Objective: Adult patients with small, unrepaired atrial septal defects have an increased risk of pneumonia, atrial fibrillation, and stroke. Furthermore, they have higher late mortality than the background population. The functional capacity is unknown in these patients. Therefore, our objective was to determine exercise capacity in adult patients diagnosed with an unrepaired atrial septal defect compared to healthy controls. Design: A cross-sectional study.Patients: Adult patients with small, unrepaired atrial septal defects, aged 18-65, diagnosed between 1953 and 2011.Interventions: Cardiopulmonary exercise test was performed using an incremental bicycle test and gas exchange was measured using breath-by-breath technique.Outcome measures: Primary outcome was peak oxygen uptake, secondary outcome was maximal workload and ventilatory anaerobic threshold. Results:We included 32 patients previously diagnosed with a small, unrepaired atrial septal defect and 16 healthy, age-and gender-matched controls (age 36.3 ± 13 years).Patients were divided into two groups based on whether the atrial septal defect was open (age 36.3 ± 11 years) or spontaneously closed (age 36.8 ± 14 years) since time of diagnosis. No differences in demographic characteristics or weekly exercise levels were found. Both patient groups reached lower peak oxygen uptake (open: 31.7 ± 11 mL/kg/min; spontaneously closed: 29.7 ± 6.9 mL/kg/min) compared with controls (42.6 ± 6.1 mL/kg/min; P = .0001). Workload (open: 2.6 ± 1.0 watt/kg; spontaneously closed: 2.5 ± 0.6 watt/kg) and aerobic capacity (open: 21.4 ± 8.7 mL/ kg/min; spontaneously closed: 22.5 ± 6.5 mL/kg/min) was also poorer in patients compared to controls (workload: 3.5 ± 0.5 watt/kg; P = .0006, aerobic capacity: 31.3 ± 6.8 mL/kg/min; P = .0007). Conclusion:Adult patients with a diagnosis of small, unrepaired atrial septal defect have significantly impaired exercise capacity when compared to healthy controls.The impairment was present even if, by the time of assessment, the defect had closed spontaneously. The pathophysiological mechanisms behind the impaired exercise capacity demonstrated in these patients remain unexplained and will be a target for future work.
Background Ventricular septal defects (VSD), when treated correctly in childhood, are considered to have great prognoses, and the majority of patients are discharged from follow‐up when entering their teens. Young adults were previously found to have poorer functional capacity than healthy peers, but the question remains whether functional capacity degenerates further with age. Methods and Results A group of 30 patients with surgically closed VSDs (51±8 years) with 30 matched, healthy control participants (52±9 years) and a group of 30 patients with small unrepaired VSDs (55±12 years) and 30 matched control participants (55±10 years) underwent cardiopulmonary exercise testing using an incremental workload protocol and noninvasive gas measurement. Peak oxygen uptake was lower in participants with closed VSDs than matched controls (24±7 versus 34±9 mL/min per kg, P <0.01) and with unrepaired VSDs than matched controls (26±5 versus 32±8 mL/min per kg, P <0.01). Patients demonstrated lower oxygen uptake from exercise levels at 20% of maximal workload compared with respective control groups ( P <0.01). Peak ventilation was lower in patients with surgically closed VSDs than control participants (1.0±0.3 versus 1.4±0.4 L/min per kg, P <0.01) but similar in patients with unrepaired VSDs and control participants ( P =0.14). Exercise capacity was 29% lower in older patients with surgically closed VSDs than healthy peers, whereas younger patients with surgically closed VSDs previously demonstrated 18% lower capacity compared with peers. Older patients with unrepaired VSDs reached 21% lower exercise capacity, whereas younger patients with unrepaired VSDs previously demonstrated 17% lower oxygen uptake than healthy peers. Conclusions Patients with VSDs demonstrate poorer exercise capacity than healthy peers. The difference between patients and control participants increased with advancing age—and increased most in patients with operated VSDs—compared with previous findings in younger patients. Results warrant continuous follow‐up for these simple defects.
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