Nitrogen-13 and Xenon-133 Ventilation Studies

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The Journal of Nuclear Medicine Vol. 25 No. 11 1175-1182
© 1984 by Society of Nuclear Medicine

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Nitrogen-13 and Xenon-133 Ventilation Studies

Th. W. van der Mark, A. E. C. Rookmaker, A. Kiers, R. Peset, W. Vaalburg, A. M. J. Paans and M. G. Woldring

University Hospital, Groningen, Netherlands

ABSTRACT

Due to the solubility of xenon-133 in blood and tissues, errorsare introduced in the determination of regional pulmonary ventilation.We investigated these errors by comparing the results from ventilationmeasurements with Xe-133 and N-13 in five normal subjects (bothat rest and during exercise) and in seven patients after a pneumonectomy.In the normal subjects at rest, the upper lung fields showedno significant difference in the uptake rates of the two gases.In the middle and lower lung fields, however, the uptake ratefor Xe-133 was higher than for N-13. During exercise a significantincrease of the specific ventilation was found in the upperlung fields for N-13 compared with Xe-13. In the pneumonectomypatients the overall uptake rate for Xe-133 in the intact hemithoraxwas 25% larger than for N-13. Over the pneumonectomized hemithoraxthe uptake of the fastest component of Xe-133 was (8.5 ±1.3)% of the total. The total chest-wall contribution of Xe-133was (27 ± 8)% of the total count rate.

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