FiberLase CR

Cartilage regeneration and pain therapy laser system
A dual-wavelength laser system combining a 1.55 µm fiber laser and a 0.98 µm diode laser, specifically designed for non-invasive cartilage regeneration and pain therapy.
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Product overview

  • 0.98-1.55
    μm
    Wavelengths
  • 10-25
    W
    Max power
  • 365-550
    μm
    Fiber diameter

Medical specializations

Key advantages

FiberLase CR delivers laser energy at subthermal intensity, promoting vascular relaxation, ATP and protein synthesis, enhanced cell regeneration, and improved calcium uptake—effectively reducing pain without thermal tissue damage. Its dual-wavelength configuration ensures deep, targeted penetration, while a wide range of fiber attachments enables precise treatment of both focal and broad tissue areas.
FiberLase CR enables minimally invasive laser reconstruction (LRD) by inducing microdamage in cartilage tissue, stimulating chondrocyte activity and promoting disc regeneration. The procedure is performed under local anesthesia, takes less than 25 minutes, requires minimal recovery, and is suitable for all spinal regions—including early-stage prophylactic intervention.
FiberLase CR enables a minimally invasive procedure to restore cartilage in knee joints using laser parameters specifically designed to stimulate chondrocyte activity and improve tissue nutrition through microchannel formation. Performed under local or spinal anesthesia, LRC offers cartilage regeneration with no incisions, no scarring, and recovery in under 30 minutes.
FiberLase CR_technologyLRDLRC knee
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    Minimally invasive laser procedures performed under local or spinal anesthesia, reducing surgical risks and eliminating the need for incisions
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    Procedures take under 30 minutes, enabling efficient outpatient treatment and high patient throughput
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    Minimal rehabilitation enables rapid recovery and an earlier return to normal activity compared to traditional surgery
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    Laser-induced stimulation activates chondrocytes and promotes cartilage regeneration through controlled microdamage and biological repair processes
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    No incisions or major tissue trauma, ensuring excellent cosmetic and functional outcomes
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    The 1.55 µm wavelength delivers deep, controlled energy with subthermal precision, enhancing therapeutic effects while preserving surrounding tissues

Specifications

Technological features

  • A key feature of FiberLase CR is its ability to maximize effective laser energy penetration into tissue, enabling targeted pain relief without damaging surrounding structures.

    This capability is built on three core technological components:

     

    1. Dual-Wavelength Configuration
      The system integrates a 1.55 µm fiber laser and a 0.98 µm diode laser, providing complementary therapeutic effects:
      – The 0.98 µm wavelength delivers efficient photobiomodulation and superficial vascular stimulation.
      – The 1.55 µm wavelength penetrates deeper into water-rich tissues, stimulating cellular regeneration in cartilage and connective structures.

    2. Depth-Controlled Energy Delivery
      By combining these wavelengths, FiberLase CR achieves layer-specific targeting—from surface nociceptors to deep-seated pain sources—while maintaining thermal safety and tissue selectivity.

    3. Specialized Applicators
      A range of nozzles and contact tools allows clinicians to precisely adapt the beam profile and penetration depth for specific anatomical zones, further enhancing the effectiveness and flexibility of the therapy.

  • Applicator specifications and clinical use

    Applicator Spot size (mm) Penetration depth Application method Clinical use
    Reconfigurable Nozzle 35–130 Moderate (variable) Non-contact (15 cm distance) Large treatment zones; diffuse musculoskeletal pain or soft tissue therapy
    Frozen Nozzle 15 Up to 50–60 mm Contact (pre-cooled) Deep pain foci (e.g., spine, joints); high-energy delivery with skin protection
    Spacer Nozzle ≤15 ≤20 mm Contact Small, localized superficial pain (trigger points, tendons)
    Contact Nozzle B1 20 ≤20 mm Contact Local superficial pain; focused skin-level treatment
    Contact Nozzle B2 35 ≤20 mm Contact Wider superficial areas; uniform energy distribution on larger skin surfaces

Resourses

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