GlideLight

Laser sheath

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Safely and efficiently removing leads depends on tools that give you versatility and control. GlideLight laser sheath offers the unprecedented ability to customize the laser’s repetition rate throughout a procedure. At 80Hz, the GlideLight laser sheath requires up to 55% less advancement force,¹ and advance up to 62% more efficiently through tough binding sites than SLS II.²

Features
Versatility
Versatility

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.

Versatility

Versatility
No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.
Click here for more information
Versatility
Versatility

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.
Efficiency
Efficiency

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.

Efficiency

Efficiency
Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.
Click here for more information
Efficiency
Efficiency

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.
Control
Control

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷

Control

Control
Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷
Click here for more information
Control
Control

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷
  • Versatility
  • Efficiency
  • Control
See all features
Versatility
Versatility

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.

Versatility

Versatility
No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.
Click here for more information
Versatility
Versatility

Versatility

No two lead removal procedures are the same. Each binding site is unique, lead designs vary, and every patient’s anatomy is different.
Efficiency
Efficiency

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.

Efficiency

Efficiency
Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.
Click here for more information
Efficiency
Efficiency

Efficiency

Stalled progression during lead removal procedures can lengthen the time they take to complete. GlideLight laser sheath may enable smoother and more consistent progression.
Control
Control

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷

Control

Control
Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷
Click here for more information
Control
Control

Control

Using a high degree of mechanical force when removing leads can compromise lead integrity.³⁻⁶ GlideLight laser sheath provides critical control when progressing through binding sites.⁷

Specifikationer

GlideLight model number 500-301
GlideLight model number 500-301
Sheath size
  • 12 F
Maximum target lead diameter
  • 7.5 F / 0.098" / 2.50 mm
Minimum tip inner diameter
  • 8.3 F / 0.109" / 2.77 mm
Maximum tip outer diameter
  • 12.5 F / 0.164" / 4.17 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
GlideLight model number 500-302
GlideLight model number 500-302
Sheath size
  • 14 F
Maximum target lead diameter
  • 9.5 F / 0.124"/ 3.17 mm
Minimum tip inner diameter
  • 10.2 F /0.134" / 3.40 mm
Maximum tip outer diameter
  • 14.7 F / 0.192" / 4.88 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
GlideLight model number 500-303
GlideLight model number 500-303
Sheath size
  • 16 F
Maximum target lead diameter
  • 11.5 F / 0.150" / 3.83 mm
Minimum tip inner diameter
  • 12.5 F / 0.164" / 4.17 mm
Maximum tip outer diameter
  • 17.2 F / 0.225" / 5.72 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
SLS II model number 500-001
SLS II model number 500-001
Max. target lead diameter
  • 7.5 F / 0.098" / 2.50 mm
Min. inner tip diameter
  • 8.3 F / 0.109" / 2.77 mm
Max. outer tip diameter
  • 12.5 F / 0.164" / 4.17 mm
Working length
  • 50 cm
Repetition rate
  • 20-40 Hz
Clinical energy setting
  • 30-60 mJ/mm
GlideLight model number 500-301
GlideLight model number 500-301
Sheath size
  • 12 F
Maximum target lead diameter
  • 7.5 F / 0.098" / 2.50 mm
GlideLight model number 500-302
GlideLight model number 500-302
Sheath size
  • 14 F
Maximum target lead diameter
  • 9.5 F / 0.124"/ 3.17 mm
See all specifications
GlideLight model number 500-301
GlideLight model number 500-301
Sheath size
  • 12 F
Maximum target lead diameter
  • 7.5 F / 0.098" / 2.50 mm
Minimum tip inner diameter
  • 8.3 F / 0.109" / 2.77 mm
Maximum tip outer diameter
  • 12.5 F / 0.164" / 4.17 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
GlideLight model number 500-302
GlideLight model number 500-302
Sheath size
  • 14 F
Maximum target lead diameter
  • 9.5 F / 0.124"/ 3.17 mm
Minimum tip inner diameter
  • 10.2 F /0.134" / 3.40 mm
Maximum tip outer diameter
  • 14.7 F / 0.192" / 4.88 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
GlideLight model number 500-303
GlideLight model number 500-303
Sheath size
  • 16 F
Maximum target lead diameter
  • 11.5 F / 0.150" / 3.83 mm
Minimum tip inner diameter
  • 12.5 F / 0.164" / 4.17 mm
Maximum tip outer diameter
  • 17.2 F / 0.225" / 5.72 mm
Working length
  • 50 cm
Repetition rate
  • 25-80 Hz
Clinical energy setting
  • 30-60 mJ/mm
SLS II model number 500-001
SLS II model number 500-001
Max. target lead diameter
  • 7.5 F / 0.098" / 2.50 mm
Min. inner tip diameter
  • 8.3 F / 0.109" / 2.77 mm
Max. outer tip diameter
  • 12.5 F / 0.164" / 4.17 mm
Working length
  • 50 cm
Repetition rate
  • 20-40 Hz
Clinical energy setting
  • 30-60 mJ/mm
  • 1. Comparison of average peak push forces required to advance Laser Sheath at 40Hz vs. 80Hz Pulse Repetition Rate through simulated fibrosis material at an advancement rate of 1.0 mm/second. D015722, Data on file at Philips
  • 2. Comparison of ablation force vs. advancement rate of Laser sheath 40Hz vs. 80Hz by use of the data collected in D015786, Data on file at Philips
  • 3. Maytin M, Epstein, L (2011). The challenges of transvenous lead extraction. Heart, 97(5): 425-34.
  • 4. Henrikson, C.A., et al. (2008). How to prevent, recognize, and manage complications of lead extraction. Part III: Procedural factors Heart Rhythm. Jul;5(7):1083-7. Epub 2007 Oct 9.
  • 5. Smith MC, Love CJ. Extraction of transvenous pacing and ICD leads. Pacing Clin Electrophysiol 2008:31:736-52.
  • 6. Wilkoff, B.L., et al. (1999). Pacemaker lead extraction with the laser sheath: Results of the Pacing Lead Extraction with Excimer Sheath (PLEXES) trial. JACC, 33(6), 1671-1676.
  • 7. Reduced advancement force lowers the forces applied to leads during extraction, D015861-01, Data on file at Philips
  • 8. Design Verification Report for Ablation Force Testing. D015722, Data on file at Philips.
  • Product availability is subject to country regulatory clearance. Please contact your local sales representative to check the availability in your country.
  • GlideLight is distributed by LifeSystems in Australia and New Zealand.
  • Always read the label and follow the directions for use.
  • Philips medical devices should only be used by physicians and teams trained in interventional techniques, including training in the use of this device.
  • Philips reserves the right to change product specifications without prior notification.

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