Toward Physiology-based Sleep Assessment: the Emerging Clinical Role of Advanced RIP Technology

Abstract Purpose of Review This review evaluates recent advances in respiratory inductance plethysmography (RIP) technology for sleep assessment, focusing on physiological principles, volumetric versus non-volumetric implementations, calibration strategies, and clinical relevance in sleep-disordered breathing. Recent Findings Recent literature underscores that RIP performance depends critically on mechanical design, signal stability, and calibration methodology. Studies show that belt configuration significantly affects signal reliability and agreement when comparing RIP-derived ventilation measures with gold-reference standard. Advances in calibration and signal processing have improved quantitative ventilation estimates. Emerging data also indicate that thoracoabdominal respiratory signals may support the estimation of sleep stages, arousals, and physiologic burden metrics for sleep apnea. Summary Modern RIP technology extends beyond effort detection to enable quantitative, physiology-based characterization of sleep-disordered breathing. These advances may support simplified yet comprehensive sleep assessment, facilitating scalable diagnostics and advancing precision phenotyping in sleep medicine.