User's Manual
Table Of Contents
- toc
- Additional Technical Information
- Device Description
- Therapies
- Leads
- PRM System
- Related Information
- Indications and Usage
- Contraindications
- WARNINGS
- General
- Labeling knowledge . Read this manual thoroughly before implanta
- For single patient use only . Do not reuse, reprocess, or rester
- Backup defibrillation protection . Always have external defibril
- Resuscitation availability . Ensure that an external defibrillat
- Separate pulse generator . Do not use this pulse generator with
- Handling
- Programming and Device Operations
- Post-Implant
- Protected environments . Advise patients to seek medical guidanc
- Magnetic Resonance Imaging (MRI) exposure . Do not expose a pati
- Diathermy . Do not subject a patient with an implanted pulse gen
- Ensure PTM is enabled . If desired, ensure that Patient Triggere
- Magnet Response set to Inhibit Therapy . Once the Patient Trigge
- General
- PRECAUTIONS
- Clinical Considerations
- Sterilization and Storage
- If package is damaged . The blister trays and contents are steri
- If device is dropped . Do not implant a device which has been dr
- Storage temperature and equilibration . Recommended storage temp
- Device storage . Store the pulse generator in a clean area away
- Use by date . Implant the pulse generator and/or lead before or
- Implantation
- Expected benefits . Determine whether the expected device benefi
- Evaluate patient for surgery . There may be additional factors r
- Lead compatibility . Prior to implantation, confirm the lead-to-
- Telemetry wand . Make sure a sterile telemetry wand is available
- Line-powered equipment . Exercise extreme caution if testing lea
- Replacement device . Implanting a replacement device in a subcut
- Do not bend the lead near the lead-header interface . Insert the
- Absence of a lead . The absence of a lead or plug in a lead port
- Electrode connections . Do not insert a lead into the pulse gene
- Defibrillation lead impedance . If total shocking lead impedance
- Shunting energy . Do not allow any object that is electrically c
- Do not suture directly over lead . Do not suture directly over t
- Device Programming
- Device communication . Use only the designated PRM and software
- STAT PACE settings . When a pulse generator is programmed to STA
- Pacing and sensing margins . Consider lead maturation in your ch
- Proper programming of the shock vector . If the Shock Vector is
- Programming for supraventricular tachyarrhythmias (SVTs) . Deter
- Adaptive-rate pacing . Rate Adaptive Pacing should be used with
- Ventricular refractory periods (VRPs) in adaptive-rate pacing .
- Shock waveform polarity . For IS-1/DF-1 leads, never change the
- Tachy Mode to Off . To prevent inappropriate shocks, ensure that
- Atrial oversensing . Take care to ensure that artifacts from the
- ATR entry count . Exercise care when programming the Entry Count
- ATR exit count . Exercise care when programming the Exit Count t
- Proper programming without an atrial lead . If an atrial lead is
- Sensing adjustment . Following any sensing range adjustment or a
- Patients hear tones coming from their devices . Patients should
- Patient use of patient triggered monitor . Determine if the pati
- Patient initiate stored EGM . Consider having the patient initia
- Environmental and Medical Therapy Hazards
- Hospital and Medical Environments
- Mechanical ventilators . During mechanical ventilation, respirat
- Conducted electrical current . Any medical equipment, treatment,
- Internal defibrillation . Do not use internal defibrillation pad
- External defibrillation . It can take up to 15 seconds for sensi
- Lithotripsy . Extracorporeal shock wave lithotripsy (ESWL) may c
- Ultrasound energy . Therapeutic ultrasound (e.g., lithotripsy) e
- Electrical interference . Electrical interference or “noise” fro
- Radio frequency (RF) interference . RF signals from devices that
- Central line guidewire insertion . Use caution when inserting gu
- Home and Occupational Environments
- Follow-up Testing
- Explant and Disposal
- Supplemental Precautionary Information
- Potential Adverse Events
- Mechanical Specifications
- Table 2. Mechanical Specifications - DYNAGEN Extended Longevity
- Table 3. Mechanical Specifications - DYNAGEN MINI ICDs
- Table 4. Mechanical Specifications - INOGEN Extended Longevity (
- Table 5. Mechanical Specifications - INOGEN MINI ICDs
- Table 6. Mechanical Specifications - ORIGEN Extended Longevity (
- Table 7. Mechanical Specifications - ORIGEN MINI ICDs
- Items Included in Package
- Symbols on Packaging
- Characteristics as Shipped
- X-Ray Identifier
- Federal Communications Commission (FCC)
- Pulse Generator Longevity
- Warranty Information
- Product Reliability
- Patient Counseling Information
- Lead Connections
- CAUTION: Prior to implantation, confirm the lead-to-pulse genera
- Figure 2. Lead connections and setscrew locations, RA: IS-1, RV:
- Figure 3. Lead connections and setscrew locations, RV: DF4-LLHH
- Figure 4. Lead connections and setscrew locations, RA: IS-1, RV:
- Figure 5. Lead connections and setscrew locations, RV: IS-1/DF-1
- Implanting the Pulse Generator
- CAUTION: The absence of a lead or plug in a lead port may affect
- CAUTION: Do not suture directly over the lead body, as this may
- WARNING: For leads that require the use of a Connector Tool, use
- Table 12. Lead measurements
- WARNING: For leads that require the use of a Connector Tool, use
- WARNING: Do not contact any other portion of the DF4–LLHH or DF4
- CAUTION: For IS-1/DF-1 leads, never change the shock waveform po
- CAUTION: Do not insert a lead into the pulse generator connector
- Figure 6. Inserting the torque wrench
- CAUTION: Insert the lead terminal straight into the lead port. D
- CAUTION: The absence of a lead or plug in a lead port may affect
- CAUTION: To prevent inappropriate shocks, ensure that the pulse
- CAUTION: Take care to ensure that artifacts from the ventricles
- CAUTION: If total shocking lead impedance during implant is less
- CAUTION: To prevent inappropriate shocks, ensure that the pulse
- WARNING: Always have external defibrillation equipment available
- Induce the Patient’s Arrhythmia
- Perform the Induction
- Determine DFT
- Bidirectional Torque Wrench
- Loosening Stuck Setscrews
- Follow Up Testing
- For additional technical reference guides, go to
- Additional Technical Information
e. Apply gentle downward pressure on the torque wrench until the blade is fully engaged within the setscrew
cavity, taking care to avoid damage to the seal plug. Tighten the setscrew by slowly turning the torque
wrench clockwise, until it ratchets once. The torque wrench is preset to apply the proper amount of force
to the captive setscrew; additional rotation and force is unnecessary.
f. Remove the torque wrench.
g. Apply gentle traction to the lead to ensure a secure connection.
h. If the lead terminal is not secure, attempt to reseat the setscrew. Reinsert the torque wrench as described
above, and loosen the setscrew by slowly turning the wrench counterclockwise, until the lead is loose.
Then repeat the sequence above.
i. If a lead port is not used, insert a plug into the unused port and tighten the setscrew.
CAUTION: The absence of a lead or plug in a lead port may affect device performance. If a lead is not
used, be sure to properly insert a plug in the unused port, and then tighten the setscrew onto the plug.
Step G: Evaluate Lead Signals
1. Take the pulse generator out of power-saving Storage mode by programming the Tachy Mode to Off.
CAUTION: To prevent inappropriate shocks, ensure that the pulse generator’s Tachy Mode is programmed to
Off when not in use and before handling the device. For tachyarrhythmia detection and therapy, verify that the
Tachy Mode is programmed to Monitor + Therapy.
2. Evaluate the pace/sense and defibrillation lead signals by viewing the real-time EGMs and markers. The
signal from the implanted defibrillation leads s hould be co ntinuous and without artifact, similar to a
body-surface ECG. A discontinuous signal may indicate a poor connection, lead fracture or otherwise
damaged lead, or an insulation break that would necessitate lead replacement. Inadequate signals may
result in failure of the pulse generator system to detect an arrhythmia, inability to deliver programmed
therapy, or unnecessary delivery of therapy. Lead measurements should reflect those above (Table 12 on
page 51).
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