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Volume 26, Number 7—July 2020
Dispatch

Community Responses during Early Phase of COVID-19 Epidemic, Hong Kong

Author affiliations: JC School of Public Health and Primary Care, The Chinese University of Hong Kong, Hong Kong, China (K.O. Kwok, H.H.H. Chan, Y.Y. Yi, W.I. Wei, S.Y.S. Wong); Stanley Ho Centre for Emerging Infectious Diseases, The Chinese University of Hong Kong, Hong Kong (K.O. Kwok); Shenzhen Research Institute of The Chinese University of Hong Kong, Shenzhen, China (K.O. Kwok); City University of Hong Kong College of Liberal Arts and Social Sciences, Hong Kong (K.K. Li); Sungkyunkwan University College of Software, Seoul, South Korea (A. Tang)

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Abstract

During the early phase of the coronavirus disease epidemic in Hong Kong, 1,715 survey respondents reported high levels of perceived risk, mild anxiety, and adoption of personal-hygiene, travel-avoidance, and social-distancing measures. Widely adopted individual precautionary measures, coupled with early government actions, might slow transmission early in the outbreak.

Hong Kong was relatively successful in mitigating transmission early in the outbreak of coronavirus disease (COVID-19). Confirmed cases were first reported in the city of Wuhan, China, in December 2019 (1). Situated at the southern tip of China, Hong Kong was at risk for importing COVID-19, given its shared border and high infrastructural and social connectivity with China. In 2019, >236 million passengers crossed the border between China and Hong Kong by land (2). Hong Kong is also vulnerable to virus transmission owing to its high population density and heavy reliance on public transportation. Despite these risks, as of March 20, 2020, transmission control efforts in Hong Kong, as reflected in the numbers of confirmed cases and deaths (256 cases, 4 deaths) (3), had been relatively successful compared with nearby countries and regions, including mainland China (80,967 cases, 3,248 deaths), South Korea (8,652 cases, 94 deaths), and Japan (950 cases, 33 deaths, in addition to the 712 cases from a cruise ship) (4).

Health officials in Hong Kong have enacted multipronged interventions to slow disease spread (5). Adopted strategies include border screening (measuring body temperature, imposing a health declaration form system, imposing a 14-day mandatory quarantine period on persons entering Hong Kong from mainland China; parts of Korea, Japan, France, Germany, and Spain; and all of Italy and Iran), social distancing (shutting down the border, reducing cross-border commuting services, delaying the resumption of classes in schools, arranging telework for civil servants, and suspending of public services), and extending the Enhanced Laboratory Surveillance Program to adult patients with fever and mild respiratory symptoms at emergency departments or general outpatient clinics in the public sector.

The behaviors of the public are important for outbreak management, particularly during the early phase when no treatment or vaccination is available and nonpharmaceutical interventions are the only options. The efficacy of nonpharmaceutical interventions depends on persons’ degree of engagement and compliance in precautionary behaviors, such as face-mask wearing, hand hygiene, and self-isolation. Willingness to engage in precautionary behaviors voluntarily depends on risk perception toward the current health threat. In fact, risk perception is a main theme in common health behavior theories (6,7). In addition, with advanced information technology in recent years comes the uncertainty of how risk perception is shaped by various information sources. Hong Kong’s experience with outbreaks of novel pathogens (e.g., 2003 severe acute respiratory syndrome [SARS] and 2009 pandemic influenza) also provides a reference point to evaluate the risk perceptions of COVID-19. In comparison, Hong Kong was more affected by SARS than COVID-19 thus far. In 2003, a total of 1,755 persons in Hong Kong contracted SARS, resulting in 299 deaths (8).

In light of the importance of persons’ behavior in mitigating transmission and the goal of informing policy formation in a timely manner, we examined risk perceptions and behavioral responses of the general community during the early phase of the COVID-19 epidemic in Hong Kong. Considering the rapid development of the epidemic during the survey period and the potential variability in the adoption of preventive measures among persons, we also examined the temporal changes in anxiety levels, the factors associated with adoption of preventive measures, and sources of information about the epidemic.

The Study

Figure 1

Thumbnail of Chronology of major events during the early phase of the coronavirus disease epidemic and laboratory-confirmed cases in Hong Kong, December 30, 2019–February 14, 2020. A, unexplained pneumonia reported in Wuhan, China; B, HK begins temperature screenings at border checkpoints for travelers from Wuhan; C, HK launches preparedness and response plan for novel infectious disease of public health significance, serious response level; D, first death reported in Wuhan; E, World Health Orga

Figure 1. Chronology of major events during the early phase of the coronavirus disease epidemic and laboratory-confirmed cases in Hong Kong, December 30, 2019–February 14, 2020. A, unexplained pneumonia reported in Wuhan, China;...

District councilors distributed an online survey including measures of preventive behaviors, general anxiety, risk perceptions, and information exposure to the residents of Hong Kong by within 36 hours after detection of the first confirmed case of COVID-19 in Hong Kong (Appendix). The survey was conducted for 3 weeks. We compiled a chronology of major events related to COVID-19 both inside and outside Hong Kong and the number of confirmed cases in Hong Kong before and during the period covered by the survey (Figure 1).

Analysis of 1,715 respondents’ data indicated high levels of perceived susceptibility to (89%) and severity of (97%) COVID-19 (Table 1). However, the general anxiety level, measured by the Hospital Anxiety and Depression Scale (9), was mild (9.01 out of 21). Most respondents (>98%) had their daily routines disrupted and were alert to COVID-19. The most trusted information sources were doctors (84%) and radio broadcasts (57%), but they were not the sources by which respondents typically received their information (doctors 5%, broadcast 34%).

Figure 2

Thumbnail of Perceived efficacy and actual adoption of precautionary measures to prevent transmission of severe acute respiratory syndrome coronavirus 2 and avoid contracting coronavirus disease, Hong Kong.

Figure 2. Perceived efficacy and actual adoption of precautionary measures to prevent transmission of severe acute respiratory syndrome coronavirus 2 and avoid contracting coronavirus disease, Hong Kong.

Among preventive measures and their perceived efficacy, enhanced personal hygiene (from 78% of respondents disinfecting their homes to 99% wearing facemasks) and travel avoidance (from 90% avoiding Hubei Province, China, to 92% avoiding mainland China altogether) were frequently adopted and were considered effective (>90%) (Figure 2). The adoption of social-distancing measures was moderate to high (from 40% respondents avoiding public transportation to 93% avoiding contact with persons with respiratory disease symptoms). Higher levels of adoption of social-distancing measures were associated with being female, living in the New Territories (1 of the 3 geographic regions in Hong Kong that shares the border with mainland China), perceiving oneself as having a good understanding of COVID-19, and being more anxious (Table 2).

Conclusions

The relative success in transmission control in Hong Kong could be attributed to the widely adopted precautionary behaviors of the public, together with early government interventions (e.g., border control and compulsory quarantine for those from affected regions). Unlike in many other countries, visitors from mainland China have never been fully banned from entering Hong Kong. The citizens of Hong Kong assumed responsibility for infection control on their own and became very attentive to personal preventive measures. Our findings showed that nearly all respondents adopted enhanced personal hygiene (e.g., wearing facemasks) and travel avoidance. The experience in outbreak management during the 2003 SARS epidemic might also have contributed to these swift and strong psychological and behavioral responses. Metaphorically, these responses resembled a secondary immune response, which is fast and strong during re-exposure to the same pathogen.

The case of Hong Kong demonstrates the extent to which voluntary preventive measures by persons might be required for slowing transmission (e.g., >78% adoption of enhanced personal-hygiene measures, >90% adoption of travel-avoidance, and 39%–93% adoption of social-distancing). Being in agreement with the findings of Anderson et al. (10), we hope that these behavioral standards are useful in promoting person-level preventive measures for countries in the early phase of the COVID-19 outbreak, especially when border-control measures are not viable. This high level of civil engagement toward disease control also enables most business to continue as usual, which reduces the economic toll from strict quarantine measures.

In addition, we consider the increased anxiety levels reported as a double-edged sword. On one hand, anxiety can motivate precautionary measures. On the other hand, it might adversely affect school, work, or family life. Besides providing accurate information about the epidemic, public health institutions (e.g., Hong Kong Department of Health) also should promote a healthy lifestyle and psychological well-being. Further discussion of the interpretation of some specific findings, including assessing the sustainability of the preventive measures, the general anxiety level of the public in different outbreaks, the effective communication channels for COVID-19 information, and the drivers of social-distancing behaviors are provided (Appendix).

In conclusion, we identified high levels of risk perception regarding COVID-19 in the community in Hong Kong. Most respondents were alert to the disease progression of COVID-19 and adopted self-protective measures. Our findings contribute to the body of research examining the psychobehavioral responses of the public, in addition to the already widely studied biologic and mechanistic aspects of COVID-19, during the early phase of the current COVID-19 epidemic. The timely psychologic and behavioral assessment of the community can inform subsequent intervention and risk-communication strategies as the epidemic progresses.

Dr. Kwok is an assistant professor affiliated with the JC School of Public Health and Primary Care at The Chinese University of Hong Kong. His primary research interests include infectious disease epidemiology and infection control, with a current focus on mitigating emerging infectious disease outbreaks from the mathematic, epidemiologic, and behavioral perspectives.

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Acknowledgments

We thank Edelweiss Chui, Ivy Huang, and Margaret Tsoi for technical support.

K.O.K. acknowledges support from the Research Fund for the Control of Infectious Diseases, Hong Kong (grant no. INF-CUHK-1), the General Research Fund (reference no. 14112818), the Wellcome Trust Fund (reference no. 200861/Z/16/Z), and internal funding from the Chinese University of Hong Kong.

K.O.K., K.K.L., A.T., W.I.W., and S.Y.S.W. conceptualized the study; K.O.K. and W.I.W. performed data curation; K.O.K., H.H.H.C., Y.Y.Y., and W.I.W. analyzed the data; K.O.K., W.I.W., and S.Y.S.W. wrote the first draft of the manuscript; K.K.L., H.H.H.C., Y.Y.Y., and A.T. edited the manuscript.

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References

  1. Wuhan Municipal Health Commission. Briefing on the current pneumonia epidemic situation. 2019 [cited 21 Mar 2020]. http://wjw.wuhan.gov.cn/front/web/showDetail/2019123108989
  2. Immigration Department (Hong Kong). Immigration clearance. 2020 [cited 21 Mar 2020]. https://www.immd.gov.hk/eng/facts/control.html
  3. Hong Kong Centre for Health Protection. Latest situation of cases of COVID-19. 2020 [cited 21 Mar 2020]. https://www.chp.gov.hk/files/pdf/local_situation_covid19_en.pdf
  4. Hong Kong Centre for Health Protection. Countries/areas with reported cases of coronavirus disease-2019 (COVID-19). 2020 [cited 21 Mar 2020]. https://www.chp.gov.hk/files/pdf/statistics_of_the_cases_novel_coronavirus_infection_en.pdf
  5. Government of the Hong Kong Special Administrative Region. Hong Kong’s multi-pronged response to COVID-19. 2020 [cited 21 Mar 2020]. https://www.hketojakarta.gov.hk/doc/pdf/Factsheet_coronavirus_Mar_17_E.pdf
  6. Skinner  CS, Tiro  J, Champion  VL. The health belief model. In: Glanz K, Rimer BK, Viswanath K, editors. Health behavior: theory, research, and practice. 5th edition. San Francisco: Jossey-Bass; 2015. p. 75–94.
  7. Rogers  RW, Prentice-Dunn  S. Protection motivation theory. In: Gochman DS, editor. Handbook of health behavior research I: personal and social determinants. New York: Springer; 1997. p. 113–32.
  8. Leung  GM, Ho  LM, Lam  TH, Hedley  AJ. Epidemiology of SARS in the 2003 Hong Kong epidemic. Hong Kong Med J. 2009;15(Suppl 9):126.PubMedGoogle Scholar
  9. Leung  CM, Wing  YK, Kwong  PK, Lo  A, Shum  K. Validation of the Chinese-Cantonese version of the hospital anxiety and depression scale and comparison with the Hamilton Rating Scale of Depression. Acta Psychiatr Scand. 1999;100:45661. DOIPubMedGoogle Scholar
  10. Anderson  RM, Heesterbeek  H, Klinkenberg  D, Hollingsworth  TD. How will country-based mitigation measures influence the course of the COVID-19 epidemic? Lancet. 2020;395:9314. DOIPubMedGoogle Scholar

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Figures
Tables

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Cite This Article

DOI: 10.3201/eid2607.200500

Original Publication Date: April 16, 2020

Table of Contents – Volume 26, Number 7—July 2020

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Comments

Please use the form below to submit correspondence to the authors or contact them at the following address:

Kin On Kwok, Room 419, 4/F, JC School of Public Health and Primary Care Building, Prince of Wales Hospital, Shatin, N.T., Hong Kong; ; or Wan In Wei, Room 427, 4/F, JC School of Public Health and Primary Care Building, Prince of Wales Hospital, Shatin, N.T., Hong Kong

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Page created: April 16, 2020
Page updated: June 18, 2020
Page reviewed: June 18, 2020
The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.
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