Parkinsons Help

CREATING HealABILITY For Parkinson’s

Much of today’s treatment of parkinson’s conditions is based on protocols established two decades ago. These are standard plans that do not always produce the best results. The focus is on an accepted methods but do not always give consideration to the unique individual before them.

At our facility we have developed the Biomedicine Health Systems approach to improve functional neural metabolic imbalances/ deficits along with lowering a persons allostatic stress load. We have found this approach provides extremely positive improvements for those individuals who qualify as good candidates for this process. The purpose is to identify and measure a persons allostatic stress load/ nervous system overload and individualize a plan of action aimed to raise healABILITY for each individual patient.

 

Please click here to learn more about Translational Medicine.

 

Instead of dealing with parkinson’s symptoms as an individual issue, we look for the interconnection between the various systems in the body and how they interrelate to one another to influence one another. You can expect more extensive evaluation and testing than found at other facilities.

For those individuals found to be good candidates for our treatment we hope to achieve:

  • Improved energy
  • Balanced immune function
  • Better hormones
  • Enhanced brain function
  • Ease of movement
  • Tremor reduction
  • Weight loss
  • Unstoppable energy
  • Decreased pain
  • Less depression and anxiety
  • Reduced bipolar fluxuation
  • Proper gastro intestinal functions
  • Fewer sleep deprivations
  • Blood stabilization
  • Heart attack risk reduction
  • Improved bone density
  • Clear thinking

Patients with Parkinson’s who follow the standard treatment model typically progress to the final stage of the disease within 8–10 years.

This highlights an urgent issue facing society today- Parkinson’s disease and whether it can truly be healed. Alarming numbers of individuals in their 30s and 40s are now being diagnosed with Parkinson’s or Parkinsonism, and we must question why this is occurring. While many assume the condition is primarily genetic, research shows that only about 5% of all illnesses, including Parkinson’s, can be directly traced to inherited genes.

Early warning signs may include hand tremors, unusually small handwriting, a reduced sense of smell, sleep disturbances, and stiffness while moving or walking. These can appear as early as one’s 20s or 30s but are often overlooked until the disease has advanced. Additional symptoms may involve trouble speaking or swallowing, a blank or rigid facial expression, dizziness, fainting spells, and poor posture—classic indicators of neurodegeneration. Constipation and mood-related disorders are also common, and many of my patients reported these symptoms decades before being formally diagnosed.

Typical therapies for Parkinson’s generally involve medications, but these often cause a steady decline over time. According to the Blaylock Wellness Report, many patients notice worsening symptoms just two to five years after starting drug therapy. That’s because these treatments don’t resolve the root problem; instead, they temporarily replace lost dopamine with L-dopa. Over time, the drugs can even worsen the condition since they fail to address why the brain stopped producing dopamine in the first place—essentially serving as a short-term patch rather than a solution.

Other approaches, such as stem cell therapy or deep brain stimulation, are also used but come with high risks, significant costs, and potential complications. While some patients may see short-lived improvements, evidence shows that long-term benefits remain minimal.

This is where Neuro-Biomedicine takes a different path. In my practice, we look at the whole picture to uncover the underlying reasons for brain degeneration. We examine the brain, spinal cord, nervous system, and biochemistry, as well as systemic inflammation, which can damage blood-rich areas of the brain like the basal ganglia and temporal lobes- critical regions tied to neurodegenerative disorders.

Neurodegeneration involves much more than dopamine alone. Healthy brain function relies on proper receptor activity, oxygen, and steady blood sugar levels. Many people suffer from unrecognized anemia or unstable blood sugar, both of which impair brain performance. Problems with liver detoxification, essential fatty acid imbalances, and low glutathione are also major contributors. Since 85% of the immune system resides in the gut, poor gut health can trigger inflammation that spreads to the brain. In addition, methylation- the process of attaching methyl groups to molecules- is essential for energy, neurological performance, and immune defense. Bioelectric disturbances can also play a role in brain decline.

Our approach is centered on uncovering and correcting the root functional causes of neurodegeneration instead of masking symptoms with drugs. Ultimately, there are two choices: follow the typical route with medications that may offer temporary relief but often speed up decline, or investigate the true sources of nervous system stress overload/ brain degeneration and create a personalized Neuro-Biomedicine plan to optimize function and promote long-term health for each individual