New long-wavelength Nd:YAG laser at 1.44 µm: effect on brain

Abstract

✓ A wavelength-shifted Nd:YAG laser, tuned to coincide with the infrared absorption peak of water at 1.44 µm, was used to make lesions in normal rabbit brain. A total of 48 lesions were made with power up to 20 W, with energy up to 40 joules, and with two different spot sizes. These lesions were compared to lesions made with 1.06 µm radiation from an Nd:YAG laser under identical operating conditions. Measurements of blood-brain barrier damage and width, depth, and volume of tissue affected were obtained 30 minutes after placement of the lesions. It was found that 1.44-µm lesions produced photoevaporative tissue loss at the highest intensities used. The layer of coagulated tissue remaining after photovaporization had a mean thickness of 0.6 mm irrespective of the volume of tissue removed. There was no photovaporization in the 1.06-µm lesions. In addition, the amount of peripheral edema per unit volume of tissue coagulated was approximately half at the 1.44-µm wavelength. These findings suggest that the 1.44-µm Nd:YAG laser may be a useful surgical instrument since it combines the photoevaporative effect of the CO2 laser while maintaining the advantages of the conventional Nd:YAG laser (quartz fiber delivery and effective hemostasis).