How best to interpret measures of levels of oxygen in tissues to make them effective clinical tools for care of patients with cancer and other oxygen-dependent pathologies

Swartz HM, Flood AB, Schaner PE, Halpern H, Williams BB, Pogue BW, et al · 2020 · DOI 10.14814/phy2.14541

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Quantum Entanglement Degree, Mean Positronium Lifetime, and the $3\gamma$/$2\gamma$ Annihilation-Rate Ratio as Novel PET Biomarkers for Hypoxia -- Concept, Challenges, and Predictions

physics.med-ph · 2026-04-19 · unverdicted · novelty 7.0

Quantum entanglement degree of positronium photons is derived as a function of oxygen partial pressure using lifetime and 3γ/2γ ratio to enable new PET biomarkers for hypoxia.

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Quantum Entanglement Degree, Mean Positronium Lifetime, and the $3\gamma$/$2\gamma$ Annihilation-Rate Ratio as Novel PET Biomarkers for Hypoxia -- Concept, Challenges, and Predictions physics.med-ph · 2026-04-19 · unverdicted · none · ref 2
Quantum entanglement degree of positronium photons is derived as a function of oxygen partial pressure using lifetime and 3γ/2γ ratio to enable new PET biomarkers for hypoxia.

How best to interpret measures of levels of oxygen in tissues to make them effective clinical tools for care of patients with cancer and other oxygen-dependent pathologies

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