The Dextroscope is a medical equipment system that creates a virtual reality (VR) environment in which surgeons can plan neurosurgical and other surgical procedures.

The Dextroscope is designed to show a patient's 3D anatomical relationships and pathology in great detail. Although its main purpose is for planning surgery, the dextroscope has also proven useful in research in cardiology, radiology and medical education.

The Dextroscope started as a research project in the mid-90s at the Kent Ridge Digital Labs research institute (part of Singapore's Agency for Science, Technology and Research (A*STAR)). It was initially named the Virtual Workbench and underwent commercialization in 2000 by the company Volume Interactions Pte Ltd with the name Dextroscope. The Dextroscope was selected in 2021 by A*STAR as one of the 30 innovations and inventions that pushed scientific boundaries, made an economic impact or improved lives over its 30 years history (A*STAR@30: 30 Innovations and Inventions Over Three Decades).

The Dextroscope was designed to be a practical variation of Virtual Reality which introduced an alternative to the prevalent trend of full immersion of the 1990s. Instead of immersing the whole user into a virtual reality, it just immersed the neurosurgeon into the patient data.

The Dextroscope allows its user to interact intuitively with a Virtual Patient. This Virtual Patient is composed of computer-generated 3D multi-modal images obtained from any DICOM tomographic data including CT, MRI, MRA, MRV, functional MRI and CTA, PET, SPECT and Tractography. The Dextroscope can work with any multi-modality combination, supporting polygonal meshes as well.

The surgeon sits at the Dextroscope 3D interaction console and manipulates the Virtual Patient using both hands, similar to real life. Using stereoscopic visualisations displayed via a mirror, the surgeon sees the Virtual Patient floating behind the mirror but within easy reach of the hands. The surgeon uses flexible 3D hand movements to rotate and manipulate the object of interest. The Dextroscope allows virtual segmentation of organs and structures, making accurate 3D measurements, etc.

In one hand the surgeon holds a handle with a switch that, when pressed, allows the 3D image to be moved freely as if it were an object held in real space. The other hand holds a pencil shaped stylus that the surgeon uses to select tools from a virtual control panel and perform detailed manipulations on the 3D image.

The surgeon does not see the stylus, handle or his/her hands directly, as they are hidden behind the surface of the mirror. Instead he/she sees a virtual handle and stylus calibrated to appear in exactly the same position as the real handle and stylus. The virtual handle can serve as a drill tool, measurement tool, cutter, etc.