Current State of the Art in Neurosurgical Operative Microscopes

Authors

• Kivanc Yangi, Neurosurgery, Barrow Neurological Institute, Phoenix, USA.Follow
• Egemen Gok, Neurosurgery, Barrow Neurological Institute, Phoenix, USA.
• Michell Goyal, Medicine, Creighton University, Phoenix, USA.
• Pravarakhya Puppalla, Neurosurgery, Barrow Neurological Institute, Phoenix, USA.
• Mark Preul, Neurosurgery, Barrow Neurological Institute, Phoenix, USA.

Document Type

Article

Abstract

Surgical microscopes play a critical role in neurosurgery, providing high-resolution visualization, magnification, and ergonomic advantages that support precise surgical interventions and enhance the training environment. Recent technological advances have further expanded their clinical value. This study evaluated the current generation of neurosurgical operative microscopes, identifying and comparing the technical specifications, advantages, and limitations of the latest models released by six leading manufacturers: Carl Zeiss Meditec AG (Jena, Germany); Leica Microsystems GmbH (Wetzlar, Germany (a subsidiary of Danaher Corp., Washington, DC); Mitaka Kohki Co., Ltd. (Tokyo, Japan); Olympus Corp. (Tokyo, Japan); Aesculap, Inc. (Tuttlingen, Germany (a subsidiary of B. Braun Group, Melsungen, Germany)); and Synaptive Medical, Inc. (Ontario, Canada). Information was gathered through manufacturer-provided technical data, direct communication with company representatives, and published reports on neurosurgical microscopes. Particular attention was given to models in use worldwide. A total of 21 surgical microscopes and exoscopes from six leading manufacturers were reviewed. Zeiss microscopes, particularly the Kinevo 900 and Pentero series, demonstrated advanced integration with robotic positioning, compatibility with image-guided surgery, and automated movement systems. Leica models were notable for their emphasis on surgical education and training, with systems such as the M320 T microscope, the MyVeo headset, and augmented reality (AR)-enhanced fluorescence modules. Mitaka microscopes were distinguished by their lightweight design and compact stands, offering enhanced mobility in operating rooms with limited space. The specialized exoscope models from Olympus, Aesculap, and Synaptive offered excellent image clarity and ergonomic control. Notably, refurbished older microscopes are often used in low- and middle-income countries due to financial constraints. Contemporary neurosurgical microscopes have evolved into multifunctional platforms that support surgical precision and enhance training, education, and intraoperative visualization. The integration of cutting-edge technologies (e.g., AR visualization, artificial intelligence, robotics, wireless controls, and adaptive viewing platforms) signals a promising path for the future of surgical innovation. However, global variability in model availability reflects underlying resource disparities. Continued innovation and efforts to make advanced technologies more accessible are essential to supporting neurosurgeons worldwide.

Publication Date

2-1-2026

Publication Title

Cureus

ISSN

2168-8184

Volume

18

Issue

2

First Page

e104305

PubMed ID

41909423

Digital Object Identifier (DOI)

10.7759/cureus.104305

Recommended Citation

Yangi, Kivanc; Gok, Egemen; Goyal, Michell; Puppalla, Pravarakhya; and Preul, Mark, "Current State of the Art in Neurosurgical Operative Microscopes" (2026). Neurosurgery. 2351.
https://scholar.barrowneuro.org/neurosurgery/2351