While Thulio's dusting performance rivals the TFL's6, the Thulio's 3,700 W of Maximum Peak Power provides a more powerful fragmentation7 and anatomical enucleation8, putting it in a class of it's own.
Peak power (max.) [W]
Power
(max.) [W]
Wavelength [nm]
Laser active
gain medium
3,700
100
2013
Thulium doped YAG crystal (Yttrium-Aluminium-Garnet)
5004
604
19404
Thulium doped silica fiber4
Schematic illustrations of laser cavities.
Illustrations adopted from Traxer, O., Keller, E.X. Thulium fiber laser: the new player for kidney stone treatment? A comparison with Holmium:YAG laser. World J Urol 38, 1883–1894 (2020). https://doi.org/10.1007/s00345-019-02654-5.
Maximum Performance...
Fine and faster dusting capabilities9
55% less retropulsion5
Superior coagulation3
... in a Smaller Package
Only requires a standard power outlet
60% less floor space required10
50% reduced noise level10
Compared to Ho:YAG
REFERENCES:
1. Keller, E.X., De Coninck, V., Doizi, S. et al. (2021). Thulium fiber laser: ready to dust all urinary stone composition types? World J Urol 39, 1693–1698. https://doi.org/10.1007/s00345-020-03217-9
2. Kwok, J.L., Ventimiglia, E., De Coninck, V. et al. (2023). Pulsed thulium:YAG laser—ready to dust all urinary stone composition types? Results from a PEARLS analysis. World J Urol 41, 2823–2831. https://doi.org/10.1007/s00345-023-04549-y
3. Yilmaz, M., Esser, J., Kraft, L. et al. (2022). Experimental ex-vivo performance study comparing a novel, pulsed thulium solid-state laser, chopped thulium fibre laser, low and high-power holmium:YAG laser for endoscopic enucleation of the prostate. World J Urol 40, 601–606. https://doi.org/10.1007/s00345-021-03825-z
4. Ventimiglia, E., Robesti, D., Bevilacqua, L. et al. (2023). What to expect from the novel pulsed thulium:YAG laser? A systematic review of endourological applications. World J Urol 41, 3301–3308. https://doi.org/10.1007/s00345-023-04580-z
5. Petzold, R., Miernik, A. & Suarez-Ibarrola, R. (2021). Retropulsion force in laser lithotripsy—an in vitro study comparing a Holmium device to a novel pulsed solid-state Thulium laser. World J Urol 39(9), 3651–3656. https://doi.org/10.1007/s00345-021-03668-8
6. Kraft, L., Yilmaz, M., Petzold, R., et al. (2022). Dusting efficiency of a novel, pulsed Thulium: YAG laser versus a Thulium fiber laser, J Endourol., 36(2):259-265.
https://doi.org/10.1089/end.2021.0441
7. Kraft, L., Petzold, R., Suarez-Ibarrola, R. et al. (2022). In vitro fragmentation performance of a novel, pulsed Thulium solid-state laser compared to a Thulium fibre laser and standard Ho:YAG laser. Lasers Med Sci 37, 2071–2078 https://doi.org/10.1007/s10103-021-03495-8
8. von Bargen, M.F., Glienke, M., Tonyali, S. et al. (2024). Real-world experience with the new pulsed solid-state Thulium: YAG laser (Thulio) for endoscopic
enucleation of the prostate. World J Urol 42, 467. https://doi.org/10.1007/s00345-024-05141-8
9. Petzold, R., Miernik, A., & Suarez-Ibarrola, R. (2021). In Vitro Dusting Performance of a New Solid State Thulium Laser Compared to Holmium Laser Lithotripsy. J Endourol, 35(2), 221-225. https://doi.org/10.1089/end.2020.0525
10. Data on file @ Dornier MedTech
*As a result of up to 55% less retropulsion compared to Ho:YAG
Thulio offers a wide range of application modes, adapting to your needs and enabling smoother procedures.
Dusting mode
Fragmenting mode
Captive Fragmenting mode
Enucleation mode
Soft Tissue mode
Flexible Short Pulse mode
Flexible Long Pulse mode
Low pulse energy, long pulse duration and high frequency provides fine and fast dusting capabilities that disintegrate particles in 125 μm and smaller.1
High pulse energy, short pulse duration and low frequency for breaking larger or hard stones.
High pulse energy, long pulse duration and low frequency for breaking larger or hard stones.
Scientifically proven to provide up to 55% reduced retropulsion*2 during fragmentation. The Dornier
Captive mode was developed to decrease the stone
movement during application – potentially reducing
correlating lithotripsy time.
* compared to Ho:YAG
High pulse energy, short pulse duration and high frequency. Thulio’s RealPulse® technology enables anatomical endoscopic enucleation of the prostate.
Long pulse duration and a variety of different pulse energies and frequencies. Achieves highest ranked coagulation performance**3 thanks to Tm:YAG specific water absorption.
** compared to Ho:YAG and TFL
Offers a full range of available settings with short pulses.
Offers a full range of available settings with long pulses.
1
Interact with easy-to-navigate interface supported by the large rotatable touchscreen
Toggle between pre-selected settings effortlessly with dual footswitch and splitscreen function
2
Offer 100 W with the smallest footprint
Engineered lightweight and easy to move, with a standard wall plug
3
Switch seamlessly from one pre-defined mode to another
Adjust parameter settings easily with the footswitch
RealPulse Technology is what truly distinguishes Thulio from all other lasers today, featuring:
Use of optimally aligned diodes deliver highly efficient energy conversion
A patented method improves laser stability and output efficiency
Use of Thulium:YAG crystal
Developed in-house with our industry-established German engineering, the Thulio delivers a pulsed laser performance so transformative, it must be experienced firsthand.
Laser type
Thulium (Tm:YAG) pulsed solid state
Wavelength
2013 nm
Output (max.)
100 W
Peak power (max.)
3.7 kW
Frequency
5-300 Hz
Application modes
Dusting, Captive Fragmenting, Standard Fragmenting, Enucleation, Soft Tissue (Coagulation), Flexible Short Pulse, Flexible Long Pulse
Weight
97 kg (laser device)
105 kg (including safe working load)
Dimensions
Including monitor:
(W) 42 x (D) 62 x (H) 139 cm
Excluding monitor:
(W) 42 x (D) 62 x (H) 112 cm
Noise emission (max.)
65 dB
Order Number | Description | Colour Coding | Core Diameter | No. of Sterile Pieces per Packaging |
---|---|---|---|---|
K2016360* | 200 µm Single Use Thulio Laser Fiber | Blue | 200 µm | 3 pcs |
K2016361 | 270 µm Slim Single Use Thulio Laser Fiber | White | 272 µm | 3 pcs |
K2016363 | 400 µm Single Use Thulio Laser Fiber | Yellow | 365 µm | 3 pcs |
K2016365 | 600 µm Single Use Thulio Laser Fiber | Green | 550 µm | 3 pcs |
K2016366 | 1000 µm Single Use Thulio Laser Fiber | Red | 940 µm | 3 pcs |
Dornier Thulio Performance Fibers are compatible with Dornier Thulio K2016000 only.
*Only available in EU countries (European Union)
Order Number | Description | Colour Coding | Core Diameter | No. of Sterile Pieces per Packaging |
---|---|---|---|---|
K2016370 | 270 µm, Slim, 10x Reusable Thulio Laser Fiber | White | 272 µm | 3 pcs |
K2016371 | 400 µm, 10x Reusable Thulio Laser Fiber | Yellow | 365 µm | 3 pcs |
K2016372 | 600 µm, 10x Reusable Thulio Laser Fiber | Green | 550 µm | 3 pcs |
K2016373 | 1000 µm, 10x Reusable Thulio Laser Fiber | Red | 940 µm | 3 pcs |
Reusable Dornier Thulio Performance Fibers are authorized for 10 usage cycles (usability). Steam sterilization at 132°C (270°F). For more details, please refer to the instructions for use.
Dornier Thulio Performance Fibers are compatible with Dornier Thulio K2016000 only.
REFERENCES:
1. Petzold, R., Miernik, A., & Suarez-Ibarrola, R. (2021). In Vitro Dusting Performance of a New Solid State Thulium Laser Compared to Holmium Laser Lithotripsy. J Endourol, 35(2), 221-225. https://doi.org/10.1089/end.2020.0525
2. Petzold, R., Miernik, A., & Suarez-Ibarrola, R. (2021). Retropulsion force in laser lithotripsy-an in vitro study comparing a Holmium device to a novel pulsed solid-state Thulium laser. World J Urol, 39(9), 3651-3656. https://doi.org/10.1007/s00345-021-03668-8
3. Yilmaz, M., Esser, J., Kraft, L. et al. Experimental ex-vivo performance study comparing a novel, pulsed thulium solid-state laser, chopped thulium fibre laser, low and high-power holmium:YAG laser for endoscopic enucleation of the prostate. World J Urol 40, 601–606 (2022). https://doi.org/10.1007/s00345-021-03825-z
YEAR | PUBLICATION | REFERENCING |
---|---|---|
2022 |
In vitro fragmentation performance of a novel, pulsed Thulium solid-state laser compared to a Thulium fibre laser and standard Ho:YAGKraft, L. et al. (2022). In vitro fragmentation performance of a novel, pulsed Thulium solid-state laser compared to a Thulium fibre laser and standard Ho:YAG. Lasers Med Sci, 37(3):2071-2078. https://doi.org/10.1007/s10103-021-03495-8
|
Kraft, L. et al. (2022). In vitro fragmentation performance of a novel, pulsed Thulium solid-state laser compared to a Thulium fibre laser and standard Ho:YAG. Lasers Med Sci, 37(3):2071-2078. https://doi.org/10.1007/s10103-021-03495-8 |
2022 |
Dusting efficiency of a novel, pulsed Thulium:YAG laser versus a Thulium fiber laserKraft, L. et al. (2022). Dusting efficiency of a novel, pulsed Thulium:YAG laser versus a Thulium fiber laser. J Endourol, 36(2):259-265. https://doi.org/10.1089/end.2021.0441
|
Kraft, L. et al. (2022). Dusting efficiency of a novel, pulsed Thulium:YAG laser versus a Thulium fiber laser. J Endourol, 36(2):259-265. https://doi.org/10.1089/end.2021.0441 |
2021 |
Temperature Assessment of a Novel Pulsed Thulium Solid-State Laser Compared with a Holmium:Yttrium-Aluminum-Garnet LaserPetzold, R. et al. (2021). Temperature Assessment of a Novel Pulsed Thulium Solid-State Laser Compared with a Holmium:Yttrium-Aluminum-Garnet Laser. J Endourol, 35(6):853-859. https://doi.org/10.1089/end.2020.0803
|
Petzold, R. et al. (2021). Temperature Assessment of a Novel Pulsed Thulium Solid-State Laser Compared with a Holmium:Yttrium-Aluminum-Garnet Laser. J Endourol, 35(6):853-859. https://doi.org/10.1089/end.2020.0803 |
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