Jin-H. Shen scite author profile

Jin-H. Shen

2Publications

13Citation Statements Received

32Citation Statements Given

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Vanderbilt University, Vanderbilt University Medical Center

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Efficacy and predictability of soft tissue ablation using a prototype Raman-shifted alexandrite laser

et al. 2015

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Abstract. Previous research showed that mid-infrared free-electron lasers could reproducibly ablate soft tissue with little collateral damage. The potential for surgical applications motivated searches for alternative tabletop lasers providing thermally confined pulses in the 6-to-7-μm wavelength range with sufficient pulse energy, stability, and reliability. Here, we evaluate a prototype Raman-shifted alexandrite laser. We measure ablation thresholds, etch rates, and collateral damage in gelatin and cornea as a function of laser wavelength (6.09, 6.27, or 6.43 μm), pulse energy (up to 3 mJ∕pulse), and spot diameter (100 to 600 μm). We find modest wavelength dependence for ablation thresholds and collateral damage, with the lowest thresholds and least damage for 6.09 μm. We find a strong spot-size dependence for all metrics. When the beam is tightly focused (∼100-μm diameter), ablation requires more energy, is highly variable and less efficient, and can yield large zones of mechanical damage (for pulse energies >1 mJ). When the beam is softly focused (∼300-μm diameter), ablation proceeded at surgically relevant etch rates, with reasonable reproducibility (5% to 12% within a single sample), and little collateral damage. With improvements in pulse-energy stability, this prototype laser may have significant potential for soft-tissue surgical applications.

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Differentiating functional brain regions using optical coherence tomography (Conference Presentation)

Gil

Shen

et al. 2017

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Jin-H. Shen

Efficacy and predictability of soft tissue ablation using a prototype Raman-shifted alexandrite laser

Differentiating functional brain regions using optical coherence tomography (Conference Presentation)

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