Boston Scientific
COGNIS 100-D System Guide
System Guide
298 Pages
Preview
Page 1
SYSTEM GUIDE
COGNIS™ 100–D CARDIAC RESYNCHRONIZATION THERAPY HIGH ENERGY DEFIBRILLATOR REF N106, N107, N108
Part 1 of 2
ABOUT THIS MANUAL Boston Scientific Corporation acquired Guidant Corporation in April 2006. During our transition period, you may see both the Boston Scientific and Guidant names on product and patient material. As we work through the transition, we will continue to offer doctors and their patients technologically advanced and high quality medical devices and therapies. The text conventions discussed below are used throughout this manual. PRM KEYS
The names of Programmer/Recorder/Monitor (PRM) keys appear in capital letters (e.g., PROGRAM, INTERROGATE).
1., 2., 3.
Numbered lists are used for instructions that should be followed in the order given.
•
Bulleted lists are used when the information is not sequential.
The screen illustrations used in this manual are intended to familiarize you with the general screen layout. The actual screens you see when interrogating or programming the pulse generator will vary based on the model and programmed parameters. A complete list of programmable options is provided in the appendix ("Programmable Options" on page A-1). The actual values you see when interrogating or programming the pulse generator will vary based on the model and programmed parameters. The following acronyms may be used in this System Guide: A: ABM: AF: AFib: AFR: AGC: AIVR:
Atrial Autonomic Balance Monitor Atrial Fibrillation Atrial Fibrillation Atrial Flutter Response Automatic Gain Control Accelerated Idioventricular Rhythm
The following are trademarks of Boston Scientific or its affiliates: AUTONOMIC BALANCE MONITOR, COGNIS, CONTAK CD, EASYTRAK, ENDOTAK, RENEWAL, RHYTHM ID, SmartDelay, VITALITY, ZIP.
AT: ATP: ATR: AV: BiV: BCL: BOL: CPR: CRT: CRT-D: ECG: DFT: EAS: EF: EGM: EMI: EP: HE: HRV: IBP: IC: ICD: LRL: LV: LVPP: LVRP: MI: MPR: MRI: MSR: MTR: NSR: PAC: PAT: PES: PMT: PRM: PSA: PVARP: PVC: RADAR: RF: RTTE:
Atrial Tachycardia Antitachycardia Pacing Atrial Tachy Response Atrioventricular Biventricular Burst Cycle Length Beginning of Life Cardiopulmonary Resuscitation Cardiac Resynchronization Therapy Cardiac Resynchronization Therapy Defibrillator Electrocardiogram Defibrillation Threshold Electronic Article Surveillance Ejection Fraction Electrogram Electromagnetic Interference Electrophysiology; Electrophysiologic High Energy Heart Rate Variability Indications-Based Programming Industry Canada Implantable Cardioverter Defibrillator Lower Rate Limit Left Ventricular Left Ventricular Protection Period Left Ventricular Refractory Period Myocardial Infarction Maximum Pacing Rate Magnetic Resonance Imaging Maximum Sensor Rate Maximum Tracking Rate Normal Sinus Rhythm Premature Atrial Contraction Paroxysmal Atrial Tachycardia Programmed Electrical Stimulation Pacemaker-Mediated Tachycardia Programmer/Recorder/Monitor Pacing System Analyzer Post-Ventricular Atrial Refractory Period Premature Ventricular Contraction Radio Detection and Ranging Radio Frequency Radio and Telecommunications Terminal Equipment
RV: RVRP: SCD: SRD: SVT: TARP: TENS: V: VFib: VF: VRP: VRR: VT: VTR:
Right Ventricular Right Ventricular Refractory Period Sudden Cardiac Death Sustained Rate Duration Supraventricular Tachycardia Total Atrial Refractory Period Transcutaneous Electrical Nerve Stimulation Ventricular Ventricular Fibrillation Ventricular Fibrillation Ventricular Refractory Period Ventricular Rate Regulation Ventricular Tachycardia Ventricular Tachycardia Response
CONTENTS INFORMATION FOR USE ... CHAPTER 1
1-1
New or Enhanced Features...
1-2
Device Description...
1-3
Related Information ...
1-5
Indications and Usage ...
1-5
Contraindications...
1-5
Warnings ...
1-5
Precautions...
1-7
Potential Adverse Events ...
1-18
Mechanical Specifications ...
1-20
Lead Connections...
1-20
Items Included in Package ...
1-21
Symbols on Packaging ...
1-21
Characteristics as Shipped...
1-23
X-Ray Identifier...
1-24
Pulse Generator Longevity ...
1-25
Warranty Information ...
1-26
Product Reliability...
1-26
Patient Counseling Information ... Patient Handbook ...
1-27 1-28
USING THE PROGRAMMER/RECORDER/MONITOR... CHAPTER 2
2-1
ZOOM LATITUDE Programming System ...
2-2
Indications-Based Programming (IBP) ...
2-2
Manual Programming ...
2-5
Software Terminology and Navigation ... 2-5 Main Screen... 2-5 PRM Mode Indicator ... 2-6 ECG/EGM Display ... 2-7 Toolbar ... 2-7 Tabs ... 2-8 Buttons... 2-8 Icons ... 2-8 Common Objects ... 2-10 Use of Color ... 2-10 Data Management ... Patient Information... Disk Operations ... Print...
2-11 2-11 2-11 2-12
Communicating with the Pulse Generator ... ZIP Telemetry... Starting a Wanded Telemetry Session ... Starting a ZIP Telemetry Session... Ending a Telemetry Session ... ZIP Telemetry Security...
2-12 2-12 2-13 2-13 2-14 2-14
DIVERT THERAPY ...
2-16
STAT SHOCK ...
2-17
STAT PACE ...
2-18
Safety Mode ... Backup Pacemaker... Backup Defibrillator... Programming the Device Safety Tachy Mode...
2-18 2-19 2-19 2-20
TACHYARRHYTHMIA DETECTION... CHAPTER 3
3-1
Device Mode... Ventricular Tachy Mode... Electrocautery Protection Mode...
3-2 3-2 3-3
Rate Sensing ... Calculating Rates and Refractory Periods ... Ventricular Rate Thresholds and Zones... CRT Delivery Zone and Tachyarrhythmia Zones ... Use of Atrial Information ...
3-3 3-4 3-4 3-5 3-6
Ventricular Detection ... 3-6 Ventricular Detection Enhancement Suites... 3-7 Ventricular Redetection... 3-11 Ventricular Post-shock Detection Enhancements ... 3-12 Ventricular Detection Details... 3-13 TACHYARRHYTHMIA THERAPY ... CHAPTER 4
4-1
Ventricular Therapy ... Ventricular Therapy Prescription... Ventricular Therapy Selection ... Ventricular Redetection after Ventricular Therapy Delivery ... Ventricular Redetection after Ventricular ATP Therapy... Ventricular Redetection after Ventricular Shock Therapy ...
4-2 4-2 4-3 4-8 4-8 4-9
Antitachycardia Pacing Therapies and Parameters ... Burst Parameters ... Coupling Interval and Coupling Interval Decrement ... Burst Cycle Length (BCL) ... Minimum Interval... Burst Scheme ... Ramp Scheme ... Scan Scheme... Ramp/Scan Scheme ... ATP Pulse Width and ATP Amplitude ... Ventricular ATP Time-out ... QUICK CONVERT ATP ...
4-10 4-11 4-12 4-14 4-14 4-15 4-15 4-16 4-17 4-18 4-18 4-20
Ventricular Shock Therapy and Parameters...
4-21
Ventricular Shock Vector... Ventricular Shock Energy... Charge Time ... Waveform Polarity... Committed Shock/Reconfirmation of the Ventricular Arrhythmia ...
4-21 4-21 4-22 4-22 4-23
PACING THERAPIES ... CHAPTER 5
5-1
Device Programming Recommendations ...
5-2
Maintaining CRT...
5-4
Pacing Therapies...
5-6
Basic Parameters ... 5-7 Brady Mode... 5-7 Lower Rate Limit (LRL) ... 5-10 Maximum Tracking Rate (MTR) ... 5-11 Maximum Sensor Rate (MSR) ... 5-13 Ventricular Pacing Chamber ... 5-14 Pulse Width... 5-15 Amplitude ... 5-16 Sensitivity... 5-16 Post-Therapy Pacing ... Post-Shock Pacing Delay ... Post-Therapy Period ...
5-16 5-17 5-17
Temporary Pacing...
5-18
Sensors and Trending ... Sensor Trending... Adaptive-rate Pacing... Accelerometer...
5-19 5-19 5-20 5-21
Atrial Tachy Response... ATR Mode Switch ... Ventricular Rate Regulation (VRR) ... Biventricular Trigger ... Atrial Flutter Response (AFR)... PMT Termination...
5-27 5-27 5-32 5-33 5-34 5-35
Rate Enhancements ... Tracking Preference... Rate Hysteresis... Rate Smoothing ...
5-35 5-36 5-36 5-38
Lead Configuration ... Left Ventricular Electrode Configuration ...
5-42 5-42
AV Delay... Paced AV Delay ... Sensed AV Delay ... SmartDelay Optimization ...
5-46 5-46 5-48 5-50
Refractory ... A-Refractory (PVARP) ... RV-Refractory (RVRP) ... LV-Refractory (LVRP)... Left Ventricular Protection Period (LVPP) ... Blanking and Noise Rejection ...
5-52 5-52 5-54 5-55 5-56 5-56
Noise Response ...
5-61
Ventricular Tachy Sensing Interactions...
5-63
SYSTEM DIAGNOSTICS... CHAPTER 6
6-1
Battery Status ... Capacitor Re-formation... Charge Time Measurement ... Last Delivered Ventricular Shock ...
6-2 6-5 6-5 6-6
Lead Tests ... Intrinsic Amplitude Test ... Lead Impedance Test... Pace Threshold Test ...
6-6 6-7 6-8 6-8
PATIENT DIAGNOSTICS... CHAPTER 7
7-1
Therapy History ...
7-2
Trends ...
7-3
Arrhythmia Logbook ... 7-5 Histograms... 7-11 Heart Rate Variability (HRV) ... 7-12 Counters ... 7-15 Patient Triggered Monitor ...
7-17
ELECTROPHYSIOLOGIC TESTING... CHAPTER 8
8-1
EP Test Features ... Temporary EP Mode ... Backup Ventricular Pacing During Atrial EP Testing ... EP Test Screen ...
8-2 8-2 8-2 8-2
Induction Methods ... VFib Induction ... Shock on T Induction ... Programmed Electrical Stimulation (PES) ... 50 Hz/Manual Burst Pacing ...
8-4 8-5 8-6 8-7 8-9
Commanded Therapy Methods ... Commanded Shock ... Commanded ATP...
8-10 8-10 8-11
IMPLANT INFORMATION ... CHAPTER 9
9-1
Implanting the Pulse Generator... 9-2 Step A: Check Equipment ... 9-2 Step B: Interrogate and Check the Pulse Generator... 9-3 Step C: Implant the Lead System... 9-3 Step D: Take Baseline Measurements ... 9-4 Step E: Form the Implantation Pocket... 9-5 Step F: Connect the Leads to the Pulse Generator ... 9-6 Step G: Evaluate Lead Signals ... 9-10 Step H: Program the Pulse Generator ... 9-11 Step I: Test for Ability to Convert Ventricular Fibrillation and Inducible Arrhythmias... 9-11 Step J: Implant the Pulse Generator ... 9-13 Step K: Complete and Return the Implantation Form ... 9-15
POST IMPLANT INFORMATION... CHAPTER 10
10-1
Follow Up Testing ... Predischarge Follow Up... Routine Follow Up...
10-2 10-2 10-2
Post Implant features... Sensitivity Adjustment... Beeper Feature ... Magnet Feature...
10-3 10-3 10-4 10-5
Explantation...
10-8
PROGRAMMABLE OPTIONS... APPENDIX A
A-1
1-1
INFORMATION FOR USE CHAPTER 1 This chapter contains the following topics: •
"New or Enhanced Features" on page 1-2
•
"Device Description" on page 1-3
•
"Related Information" on page 1-5
•
"Indications and Usage" on page 1-5
•
"Contraindications" on page 1-5
•
"Warnings" on page 1-5
•
"Precautions" on page 1-7
•
"Potential Adverse Events" on page 1-18
•
"Mechanical Specifications" on page 1-20
•
"Lead Connections" on page 1-20
•
"Items Included in Package" on page 1-21
•
"Symbols on Packaging" on page 1-21
•
"Characteristics as Shipped" on page 1-23
•
"X-Ray Identifier" on page 1-24
•
"Pulse Generator Longevity" on page 1-25
•
"Warranty Information" on page 1-26
•
"Product Reliability" on page 1-26
•
"Patient Counseling Information" on page 1-27
1-2
INFORMATION FOR USE NEW OR ENHANCED FEATURES
NEW OR ENHANCED FEATURES These pulse generator systems include additional features as compared to previous products. Ease of Use •
•
ZOOMVIEW Programmer Software: the new user interface offers the following benefits: –
Clinical focus-features such as patient diagnostic trends and indications-based programming emphasize the patient’s clinical condition over device status and parameters.
–
Consistency-ZOOMVIEW software will be available on future pulse generators, providing the same screens whether you are following a brady, tachy, or heart failure device.
–
Simplicity-screen complexity is reduced through the use of progressive disclosure (displaying the information you use frequently and minimizing the information you only rarely access) and exception-based reporting.
Indications-Based Programming (IBP): the new ZOOMVIEW feature allows you to quickly set up programming parameters based on the patient’s clinical needs and indications.
Tachy Therapy •
Rhythm ID and Onset/Stability detection: the selection between detection enhancements provides you the opportunity and flexibility to adjust for individual patient conditions.
•
QUICK CONVERT ATP: in an attempt to avoid an otherwise scheduled charge and painful shock for a pace-terminable fast ventricular tachycardia (VT), the pulse generator delivers one rapid burst of antitachycardia pacing (ATP) for an episode detected in the ventricular fibrillation (VF) zone.
•
Programmable Shock Vectors: this capability allows you to electronically change the shocking vectors for added flexibility in treating high defibrillation thresholds (DFTs).
INFORMATION FOR USE DEVICE DESCRIPTION
1-3
Sensing •
Sensing is designed to combine the strengths of both implantable cardioverter defibrillator (ICD) and pacemaker sensing capabilities to improve detection and therapy by reducing inappropriate mode switching, pacing inhibition, and shocks.
DEVICE DESCRIPTION This manual contains information about the COGNIS 100 family of cardiac resynchronization therapy defibrillators (CRT-Ds) (specific models are listed in "Mechanical Specifications" on page 1-20). Therapies This family of pulse generators has a small, thin, physiologic shape that minimizes pocket size and may minimize device migration. Pulse generators within this family provide a variety of therapies, including: •
Ventricular tachyarrhythmia therapy, which is used to treat rhythms associated with sudden cardiac death (SCD) such as VT and VF
•
Cardiac Resynchronization Therapy (CRT), which treats heart failure by resynchronizing ventricular contractions through biventricular electrical stimulation
•
Bradycardia pacing, including adaptive rate pacing, to detect and treat bradyarrhythmias and to provide cardiac rate support after defibrillation therapy
Cardioversion/defibrillation therapies include: •
A range of low- and high-energy shocks using a biphasic waveform
•
The choice of multiple shock vectors: –
Distal shock electrode to proximal shock electrode and pulse generator case (TRIAD electrode system)
–
Distal shock electrode to proximal shock electrode (RV Coil to RA Coil)
–
Distal shock electrode to pulse generator case (RV Coil to Can)
1-4
INFORMATION FOR USE DEVICE DESCRIPTION
Leads The pulse generator has independently programmable outputs and accepts the following leads: •
One IS-11 atrial lead
•
One IS-1 coronary venous pace/sense lead
•
One LV-1 coronary venous pace/sense lead
•
One DF-1/IS-12 cardioversion/defibrillation lead
•
One GDT-LLHH multipolar connector cardioversion/defibrillation lead
CAUTION: The GDT-LLHH multipolar connector cardioversion/defibrillation lead is intended for use only with pulse generators that are configured with the GDT-LLHH connector. The pulse generator and the leads constitute the implantable portion of the pulse generator system. PRM System These pulse generators can be used only with the ZOOM LATITUDE Programming System, which is the external portion of the pulse generator system and includes: •
Model 3120 Programmer/Recorder/Monitor (PRM)
•
Model 2868 ZOOMVIEW Software Application
•
Model 6577 Accessory Telemetry Wand
You can use the PRM system to do the following: •
Interrogate the pulse generator
•
Program the pulse generator to provide a variety of therapy options
•
Access the pulse generator’s diagnostic features
•
Perform noninvasive diagnostic testing
•
Access therapy history data
1. 2.
IS-1 refers to the international standard ISO 5841.3:2000. DF-1 refers to the international standard ISO 11318:2002.
INFORMATION FOR USE RELATED INFORMATION
1-5
RELATED INFORMATION Refer to the lead’s instruction manual for implant information, general warnings and precautions, indications, contraindications, and technical specifications. Read this material carefully for implant procedure instructions specific to the chosen lead configurations. The Physician’s Technical Manual is packaged with the pulse generator. It provides the technical information needed at implant. Refer to the PRM system Operator’s Manual for specific information about the PRM such as setup, maintenance, and handling.
INDICATIONS AND USAGE Boston Scientific cardiac resynchronization therapy defibrillators (CRT-Ds) are indicated for patients with moderate to severe heart failure (NYHA III/IV) who remain symptomatic despite stable, optimal heart failure drug therapy and have left ventricular (LV) dysfunction (EF 35%) and QRS duration 120 ms.
CONTRAINDICATIONS There are no contraindications for this device.
WARNINGS General •
Labeling knowledge. Read this manual thoroughly before implanting the pulse generator to avoid damage to the system. Such damage can result in patient injury or death.
•
Avoid shock during handling. Program the pulse generator Tachy Mode(s) to Off during implant, explant, or postmortem procedures to avoid inadvertent high voltage shocks.
•
Backup defibrillation protection. Always have sterile external and internal defibrillation protection available during implant. If not terminated in a timely fashion, an induced ventricular tachyarrhythmia can result in the patient’s death.
1-6
INFORMATION FOR USE WARNINGS
•
Resuscitation availability. Ensure that an external defibrillator and medical personnel skilled in CPR are present during post-implant device testing should the patient require external rescue.
•
Protected environments. Advise patients to seek medical guidance before entering environments that could adversely affect the operation of the active implantable medical device, including areas protected by a warning notice that prevents entry by patients who have a pulse generator.
•
Magnetic Resonance Imaging (MRI) exposure. Do not expose a patient to MR device scanning. Strong magnetic fields may damage the device and cause injury to the patient.
•
Diathermy. Do not subject a patient with an implanted pulse generator to diathermy since diathermy may cause fibrillation, burning of the myocardium, and irreversible damage to the pulse generator because of induced currents.
Programming and Device Operations •
Atrial tracking modes. Do not use atrial tracking modes in patients with chronic refractory atrial tachyarrhythmias. Tracking of atrial arrhythmias could result in VT or VF.
•
Atrial-only modes. Do not use atrial-only modes in patients with heart failure because such modes do not provide CRT.
•
Ventricular sensing. Left ventricular lead dislodgement to a position near the atria can result in atrial oversensing and left ventricular pacing inhibition.
•
Slow VT. Physicians should use medical discretion when implanting this device in patients who present with slow VT. Programming therapy for slow monomorphic VT may preclude CRT delivery at faster rates if these rates are in the tachyarrhythmia zones.
Implant Related •
Do not kink leads. Kinking leads may cause additional stress on the leads, possibly resulting in lead fracture.
•
Patch leads. Do not use defibrillation patch leads with the pulse generator system, or injury to the patient may occur.
INFORMATION FOR USE PRECAUTIONS
•
1-7
Separate pulse generator. Do not use this pulse generator with another pulse generator. This combination could cause pulse generator interaction, resulting in patient injury or a lack of therapy delivery.
PRECAUTIONS Clinical Considerations •
Pacemaker-mediated tachycardia (PMT). Retrograde conduction combined with a short PVARP might induce PMT.
Sterilization, Storage, and Handling •
For single use only; do not resterilize devices. Do not resterilize the device or the accessories packaged with it because the effectiveness of resterilization cannot be ensured.
•
If package is damaged. The pulse generator blister trays and contents are sterilized with ethylene oxide gas before final packaging. When the pulse generator is received, it is sterile provided the container is intact. If the packaging is wet, punctured, opened, or otherwise damaged, return the device to Boston Scientific.
•
Storage temperature and equilibration. Recommended storage temperatures are 0°C–50°C (32°F–122°F). Allow the device to reach a proper temperature before using telemetry communication capabilities, programming or implanting the device because temperature extremes may affect initial device function.
•
Device storage. Store the pulse generator in a clean area away from magnets, kits containing magnets, and sources of EMI to avoid device damage.
•
Use by date. Implant the device system before or on the USE BY date on the package label because this date reflects a validated shelf life. For example, if the date is January 1, do not implant on or after January 2.
Implantation and Device Programming •
Lead system. Do not use any lead with this device without first verifying connector compatibility. Using incompatible leads can damage the connector and/or result in potential adverse consequences, such as undersensing of cardiac activity or failure to deliver necessary therapy.
1-8
INFORMATION FOR USE PRECAUTIONS
•
Telemetry wand. Make sure the telemetry wand is connected to the programmer and that it is available throughout the session. Verify that the wand cord is within reach of the pulse generator.
•
STAT PACE settings. When a pulse generator is programmed to STAT PACE settings, it will continue to pace at the high-energy STAT PACE values if it is not reprogrammed. The use of STAT PACE parameters will decrease device longevity.
•
Biventricular pacing therapy. This device is intended to provide biventricular or left ventricular pacing therapy. Programming the device to provide RV-only pacing is not intended for the treatment of heart failure.
•
Pacing and sensing margins. Consider lead maturation in your choice of pacing amplitude, pacing pulse width, and sensitivity settings. •
An acute pacing threshold greater than 1.5 V or a chronic pacing threshold greater than 3 V can result in loss of capture because thresholds may increase over time.
•
An R-wave amplitude less than 5 mV or a P-wave amplitude less than 2 mV can result in undersensing because the sensed amplitude may decrease after implantation.
•
Pacing lead impedance should be within the range of 200 and 2000 .
•
Line-powered equipment. Exercise extreme caution if testing leads using line-powered equipment because leakage current exceeding 10 µA can induce ventricular fibrillation. Ensure that any line-powered equipment is within specifications.
•
Proper programming of the lead configuration. If the Lead Configuration is programmed to Bipolar when a unipolar lead is implanted, pacing will not occur.
•
Proper programming of the shock vector. If the shock vector is programmed to RVcoil>>RAcoil and the lead does not have an RA coil, shocking will not occur.
INFORMATION FOR USE PRECAUTIONS
1-9
•
Replacement device. Implanting a replacement device in a subcutaneous pocket that previously housed a larger device may result in pocket air entrapment, migration, erosion, or insufficient grounding between the device and tissue. Irrigating the pocket with sterile saline solution decreases the possibility of pocket air entrapment and insufficient grounding. Suturing the device in place reduces the possibility of migration and erosion.
•
Defibrillation power surge. Defibrillation that causes a power surge exceeding 360 watt-seconds can damage the pulse generator system.
•
Programming for supraventricular tachyarrhythmias (SVTs). Determine if the device and programmable options are appropriate for patients with SVTs because SVTs can initiate unwanted device therapy.
•
AV Delay. To ensure a high percentage of biventricular pacing, the programmed AV Delay setting must be less than the patient’s intrinsic PR interval.
•
Adaptive-rate pacing. Adaptive-rate pacing should be used with care in patients who are unable to tolerate increased pacing rates.
•
Ventricular refractory periods (VRPs) in adaptive-rate pacing. Adaptive-rate pacing is not limited by refractory periods. A long refractory period programmed in combination with a high MSR can result in asynchronous pacing during refractory periods since the combination can cause a very small sensing window or none at all. Use dynamic AV Delay or dynamic PVARP to optimize sensing windows. If you are entering a fixed AV delay, consider the sensing outcomes.
•
Atrial Tachy Response (ATR). ATR should be programmed to On if the patient has a history of atrial tachyarrhythmias. The delivery of CRT is compromised because AV synchrony is disrupted if the ATR mode switch occurs.
•
Threshold test. During the LV threshold test, RV backup pacing is unavailable.
•
Left ventricular pacing only. The clinical effect of LV pacing alone for heart failure patients has not been studied.
•
Do not bend the lead near the lead-header interface. Improper insertion can cause insulation damage near the terminal end that could result in lead failure.