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
Sheath size |
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Maximum target lead diameter |
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Minimum tip inner diameter |
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Maximum tip outer diameter |
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Working length |
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Repetition rate |
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Clinical energy setting |
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Sheath size |
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Maximum target lead diameter |
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Minimum tip inner diameter |
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Maximum tip outer diameter |
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Working length |
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Repetition rate |
|
Clinical energy setting |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Minimum tip inner diameter |
|
Maximum tip outer diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
Max. target lead diameter |
|
---|---|
Min. inner tip diameter |
|
Max. outer tip diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Minimum tip inner diameter |
|
Maximum tip outer diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Minimum tip inner diameter |
|
Maximum tip outer diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
Sheath size |
|
---|---|
Maximum target lead diameter |
|
Minimum tip inner diameter |
|
Maximum tip outer diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
Max. target lead diameter |
|
---|---|
Min. inner tip diameter |
|
Max. outer tip diameter |
|
Working length |
|
Repetition rate |
|
Clinical energy setting |
|
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