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Severe Acute Respiratory Syndrome, Pulmonary Function Tests, and Quality of Life

Lessons Learned

Cleveland Clinic Foundation, Cleveland OH
Dr. Arroliga is Professor of Medicine, Cleveland Clinic Lerner College of Medicine, and Head, Section of Critical Care Medicine.

Correspondence to: Alejandro C. Arroliga, MD, Cleveland Clinic Lerner College of Medicine, Section of Critical Care Medicine, 9500 Euclid Ave, G6–156, Cleveland, OH 44195; e-mail: arrolia{at}ccf.org

The severe acute respiratory syndrome (SARS) is caused by a novel coronavirus (SARS-CoV) with great genetic diversity among strains.¹² Coronaviruses are single-stranded RNA viruses that can cause common cold in humans and diseases in animals. The SARS-CoV is moderately infective, with an attack rate that ranges from 2.4 to 31 cases per 1,000 exposure hours³ and may be transmitted by aerosolization. The SARS epidemic affected thousands of people in five continents (26 countries) over a period of 9 months following its first appearance in November of 2002 in the south of China. The case fatality rate associated with SARS is about 15%. However, a higher mortality occurs in the elderly and in patients with comorbid conditions.⁴

The clinical presentation of patients with SARS ranges from asymptomatic infection to severe multilobar pneumonia and death. Of the symptomatic patients, approximately 20 to 25% become critically ill and need to be admitted to the ICU, most commonly with acute respiratory failure that fulfills the criteria for acute lung injury (ALI) and ARDS.⁵⁶ The initial chest radiographic finding in patients with SARS, unifocal peripheral airspace disease, is nonspecific and has significant overlap with the radiographic findings of other atypical pneumonias.⁷⁸ Progression to bilateral disease is associated with poor outcomes.⁷⁸ Patients with ALI/ARDS (bilateral diffuse infiltrates and severe hypoxemia) have diffuse alveolar damage⁹ that may look similar to diffuse alveolar damage present in most patients with ARDS.¹⁰

In this issue of CHEST (see page 1393), Ong et al¹¹ report the pulmonary function and health status at 1 year of a cohort of patients from Singapore who recovered from SARS. There were 206 patients with probable SARS in Singapore, 15% of whom died (32 patients). Of the patients who survived, 46% declined participation, could not be contacted, were underage, or could not perform the battery of tests. The 94 subjects included in this study (half of them were health-care workers) had pulmonary function tests done and the authors administered the St. George’s Respiratory Questionnaire. Unfortunately, exercise testing was not performed. Ong et al¹¹ found that at 1 year, 20 to 30% of the patients had cough, sputum production, or shortness of breath, but the mean values for lung volumes were in the normal range. According to the American Thoracic Society criteria, mild and moderate impairment were present in 32% and 5%, respectively. Only 12% of the study population required admission to the ICUs for severe acute respiratory failure, and only 7% were intubated. Interestingly, the outcomes of the patients with severe respiratory failure were similar to the patients who were not admitted to the ICU. Overall, however, patients who survived SARS had worse health-related quality of life than normal subjects.

This new study by Ong et al¹¹ extends the observation regarding lung function done at 3 months¹² and at 6 months from hospital discharge,¹³ and complements a recent study¹⁴ from Beijing that followed up patients 1 year after SARS. All of these studies¹²¹³¹⁴ report common abnormalities in pulmonary function tests, but most if not all of the abnormalities were mild. It is important to emphasize that in a previous communication by Ong et al,¹² in patients evaluated at 3 months after SARS, up to 78% patients had mild-to-moderate impairment of exercise capacity, although none of the patients showed ventilatory impairment during exercise. The limitations during exercise in this group may be related to poor conditioning or residual muscular problems. An important limitation of the current study is the lack of exercise test results, as we do not know the real impact of the alterations present in the breathing tests and in the health-related quality of life questionnaire.

It is important to notice the similarities and differences between the current report by Ong et al¹¹ and the reported physiologic and health-related quality of life abnormalities in survivors of ARDS and pneumonia.^15161718 In both SARS and ARDS,¹⁵¹⁸ recovery of lung function in survivors is impressive considering the extent of the original injury. However, patients who survive ARDS have significant decrease in health-related quality of life when compared with matched control subjects with sepsis and trauma but without ARDS.¹⁶ It seems that patients with SARS have a more benign course compared with patients with ARDS and pneumonia in terms of health-related quality of life.

What are the lessons learned over the last 28 months? The first one is how vulnerable the human race is when we are faced with new diseases and lack immunity to new pathogens. However, the medical community has been able to work together and share new findings and new knowledge, to control the epidemic of SARS of from 2002 to 2003. Coordination of medical personnel with administrative and political authorities, rapid actions, sound public health policy, and use of infection control procedures are essentials in tackling major epidemics.¹⁹

What is going to be the new epidemic/pandemic affecting us in the next few months or years? Could it be SARS again? Or avian influenza (H5N1 strain of influenza A),²⁰²¹ a virus with a major potential of causing pandemic? Whatever it is, the medical community needs to remain vigilant and generate knowledge that will limit the impact of the disease, as has been the case with SARS.

References

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