Welcome to Advanced Robotics - Innovation in Pathology


At Advanced Robotics Innovation in Pathology, we specialize in leveraging advanced robotics technology to revolutionize the field of pathology. Our mission is to enhance the accuracy, efficiency, and speed of diagnostic processes, enabling pathologists to deliver precise and timely results for improved patient care. On this website, you’ll discover how our innovative robotics solutions are transforming pathology practices, enhancing workflow automation, and driving breakthroughs in diagnostics.

Our Ongoing Research:
  1. Automated Slide Scanning: We are developing state-of-the-art robotic slide scanning systems that automate the process of digitizing glass slides. Our robots can handle large volumes of slides, capturing high-resolution images with exceptional precision. This technology enables efficient archiving, remote access to slides, and facilitates the integration of artificial intelligence algorithms for automated image analysis.
  1. Robotics-Assisted Sample Preparation: Our robotics-assisted sample preparation systems optimize the workflow by automating various steps involved in specimen processing. From grossing and embedding to sectioning and staining, our robots ensure standardized and consistent sample preparation, reducing manual errors and freeing up valuable time for pathologists.
  1. Intelligent Image Analysis: We are developing advanced image analysis algorithms and artificial intelligence techniques into our robotics platforms. By leveraging machine learning and computer vision, our systems can detect and classify cellular structures, identify abnormalities, and aid in the interpretation of histopathological images. This technology enhances the accuracy and efficiency of diagnostics, allowing pathologists to focus on critical decision-making.
  1. Robotic Tissue Microarray Construction: Our robotic systems automate the process of constructing tissue microarrays (TMAs), a valuable tool in cancer research and biomarker studies. These robots precisely assemble tissue cores into a single paraffin block, facilitating high-throughput analysis and enabling efficient examination of large cohorts of patient samples.
  1. Telepathology Solutions: Our development of robotics-enabled telepathology solutions allow pathologists to remotely access and review digital slides in real-time. Through secure networks and advanced communication tools, our systems enable remote consultation, collaboration, and second opinions, facilitating efficient diagnosis and reducing geographical barriers.
Why Choose Us?
  1. Pathology Expertise: Our team comprises experts in pathology, robotics, and artificial intelligence. We understand the unique challenges and requirements of the pathology field, allowing us to design solutions specifically tailored to enhance pathology workflows and improve diagnostic accuracy.
  1. Innovation and Technology: We stay at the forefront of technological advancements in robotics and imaging. Our commitment to innovation ensures that our solutions incorporate the latest advancements, empowering pathologists with cutting-edge tools for precise and efficient diagnostics.
  1. Quality and Compliance: We prioritize the quality and compliance of our systems. Our solutions adhere to rigorous quality control standards and comply with relevant regulatory guidelines, ensuring reliable and accurate results that meet the highest industry standards.
  1. Collaboration and Support: We foster collaborative partnerships with pathology laboratories and research institutions. Our team works closely with clients to understand their unique needs, provide tailored solutions, and offer comprehensive support throughout the implementation and utilization of our robotics platforms.
  1. Patient-Centric Approach: Our ultimate goal is to improve patient care. By enhancing the accuracy, speed, and efficiency of pathology diagnostics through advanced robotics, we contribute to faster and more accurate diagnoses, leading to better treatment decisions and outcomes for patients.