory impulses – These are transmitted from your skin and other organs (e.g., ears) to your brain.
  • Motor impulses – These are transmitted from your brain to muscles and other organs (e.g., heart).
  • Interneuronal inhibitory neurotransmitters or endorphins – These are released by the body for pain relief or relaxation purposes; these neurotransmitters act as modulators for motor neurons located in spinal cord segments below a certain level (e.g., T8-L2).

In the early stages of neuropathy, the electrical conduction of the peripheral nerve is reduced but not completely lost.

In the early stages of neuropathy, the electrical conduction of the peripheral nerve is reduced but not completely lost. There is a loss of ability to conduct electricity in the nerve fibers. The nerve fibers are damaged, but not completely lost.

In certain cases, this slow response can be followed by a second faster response.

In certain cases, a slow response is followed by a second fast response. This indicates that the nerve has recovered from any transient injury and is functioning normally again. In other words, your nerve has just been temporarily injured but it’s now back to normal! Similarly, if you have a slow response that doesn’t resolve itself into a faster one, this may be an indication of permanent damage (especially if it doesn’t happen with the other limb). To help rule out all possible causes of nerve damage (such as compression or scar tissue), make sure you see your physician as soon as possible.

The Sudomotor Response Test (SRT) measures the number and amplitude of electrical responses emanating from sweat glands located in the skin.

The SRT measures the number and amplitude of electrical responses emanating from sweat glands located in the skin. Sweat glands are distributed throughout your body, but in general there are more on your palms and soles.

The test can be administered with a portable device called an electrodermal activity monitor (EDAM). The EDAM is attached to your wrist or forearm with velcro straps and electrodes connected to it by wires. You then place a small amount of conductive paste on selected areas of your skin such as fingers or toes where you expect to see changes in your sudomotor activity during stressful situations.

Two channels of electrodermal activity are recorded and quantified by measuring the amplitude and frequency of response, called SUDOSCAN®.

The Scanning Electrodermal Unit (SUDOSCAN®) is a patented technology that measures skin electricity.

The SUDOSCAN® is a non-invasive test and measures electrical activity of the sweat glands by measuring the amplitude and frequency of response, called SUDOSCAN®.

Chronic hyperglycemia causes damage to many organs including nerves and small blood vessels leading to diabetic peripheral neuropathy (DPN).

Chronic hyperglycemia causes damage to many organs including nerves and small blood vessels leading to diabetic peripheral neuropathy (DPN). Peripheral nerves involved in regulation of sweat production can also suffer damage due to chronic hyperglycemia.

In this article, we’ll explore what happens when a person has a high sugar level in their body over long periods of time, how it affects their health, and what they can do about it.

Peripheral nerves involved in regulation of sweat production can also suffer damage due to chronic hyperglycemia.

Peripheral nerves involved in regulation of sweat production can also suffer damage due to chronic hyperglycemia. This is one of many ways that diabetic neuropathy occurs, and it’s a large and complex problem. It’s believed that complications from diabetic neuropathy are progressive, meaning they get worse over time.

Diabetic neuropathy is often difficult to diagnose because there aren’t any specific tests for it. The only way to test for this condition is by looking at your symptoms and ruling out other conditions that might cause similar problems, like multiple sclerosis or Guillain-Barré syndrome. If you have any other symptoms associated with these diseases on top of your diabetes-related issues, then we’d recommend seeing a doctor right away!

TM Flow Test is capable of diagnosing not only severity but also early stage of diabetic peripheral neuropathy.

To diagnose DPN, one has to perform a TM Flow Test. TM Flow Test is capable of diagnosing not only severity but also early stage of diabetic peripheral neuropathy. Diagnosing DPN symptoms over time will help you determine the type of treatment that is necessary for your condition and early detection is crucial to take necessary steps to prevent further progression of Diabetic Peripheral Neuropathy.

Early detection is crucial to take necessary steps to prevent further progression of Diabetic Peripheral Neuropathy.

Early detection is crucial to take necessary steps to prevent further progression of Diabetic Peripheral Neuropathy. The sooner you detect it, the better your chances are at preventing further progression. Early detection can help you get the right treatment at the right time. This will reduce your risk of further complications and improve your quality of life overall.

Non-invasive process for diagnosis and monitoring DPN symptoms over time

  • Non-invasive process for diagnosis and monitoring DPN symptoms over time
  • Quickly and painlessly measures the nerve conduction rate, which is used in diagnosing and monitoring peripheral neuropathy.
  • Results are immediate, so you can begin treatment as soon as possible.
  • Can be performed by a doctor or nurse practitioner in the office or at home.

Conclusion

TM Flow Test is a non-invasive process for diagnosis and monitoring DPN symptoms over time. This test can be helpful to the patients in taking necessary steps to prevent further progression of DPN.

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