Twelve-Day Live Blood Analysis Reveals Hemorheological and Microvascular Restoration in a Parkinsons Disease Patient Following Biophoton Therapy
Author(s):
Ya Hu, Helen Y Gu and James Z Liu*
Parkinson’s Disease (PD) is a progressive neurodegenerative disorder marked by impaired microcirculation, systemic inflammation, and mitochondrial
dysfunction. This case study presents a 12-day live blood analysis under dark-field microscopy of a 69-year-old male PD patient undergoing continuous
non-invasive biophoton therapy. Initial blood morphology showed severe rouleaux formation, irregular red blood cells (RBCs), and protein-congested
plasma hallmarks of oxidative stress and impaired oxygen delivery. Over the 12-day period, progressive improvements were observed in RBC morphology,
membrane integrity, spacing, and plasma clarity, culminating in a physiologically optimal blood terrain by Day 12. These improvements suggest systemic
detoxification, immune normalization, and enhanced tissue oxygenation. Biophoton therapy may offer a novel supportive strategy to restore hemorheology
and cellular coherence in neurodegenerative disease management.
