We discuss crisis prevention and management during the first 3 months of the severe acute respiratory syndrome
An outbreak of severe acute respiratory syndrome (SARS) began in Guangdong, China, on November 16, 2002. The first three SARS cases in Singapore were confirmed on March 6, 2003. By May 5, a total of 204 cases, including 27 deaths, had been confirmed. The last case was isolated on May 11, and by July 30, the end of the outbreak, 205 patients had recovered and 33 had died (
Since SARS infection may come from ordinary contact with acquaintances, colleagues, or strangers, outbreaks can trigger anxiety and influence public perception of susceptibility, causing serious economic and social disruption. The need for health information and for crisis management by public health authorities is also high. We examine four areas of public reaction to the SARS outbreak in Singapore: preventive practices, perception of self-health, knowledge of SARS, and appraisal of SARS crisis management.
We interviewed a representative stratified random sample of 1,202 adults (≥21 years of age). To minimize personal contact during the outbreak, participants were interviewed by telephone instead of face-to-face. The residential telephone sampling covered 90% of households in Singapore. The response rate was 62.3%, and the sampling error ±3.5% (
| Characteristics | Study population | Total populationa | |
|---|---|---|---|
| No. (%) [1,201 total] | No. (%) [3,263,200 total] | ||
| Ethnicity
Chinese
Malay
Indian
Other | 900 (75.0)
172 (14.0)
82 (7.0)
47 (4.0) | 2,505,400 (76.8)
453,600 (13.9)
257,800 (7.9)
46,400 (1.4) | |
| Age
21–29b
30–39
40–49
50 and older | 233 (19.0)
313 (26.0)
312 (26.0)
343 (28.0) | 480,191 (20.4)
613,944 (26.1)
575,674 (24.5)
681,282 (29.0) | |
| Sex Male Female | 599 (49.9) 602 (50.1) | 1,630,293 (49.9) 1,632,916 (50.1) | |
aRef.
We modified and expanded a structured questionnaire provided by researchers from the Department of Community Medicine, University of Hong Kong (A.J. Hedley, T.H. Tan, G.M. Leung, B.H.Y. Chan, S.Y. Ho, L.M. Ho, unpub. data). The modified questionnaire (
Eight questions focused on respondents’ prevention practices in the 3 days before the interview. We constructed a composite index indicating the total number (from 0 to 8) of preventive measures taken. A dichotomous indicator of preventive behavior was calculated based on the mean number of precautions taken (4.68): “low” (≤5) versus “high” (≥6).
Three sets of questions addressed respondents’ perception of their own health. The first set covered nine physical health complaints. We created a composite index of symptoms by adding all instances of health complaints over the previous 2 weeks. This index was 0 to 7 in our study since no one reported having more than seven of the nine symptoms.
The second set was a “frame of mind” index fashioned after B.A. Thyer’s Clinical Anxiety Scale (
The third set addressed respondents’ perceived susceptibility to SARS. Scores were 4 (very likely) to 0 (don’t know). On the basis of the average score (1.5; standard deviation [SD] 1.01), we created a dichotomous variable to contrast respondents who believed they were susceptible to contracting SARS (scores 3 and 4) with those who did not (scores 0–2).
Three questions tested SARS knowledge. Responses were scored 0 (incorrect) or 1 (correct); a composite index indicated the number of correct answers, from none correct (0) to all three correct (
Four sets of questions addressed respondents’ appraisal of crisis management, but we discuss the three most relevant. The first set of five questions (Alpha reliability 0.8136) assessed opinions on information distribution. Scores were 1 (very negative) to 6 (very positive). On the basis of the mean score (4.83; SD 0.617), we calculated a dichotomous index: negative appraisal (scores ≤4.7) versus positive appraisal (scores ≥4.8).
The second set of questions addressed openness of communication. Scores were 1 (very negative) to 6 (very positive). By using the sample’s mean score (4.31; SD 1.25), this variable was dichotomized into “disagreement” (scores 1–3) and “agreement” (scores 4–6).
The third set referred to the public’s acceptance of quarantine regulations. The scores were dichotomized into “agreement” (
Responses to the survey questions are summarized in
| Variable | % | Mean | SD |
|---|---|---|---|
| Symptoms (0–8) over past 2 weeks
None
One or more
Main SARS-related symptoms
Persistent high fever ≥38°C
Cough
Rapid breathing | 77.6
22.4
1.0
9.0
1.0 | 0.3639 | 0.8286 |
| Anxiety level
High (1.0–2.2)
Moderate (2.3–3.2)
Low (3.3–4.0) | 2.9
42.4
54.7 | 3.2307 | .4819 |
| Perceived likelihood of contracting SARS
Very likely (4)
Likely (3)
Not very likely (2)
Not likely at all (1)
Don’t know (0) | 4.0
10.0
39.0
29.0
18.0 | 1.5304 | 1.014 |
| Knowledge of SARS
No knowledge (0 of 3 answers correct) (0)
1 of 3 answers correct (1)
2 of 3 answers correct (2)
3 of 3 answers correct (3) | 11.7
25.0
42.5
20.7 | 1.7227 | .9222 |
| Appraisal of crisis management
“Strongly agree” and “Agree” that information by health authorities is:
Accurate
Clear
Sufficient
Timely
Trustworthy
Population has chance to express personal views and concerns to the authorities, “strongly agree” or “agree.”
Agreeable to 10-day quarantine after nonclose contact with SARS-infected person and no symptoms
Agree
Don’t agree
Don’t know | 82.2
86.3
84.5
84.4
87.8
66.3
71.6
22.4
6.0 | ||
| Years of formal education
≤10 years
≥11 years | 57.1
42.9 | 10.07 | 3.9642 |
| Practice of preventive measures Practicing each of eight measures “always” or “most of the time” during the past 3 days: Covered mouth with tissue when sneezing or coughing Covered mouth with bare hand when sneezing or coughing Washed hands after sneezing, coughing, or clearing nose Used soap or liquid hand-wash when washing hands Wore a mask Used serving utensils for shared food Took preventive measures when touching objects Washed hands after touching objects Preventive measures taken over past 3 days (score 0–8) Five or fewer of the eight measures Six or more of the eight measures | 62.0 47.0 72.0 81.0 4.0 28.0 15.0 48.0 69.3 30.7 | 4.686 | 1.5286 |
| Variable | No. | OR | 95% CI | |
|---|---|---|---|---|
| 932
269
544
657
1,034
167 | 1.012
0.960
0.861
1.140
1.031
0.833 | 0.947 to 1.082
0.766 to 1.203
0.757 to 0.978
1.031 to 1.283
0.979 to 1.085
0.621 to 1.118 | ||
| 952
249 | 1.012
0.954 | 0.950 to 1.079
0.753 to 1.079 | ||
| 290
911
271
930
860
341 | 1.164
0.955
1.434
0.909
0.969
1.084 | 0.928 to 1.460
0.893 to 1.020
1.115 to 1.846
0.855 to 0.966
0.899 to 1.045
0.888 to 1.323 | ||
| 686 515 599 602 391 809 | 0.909 1.143 1.339 0.770 1.365 .872 | 0.821 to 1.006 0.985 to 1.325 1.166 to 1.539 0.689 to 0.861 1.123 to 1.658 0.806 to 0.943 | ||
aSARS, severe acute respiratory syndrome; OR, odds ratio; CI, 95% confidence interval. bAsymptotic significance (2-sided) ≤0.05. cAsymptotic significance (2-sided) ≤0.001. dAsymptotic significance (2-sided) ≤0.10.
Recommended preventive measures were not practiced uniformly. The most practiced measures 3 days before the interview were using soap when washing hands (81%) and washing hands after sneezing, coughing, or clearing the nose (72%). The least practiced measure was wearing a mask over the mouth. A total of 4% wore masks, and most did so only when visiting a clinic or hospital or when the mask was part of a uniform (as in healthcare workers). The index of preventive measures indicates that most people (69.3%) took some preventive measures.
Respondents’ perception of their health was generally positive. A relatively low proportion (22.4%) of respondents reported having any of our nine physical health complaints over the previous 2 weeks, and fewer than 1% reported the three classic symptoms of SARS (fever ≥38°C, cough, rapid breathing). The mean number of health complaints reported in our sample was 0.369 (SD 0.828). The survey also showed low anxiety; only 2.9% of respondents reported high anxiety. The mean anxiety score was 3.23 (SD 0.48). Most respondents (68%) thought they were not very likely or not likely at all to contract SARS, and 18% were not sure of their likelihood. Those who thought they were likely to get the disease reported slightly more anxiety. Of the three aspects of health perception, only anxiety was associated with taking precautions (OR 0.861; 95% CI 0.757–0.978). In the high-anxiety group, 34% followed six or more of the eight preventive measures, in contrast to 28% of respondents who had low anxiety.
Regarding knowledge of SARS, the sample correctly answered an average of 1.722 (SD 0.922) of 3 questions on SARS transmission. Approximately 63% answered two or more questions correctly; 11.7% did not answer any questions correctly.
Respondents had a generally high opinion of authorities’ crisis management. More than 80% thought official information was accurate, clear, sufficient, timely, and trustworthy, and 72% were prepared to accept a 10-day quarantine, even in the absence of SARS symptoms or close contact with a SARS patient. Of the three crisis management aspects, one had significant influence on preventive action: respondents’ opinion of authorities’ openness to communication. People who thought that authorities were open to communication were more inclined to practice six or more of the eight SARS preventive measures (OR 0.909; 95% CI 0.855 to 0.966) than those who thought they had no chance to express their concerns to the authorities (OR 1.434; 95% CI 1.115 to 1.846).
Three demographic characteristics were associated with taking preventive measures against SARS: sex, age, and estimated years of formal education. Women were more inclined (OR 0.770; 95% CI 0.689 to 0.861) than men (OR 1.339; 95% CI 1.166 to 1.539) to take preventive measures; this finding is consistent with other studies on health behavior in Singapore (
Information regarding the SARS outbreak was widely distributed by the media and government; while this information was essential to keep the public informed of the risks for infection and preventive measures, it also could increase anxiety. However, we found low levels of anxiety in Singapore, and few reported health complaints. Reporting health complaints was not associated with taking precautions against SARS, possibly because the nine symptoms of SARS covered in our questionnaire are associated with other common diseases in Singapore (e.g., dengue fever, the incidence of which was 86.2 per 100,000 in May 2003) and are not usually deemed serious. In fact, familiarity with symptoms was a key initial obstacle in preventing SARS spread in hospitals (
In our sample, anxiety appeared to motivate preventive behavior; those in the highest anxiety group took more precautions. However, anxiety was not associated with the perceived likelihood of contracting SARS. The low percentage of respondents who viewed SARS as a personal risk (14%, compared to 22% found in a similar survey in Toronto [
Distribution of SARS information and prevention advice in Singapore increased rapidly over the 2 months preceding the interviews. All types of media were used, including a public television channel, the “SARS Channel,” established to give current and comprehensive information on world infection trends and Singapore’s situation. The Ministry of Health provided SARS information on its Web site (
Since SARS appeared unexpectedly, healthcare experts were uncertain how to control the epidemic. Consequently, assessing public opinion of authorities’ crisis management in our survey was relevant to Singapore. Of the aspects we examined, only public opinion of authorities’ openness to communication was correlated with taking preventive measures. The other two aspects (information dissemination and acceptance of quarantine regulations) did not affect preventive action, probably because of their very positive rating.
The public’s highly positive assessment of Singapore authorities’ crisis management is distinctive. History shows that epidemics are politically perilous to governments as, among other things, they challenge their resolve, efficiency, and state of readiness (
Singapore was taken out of the official list of SARS-infected countries by the World Health Organization on May 30, 2003. The epidemic has left the crisis phase and entered a new phase, normalization and vigilance. As a new disease, SARS demands continuous scrutiny on all fronts, from the laboratory to the homes of the people.
Questionnaire given to SARS survey respondents
We express our appreciation to the persons who consented to be interviewed for this study; John Wong, Director of the National University of Singapore–Office of Life Sciences, who facilitated the grant application; Calvin Fones, David Koh, and Paulin Straughan for their comments and suggestions on the questionnaire; two anonymous reviewers for their constructive feedback; and A.J. Hedley for sending us the questionnaire his research team applied in Hong Kong (April 2003) and suggesting that we apply it in Singapore.
This study was supported by National University of Singapore research grant R-111-000-045-712.
Dr. Quah is a professor of sociology at the National University of Singapore. Among her areas of interest are medical sociology and social policy.
Dr. Lee is professor of public health at the National University of Singapore. Among his areas of interest are cancer epidemiology and community medicine.