Cui Jiahe, Turcotte Raphaël, Hampson Karen M, Wincott Matthew, Schmidt Carla C, Emptage Nigel J, Charalampaki Patra, Booth Martin J
Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, United Kingdom.
Department of Pharmacology, University of Oxford, Mansfield Road, Oxford OX1 3QT, United Kingdom.
Biomed Opt Express. 2020 Jul 29;11(8):4772-4785. doi: 10.1364/BOE.397832. eCollection 2020 Aug 1.
Visual guidance at the cellular level during neurosurgical procedures is essential for complete tumour resection. We present a compact reflectance confocal microscope with a 20 mm working distance that provided <1.2 µm spatial resolution over a 600 µm × 600 µm field of view in the near-infrared region. A physical footprint of 200 mm × 550 mm was achieved using only standard off-the-shelf components. Theoretical performance of the optical design was first evaluated via commercial Zemax software. Then three specimens from rodents: fixed brain, frozen calvaria and live hippocampal slices, were used to experimentally assess system capability and robustness. Results show great potential for the proposed system to be translated into use as a next generation label-free and contactless neurosurgical microscope.
神经外科手术过程中细胞水平的视觉引导对于完整切除肿瘤至关重要。我们展示了一种紧凑型反射共聚焦显微镜,其工作距离为20毫米,在近红外区域600微米×600微米的视野范围内提供了小于1.2微米的空间分辨率。仅使用标准的现成组件就实现了200毫米×550毫米的物理尺寸。首先通过商业Zemax软件评估了光学设计的理论性能。然后使用来自啮齿动物的三个标本:固定大脑、冷冻颅骨和活海马切片,对系统能力和稳健性进行了实验评估。结果表明,该系统具有很大的潜力可转化为下一代无标记、非接触式神经外科显微镜。