José P Arcos scite author profile

Ventilation-perfusion (VA/Q) inequality has been shown to increase with exercise. Potential mechanisms for this increase include nonuniform pulmonary vasoconstriction, ventilatory time constant inequality, reduced large airway gas mixing, and development of interstitial pulmonary edema. We hypothesized that persistence of VA/Q mismatch after ventilation and cardiac output subside during recovery would be consistent with edema; however, rapid resolution would suggest mechanisms related to changes in ventilation and blood flow per se. Thirteen healthy males performed near-maximal cycle ergometry at an inspiratory PO2 of 91 Torr (because hypoxia accentuates VA/Q mismatch on exercise). Cardiorespiratory variables and inert gas elimination patterns were measured at rest, during exercise, and between 2 and 30 min of recovery. Two profiles of VA/Q distribution behavior emerged during heavy exercise: in group 1 an increase in VA/Q mismatch (log SDQ of 0.35 +/- 0.02 at rest and 0.44 +/- 0.02 at exercise; P less than 0.05, n = 7) and in group 2 no change in VA/Q mismatch (n = 6). There were no differences in anthropometric data, work rate, O2 uptake, or ventilation during heavy exercise between groups. Group 1 demonstrated significantly greater VA/Q inequality, lower vital capacity, and higher forced expiratory flow at 25–75% of forced vital capacity for the first 20 min during recovery than group 2. Cardiac index was higher in group 1 both during heavy exercise and 4 and 6 min postexercise. However, both ventilation and cardiac output returned toward baseline values more rapidly than did VA/Q relationships. Arterial pH was lower in group 1 during exercise and recovery. We conclude that greater VA/Q inequality in group 1 and its persistence during recovery are consistent with the hypothesis that edema occurs and contributes to the increase in VA/Q inequality during exercise. This is supported by observation of greater blood flows and acidosis and, presumably therefore, higher pulmonary vascular pressures in such subjects.

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Pulmonary interstitial edema in the pig after heavy exercise

Schaffartzik

Arcos

Tsukimoto

et al. 1993

Journal of Applied Physiology

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During exercise (especially in hypoxia), the alveolar-arterial O2 tension difference increases. This impairment of pulmonary gas exchange is caused partly by diffusion disequilibrium, but it has also been shown that an exercise-induced increase in ventilation-perfusion (VA/Q) inequality develops. Possible explanations of increased VA/Q mismatch include nonuniform pulmonary vasoconstriction, reduced gas mixing in the large airways, airway obstruction, and the development of interstitial pulmonary edema. To directly determine whether the latter develops in high-intensity short-term exercise, we exercised pigs on a motor-driven treadmill at the highest speed that they could sustain for 6-7 min. Heart rate reached 274 +/- 5 min-1 in the exercised group, confirming that the pigs reached a near-maximal level of exercise. While running, the pigs were killed by an intravenous overdose of pentobarbital. Postmortem, the lungs were immediately removed, drained of blood, weighed, and then airway fixed with 10% formaldehyde. Four tissue blocks of the right lung of each pig were taken from the ventral and dorsal areas of the upper and lower lobes, respectively. They were stained with hematoxylin and eosin and prepared for histological examination by light microscopy. There was no difference in the lung-to-body weight ratio between exercised pigs (7.72 +/- 0.87 g/kg) and a nonexercised control group (7.70 +/- 0.68 g/kg). However, we found a significantly higher percentage of pulmonary arteries with perivascular edema in exercised (33.8 +/- 3.4%) than in nonexercised pigs (20.0 +/- 4.0%; P < 0.02). Thus, perivascular edema (and thus possibly also parenchymal interstitial edema) can occur during short-term heavy exercise.(ABSTRACT TRUNCATED AT 250 WORDS)

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Reliability and factor analysis of the Spanish version of the Asthma Control Test

Rodrigo

Arcos

Nannini

et al. 2008

Annals of Allergy, Asthma & Immunology

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Effect of common dead space on VA/Q distribution in the dog

Tsukimoto

Arcos

Schaffartzik

et al. 1990

Journal of Applied Physiology

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Several previous studies have shown worsening ventilation-perfusion (VA/Q) relationships in humans during heavy exercise at sea level. However, the mechanism of this deterioration remains unclear because of the correlation with ventilatory and circulatory variables. Our hypothesis was that the decrease in the series dead space-to-tidal volume ratio during exercise might be partly responsible because mixing in the common dead space can reduce apparent inequality. We tested this notion in 10 resting anesthetized normocapnic dogs passively hyperventilated by increase tidal volume and a) inspired CO2 or b) external dead space. We predicted less apparent VA/Q inequality in condition b because of mixing in the added dead space. After base-line measurements, conditions a and b were randomly assigned, and after a second set of base-line measurements they were repeated in the reverse order in each dog. VA/Q inequality was measured by the multiple inert gas elimination technique. Comparison of conditions a and b demonstrated that additional external dead space improved (P less than 0.001) the blood flow distributions as hypothesized [log standard deviation of perfusion = 0.49 +/- 0.02 (SE) in condition b and 0.61 +/- 0.03 in condition a with respect to 0.52 +/- 0.03 at base line]. This study suggests that the increased tidal volume during exercise could uncover VA/Q inequality not evident at rest because of the higher ratio of common dead space to tidal volume at rest.

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José P Arcos

VA/Q distribution during heavy exercise and recovery in humans: implications for pulmonary edema

Pulmonary interstitial edema in the pig after heavy exercise

Reliability and factor analysis of the Spanish version of the Asthma Control Test

Effect of common dead space on VA/Q distribution in the dog

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