Kagome fiber based ultrafast laser microsurgery probe delivering micro-Joule pulse energies

Subramanian, Kaushik; Gabay, Ilan; Ferhanoğlu, Onur; Shadfan, Adam; Pawłowski, M.; Wang, Ye; Tkaczyk, Tomasz S.; Ben‐Yakar, Adela

doi:10.1364/boe.7.004639

Cited by 21 publications

(15 citation statements)

References 37 publications

(18 reference statements)

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“…The laser was transmitted through a kagome fibre optic probe, which was used to generate a lissajous pattern on the tissue surface at a frequency of approximately 1 kHz. However, no histology results are provided with this work so it is not possible to evaluate the impact on underlying tissue in a clinically relevant context and in particular assess the extent of the thermally damaged region . Earlier research has shown a significantly larger width of thermal necrosis induced by conventional surgical devices such as electrocautery (456 μm) , harmonic scalpel (690 μm) and CO 2 laser (300 μm) .…”

Section: Resultsmentioning

confidence: 99%

“…Researchers have used multicore and graded index multimode fibres for the delivery of ultrashort pulse (USP) to demonstrate the laser ablation. Prior work has established pig tissue as an efficient medical model for several studies related to human diseases and is consequently applied in porcine vocal fold tissue resection using 1.5 ps laser pulses delivered through kagome lattice hollow core photonic crystal fibre for microsurgery . The microsurgery laser ablation on the vocal fold tissue has a depth and width of ablation of around 43 and 40 μm, respectively, at a pulse energy of 1.2 μJ.…”

Section: Introductionmentioning

confidence: 99%

“…In contrast to previous work in fibre delivered USPs for microsurgery of tissue the work reported here focuses on using longer, 6 ps, pulses for larger, millimetre scale, ablation of tissue. These pulses are delivered using a HC‐NCF which has favourable performance in terms of minimizing nonlinear effects and bend losses.…”

Section: Introductionmentioning

confidence: 99%

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Preclinical evaluation of porcine colon resection using hollow core negative curvature fibre delivered ultrafast laser pulses

Mohanan

Beck

West

et al. 2019

Journal of Biophotonics

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Ultrashort pulse lasers offer great promise for tissue resection with exceptional precision and minimal thermal damage. Surgery in the bowel requires high precision and minimal necrotic tissue to avoid severe complications such as perforation. The deployment of ultrashort lasers in minimally invasive or endoscopic procedures has been hindered by the lack of suitable optical fibres for high peak powers. However, recent developments of hollow core microstructured fibres provide potential for delivery of such pulses throughout the body. In this study, analysis of laser ablation via a scanning galvanometer on a porcine colon tissue model is presented. A thermally damaged region (<85 μm) and fine depth control of ablation using the pulse energies 46 and 33 μJ are demonstrated. It is further demonstrated that such pulses suitable for precision porcine colon resection can be flexibly delivered via a hollow core negative curvature fibre (HC-NCF) and again ablation depth can be controlled with a thermally damaged region <85 μm. Ablation volumes are comparable to that of early stage lesions in the inner lining of the colon. This study concludes that the combination of ultrashort pulses and flexible fibre delivery via HC-NCF present a viable route to new minimally invasive surgical procedures. K E Y W O R D S negative curvature fibre, plasma-mediated ablation, porcine colon, thermal necrosis, ultrafast laser surgery

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Preclinical evaluation of porcine colon resection using hollow core negative curvature fibre delivered ultrafast laser pulses

Mohanan

Beck

West

et al. 2019

Journal of Biophotonics

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“…Our results show that the 400 μm diameter GRIN fiber can provide a focus spot with peak intensities reaching up to 1.5x10 13 W/cm 2 . The peak intensity delivered by our system is comparable to that of a HC-PCF [17,18], while maintaining the size of the final probe below 1mm by avoiding the need of distal components.…”

mentioning

confidence: 82%

“…Most commercially available tools use either single mode fibers (SMFs) combined with optical components to focus the light at the distal side and scanning mechanisms to steer the light around the region of interest or fiber bundles that result in pixelated images [1,17,[19][20][21][22]. The addition of distal end optical and/or mechanical components significantly increases the size and complexity of the endoscope.…”

mentioning

confidence: 99%

Selective femtosecond laser ablation via two-photon fluorescence imaging through a multimode fiber

Kakkava¹,

Romito²,

Conkey³

et al. 2019

Biomed. Opt. Express

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We demonstrate the ability of a multimode fiber probe to provide two-photon fluorescence (TPF) imaging feedback that guides the femtosecond laser ablation (FLA) in biological samples for highly selective modifications. We implement the system through the propagation of high power femtosecond pulses through a graded-index (GRIN) multimode fiber and we investigate the limitations posed by the high laser peak intensities required for laser ablation. We demonstrate that the GRIN fiber probe can deliver laser intensities up to 1.5x10 13 W/cm 2 , sufficient for the ablation of a wide range of materials, including biological samples. Wavefront shaping through an ultrathin probe of around 400 μm in diameter is used for diffraction limited focusing and digital scanning of the focus spot. Selective FLA of cochlear hair cells is performed based on the TPF images obtained through the same multimode fiber probe.

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High energy femtosecond laser micromachining with hollow core photonic crystal fiber delivery

Yang

et al. 2019

Optik

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Kagome fiber based ultrafast laser microsurgery probe delivering micro-Joule pulse energies

Cited by 21 publications

References 37 publications

Preclinical evaluation of porcine colon resection using hollow core negative curvature fibre delivered ultrafast laser pulses

Preclinical evaluation of porcine colon resection using hollow core negative curvature fibre delivered ultrafast laser pulses

Selective femtosecond laser ablation via two-photon fluorescence imaging through a multimode fiber

High energy femtosecond laser micromachining with hollow core photonic crystal fiber delivery

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