Error analysis of combined measurements of regional ventilation and V/Q ratio using positron emission tomography

Abstract

The authors measured the regional pulmonary ventilation/perfusion ratio with intravenous ¹³N in saline solution, using positron emission tomography, in eight normal healthy volunteers, 10 patients with asthma and 10 patients with chronic obstructive pulmonary disease. Regional pulmonary ventilation was also measured with ¹⁹Ne, and this information was used to (i) correct ventilation/perfusion ratios obtained with ¹³N in regions with impaired ventilation and (ii) calculate regional perfusion, Q. The authors analyse the errors inherent in these measurements. Dead space ventilation and focal inhomogeneities in ventilation and/or blood flow will affect the transport of both ¹⁹Ne and ¹³N, but in different ways. Combining the two methods, values of blood flow obtained tend to overestimate Q in normal supine subjects by some 6% in the non-dependent part of the lung and to underestimate Q by a similar amount in the dependent part. In patients with air flow obstruction, blood flow is underestimated in regions with low ventilation/perfusion ratios and overestimated in regions with high ventilation/perfusion ratios. In the groups of patients studied, errors may reach a level of 10-20%.