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Medical Physics and Thoracic Medicine Departments of the Royal Free Hospital and School of Medicine, London, United Kingdom
Correspondence: For correspondence and reprints contact: Dr. S. Verbanck, Medical Physics Dept., Royal Free Hospital, Pond St., Hampstead, London NW3, United Kingdom.
ABSTRACT
Interregional sequential filling potentially affects lung ventilation imaging, depending on the distribution of the tracer within the inspired volume. We investigated its importance quantitatively under near tidal breathing conditions in the upright lung using a short-lived radioactive tracer. Ten normal volunteers performed two runs of 900-ml breaths (from functional residual capacity) in which 100 ml of 81mKr boli were delivered "early" or "late" in inspiration, i.e., 50 ml or 450 ml volumetric depth. Apex-to-base gradients in the vertical profile were –106 ± 22 (s.e.) counts/cm (early) and –187 ± 24 (s.e.) counts/cm (late). Ratios of upper-to-lower regional ventilation (U/L) were 0.88 ± 0.01 (s.e.) (early) and 0.81 ± 0.01 (s.e.) (late). Simulations with a compartment model show that a simple pattern of sequential filling can by itself account for the experimental results observed. Control over 81mKr delivery can be important to physiologically accurate assessment of ventilation-perfusion matching. Controlled delivery techniques could also modify effectiveness and targeting of other inhaled agents including therapeutic aerosols.
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| JOURNAL OF NUCLEAR MEDICINE TECHNOLOGY | THE JOURNAL OF NUCLEAR MEDICINE |
