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The use of FANS has changed the operative landscape of RIRS by allowing continuous active suction-assisted clearance of ablated stone material in real time. Use of fragmentation technique in FANS requires high-energy to reduce stone burden into small fragments, followed by active suction of residual fine material. Dusting with FANS, on the other hand, converts the entire stone volume into sub-millimetre particulate that is continuously suctioned away during lasing potentially offering a more streamlined workflow with potentially less energy usage, reduced mechanical stress on the ureteroscope working channel, and fewer scope withdrawals. The combination of TFL dusting with FANS-assisted real-time evacuation may produce stone-free outcomes equivalent or superior to fragmentation, while offering these additional operative efficiencies.
Whether dusting using TFL with FANS is non-inferior or indeed superior to fragmentation using TFL with FANS in terms of stone-free rate at one month has not been evaluated in prospective randomised trial yet. This study aims to answer that specific question in patients with renal stone less than 2 cm.
Urolithiasis is among the most prevalent urological disorders worldwide, with a lifetime recurrence risk ranging from 30 to 50% in affected individuals. Global Burden of Disease study in 2021 estimated 106 million new incident cases of urolithiasis globally, representing a 47% increase from 1990, driven by population growth, changing dietary patterns, rising rates of metabolic syndrome, and climate-related factors. Regions with tropical and subtropical climates including South Asia bear a disproportionately higher burden, with prevalence estimates of 5-10% compared to 1-5% in temperate regions. Nephrolithiasis is not merely a surgical inconvenience; it imposes significant morbidity through recurrent renal colic, obstructive uropathy, urinary tract infection, and progressive renal dysfunction, with substantial associated healthcare costs.
Retrograde Intra-Renal Surgery (RIRS) has become the preferred minimally invasive modality for the definitive management of most renal calculi endorsed by both the European Association of Urology (EAU) and the American Urological Association (AUA) for stones amenable to endoscopic treatment. It offers the advantage of direct pyelocaliceal access without the morbidity of percutaneous access, with established stone-free rates (SFR) exceeding 90% for stones less than 2 cm in contemporary series.
The operative strategy employed during RIRS specifically, the choice between stone fragmentation and stone dusting remains a subject of active clinical debate, with meaningful implications for operative efficiency, stone-free outcomes, and scope longevity. Fragmentation involves delivering high pulse energy (typically 0.8-1.5 J) at low frequency (5-10 Hz) to reduce calculi into retrievable fragments of less than 4 mm. Dusting employs low pulse energy (0.2-0.5 J) at higher frequency (15-25 Hz) to ablate the stone into sub-millimetre powder particles. In the holmium:YAG (Ho:YAG) laser studies, fragmentation consistently demonstrated superior SFRs. El-Nahas et al. reported a significantly higher SFR with fragmentation compared to dusting (78.6% vs. 58.6%, p=0.035) at 2 months on non-contrast CT, albeit at the cost of a longer operative time (91 vs. 76 minutes, p=0.009). A 2023 systematic review and meta-analysis corroborated these findings, demonstrating that dusting was associated with a lower pooled stone-free rate (OR 0.60; 95% CI 0.41-0.89, p=0.01) and a significantly higher re-treatment rate (OR 2.03; 95% CI 1.31-3.13, p=0.001), though with a shorter operative time and comparable complication profile. These data, however, were generated predominantly with Ho:YAG laser technology and without active suction-assisted clearance, a critical limitation in extrapolating these findings to contemporary practice.
The Thulium Fiber Laser (TFL), introduced into clinical practice in 2018, represents a fundamental technological shift from the Ho:YAG platform. Operating at a wavelength of 1,940 nm, TFL demonstrates a four- to fivefold higher water absorption coefficient, a lower stone ablation threshold, and a more uniform rectangular pulse profile compared to the asymmetrical spike-decay waveform of Ho:YAG. These physical characteristics translate to superior ablation efficiency. TFL achieves fragmentation speeds up to twice and dusting speeds up to ten times faster than Ho:YAG at comparable settings, with significantly less stone retropulsion. Crucially, unlike Ho:YAG where increasing pulse energy generates larger residual fragments, TFL dusting at higher pulse energies does not increase fragment size producing dust particles consistently below 0.254 mm regardless of energy setting, making it inherently better suited to achieving fine, clearable particulate. A systematic review and meta-analysis of TFL-based RIRS reported a pooled SFR of 89.37% (95% CI: 83.93-93.12%), with TFL use independently associated with higher odds of achieving zero-fragment status in multivariable analysis.
The introduction of FANS has fundamentally altered the operative landscape of RIRS by enabling continuous active suction-assisted clearance of ablated stone material in real time. In conventional RIRS without active suction, the inferior stone-free rates historically associated with dusting were largely attributable to inadequate clearance of residual particulate from the pelvicalyceal system. With use of FANS, this limitation is addressed with fragments produced by fragmentation and dust produced by dusting both evacuated under the same negative-pressure suction system. Fragmentation with FANS requires high-energy to reduce stone burden into small fragments, followed by active suction of residual fine material. Dusting with FANS, on the other hand, converts the entire stone volume into sub-millimetre particulate that is continuously suctioned away during lasing potentially offering a more streamlined workflow with potentially less energy usage, reduced mechanical stress on the ureteroscope working channel, and fewer scope withdrawals. Given TFL's inherent superiority in generating fine, consistently small dust particles irrespective of pulse energy; the combination of TFL dusting with FANS-assisted real-time evacuation may produce stone-free outcomes equivalent or superior to fragmentation, while offering these additional operative efficiencies.
Whether dusting using TFL with FANS is non-inferior or indeed superior to fragmentation using TFL with FANS in terms of stone-free rate at one month has not been evaluated in any prospective randomised trial. This study is designed to answer that specific question in patients with renal stone less than 2cm, using a rigorously standardised equipment framework, blinded NCCT KUB-based outcome assessment, and a pre-specified non-inferiority margin of 10%.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Fragmentation | Active Comparator | 0.8-1J, 5-10Hz |
|
| Dusting | Active Comparator | 0.6-0.8J, 12-15Hz |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Dusting | Procedure | Dusting employs low pulse energy (0.6-0.8 J) at higher frequency (12-15 Hz) to ablate the stone into sub-millimetre powder particles. |
|
| Measure | Description | Time Frame |
|---|---|---|
| Stone free rate | To determine whether dusting is non-inferior to fragmentation using Thulium Fiber Laser (TFL) with Flexible and Navigable Ureteral Access Sheath (FANS) with respect to stone-free rate (SFR) at 1 month post-procedure in patients with renal stones less than 2cm. | At 1 month after surgery |
| Measure | Description | Time Frame |
|---|---|---|
| Operative time | To compare total operative time between fragmentation and dusting arms | Intra-operative |
| Lasing time | To compare laser activation time between fragmentation and dusting |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Akash Chitrakar, MCh Urology | Contact | +9779849003151 | dr.akashsurg@gmail.com |
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| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 37300481 | Result | Soto-Palou F, Chen J, Medairos R, Zhong P, Antonelli J, Preminger GM, Lipkin ME. In Pursuit of the Optimal Dusting Settings with the Thulium Fiber Laser: An In Vitro Assessment. J Endourol. 2023 Aug;37(8):914-920. doi: 10.1089/end.2023.0168. Epub 2023 Jun 26. | |
| 39640943 | Result | GBD 2021 Urolithiasis Collaborators. The global, regional, and national burden of urolithiasis in 204 countries and territories, 2000-2021: a systematic analysis for the Global Burden of Disease Study 2021. EClinicalMedicine. 2024 Nov 21;78:102924. doi: 10.1016/j.eclinm.2024.102924. eCollection 2024 Dec. |
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| ID | Term |
|---|---|
| D053040 | Nephrolithiasis |
| ID | Term |
|---|---|
| D007674 | Kidney Diseases |
| D014570 | Urologic Diseases |
| D052776 | Female Urogenital Diseases |
| D005261 | Female Urogenital Diseases and Pregnancy Complications |
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| ID | Term |
|---|---|
| D004391 | Dust |
| ID | Term |
|---|---|
| D052638 | Particulate Matter |
| D045424 | Complex Mixtures |
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| Fragmentation | Procedure | Fragmentation involves delivering high pulse energy (typically 0.6-0.8 J) at low frequency (5-10 Hz) to reduce calculi into retrievable fragments of less than 4 mm. |
|
| Intra-operative |
| Energy consumption | To compare Energy consumption between two arms | Intra-operative |
| Ablation speed | To compare ablation speed between two arms | Intra-operative |
| Active suction time | To compare active suction time between fragmentation and dusting | Intra-operative |
| Number of scope withdrawals | To compare number of scope withdrawals during active suction between arms | Intra-operative |
| Re-intervention rates | To compare need of auxillary procedures to clear residual fragments between two groups | 3 months |
| Intra-operative Complications | To compare incidence of bleeding, PCS injury and ureteral injury between 2 groups | Intra-operatively |
| Post-operative complications | To compare incidence of fever, UTI, hematuria, urosepsis and ureteric stricture between two groups | at end of surgery up to 3 months |
| 31285926 | Result | El-Nahas AR, Almousawi S, Alqattan Y, Alqadri IM, Al-Shaiji TF, Al-Terki A. Dusting versus fragmentation for renal stones during flexible ureteroscopy. Arab J Urol. 2019 Apr 26;17(2):138-142. doi: 10.1080/2090598X.2019.1601002. eCollection 2019. |
| 37936133 | Result | Almasoud NA, Safar O, Elatreisy A, Alshahrani ST, Libdah SB, Alkhaldi SM, Alsoliman NF, Alderaan AM, Abdel-Al I, Abouelgreed TA, Alabeedi M, Al-Aown A. Super pulsed thulium fiber laser outcomes in retrograde intrarenal surgery for ureteral and renal stones: a systematic review and meta-analysis. BMC Urol. 2023 Nov 7;23(1):179. doi: 10.1186/s12894-023-01355-x. |
| 37420203 | Result | Wen Z, Wang L, Liu Y, Huang J, Chen CX, Wang CJ, Chen LL, Yang XS. A systematic review and meta-analysis of outcomes between dusting and fragmentation in retrograde intrarenal surgery. BMC Urol. 2023 Jul 7;23(1):113. doi: 10.1186/s12894-023-01283-w. |
| 30729311 | Result | Traxer O, Keller EX. Thulium fiber laser: the new player for kidney stone treatment? A comparison with Holmium:YAG laser. World J Urol. 2020 Aug;38(8):1883-1894. doi: 10.1007/s00345-019-02654-5. Epub 2019 Feb 6. |
| 22698147 | Result | Schoenthaler M, Wilhelm K, Kuehhas FE, Farin E, Bach C, Buchholz N, Miernik A. Postureteroscopic lesion scale: a new management modified organ injury scale--evaluation in 435 ureteroscopic patients. J Endourol. 2012 Nov;26(11):1425-30. doi: 10.1089/end.2012.0227. Epub 2012 Aug 27. |
| D000091642 | Urogenital Diseases |
| D052878 | Urolithiasis |
| D052801 | Male Urogenital Diseases |