Transmural ablation systems and methods

US 7,959,626 B2
Filed: 07/20/2007
Issued: 06/14/2011
Est. Priority Date: 04/26/2001
Status: Active Grant

First Claim

Patent Images

1. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:

applying ablation energy at a first power to the tissue site;

monitoring, impedance of the tissue site;

reducing the ablation energy applied to the tissue site to a second power in response to a rise in impedance; and

reducing the ablation energy applied to the tissue site to a second power in response to a rise in impedance only if a rise blanking period has been met.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A method of applying ablation energy to achieve transmurality including applying ablation energy at a starting power to a tissue site and monitoring the impedance of the tissue site. The power applied to the tissue site can be increased in response to detection of a power plateau or application of a first power for a minimum time according to some embodiments. A power applied to the tissue site can be reduced in response to an increase in impedance according to some embodiments. Transmurality can be indicated in response to a transmurality plateau following a rise in impedance according to some embodiments.

772 Citations

12 Claims

1. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a first power to the tissue site;
  
  monitoring, impedance of the tissue site;
  
  reducing the ablation energy applied to the tissue site to a second power in response to a rise in impedance; and
  
  reducing the ablation energy applied to the tissue site to a second power in response to a rise in impedance only if a rise blanking period has been met.

2. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a first power to the tissue sitemonitoring impedance of the tissue site;
  
  reducing the ablation energy applied tissue site to a second power in response to a rise in impedance; and
  
  monitoring total ablation energy and terminating delivery of ablation energy if the total ablation energy exceeds a preset minimum following a rise in impedance.

3. A method of applying ablation energy to achieve transmurality at a tissue site. the method comprising:
- applying ablation energy at a first power to the tissue site;
  
  monitoring impedance of the tissue site;
  
  reducing the ablation energy applied to the tissue site to a second power in response to a rise in impedance; and
  
  determining a rate of increase in impedance and assigning the rate of increase in impedance to one of at least three levels.
- View Dependent Claims (4)
- - 4. The method of claim 3, wherein the second power is selected based on the assigned level.

5. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a first power to the tissue sitemonitoring impedance of the tissue site;
  
  reducing the ablation energy a lied to the tissue site second power in response to a rise in impedance; and
  
  indicating transmurality in response to detecting a rise in the monitored impedance of the tissue site occurring after a minimum total energy, E_min, has been delivered.

6. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a first power to the tissue site;
  
  monitoring impedance of the tissue site;
  
  reducing the ablation energy applied to the tip sue site to a second power in response to a rise in impedance; and
  
  indicating transmurality in response to detecting a rise in a temperature of the tissue site occurring after a minimum total energy, E_min, has been delivered.

7. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a first power to the tissue site;
  
  monitoring impedance of the tissue site;
  
  increasing the ablation energy applied to the tissue site to a second power in response to a rise in impedance; and
  
  increasing the ablation energy applied to the tissue site to a third power in response to a power plateau only if ablation energy has been applied to the tissue site at the second power for a minimum time.

8. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applving ablation energy at a starting power level to the tissue site;
  
  monitoring an impedance of the tissue site;
  
  increasing the ablation energy applied to the tissue site to a second power level in response to at least one of detection of a power plateau and application of the ablation energy at the starting power level for a minimum time;
  
  reducing the ablation energy applied to the tissue site to a third power level in response to an increase in the impedance of the tissue site; and
  
  indicating transmuralitv in response to a transmurality plateau following a rise in impedance;
  
  wherein the ablation energy applied to the tissue site is increased to the second power level only after ablation energy has been applied at the starting power level for the minimum time; and
  
  wherein the minimum time applies only if the starting power level has been previously decreased.

9. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a starting level to the tissue site;
  
  monitoring an impedance of the tissue site;
  
  increasing the ablation energy applied to the tissue site to a second power level in response to at least one of detection of a power plateau and application of the ablation energy at the starting power level for a minimum time;
  
  reducing the ablation energy applied to the tissue site to a third power level in response to an increase in the impedance of the tissue site;
  
  indicating transmurality in response to a transmurality plateau following a rise in impedance; and
  
  monitoring total ablation energy delivered, and indicating transmurality if the total ablation energy delivered exceeds a preset minimum following the rise in impedance.

10. A method of applying ablation energy to achieve transmurality at a tissue site, the method comprising:
- applying ablation energy at a starting power level to the tissue site;
  
  monitoring an impedance of the tissue site;
  
  increasing the ablation energy applied to the tissue site to a second power level in response to at least one of detection of a power plateau and application of the ablation energy at the starting power level for minimum time;
  
  reducing the ablation energy applied tissue site to a third power level in response to an increase in the impedance of the tissue site;
  
  indicating transmurality in response to a transmurality plateau following a rise in impedance; and
  
  deteimining a rate of increase in impedance and assigning the rate of increase in impedance to one of at least three levels.
- View Dependent Claims (11)
- - 11. The method of claim 10, wherein the reduction in power is selected based on the assigned level.

12. A. system for assessing transmurality of an ablation procedure being at a tissue site. the system comprising:
- a sensor that determines impedance of the tissue site;
  
  a controller adapted to communicate with the sensor to monitor the impedance of the tissue site;
  
  the controller being adapted to increase ablation energy applied to the tissue site to a second power level in response to at least one of detection by the sensor of a power plateau and application of ablation energy at a first power level for a minimum time;
  
  the controller being adapted to reduce ablation energy applied to the tissue site to a third power level in response to an increase in impedance of the tissue site;
  
  the controller being further adapted to indicate transmurality in response to a transmurality plateau following a rise in impedance of the tissue site; and
  
  wherein the controller indicates transmurality in response to a total ablation energy provided exceeding a preset minimum following a rise in impedance.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Medtronic Incorporated (Medtronic Plc)
Original Assignee
Medtronic Incorporated (Medtronic Plc)
Inventors
Hong, Jinback, Stewart, Mark T., Francischelli, David E.
Primary Examiner(s)
Gibson; Roy D
Assistant Examiner(s)
DELLA, JAYMI E

Application Number

US11/780,911
Publication Number

US 20080015562A1
Time in Patent Office

1,425 Days
Field of Search

606/34, 606 37- 38
US Class Current

606/34
CPC Class Codes

A61B 18/1206   Generators therefor

A61B 18/14   Probes or electrodes therefor

A61B 18/1442   Probes having pivoting end ...

A61B 2017/00092   using thermocouples

A61B 2018/0016   Energy applicators arranged...

A61B 2018/00351   Heart

A61B 2018/00363   Epicardium

A61B 2018/00577   Ablation

A61B 2018/00666   using a threshold value

A61B 2018/00678   upper

A61B 2018/00702   Power or energy

A61B 2018/00708   switching the power on or off

A61B 2018/00761   Duration

A61B 2018/00791   Temperature

A61B 2018/00875   Resistance or impedance

A61B 2018/00886   Duration

A61B 2018/1467   using more than two electro...

A61B 2218/002   Irrigation

A61B 5/053   Measuring electrical impeda...

A61B 5/7203   for noise prevention, reduc...

Transmural ablation systems and methods

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

772 Citations

12 Claims

Specification

Solutions

Use Cases

Quick Links

Transmural ablation systems and methods

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

772 Citations

12 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links