Xtrasee: Portable,
Budget-friendly and Rapid

Xtrasee’s light-sheet tech offers speed, affordability, and precise 3D imaging for breakthrough research.

Empowering Scientific researchers: Unveiling the Xtrasee capabilities in Microscopy Innovation

Welcome to Xtrasee, where we revolutionize microscopy for the visionaries of scientific exploration. Committed to driving innovation, we present an unparalleled solution for 3D imaging on fluorescence microscopes. At Xtrasee, we understand the challenges researchers face—long imaging times, sample damage, and high costs. Our advanced technology combines affordability, portability, and efficiency, transforming conventional microscopes into powerful tools for cutting-edge research. With automatic movement axes, line laser precision, and the newest image processing, Xtrasee streamlines the imaging process, ensuring rapid results without compromising sample integrity. Xtrasee is not just a product; it’s a commitment to advancing scientific exploration.

Long Imaging Time

Long Imaging Time

Long imaging times are a setback, plaguing traditional microscopes with tedious point-by-point processes. Researchers face delays, limiting the speed and efficiency crucial for scientific exploration. The extended imaging duration hinders the timely progress needed for cutting-edge discoveries.

Sample Bleaching

Sample Bleaching

Sample bleaching, a consequence of prolonged radiation, compromises fluorescence microscopy accuracy. Researchers encounter challenges in obtaining reliable, unaltered outcomes. The continuous exposure leads to the fading of fluorescence, distorting the accuracy of observations and hindering the reliability of research findings.

Phototoxicity in Samples

Phototoxicity in Samples

Phototoxicity poses a serious threat to biological samples exposed to prolonged, high-power radiation. The risk of damage and the potential for complete destruction of specimens present significant obstacles. The prolonged exposure to high-power radiation leads to cellular damage, impacting the viability and integrity of the samples crucial for meaningful research outcomes.

steer Microscopy challenges: address Common Issues delay Research Progress

Efficiency, Affordability, Precision

Xtrasee: Compact Innovation Enabling Cost-Effective,
Rapid, and High-Quality Microscopy Revolution

Compact and efficient, Xtrasee compresses optical components, significantly reducing the final product’s volume. This revolutionary engineering ensures a small footprint without compromising the power and capabilities required for cutting-edge 3D imaging. Researchers can now enjoy the benefits of space-saving technology without sacrificing performance, enhancing their microscopy experience.
Xtrasee brings automation to the forefront, seamlessly integrating software and automatic motion engines. By eliminating manual interventions, researchers experience a streamlined imaging process that is not only efficient but also significantly reduces imaging time. This automation ensures precision, consistency, and reliability, allowing scientists to focus on the essence of their research without the burden of time-consuming tasks, propelling scientific discovery forward.
Xtrasee’s advanced image processing algorithms set it apart, detecting and removing light pollution in real-time. This specialized feature enhances the quality of 3D images by correcting and refining two-dimensional images. Researchers can now obtain pristine, artifact-free results, ensuring the accuracy and reliability crucial for meaningful scientific insights in fields ranging from biology to medicine.
Embracing Light-Sheet technology, Xtrasee minimizes sample exposure, mitigating bleaching and phototoxicity. This cutting-edge approach accelerates 3D imaging, providing high-speed results without compromising the health of biological specimens.

72%

Labs Affected by Cost Constraints

3x

Imaging Speed Improvement Factor

Bridging the Gap: Overcoming Challenges in Cancer Research

In the face of the escalating prevalence of cancer, the demand for effective treatment solutions has surged. However, the progress in cancer studies often encounters roadblocks attributed to the utilization of sluggish tools. The need for more reliable and swift methodologies becomes evident as biological science advances. In particular, extensive research in cancer biology necessitates intricate three-dimensional observations of samples to unravel the complexities of the disease. Regrettably, the existing devices available in the market come with exorbitant price tags, posing a formidable barrier to accessibility for many small laboratories. The prohibitive costs of these tools hinder the democratization of advanced research capabilities, limiting the potential breakthroughs that could emerge from a wider spectrum of scientific communities.

In light of these challenges, the quest for innovative solutions becomes imperative. Overcoming the limitations imposed by slow and costly tools is pivotal for fostering a more inclusive and effective approach to cancer research. By addressing the obstacles associated with affordability and speed in imaging technologies, a new era of possibilities emerges, providing hope for enhanced insights, faster discoveries, and ultimately, more effective cancer treatments.

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