ORCA: A Comprehensive AI-Driven Platform for Digital Pathology Analysis and Biomarker Discovery
Abstract
Digital pathology has emerged as a transformative approach to tissue analysis, offering unprecedented opportunities for objective, quantitative assessment of histopathological features. However, the complexity of implementing artificial intelligence (AI) solutions in pathology workflows has limited widespread adoption. Here we present ORCA (Optimized Research and Clinical Analytics), a comprehensive no-code AI platform specifically designed for digital pathology applications. ORCA addresses critical barriers to AI adoption by providing an intuitive interface that enables pathologists and researchers to train, deploy, and validate custom AI models without programming expertise. The platform integrates advanced deep learning architectures with clinical workflow management, supporting applications from tissue classification and cell segmentation to spatial distribution scoring and novel biomarker discovery. We demonstrate ORCA's capabilities through validation studies across multiple cancer types, showing significant improvements in analytical speed, reproducibility, and clinical correlation compared to traditional manual assessment methods. Our results indicate that ORCA successfully democratizes access to state-of-the-art AI tools in pathology, potentially accelerating biomarker discovery and enhancing precision medicine initiatives.