METHODS FOR TREATING ALZHEIMER'S DISEASE

Abstract

A method and system for treating Alzheimer's disease wherein blood, spinal fluid or brain cavity fluid is circulated into and outside of the body by means of blood pumps or other external circulatory systems. While passing through the pumping system, the amyloid plaques and Tao tangles are filtered from the fluids and returned to the body lowering the protein levels, and in the process, reduce symptoms. In one embodiment a patient's blood is filtered using a pump to circulate the blood from the patient to the collection vessel where an electrical current will cause anything that has a positive charge to be attracted to a cathode plate suspended in the collection vessel for later disposal. In an alternate embodiment a patient's brain and/or spinal fluid a pump operates to circulate a flushing fluid. The pump will circulate the solution from the collection vessel to the patient.

Description

BACKGROUND OF THE DISCLOSURE

The present disclosure relates generally to methods for treating Alzheimer's disease and more particularly to an electrochemical method of removing amyloid plaques and Tau tangles from the blood stream or from fluids circulating in and around brain tissues.

Alzheimer's is a type of dementia that affects memory, thinking and behavior. Symptoms eventually grow severe enough to interfere with daily tasks. Alzheimer's worsens over time. Alzheimer's is a progressive disease, where dementia symptoms gradually worsen over a number of years.

In early stages of Alzheimer's disease memory loss is mild, but with late-stage Alzheimer's, individuals lose the ability to carry on a conversation and respond to their environment. Alzheimer's is the sixth-leading cause of death in the United States. On average, a person with Alzheimer's lives 4 to 8 years after diagnosis but can live as long as 20 years, depending on other factors. Alzheimer's has no cure, but there is ongoing research into the potential for pharmaceutical therapies to remove amyloid plaques, one of the hallmarks of Alzheimer's disease. It is believed that removal of such plaques from the brain may be reasonably likely to reduce cognitive impairment and functional decline in people living with early Alzheimer's. However, to date, no such therapies have been proven successful.

Accordingly, there is a worldwide effort underway to find better ways to treat the disease, delay its onset and/or prevent it from developing. There is therefore a need for an effective method of removing amyloid plaques from the blood stream. There is a further need for an effective method of removing Tau tangles from the blood stream.

BRIEF SUMMARY OF THE DISCLOSURE

In this regard, it is an objective of the present disclosure to provide a means by which the body's natural electrochemical state can assist with an electrochemical deposition system for the removal of plaque from the brain, blood and spinal fluid. Amyloid Plaque and Tau Tangles are two protein molecules that are naturally occurring in the brain, blood and spinal fluid. It is reasonably certain that the accumulation of these proteins disrupts the part of the brain cells that channel the distribution of electrical signals. As noted above, there is ongoing research that suggests that removing these proteins may be a way of reducing Alzheimer's symptoms.

As generally known in electrochemical processes, current flow is from positive (anode) to negative (cathode). In a system having a positively charged body and a blood or other fluid containing positively charged plaques or proteins, the positively charged particles will be electrochemically attracted to a cathode for removal to a cathode plate contained in a collection vessel.

Extracorporeal removal of pathogens or pathogen-related molecules is an upcoming scientifically investigated adjunct to the current palette of treatment options for known blood diseases and infections. Several membranes and filters with a specific binding profile are currently available for clinical use in available blood filtering systems.

In the present disclosure, blood, spinal fluid or a brain cavity flushing fluid may be circulated into and outside of the body (extracorporeally) by means of blood pumps or other external circulatory systems. While passing through the pumping system, the amyloid plaques and Tao tangles are filtered from the fluids and returned to the body lowering the protein levels, and in the process, reduce symptoms.

In a first embodiment a patient's blood is filtered using a pump to circulate the blood from the patient to the collection vessel where an electrical current will cause anything that has a positive charge to be attracted to a cathode plate suspended in the collection vessel for later disposal.

In an alternate embodiment a patient's brain and/or spinal fluid a pump operates to circulate a flushing fluid. The pump will circulate the solution from the collection vessel to the patient. Since the solution has a negative charge (cathode), plaque/protein, which is attached to the brain cells is charged positive (anode), the plaque will be electrochemically attracted to the cathode and delivered to the metal cathode plate in the collection vessel.

It is therefore an object to provide for an effective method of removing amyloid plaques from the blood stream. It is a further object to provide for an effective method of removing Tau tangles from the blood stream. It is still a further object to provide an electromechanical method of removing amyloid plaques and Tau tangles from the blood stream or from fluids circulating in and around brain tissues.

These together with other objects of the disclosure, along with various features of novelty which characterize the disclosure, are pointed out with particularity in the claims annexed hereto and forming a part of this disclosure. For a better understanding of the disclosure, its operating advantages and the specific objects attained by its uses, reference should be had to the accompanying drawings and descriptive matter in which there are illustrated preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings which illustrate the best mode presently contemplated for carrying out the present disclosure:

FIG. 1 is a schematic illustration of a method and system for filtering and removing amyloid plaques and/or Tau tangles from the blood stream of a patient; and

FIG. 2 is a schematic illustration of a method and system for filtering and removing amyloid plaques and/or Tau tangles from the brain fluid and/or spinal fluid of a patient.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

Now referring to the drawings, FIGS. 1 and 2 illustrate generally a method and system for treating Alzheimer's disease and more particularly an electrochemical method of removing amyloid plaques and Tau tangles from the blood stream or from fluids circulating in and around brain tissues. As will be described in further detail below, in a first embodiment a patient's blood is filtered using a pump to circulate the blood from the patient to the collection vessel where an electrical current will cause anything that has a positive charge to be attracted to a negative cathode plate suspended in the collection vessel for later disposal. In an alternate embodiment a patient's brain and/or spinal fluid a pump operates to circulate a flushing fluid. The pump will circulate the solution from the collection vessel to the patient.

The present disclosure provides a means by which the body's natural electrochemical state can assist with an electrochemical deposition system for the removal of plaque from the brain, blood and spinal fluid. Amyloid Plaque and Tau Tangles are two protein molecules that are naturally occurring in the brain, blood and spinal fluid. It is reasonably certain that the accumulation of these proteins disrupts the part of the brain cells that channel the distribution of electrical signals. As noted above, there is ongoing research that suggests that removing these proteins may be a way of reducing Alzheimer's symptoms.

As generally known in electrochemical processes, current flow is from positive (anode) to negative (cathode). It is known that plaques and proteins are positively charged. The system of the present disclosure employs a negatively charged body (cathode) over which blood or other fluid containing the positively charged plaques or proteins are transported. As a result, the positively charged particles are electrochemically attracted to the cathode for removal to a cathode plate contained in a collection vessel.

Extracorporeal removal of pathogens or pathogen-related molecules is an upcoming scientifically investigated adjunct to the current palette of treatment options for known blood diseases and infections. Several membranes and filters with a specific binding profile are currently available for clinical use in available blood filtering systems.

In the present disclosure, blood, spinal fluid or a brain cavity flushing fluid may be circulated into and outside of the body (extracorporeally) by means of blood pumps or other external circulatory systems. While passing through the pumping system, the amyloid plaques and Tao tangles are filtered from the fluids and returned to the body lowering the protein levels, and in the process, reduce symptoms.

Turning now to FIG. 1, a first method and system is illustrated for the filtering of blood. A positive lead (anode) 12 extending from a low voltage/low current DC power source 14 positive lead (anode), is connected to the patient's body 16. A negative lead (cathode) 18 also extends from the low voltage/low current DC power source 14 and is connected to a metal plate 20 suspended from the center of a collection vessel 22.

Two ports are provided in the collection vessel, one port contains an IV tube 24 connected to the inlet for a pump 26. Another IV tube 28 is connected to an outlet of the pump 26 and then to the patient's vein 30. The other port contains an IV tube 32 connected to an artery 34. It should be appreciated that while two IV tubes 24, 28 are described many pumps 26 operate such that a continuous IV tube is directed through the pump body and as such the IV tubes 24, 28 may be a single continuous IV tube.

In some embodiments, a positron emission tomography dye (PET) Imaging Marker may be added to the patient's blood that binds to the plaques to be removed to facilitate the removal of plaque and imaging to confirm the plaque has been removed.

In operation, the pump 26 circulates blood from the patient 16 to the collection vessel 22. The current at the anode 18 plate 20 causes anything that has a positive charge (patient is the anode) to be attracted to the cathode plate 20 suspended in the collection vessel 22 for later disposal. Since the travel of direct current is from positive (anode) to negative (cathode), any debris (plaques, proteins, etc.) attached to the body organs not belonging there, will be electromagnetically attracted to the cathode 18 plate 20 suspended in the collection vessel 22.

Turning now to FIG. 2, an alternate method and system is illustrated for the filtering and or flushing of brain and/or spinal fluid.

A positive lead (anode) 12 extending from a low voltage/low current DC power source 14 positive lead (anode), is connected to the patient's body 16, preferably at the patient's head. A negative lead (cathode) 18 also extends from the low voltage/low current DC power source 14 and is connected to a metal plate 20 suspended from the center of a collection vessel 22.

Two ports are provided in the collection vessel, one port contains an IV tube 24 connected to the inlet for a pump 26. Another IV tube 28 is connected to an outlet of the pump 26 and then to a first hole drilled in the patient's skull to allow electrolytic flushing solution to enter. The other port contains an IV tube 32 connected to a second hole drilled in the patient's skull thereby allowing exit of the flushing fluid. It should be appreciated that while two IV tubes 24, 28 are described many pumps 26 operate such that a continuous IV tube is directed through the pump body and as such the IV tubes 24, 28 may be a single continuous IV tube.

In some embodiments, a positron emission tomography dye (PET) Imaging Marker may be added to the flushing fluid that binds to the plaques to be removed to facilitate the removal of plaque and imaging to confirm the plaque has been removed.

In operation, the pump 26 circulates electrolyte solution to the patient 16 to flush the plaques and proteins to the collection vessel 22. The current at the anode 18 plate 20 causes anything that has a positive charge (patient is the anode) to be attracted to the cathode plate 20 suspended in the collection vessel 22 for later disposal. Since the travel of direct current is from positive (anode) to negative (cathode), any debris (plaques, proteins, etc.) attached to the body organs not belonging there, will be electrochemically attracted to the cathode 18 plate 20 suspended in the collection vessel 22.

After this procedure is completed, a suction drain is employed to remove the electrolyte solution and the brain is flushed clear of liquid.

It can therefore be seen that the present disclosure provides an effective method of removing amyloid plaques and/or Tau tangles from the blood stream. Further, the present disclosure provides an electromechanical method of removing amyloid plaques and Tau tangles from the blood stream or from fluids circulating in and around brain tissues. For these reasons, the present disclosure is believed to represent a significant advancement in the art, which has substantial commercial merit.

While there is shown and described herein certain specific structure embodying the invention, it will be manifest to those skilled in the art that various modifications and rearrangements of the parts may be made without departing from the spirit and scope of the underlying inventive concept and that the same is not limited to the particular forms herein shown and described except insofar as indicated by the scope of the appended claims.

Claims

1. A method for treating Alzheimer's disease, comprising: providing a system comprising: a DC power supply with an anode lead and cathode lead extending therefrom;a collection container having an inlet with inlet tubing extending therefrom, an outlet with outlet tubing extending therefrom and a collection plate therein; anda pump to circulate a fluid through said collection container;connecting said cathode lead to said collection plate;connecting said anode lead to a patient to be treated;connecting said inlet and outlet tubing to said patient to be treated;applying a predetermined voltage and amperage across said anode lead and said cathode lead from said DC power supply;circulating said fluid from said patient through said collection container for electromagnetic removal of positively charged debris particles on said collection plate andreturning said fluid back to said patient.

2. The method of claim 1, wherein said circulating fluid is selected from the group consisting of: blood, brain fluid, spinal fluid and an electrolyte solution.

3. The method of claim 1, wherein treatment of said fluid consists of passing said fluid over said collection plate wherein a negative charge on said collection plate attracts undesirable positively charged debris particles from said fluid.

4. The method of claim 3, wherein said undesirable positively charged debris particles consist of amyloid plaques and/or Tau tangles.

5. The method of claim 1, wherein said fluid is blood and said inlet tube is connected to an artery in the patient to be treated and said outlet tube is connected to a vein of the patient to be treated.

6. The method of claim 1, wherein said fluid is an electrolyte flushing solution and said inlet tube is connected to a first hole in the skull of the patient to be treated and said outlet tube is connected to a second hole in the skull of the patient to be treated.

7. The method of claim 1, further comprising: adding a positron emission tomography (PET) dye to the circulating fluid,wherein said PET dye binds to said debris particles allowing confirmation of their removal.

8. A system for treating Alzheimer's disease, comprising: a DC power supply with an anode lead and cathode lead extending therefrom;a collection container having an inlet with inlet tubing extending therefrom, an outlet with outlet tubing extending therefrom and a collection plate therein, said cathode lead connected to said collection plate; anda pump configured to circulate a fluid from a subject to be treated through said inlet and outlet tubing and said collection container;wherein positively charged debris particles are removed from said fluid onto said collection plate.

9. The system of claim 8, wherein said circulating fluid is selected from the group consisting of: blood, brain fluid, spinal fluid and an electrolyte solution.

10. The system of claim 8, wherein treatment of said fluid consists of passing said fluid over said collection plate wherein a negative charge on said collection plate attracts undesirable positively charged debris particles from said fluid.

11. The system of claim 10, wherein said undesirable debris particles consist of amyloid plaques and/or Tau tangles.

12-13. (canceled)

14. The system of claim 8, further comprising a positron emission tomography (PET) dye, wherein said PET dye is added to the circulating fluid that binds to debris particles allowing confirmation of their removal.