SYSTEM AND METHOD FOR MAPPING THE FUNCTIONAL NERVES INNERVATING THE WALL OF ARTERIES, 3-D MAPPING AND CATHETERS FOR SAME

US 20160081744A1
Filed: 12/01/2015
Published: 03/24/2016
Est. Priority Date: 08/26/2011
Status: Active Grant

First Claim

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1. A method for ablation of renal nerve adjacent to a renal artery of a subject, comprising the steps of:

a. determining the presence of a renal nerve by(i) contacting a first site on the inner renal artery wall with one or more first electrodes;

(ii) applying a first electrical stimulation by introducing electrical current to said first site via said first electrodes, wherein said electrical current is controlled to be sufficient to elicit changes in one or more physiological parameters when there is an underlying nerve at said first site, said one or more physiological parameters are selected from the group consisting of systolic blood pressure, diastolic blood pressure, mean arterial pressure, and heart rate; and

(iii) measuring said one or more physiological parameters after said first electrical stimulation, wherein an increase of said physiological parameters as compared to measurements obtained before said first electrical stimulation would indicate the presence of a renal nerve;

b. contacting a second site on the inner renal artery wall with one or more second electrodes, said second site is proximal to the ostium of said renal artery as compared to said first site;

c. delivering ablation energy to said second site via said second electrodes; and

d. applying a second electrical stimulation to said first site via said first electrodes and measuring said physiological parameters after said second electrical stimulation, wherein no increase of said physiological parameters after said second electrical stimulation indicates ablation of renal nerve in said subject.

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Abstract

Disclosed herein are systems and methods for locating and identifying nerves innervating the wall of arteries such as the renal artery. The present invention identifies areas on vessel walls that are innervated with nerves; provides indication on whether energy is delivered accurately to a targeted nerve; and provides immediate post-procedural assessment of the effect of energy delivered to the nerve. The methods includes evaluating a change in physiological parameters after energy is delivered to an arterial wall; and determining the type of nerve that the energy was directed to (sympathetic or parasympathetic or none) based on the evaluated results. The system includes at least a device for delivering energy to the wall of blood vessel; sensors for detecting physiological signals from a subject; and indicators to display results obtained using said method. Also provided are catheters for performing the mapping and ablating functions.

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20 Claims

1. A method for ablation of renal nerve adjacent to a renal artery of a subject, comprising the steps of:
- a. determining the presence of a renal nerve by(i) contacting a first site on the inner renal artery wall with one or more first electrodes;
  
  (ii) applying a first electrical stimulation by introducing electrical current to said first site via said first electrodes, wherein said electrical current is controlled to be sufficient to elicit changes in one or more physiological parameters when there is an underlying nerve at said first site, said one or more physiological parameters are selected from the group consisting of systolic blood pressure, diastolic blood pressure, mean arterial pressure, and heart rate; and
  
  (iii) measuring said one or more physiological parameters after said first electrical stimulation, wherein an increase of said physiological parameters as compared to measurements obtained before said first electrical stimulation would indicate the presence of a renal nerve;
  
  b. contacting a second site on the inner renal artery wall with one or more second electrodes, said second site is proximal to the ostium of said renal artery as compared to said first site;
  
  c. delivering ablation energy to said second site via said second electrodes; and
  
  d. applying a second electrical stimulation to said first site via said first electrodes and measuring said physiological parameters after said second electrical stimulation, wherein no increase of said physiological parameters after said second electrical stimulation indicates ablation of renal nerve in said subject.

2. The method of claim 1, further comprising repetition of steps (b) to (d) at a new second site if ablation at an original second site did not ablate the renal nerve in said subject.

3. The method of claim 1, wherein prior to delivering ablation energy at step (c), electrical stimulation is applied to said second site by said one or more second electrodes, wherein ablation energy is only delivered when said electrical stimulation elicits an increase of said physiological parameters as compared to measurements obtained before said electrical stimulation.

4. The method of claim 1, wherein said second site is a site within one-third the length of said renal artery adjacent to the ostium.

5. The method of claim 1, wherein said first electrodes and second electrodes are located on a single catheter.

6. The method of claim 1, wherein said first electrodes and second electrodes are located on different catheters.

7. The method of claim 1, wherein said electrical current has one or more of the following parameters:
- (a) voltage between 2 and 30 volts;
  
  (b) resistance between 100 and 1000 ohms;
  
  (c) current between 5 and 40 milliamperes;
  
  (d) time of application between 0.1 and 20 milliseconds; and
  
  (e) total applied time between 1 to 5 minutes.

8. The method of claim 1, wherein said first electrodes or second electrodes are located on a catheter comprising an expandable tip at its distal end.

9. The method of claim 8, wherein said expandable tip when viewed from the distal end has a diameter in the range of 3.5 mm to 20 mm.

10. The method of claim 8, wherein said expandable tip comprises a tubular structure that houses one or more resilient members with pre-formed curvatures, wherein said first or second electrodes are disposed on said one or more resilient members, said one or more resilient members are attached at their proximal ends to a controlling shaft, wherein movement of said controlling shaft causes said one or more resilient members to be pushed out of said tubular structure to resume the pre-formed curvature or retracted into said tubular structure.

11. The method of claim 1, wherein said first or second electrodes are disposed on a section of a catheter having a configuration comprising a spiral having one or more loops.

12. The method of claim 11, wherein said configuration comprises a spiral pyramid with the loops becoming progressively smaller from a proximal end to a distal end.

13. A catheter for mapping and ablating renal nerves distributed on the renal artery, comprising:
- a. a first set of electrodes comprising one or more electrodes configured to deliver one or both of electrical stimulation and ablation energy;
  
  b. a second set of electrodes comprising one or more electrode configured to deliver one or both of electrical stimulation and ablation energy;
  
  wherein said first and second sets of electrodes are located at a distal end of said catheter, said first set of electrodes is nearer to the distal end of said catheter in comparison to said second set of electrodes.

14. The catheter of claim 13, wherein the relative distance between said first set of electrodes and said second set of electrodes can be adjusted.

15. The catheter of claim 13, wherein the distal end of said catheter is in a configuration to enable said first set of electrodes or said second set of electrodes to contact renal artery wall at multiple sites, wherein said configuration when viewed from the distal end has a diameter in the range of 3.5 mm to 20 mm.

16. The catheter of claim 13, wherein said first or second set of electrodes is disposed on said distal end having a configuration comprising a spiral having one or more loops.

17. The catheter of claim 16, wherein said configuration comprises a spiral pyramid with the loops becoming progressively smaller from a proximal end to a distal end.

18. The catheter of claim 13, wherein the distal end of said catheter comprises a tubular structure that houses one or more resilient members with pre-formed curvatures, wherein said first or second set of electrodes is disposed on said one or more resilient members, said one or more resilient members are attached at their proximal ends to a controlling shaft, wherein movement of said controlling shaft causes said one or more resilient members to be pushed out of said tubular structure to resume the pre-formed curvature or retracted into said tubular structure.

19. The catheter of claim 18, further comprises a controlling ring that sheaths said one or more resilient members, wherein movement of said controlling ring along said resilient members controls the extend said one or more resilient members resumes its pre-formed curvature.

20. The catheter of claim 18, further comprises a controlling rod within said controlling shaft, wherein the distal end of said controlling rod is attached to the distal ends of said one or more resilient members, wherein retracting said controlling rod after said one or more resilient members are pushed out of said tubular structure will cause said one or more resilient members to bulge out at their middle.

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Current Assignee
Symap Medical suzhou Ltd
Original Assignee
Symap Holding Limited
Inventors
WANG, Jie

Granted Patent

US 9,820,811 B2
Time in Patent Office

Days
Field of Search
US Class Current

1/1
CPC Class Codes

A61B 18/1492   having a flexible, catheter...

A61B 18/18   by applying electromagnetic...

A61B 2018/00202   rotating

A61B 2018/0022   Balloons

A61B 2018/00267   having a basket shaped stru...

A61B 2018/00404   Blood vessels other than th...

A61B 2018/00434   Neural system

A61B 2018/00511   Kidney

A61B 2018/00577   Ablation

A61B 2018/00791   Temperature

A61B 2018/00839   Bioelectrical parameters, e...

A61B 2018/00875   Resistance or impedance

A61B 2018/1407   Loop

A61B 2018/1435   Spiral

A61B 2018/1475   Electrodes retractable in o...

A61B 5/0036   including treatment, e.g., ...

A61B 5/0205   Simultaneously evaluating b...

A61B 5/0215   by means inserted into the ...

A61B 5/024   Detecting, measuring or rec...

A61B 5/201   Assessing renal or kidney f...

A61B 5/24 : Detecting, measuring or rec...

A61B 5/4833 : Assessment of subject's com...

A61B 5/4893 : Nerves

A61B 5/6852 : Catheters

A61B 5/6853 : with a balloon

A61B 5/7246 : using correlation, e.g. tem...

A61N 1/056 : Transvascular endocardial e...

A61N 1/36117 : for treating hypertension

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SYSTEM AND METHOD FOR MAPPING THE FUNCTIONAL NERVES INNERVATING THE WALL OF ARTERIES, 3-D MAPPING AND CATHETERS FOR SAME

First Claim

4 Assignments

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Abstract

Citations

20 Claims

Specification

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SYSTEM AND METHOD FOR MAPPING THE FUNCTIONAL NERVES INNERVATING THE WALL OF ARTERIES, 3-D MAPPING AND CATHETERS FOR SAME

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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