Study on Optimal Optical Parameters for Cutting Liver Tissue with a Novel 980/1470 nm Dual-Wavelength Semiconductor Laser
Yiwen Lu, Gaoqi Liu, Kuiyuan Chai, Zien Xu, Mohan Lu, Linxin Shen, Meng Zhao, Le Jiang, Rongqian Wu, Lihui Pang, Yi Lyu, Rongfeng WangPurpose:
Laser–tissue interactions induce photothermal effects governed by wavelength-dependent absorption and circulation of energy. While 980 nm targets hemoglobin for hemostasis and 1470 nm targets water for vaporization, their synergistic optimization in living liver tissue remains undefined, as existing studies predominantly examine
Methods:
Twenty rabbits (female New Zealand White, 1.5–2 kg) underwent hepatic transection using a 400 μm bare fiber diameter (3 mm tissue distance, 10 mm/s advancement speed) in continuous-wave (CW) and pulsed-modulated (100 ms pulse, 50% duty cycle, 5 Hz) modes. Output power: 980 nm (12–160 W) and 1470 nm (6–48 W), with different dual-wavelength power ratios. Measured outcomes: cutting depth, vaporization depth, coagulation depth, and thermal injury depth (quantified by hematoxylin and eosin staining). Statistics: analysis of variance for continuous variables, chi-square/Fisher’s exact test for categorical variables, and the Mann–Whitney
Results:
CW mode achieved greater cutting depth than pulsed-modulated mode (median 943.97 μm vs. 689.43 μm,
Conclusions:
The 980/1470 nm wavelength power ratio of 8/16 W in CW mode for liver tissue cutting offers high efficiency, safety, and minimal thermal damage, providing an effective surgical energy device for minimally invasive and precise treatment.