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Original Investigation |

One-Year Outcomes and Health Care Utilization in Survivors of Severe Acute Respiratory Syndrome FREE

Catherine M. Tansey, MSc; Marie Louie, MD; Mark Loeb, MD; Wayne L. Gold, MD; Matthew P. Muller, MD; JoAnne de Jager, BSc(N); Jill I. Cameron, PhD; George Tomlinson, PhD; Tony Mazzulli, MD; Sharon L. Walmsley, MD; Anita R. Rachlis, MD; Barbara D. Mederski, MD; Mike Silverman, MD; Zev Shainhouse, MD; Issa E. Ephtimios, MD; Monica Avendano, MD; James Downey, MD, PhD; Rima Styra, MD; Deborah Yamamura, MD; Marvin Gerson, MD; Matthew B. Stanbrook, MD, PhD; Theodore K. Marras, MD, MSc; Elizabeth J. Phillips, MD; Noë Zamel, MD; Susan E. Richardson, MD; Arthur S. Slutsky, MD; Margaret S. Herridge, MD, MPH
[+] Author Affiliations

Author Affiliations: Department of Medicine, University Health Network, Toronto, Ontario (Ms Tansey and Drs Gold, Tomlinson, Walmsley, Styra, Stanbrook, Marras, Zamel, and Herridge); Departments of Microbiology (Drs Louie and Phillips) and Medicine (Dr Rachlis), Sunnybrook Health Sciences Centre, Toronto; Department of Pathology and Molecular Medicine, McMaster University, Hamilton, Ontario (Dr Loeb); Departments of Medicine (Dr Muller) and Microbiology (Dr Mazzulli), Mount Sinai Hospital, Toronto; Division of Microbiology, Sick Children's Hospital, Toronto (Ms de Jager and Dr Richardson); Toronto Rehabilitation Institute, Toronto (Dr Cameron); Department of Medicine, North York General Hospital, North York, Ontario (Dr Mederski); Department of Medicine, Rouge Valley Health Centre, Ajax, Ontario (Dr Silverman); Department of Medicine, The Scarborough Hospital, Scarborough, Ontario (Dr Shainhouse); Departments of Medicine, Markham-Stouffville Hospital, Markham, Ontario, and Southlake Regional Health Centre, Newmarket, Ontario (Dr Ephtimios); Department of Respirology, West Park Health Care Centre, Toronto (Dr Avendano); Department of Medicine, Toronto East General, East York, Ontario (Dr Downey); Department of Medicine, William Osler Health Centre, Etobicoke, Ontario (Dr Yamamura); Department of Medicine, Humber River Regional Hospital, Toronto (Dr Gerson); Departments of Medicine and Critical Care Medicine, St Michael's Hospital, Toronto (Dr Slutsky); and the Institute of Medical Sciences (Ms Tansey and Drs Slutsky and Herridge), Interdepartmental Division of Critical Care Medicine (Drs Slutsky and Herridge), and the Department of Health Policy and Management Evaluation (Dr Tomlinson), University of Toronto. Dr Louie is now with the Provincial Laboratory for Public Health (Microbiology) and the University of Calgary, Calgary, Alberta. Ms de Jager and Dr Yamamura are now with the Department of Pathology and Molecular Medicine, McMaster University. Dr Cameron is now with the Department of Occupational Science and Occupational Therapy, University of Toronto. Dr Ephtimios is now only with the Department of Medicine, Markham-Stouffville Hospital. Dr Phillips is now with the Department of Clinical Pharmacology, University of British Columbia, Vancouver. Dr Slutsky is now with the Keenan Research Centre, Li Ka Shing Knowledge Institute, St Michael's Hospital.


Arch Intern Med. 2007;167(12):1312-1320. doi:10.1001/archinte.167.12.1312.
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Background  Severe Acute Respiratory Syndrome (SARS) became a global epidemic in 2003. Comprehensive information on 1-year outcomes and health care utilization is lacking. Research conducted during the SARS outbreak may help inform research planning for future public health emergencies. The objective of this study was to evaluate the 1-year outcomes in survivors of SARS and their family caregivers.

Method  The study was prospective and observational. We evaluated 117 SARS survivors from Toronto, Ontario. Patients were interviewed and underwent physical examination, pulmonary function testing, chest radiography, a 6-minute-walk test, quality-of-life measures, and self-report of health care utilization. At 1 year, informal caregivers were identified for a survey on caregiver burden.

Results  The enrolled survivors of SARS were young (median age, 42 years), and most were women (67%) and health care workers (65%). At 1 year after hospital discharge, pulmonary function measures were in the normal range, but 18% of patients had a significant reduction in distance walked in 6 minutes. The Medical Outcomes Study 36-Item Short Form Health Survey (SF-36) domains were 0.3 to 1.0 SD below normal at 1 year. Of the patients, 17% had not returned to work by 1 year. Fifty-one patients required 668 visits to psychiatry or psychology practitioners. During the SARS epidemic, informal caregivers reported a decline of 1.6 SD below normal on the mental component score of the SF-36.

Conclusions  Most SARS survivors had good physical recovery from their illness, but some patients and their caregivers reported a significant reduction in mental health 1 year later. Strategies to ameliorate the psychological burden of an epidemic on the patient and family caregiver should be considered as part of future pandemic planning.

Figures in this Article

Severe acute respiratory syndrome (SARS) became a global epidemic in 2003. Most cases were in Asia, and the largest concentration of North American cases occurred in Toronto, Ontario.1 Research efforts during and after the epidemic focused on the epidemiologic features of the illness,1,2 the detailed characterization of the pathogen,3,4 the clinical course,510 and the short-term outcomes of the acute disease.11

The longer-term physical and psychological consequences of SARS were not reported until recently. Several investigations of these longer-term outcomes (>6 months) have focused on pulmonary function,1214 distance walked in 6 minutes,12 and health-related quality of life (QOL).12,13 To date, in patients with SARS, there is little information on the pattern of return to work, exercise tolerance, or health care utilization after the SARS episode. Also, there have been no reports to our knowledge on the impact of this acute illness on the family caregiver. The goals of this study were to conduct a comprehensive and family-centered evaluation of the 1-year outcomes in survivors of SARS and their family caregivers.

SETTING

The hospitals providing acute care to patients with SARS are located in the greater Toronto area, Ontario. This is an urban area of approximately 5.3 million people encompassing a geographic area of 7000 km2,15 the largest urban area in Canada, and the fifth largest in North America. The follow-up clinic was located at a quaternary care hospital in downtown Toronto.

STUDY DESIGN

Patients with SARS were referred to the longitudinal study by their acute care physicians. Discharge from hospital occurred between March 26, 2003, and August 22, 2003. Patient contact information was forwarded to the research site by the treating physician or hospital after their research ethics board had approved the protocol. Referred patients were eligible to participate if they were at least 16 years of age, had suspect or probable SARS according to Health Canada definitions,16 and lived in Ontario. Patients were excluded if they had negative convalescent serologic findings for the SARS coronavirus (n = 17)17 or if they did not speak English (n = 5). The research ethics boards at 20 participating institutions approved the protocol. All patients gave written informed consent (Figure 1).

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Figure 1.

Enrollment of patients with severe acute respiratory syndrome (SARS) who were followed up for 12 months after hospital discharge.

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BASELINE HOSPITAL INFORMATION

Baseline demographic data (described by Muller et al18) included clinical and treatment variables, length of hospital stay, and need for intensive care. Patients were also asked about their job status (health care worker or not), education, and history of lung disease.

FOLLOW-UP PROTOCOL

We evaluated patients 3, 6, and 12 months after hospital discharge. At each visit, SARS survivors were interviewed and underwent physical examination, a standardized 6-minute walk test,19 pulmonary function testing, chest radiography, and convalescent SARS coronavirus serologic testing. They were systematically asked if they were experiencing cough, shortness of breath, alopecia, difficulty sleeping, myalgia, malaise, and fatigue. Two QOL instruments were administered. Participants were asked at each visit about health care utilization. At 1 year after discharge, survivors were offered a stage-1 cardiopulmonary exercise test.19 They were also asked if they had a close family member or friend who assisted with their care in the early recovery period once their isolation was lifted. Informal caregivers were given questionnaires (Table 1) about how caring for a patient with SARS affected their lives.

Table Graphic Jump LocationTable 1. Caregiver Questionnaire Characteristics
QOL MEASURES

The Medical Outcomes Study 36-Item Short Form Health Survey (SF-36) is a widely used and extensively validated generic QOL measure that consists of 8 multiple-item domains.28 Scores are normalized to a mean ± SD of 50 ± 10, and 2 summary scores are calculated.20

The St George’s Respiratory Questionnaire29 is a pulmonary disease-specific QOL measure that captures symptoms, activity, and impacts scores as subscales. Scores range from 0 to 100, with higher numbers indicating poorer QOL. A difference of 4 points is clinically significant. The questionnaire has been validated in many lung disorders.3032

HEALTH CARE UTILIZATION

At each appointment, patients were asked about visits to their general practitioner or specialists, tests performed, and hospitalizations. Referrals initiated by our team were included in the health care utilization numbers.

CAREGIVER QUESTIONNAIRES

An introductory letter, consent form, and questionnaires were sent to caregivers identified by the SARS survivors at 1 year after hospital discharge. The amount of care provided was assessed by the 17-item Caregiver Assistance Scale.22 The 14-question Caregiving Impact Scale22 measures the current level of lifestyle interference associated with providing care. Personal gain24 (4 items) is a positive outcome of providing care and represents caregivers' inner growth, including gains in self-confidence or obtaining greater appreciation for their abilities. Mastery, an individual's sense of control over her or his life, was assessed by the 7-item measure from Pearlin and Schooler.26 The amount of social support was evaluated using the Social Support Survey,27 which contains 19 questions. A higher score indicates a higher level of the parameter measured.

STATISTICAL ANALYSIS

The primary outcome measure of the study was the 6-minute walk distance at 3, 6, and 12 months. Sample size and power calculations were not feasible owing to the lack of published data on long-term outcomes and survival for this new illness. We summarized continuous variables as medians and interquartile ranges and compared them between groups using the Wilcoxon rank-sum test. Categorical variables were summarized using proportions and 95% confidence intervals and compared between groups using Pearson χ2 or Fisher exact test as appropriate. Multivariable regression analysis was not performed because of limited statistical power. The relationship between caregiver measures was analyzed using correlation coefficients.

CHARACTERISTICS OF THE PATIENTS

A total of 198 adults who were seropositive for the SARS coronavirus (at least 28 days after symptoms began) were referred to our clinic, and 117 patients were enrolled (Figure 1). It is not known why all eligible patients were not referred to us. Of those enrolled, 84 patients (72%) were seen at 3 months, 100 patients (88%) were evaluated at 6 months, and 107 patients (91%) were followed up to 1 year after hospital discharge. The atypical trend of increasing numbers was due to the unusual nature of an outbreak in which all patients fall ill in a very short time. Patient contact information became available to us about 3 to 8 months after acute illness. Median follow-up time for the 3-, 6-, and 12-month visits was 3.5, 7.1, and 12.5 months, respectively. No patient died during the year of follow-up. Home assessments were conducted for 2 patients at 6 months and for 8 patients at 1 year.

More patients in the study cohort were health care workers and had received systemic corticosteroids and fewer had at least 1 preexisting medical condition, but they were otherwise similar to the 307 adult survivors of SARS in Toronto (Table 2). The median age of our cohort was 42 years, 67% of the subjects were female, and 65% were health care workers. The cohort was highly educated. Two of the enrollees were not admitted to the hospital. The median length of hospital stay was 14 days. Of the patients, 16% required admission to the intensive care unit (ICU) for a median of 10 days, 9% of whom required mechanical ventilation. Of the 117 patients, 62% received systemic corticosteroids, 60% received ribavirin, 9% received interferon, and 11% of patients did not receive treatment with any of these agents.

Table Graphic Jump LocationTable 2. Characteristics of Enrolled and Nonenrolled Patients With SARS at Discharge From Hospital*
GLOBAL ASSESSMENT

Patients self-reported a median loss of 9% of their body weight during acute care hospitalization. Of the patients, 67% reported alopecia; it resolved in most patients by 6 months and was not significantly associated with ribavirin administration in this limited sample (χ2 = 0.59; P = .44). Chest radiographs were normal or had returned to pre-SARS baseline in all patients by 1 year, with the exception of 1 long-stay ICU survivor whose radiographs continued to show small lung volumes, fibrosis, and ground glass opacities beyond 1 year. Abnormalities on respiratory examination including wheezes, crackles, and tachypnea were found in 14%, 4%, and 2%, respectively, at the 3 visits. Fatigue (64%, 54%, and 60%) and difficulty sleeping (47%, 50%, and 44%) were commonly reported at the 3-, 6-, and 12-month time points, respectively. Patients also frequently mentioned shortness of breath (44%, 49%, and 45%) at the 3-, 6-, and 12-month follow-up visits, respectively. Only 12%, 18%, and 13% of patients stated that they were asymptomatic at the 3-, 6-, and 12-month visit. All SARS survivors who were mechanically ventilated reported muscle wasting and weakness at the time of hospital discharge. Three patients had new reactive airways disease. Two patients had entrapment neuropathies, 2 patients had hoarseness after prolonged intubation, and 1 patient had heterotopic ossification and discomfort at old chest tube sites.

SIX-MINUTE WALK DISTANCE AND PULMONARY FUNCTION

At 3 months, SARS survivors had a normal median 6- minute walk distance (81% of that predicted for an age- and sex-matched control population).33 A reduced walking distance was present in 31% of patients at 3 months and in 18% at 1 year (Table 3). There was no relationship between 6-minute walk distance and exposure to steroids, burden of comorbid illness, preexisting pulmonary dysfunction, or degree of weight loss.

Table Graphic Jump LocationTable 3. Ability to Exercise, Pulmonary Function, Return to Work, and QOL as Reported on the SGRQ in Patients With SARS During the 12 Months Following Discharge From Hospital*

For most patients, spirometry, lung volume measures, and diffusion capacity were within normal limits at 3 months and remained normal for the duration of follow-up (Table 3). Patients admitted to the ICU had evidence of restrictive disease at 3 and 6 months after hospital discharge but had normal pulmonary function by 1 year. One long-stay ICU patient had moderate restrictive lung disease that persisted beyond the 1-year follow-up.

PATIENT QOL

All SF-36 domains were significantly reduced at 3 months with the exception of bodily pain. Role physical, social function, and role emotional domains were improved at 1 year after hospital discharge but did not normalize. General health, vitality, and social functioning domains remained 1.0, 0.8, and 0.8 SDs below the normal range at 1 year after hospital discharge, respectively (Figure 2).

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Figure 2.

Mean health-related quality of life (QOL) scores among patients with severe acute respiratory syndrome (SARS) in the 12 months following hospital discharge (A) and their caregivers just after quarantine (B). MCS indicates mental component summary score; PCS, physical component summary score.

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The St George’s Respiratory Questionnaire total and domain scores indicated decreased QOL at 3 months that persisted at 1 year, despite some improvement from 3 to 6 months (Table 3).

RETURN TO WORK

Many patients initially returned to work part-time, gradually increasing their workload over 1 to 2 months. Only 23 patients returned to work full-time with no need for a modified schedule. Those who required a modified workload took a median of 94 days to return to any work. At 1 year, 17% of patients had not returned to work, and a further 9% had not returned to their pre-SARS level of work (Table 3).

HEALTH CARE UTILIZATION

Health care utilization of SARS survivors during the first year after hospital discharge was substantial (Table 4). Psychiatric evaluation accounted for the greatest number of visits. Of the patients, 74% saw their primary care physician a median of 5 times. Infectious disease specialists assessed 72% of patients, mostly in the first 3 months after discharge. Four patients were readmitted to acute care hospitalization within days of discharge, and 2 patients were admitted months later for non-SARS related issues. Three patients needed inpatient rehabilitation, and 4 had surgery over the course of the follow-up year.

Table Graphic Jump LocationTable 4. Health Care Utilization in Patients With Severe Acute Respiratory Syndrome in the Year Following Discharge From Acute Care Hospital
CAREGIVER SURVEY

Seventy-two patients identified informal caregivers; 2 did not have adequate proficiency in English to complete the surveys. Forty-six surveys were returned for a participation rate of 66% (46/70). The caregivers were highly educated. The caregiver was usually the patient's spouse (72%), and was most often female (57%) (Table 5). Significantly fewer patients had returned to work in the responder group (P=.009); this is likely because people who recovered quickly and went back to work early had fewer needs, and so either these patients did not identify a caregiver or caregivers believed that they had not provided any care giving (Table 6).

Table Graphic Jump LocationTable 5. Characteristics of 46 Caregivers of Patients With SARS*
Table Graphic Jump LocationTable 6. Comparison of Patient Demographics of Enrolled Caregivers vs Total Cohort*

The summary score of the physical components of the SF-36 for caregivers was normal compared with an age- and sex-matched Canadian34 population. However, the mental component score was significantly below normal and was significantly correlated with the degree of lifestyle interference and loss of control reported by the caregiver (Pearson r=−0.6; P<.001 for both). The greatest decrements in caregiver SF-36 scores were in the mental health and social functioning domains (Figure 2). Caregivers reported a score of 29 of a possible 102 on the Caregiver Assistance Scale and 22 of 84 on the Caregiving Impact Scale. They reported a high level of personal gain (12/16) and a mid-range sense of control (18/28) over their own lives once quarantine and isolation were lifted. Social support was rated at 67 of a possible 100. Table 1 summarizes these results and presents scores obtained from caregiver studies with patients experiencing other illnesses for comparison.21,23,25

To our knowledge, this is the largest prospective follow-up study of SARS survivors to 1 year. As with other SARS follow-up studies,14,35,36 most patients had lung function that was within normal limits by 3 months after hospital discharge, and these normal results persisted to 1 year. The SARS ICU survivors had similar physical impairments to those described previously for acute respiratory distress syndrome (ARDS) survivors.37 All ICU survivors had restrictive disease at 3 months, consistent with the findings of the Singapore38 and Taiwanese39 groups, and pulmonary function rose into the normal range by 1 year after hospitalization. Despite normal pulmonary function testing, normal exercise capacity, and a minority of patients (18%) with a clinically important reduction in distance walked in 6 minutes, many patients continued to report shortness of breath and fatigue as notable contributors to exercise limitation at 1 year.

The persistence of symptoms and perception of physical limitations were reflected in the QOL measures at 1 year. Of the survivors, 37% were still reporting an important reduction in their physical health (at least 1 SD below normal on the physical component summary score of the SF-36) at 1 year after acute care hospitalization. As reported by Ong et al13 and our study, scores on the St George’s Respiratory Questionnaire also confirmed a decreased QOL related to pulmonary symptoms. It is possible that the persistent symptoms of shortness of breath and fatigue may reflect a subtle degree of respiratory muscle weakness and a perceived increase in the work of breathing, but the exact pathophysiologic mechanism of these complaints remains unclear.

Of the patients with SARS, 33% reported a significant decrement in mental health at 1 year (at least 1 SD below normal on the mental component summary score) and the health care utilization data suggest an important need for psychological counseling and support after hospitalization. During the clinic visits, we had an opportunity to talk with patients and to understand the stressors that they experienced during this illness. Many patients experienced social stigmatization and loss of anonymity through the media, death of close family members and coworkers, and the inability to be present at the time of death or attend funeral services because of quarantine, isolation, or hospitalization. Several described the emotional strain of quarantine and isolation. Others described overwhelming fear for their physical health and a deep concern about the possibility of transmission to family or loved ones. Patients with SARS were subjected to extraordinary stressors during and after the outbreak and experienced significant emotional consequences as a result. Psychological trauma to patients and caregivers may have been reduced had their mutual support system remained intact through the outbreak, and this may have been achieved through video conferencing technology via the Internet. Telephone contact may also have helped but was not available in all circumstances because of the constraints of isolation rooms. Access to television and newspapers may also have helped those in hospital retain a sense of connectedness to the outside world. Early on in the SARS outbreak, the mode of transmission of the disease was unknown, and all person-to-person contact was minimized. However, some patients reported that health care workers insisted on spending time with and giving emotional support to them, and this helped to ameliorate their feelings of fear, anxiety, and isolation.

Acute illness affects the family as well as the patient. Caregivers told us that while their physical health remained at the level of the population average, the emotional impact of having a family member with an unknown illness was significant. Caregivers scored 1.6 SDs below the normal value expected for their age and sex on the mental component summary score of the SF-36 when asked to recall their feelings from the postisolation period. The caregivers of SARS survivors provided assistance after the isolation period to an extent similar to the caregivers of patients with ARDS at 2 years after ICU discharge.25 Personal gain and perceived mastery of their situations were comparable in the SARS and ARDS cohorts, whereas ARDS caregivers believed that they had slightly more social support than did individuals caring for patients with SARS (Table 1).

Our study had several limitations. First, we enrolled only 38% of the entire Toronto population of adult survivors and 59% of those who were referred to us. Recruitment was challenging because many SARS survivors did not wish to be seen or discuss their experiences, and the members of our team were unknown to these patients. Our study sample contained an excess of health care workers, more patients who had at least 1 preexisting medical condition, and more who were treated with systemic corticosteroids. These facts, along with the high-education levels and the number of women in both the patient and caregiver groups, may limit generalizability. The number of health care workers in the sample may also skew the utilization of health care services used, since health care workers are very aware of their own health status and may use services more than other workers in the population.

Second, the premorbid health status of patients and their caregivers and the health care utilization of patients were not documented, and perhaps some of the functional limitation and decreased QOL that we observed was attributable to preexisting health conditions and not directly related to SARS. However, given the young age of both caregivers and patients and the fact that most were working prior to SARS, the likelihood of premorbid illness being a major contributor to the observed results seems minimal.

Third, the retrospective nature of the caregiver survey makes the caregiver information subject to recall bias. Finally, we were not able to include a control group in this study because of the unknown nature and outcome of this new infectious disease.

We have shown that most SARS survivors have pulmonary and functional recovery from their acute illness. However, 1 year after discharge from hospital, health-related QOL remained lower than in the general population, and patients reported important decrements in mental health. These findings are reflected in the notable utilization of psychiatric and psychological services in the 1-year follow-up period. We have also demonstrated that family caregivers experienced considerable emotional distress during the acute illness of their family member. These data may help to highlight the needs of patients and caregivers during and after an epidemic, the potential benefit of a family-centered approach to follow-up care, and the importance of exploring strategies to minimize the psychological burden of an epidemic illness as part of future pandemic planning initiatives.

Correspondence: Margaret S. Herridge, MD, MPH, Division of Respirology, University Health Network Interdepartmental Division of Critical Care, Faculty of Medicine, Institute of Medical Science, University of Toronto, 585 University Ave, Room 11C-1185, Toronto, Ontario, Canada M5G 2N2 (margaret.herridge@uhn.on.ca).

Accepted for Publication: March 7, 2007.

Author Contributions: Ms Tansey and Dr Herridge had full access to all of the data in the study and take responsibility for the integrity of the data and the accuracy of the data analysis. Study concept and design: Tansey, Louie, Loeb, Gold, Cameron, Walmsley, Styra, Phillips, Slutsky, and Herridge. Acquisition of data: Tansey, Louie, Gold, Muller, de Jager, Mazzulli, Walmsley, Rachlis, Mederski, Silverman,Shainhouse, Ephtimios, Avendano, Downey, Yamamura, Gerson, Stanbrook, Marras, Zamel, Richardson, and Herridge. Analysis and interpretation of data: Tansey, Louie, Cameron, Tomlinson, Stanbrook, Marras, Richardson, Slutsky, and Herridge. Drafting of the manuscript: Tansey and Herridge. Critical revision of the manuscript for important intellectual content: Tansey, Louie, Loeb, Gold, Muller, de Jager, Cameron, Tomlinson, Mazzulli, Walmsley, Rachlis, Mederski, Silverman, Shainhouse, Ephtimios, Avendano, Downey, Styra, Yamamura, Gerson, Stanbrook, Marras, Phillips, Zamel, Richardson, Slutsky, and Herridge. Statistical analysis: Tansey, Cameron, Tomlinson, and Marras. Obtained funding: Louie, Loeb, Gold, Phillips, Richardson, and Herridge. Administrative, technical, and material support: Tansey, Louie, Loeb, de Jager, Rachlis, Styra, Yamamura, Gerson, Stanbrook, Phillips, Slutsky, and Herridge. Study supervision: Louie, Walmsley, Zamel, Slutsky, and Herridge.

Financial Disclosure: None reported.

Funding/Support: This study was supported by the Ontario Thoracic Society (OTS) and Canadian Institutes of Health Research (CIHR).

Role of the Sponsor: The funding agencies had no role in the design and conduct of the study; the collection, management, analysis, and interpretation of the data; and the preparation, review, or approval of the manuscript.

Acknowledgment: We dedicate this work to the memory of all patients with SARS who died during this worldwide epidemic and also to those patients and family members who endured this illness. We would also like to acknowledge the extraordinary efforts of the patients with SARS and their caregivers who so generously donated their time to participate in this study to help educate us about how SARS affected their lives. We also wish to acknowledge the expertise and thoughtful contributions of Jim Brunton, BSc, MDCM, Reena Lovinsky, MD, FRCPC, and Peter Webster, MD, FRCPC, toward the successful completion of this project, and we thank Allan Detsky, MD, PhD, for encouraging us to pursue this study. We acknowledge the contribution of the members the Canadian SARS Research Network.

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PubMed
Hui  DSJoynt  GMWong  KT  et al.  Impact of severe acute respiratory syndrome (SARS) on pulmonary function, functional capacity and quality of life in a cohort of survivors. Thorax 2005;60401- 409
PubMed
Xie  LLiu  YFan  B  et al.  Dynamic changes of serum SARS-coronavirus IgG, pulmonary function and radiography in patients recovering from SARS after hospital discharge. Respir Res 2005;65
PubMed
Herridge  MSCheung  AMTansey  CM  et al.  One-year outcomes in survivors of the acute respiratory distress syndrome. N Engl J Med 2003;348683- 693
PubMed
Ong  KCNg  AWLee  LS  et al.  Pulmonary function and exercise capacity in survivors of severe acute respiratory syndrome. Eur Respir J 2004;24436- 442
PubMed
Chiang  CHShih  JFSu  WJPerng  RP Eight-month prospective study of 14 patients with hospital-acquired severe acute respiratory syndrome. Mayo Clin Proc 2004;791372- 1379
PubMed

Figures

Place holder to copy figure label and caption
Figure 1.

Enrollment of patients with severe acute respiratory syndrome (SARS) who were followed up for 12 months after hospital discharge.

Graphic Jump Location
Place holder to copy figure label and caption
Figure 2.

Mean health-related quality of life (QOL) scores among patients with severe acute respiratory syndrome (SARS) in the 12 months following hospital discharge (A) and their caregivers just after quarantine (B). MCS indicates mental component summary score; PCS, physical component summary score.

Graphic Jump Location

Tables

Table Graphic Jump LocationTable 1. Caregiver Questionnaire Characteristics
Table Graphic Jump LocationTable 2. Characteristics of Enrolled and Nonenrolled Patients With SARS at Discharge From Hospital*
Table Graphic Jump LocationTable 3. Ability to Exercise, Pulmonary Function, Return to Work, and QOL as Reported on the SGRQ in Patients With SARS During the 12 Months Following Discharge From Hospital*
Table Graphic Jump LocationTable 4. Health Care Utilization in Patients With Severe Acute Respiratory Syndrome in the Year Following Discharge From Acute Care Hospital
Table Graphic Jump LocationTable 5. Characteristics of 46 Caregivers of Patients With SARS*
Table Graphic Jump LocationTable 6. Comparison of Patient Demographics of Enrolled Caregivers vs Total Cohort*

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PubMed
Hui  DSJoynt  GMWong  KT  et al.  Impact of severe acute respiratory syndrome (SARS) on pulmonary function, functional capacity and quality of life in a cohort of survivors. Thorax 2005;60401- 409
PubMed
Xie  LLiu  YFan  B  et al.  Dynamic changes of serum SARS-coronavirus IgG, pulmonary function and radiography in patients recovering from SARS after hospital discharge. Respir Res 2005;65
PubMed
Herridge  MSCheung  AMTansey  CM  et al.  One-year outcomes in survivors of the acute respiratory distress syndrome. N Engl J Med 2003;348683- 693
PubMed
Ong  KCNg  AWLee  LS  et al.  Pulmonary function and exercise capacity in survivors of severe acute respiratory syndrome. Eur Respir J 2004;24436- 442
PubMed
Chiang  CHShih  JFSu  WJPerng  RP Eight-month prospective study of 14 patients with hospital-acquired severe acute respiratory syndrome. Mayo Clin Proc 2004;791372- 1379
PubMed

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