A survey of core and support activities of communicable disease surveillance systems at operating-level CDCs in China
BMC Public Health volume 10, Article number: 704 (2010)
In recent years, problems like insufficient coordination, low efficiency, and heavy working load in national communicable disease surveillance systems in China have been pointed out by many researchers. To strengthen the national communicable disease surveillance systems becomes an immediate concern. Since the World Health Organization has recommended that a structured approach to strengthen national communicable disease surveillance must include an evaluation to existing systems which usually begins with a systematic description, we conducted the first survey for communicable disease surveillance systems in China, in order to understand the situation of core and support surveillance activities at province-level and county-level centers for disease control and prevention (CDCs).
A nationwide survey was conducted by mail between May and October 2006 to investigate the implementation of core and support activities of the Notifiable Disease Reporting System (NDRS) and disease-specific surveillance systems in all of the 31 province-level and selected 14 county-level CDCs in Mainland China The comments on the performance of communicable disease surveillance systems were also collected from the directors of CDCs in this survey.
The core activities of NDRS such as confirmation, reporting and analysis and some support activities such as supervision and staff training were found sufficient in both province-level and county-level surveyed CDCs, but other support activities including information feedback, equipment and financial support need to be strengthened in most of the investigated CDCs. A total of 47 communicable diseases or syndromes were under surveillance at province level, and 20 diseases or syndromes at county level. The activities among different disease-specific surveillance systems varied widely. Acute flaccid paralysis (AFP), measles and tuberculosis (TB) surveillance systems got relatively high recognition both at province level and county level.
China has already established a national communicable disease surveillance framework that combines NDRS and disease-specific surveillance systems. The core and support activities of NDRS were found sufficient, while the implementation of those activities varied among different disease-specific surveillance systems.
Surveillance is the ongoing systematic collection, analysis, and interpretation of outcome-specific data for use in planning, implementing and evaluating public health policies and practices . It is generally accepted that communicable disease surveillance is the cornerstone of communicable disease prevention and control [2–4]. In People' Republic of China, since the establishment of the main communicable disease surveillance system, the Notifiable Disease Reporting System (NDRS), in 1950 s, many disease-specific surveillance systems had been developed as important complements to NDRS [5–7]. In 2004, the internet-based real-time information reporting technique was integrated into NDRS to facilitate the case-based report, which involved all the regional centers for disease control and prevention (CDCs) and more than 80% of public hospitals in China . A total of 39 diseases are currently covered by NDRS, and the completeness and timeliness of case report have been dramatically improved since 2004. In 2005, based on previous works, Chinese Center for Disease Control and Prevention (CCDC) established the Enhanced Infectious Diseases and Vectors Surveillance Systems with the target of 25 diseases and 4 important vectors, and set up hundreds of surveillance sites throughout the country . These systems generated a large amount of data on patient information, pathogens, and risk factors. These data have provided the scientific evidence for decision-making in the communicable diseases prevention and control in China.
With all those achievements, there are some challenges need to be addressed. As a very large country with 31 provinces, municipalities and autonomous regions in the Mainland, the spectrum of diseases and environmental and socioeconomic conditions vary widely among different regions in China, so do the performance of communicable disease surveillance systems. The surveillance activities in China are mainly performed in three administrative levels: central level, province level, and county level (Figure 1) . At central level CCDC, a subordinate department of the Ministry of Health (MOH), takes the responsibility for management of communicable disease surveillance systems. The province-level CDCs, one in each province, are in charge of management of communicable disease surveillance systems in their assigned territories. The county-level CDCs, also one in each county, are the primary public health units that monitor the epidemic of communicable diseases, investigates outbreaks, and coordinates all the hospitals, healthcare centers, clinics and laboratories to report communicable disease cases in their counties. NDRS is centrally planned and supported by all levels of the governments. Most of the disease-specific surveillance systems are also centrally planned, but operated under vertical management structures and their performance can vary greatly across different systems. The data are seldom shared across vertical programs. Furthermore, public health staff, in particular those working at the county-level CDCs, may have heavy workloads as they are involved in multiple systems which using different methodologies, terminologies, and reporting forms.
In recent years, the problems mentioned above such as insufficient coordination, low efficiency, and overloaded working burden were pointed out by many researchers [11–14]. They were considered to be ball and chain around the neck of national communicable disease surveillance and response systems in China. Consequently it becomes an immediate concern to strengthen the national communicable disease surveillance systems.
As WHO recommended, a structured approach to strengthen national communicable disease surveillance systems must include evaluation of existing systems to review strengths, weaknesses, and opportunities for improvement, and the components of surveillance system for evaluating comprise the public health importance of the targeted disease, the structure, the functions, and the attributes of the system . Such evaluations had been conducted in China, but most of which were focused on the structure and attribute of single system. To date, there is no publicly disclosed comprehensive evaluation or systematic description of national communicable disease surveillance systems in China. The purpose of this paper was to provide a comprehensive profile for national communicable disease surveillance systems in China. Previous studies by WHO and US CDC [16–19] usually described the entire national communicable disease surveillance and response systems which covered all the involved organizations from health administrative departments to hospitals, this study were more concerned about how the existing surveillance systems worked at the operating level, i.e. province-level and county-level CDCs in China.
Definition and survey tool
The definition for core and support activities of communicable disease surveillance in China was developed by following the conceptual framework of communicable disease surveillance proposed by US CDC and WHO [20–22] (table 1). Given that this study was focused on province-level and county-level CDCs, those activities mainly conducted by hospitals, health administrative departments and CCDC were excluded.
Several questionnaires (additional file 1, 2, 3, 4, 5, 6)were designed by following an assessment tool recommended by WHO , to investigate whether the core and support activities were performed by NDRS and disease-specific surveillance systems at different level CDCs. The comments on the performance of surveillance systems were simultaneously collected from the directors of CDCs.
A pilot study was conducted in two province-level CDCs and two county-level CDCs. The respondents of pilot study were requested to answer two questions after finishing the questionnaire: Has the questionnaire covered all the main areas of existing surveillance activities? Which item is the most time-consuming? Final questionnaires were adjusted corresponding to the results of pilot study. Then a nationwide survey was conducted by mailing questionnaires to all the province-level CDCs and selected county-level CDCs.
All of the 31 province-level CDCs in Mainland China were investigated.
From nearly 3000 county-level CDCs across China, 14 were selected as a typical sample by a two-step framework. Firstly, all the 31 province-level CDCs were divided into 3 groups according to their scores on the quality of notifiable disease case report in year 2004 from an annually updated analysis report of NDRS by CCDC, which is the only national document evaluating the communicable disease surveillance system in China. The upper quartile of the provinces with the best reporting quality are Group A, the middle fifty percent are Group B and provinces in the lower quartile are Group C. Two to four provinces were sampled from each group based on their socioeconomic status. Finally, 8 provinces (Tianjin, Zhejiang, Gansu, Hubei, Hebei, Guizhou, Yunnan and Anhui) were selected for further sampling. Secondly, the chief directors of the selected province-level CDCs were requested to nominate two counties in their jurisdiction, one representing the good county-level performance of communicable disease surveillance and the other one representing the weak performance. Finally 14 county-level CDCs were chosen for this study (Gansu and Hebei each nominated 1 county of good performance for pilot study).
Epidata 3.0 was used for data entry. After data cleansing, the quality of returned questionnaire was evaluated. The questionnaire would be excluded from analysis if there are more than 5 questions missing. For each systems investigated, the proportion of the CDCs that have had the activities among all the same level CDCs was calculated.
A total of 31 province-level and 14 county-level CDCs were investigated between May and October 2006. All the respondents were asked to describe the related surveillance works performed in the previous calendar year in accordance with the questionnaires. 91.9% of the province-level and 100% of the county-level CDCs returned completed questionnaires. Quality evaluation showed that the proportions of invalid questionnaire in both province-level and county-level CDCs were acceptable (6.9% and 0.1% respectively).
The activities of NDRS
The directors of the NDRS administrative branches from 28 province-level and 14 county-level CDCs responded to this survey. Both province-level and county-level CDCs had already taken the main core activities such as confirmation, reporting, and analysis, so did some support activities such as supervision and training. However some activities including feedback, equipment and financial supports, especially overtime pay provision, were found insufficient in most of the CDCs. (table 2 and 3)
The activities of disease-specific systems
A total of 406 province-level and 85 county-level questionnaires completed by the directors of the administrative branches of disease-specific surveillance systems were analyzed. A total of 47 diseases or syndromes were under surveillance at province level, and 20 diseases or syndromes were under surveillance at county level. Surveillance systems implemented in more than 5 CDCs at the same level are listed in table 4 and table 5.
Comments on the performance of communicable disease surveillance systems from the chief directors of CDCs
29 chief directors from province-level CDCs and 14 from county-level CDCs provided their personal comments on the performance of communicable disease surveillance systems. 100% of the province-level directors and 85.7% of the county-level directors considered that NDRS had achieved its original objectives and functioned generally well. Inadequate hardware equipment, such as lack of computers or internet access, was listed as the major reason of incomplete and delayed reports by two county-level directors. Of all the disease-specific surveillance systems, AFP surveillance system received the highest recognition both at province level and county level. The chief directors from 17.2% of province-level CDCs and 35.7% of county-level CDCs considered that AFP system had achieved its objectives and functioned well. The measles surveillance system also received high recognition at province level. 13.8% of province-level directors considered that it had generally functioned well. In addition, 28.6% of county-level directors considered that TB surveillance system had functioned well.
Some activities should be strengthened in NDRS
In China, notifiable disease reporting is mandatorily required by the Law of the People's Republic of China on Prevention and Treatment of Infectious Diseases. An internet-based real-time information platform has been established to facilitate case reporting of notifiable disease. To monitor the performance of NDRS, CCDC has developed a series of indicators including timeliness, proportions of duplicated and missing reports. Evaluations showed that the performance had been dramatically improved since 2004 . In light of the results of this survey, almost all the CDCs have had the main activities of NDRS like confirmation, analysis, reporting, training and supervision, which was consistent with the conclusion of annual quality analysis report of NDRS published by the Information Center of CCDC. But some activities, including feedback, equipment and overtime pay providing need to be strengthened.
Feedback is one of the most important elements of surveillance cycle . Findings in this survey indicate that the information loop of NDRS was incomplete due to the absence of feedback, especially the feedback from decision makers (or higher level of the surveillance system) to data providers (or lower level of the surveillance system). But the situations varied among different levels and institutions. In general, the information loop inside the CDC system was complete. The proportions of feedback from higher level CDCs to the lower level CDCs were all greater than 60%, but the proportions of feedback from health administrative departments to CDCs were lower than 30% at all levels. In China, the health administrative departments have significant influence on the activities of CDCs. The performance and the quality of communicable disease surveillance activities of CDCs might be compromised by the lack of clear and incentive feedback from the health administrative departments. Unfortunately, the existing regulations and guidelines do not oblige health administrative departments to give CDCs essential feedback.
Less than 30% of the CDCs, at either province level or county level, thought that their equipment had met the demands of NDRS. Especially the computers equipped at the beginning of the internet-based real-time report system have been worn-down after years of heavy work . However, most of the surveyed CDCs reported that they could not afford equipment replacement. Less than 40% of the province-level CDCs and 30% of the county-level CDCs reported they had paid the overtime work of NDRS, and this could be an important negative factor affecting the enthusiasm of working staff.
Performance varied among disease-specific surveillance systems
The results showed that the activities among different disease-specific surveillance systems varied widely, which was in accordance with the comments on the performance of communicable disease surveillance systems from the directors of CDCs. AFP, measles and TB surveillance systems got relatively high recognition. A clear target of prevention and control, especially when the target was announced by government or international organizations, as well as the long-term assistance from large-scale intervention programs both were positive factors for disease-specific surveillance systems, which was highly consistent with the situations in other countries [16–19].
More comprehensive and in-depth descriptions and evaluations of communicable disease surveillance systems in China are needed
Several guidelines or protocols about how to evaluate the public health surveillance or the communicable disease surveillance systems had been developed by US CDC and WHO since 1980 s. The elements of evaluation were firstly described by US CDC in the guideline published in 1988, including the public health importance of the disease or health conditions under surveillance, the framework of the system, the attributes of the surveillance system (simplicity, flexibility, acceptability, sensitivity, positive predictive value, representativeness, and timeliness), and the usefulness and cost [26, 27]. In 2001, WHO released a protocol for the assessment of national communicable disease surveillance and response system and updated it in 2006[21, 22]. Besides the elements mentioned in the US CDC guideline, the WHO protocol also emphasized the evaluation should also pay attention to the functions of surveillance systems and seek for the integration opportunity [15, 21, 22].
The idea of surveillance system evaluation was introduced into China in the early of 1990 s soon after the first US CDC guideline released [6, 7], and this guideline had a big impact on the evaluation of surveillance system in China. Most of the evaluations were focused on attributes of completeness and timeliness. Unfortunately most of the efforts had been concentrated on a small number of systems such as NDRS, influenza system, and AFP system, while other systems were seldom evaluated. Such results helped us to promote the evaluated systems, but if we want to draw up a plan to enhance the overall regional or national communicable disease surveillance systems, the evaluation of limited systems and limited attributes would not provide strong and comprehensive evidence for decision making. In particular, when integration is planned, which has been appealed repeatedly, the evaluation result of the whole system is essential. Evaluating how the systems function, identifying where the synergy is possible, finding which can be the driving force, and determining whether national surveillance systems can be integrated is the spirit of WHO infectious disease integrated strategy which had been used in Africa . This strategy has led to a great success in helping the member countries in AFRO to enhance their national communicable disease surveillance and response systems . Given that China has much more complicated demographic, economical and social conditions than African countries, the more the in-depth comprehensive evaluations, the better the evidence would be to help the improvement of the national communicable disease surveillance and response system. This study is just the first stage in a complete description and evaluation of China's communicable disease surveillance systems.
China has already established a national communicable disease surveillance framework which was comprised of NDRS and disease-specific surveillance systems. As the core system for the communicable disease surveillance in China, NDRS has generally functioned well. But the performance varies among different disease-specific surveillance systems. Some activities need to be strengthened and more in-depth and comprehensive descriptions and evaluations are needed to improve the communicable disease surveillance systems in China.
Powers and Limitations
This study is the first systematic description of communicable disease surveillance systems at operating level in China. It is also China's first nationwide application of the conceptual framework of surveillance proposed by WHO and US CDC, which divided the activities of surveillance into two parts: core and support activities. The authors developed definition for core and support activities of communicable disease surveillance based on China's national condition and modified the assessment protocol published by WHO. The methodology and the results lay a basis for future investigations in this field.
Although the questionnaire used in this study was designed based on the well recognized conceptual framework of surveillance proposed by WHO and US CDC, the authors did many modifications to make it more suitable for the research purpose, that is, to learn how the existing surveillance systems worked at the province-level and county-level CDCs in China. That's the reason why almost all the items about hospitals, health administrative departments and CCDC were excluded. Because the subsequent actions following surveillance data like outbreak investigation, response to epidemic and epidemic preparedness were not the main concern either, items about those parts were minimized. So it may be inappropriate to direct compare the findings described in this paper with the results of communicable disease surveillance system evaluations from other countries due to the different data sources and study interests.
There are several limitations in this study. Firstly, respondents were asked to describe the surveillance works of past year in details by themselves, so the recall bias is probably unavoidable. Secondly, being restricted by insufficient database in the sampling of county-level CDCs, shortage of support and difficulties in implementation, the authors only investigated 14 county-level CDCs as a typical sample. Although the results from surveyed county-level CDCs can reflect most others' situation to some extent, the selection bias still can not be ignored.
Due to the lack of proper references, it is difficult to estimate either the size or the direction of the biases. Future systematic descriptions or evaluations of communicable disease surveillance systems in China could provide more information to complement the findings. The findings described in this paper may not be applicable to all county-level CDCs in China and the results must be used cautiously. Given that all the province-level CDCs were investigated and the response rate (91.9%) and invalid proportion (6.9%) were acceptable, the results from province-level CDCs could represent the true situation for this level.
Thacker SB, Berkelman RL: Public health surveillance in the United States. Epidemiology Reviews. 1988, 10: 164-90.
Langmuir AD: The surveillance of communicable diseases of national importance. New England Journal of Medicine. 1963, 268: 182-92. 10.1056/NEJM196301242680405.
Declich S, Carter AO: Public health surveillance: historical origins, methods and evaluation. WHO Bulletin. 1994, 72: 285-304.
World Health Organization: WHO recommended surveillance standard. World Health Organization. 1999
He GQ: Disease surveillance or monitoring and its development in China. Progress in Epidemiology. Edited by: Lian ZH. 1990, Beijing, People's Medical Publishing House, 6: 1-2. (in Chinese)
Chen MT, Yang GH: The history and development of disease surveillance in China. Disease Surveillance. 2005, 20: 113-4. (in Chinese)
Nie SF: Disease surveillance. Epidemiology. Edited by: LI LM. 2007, Beijing, People's Medical Publishing House, 232-7. (in Chinese), 6
Chinese Center for Disease Control and Prevention: Abstract. Chinese Center for Disease Control and Prevention. Incidence and Death Report of Notifiable Infectious Disease in China, 2008. 2008, Beijing, Chinese Center for Disease Control and Prevention, 1: (in Chinese)
Ministry of Health of the People's Republic of China: Guidelines of Enhanced Surveillance on 13 types of Communicable Diseases and Vectors. 2005-10-12, [http://www.gov.cn/gzdt/2005-10/12/content_76533.htm]
Ministry of Health of the People's Republic of China: Decree of the Ministry of Health of the People's Republic of China (No.40). 2005-1-5 (in Chinese), [http://www.gov.cn/gongbao/content/2005/content_75219.htm]
Zeng G: The prospect of disease surveillance in China. China Preventive Medicine. 2000, 1: 4-6. (in Chinese)
Wang XJ, Zeng G: Survey on the influence factors of notifiable disease reported by medical institutions after applying direct reporting network system. Disease surveillance. 2006, 21: 551-4. (in Chinese)
LI SM, Wang Y, Tang YH: Investigation on the administrative status quo of monitoring infectious disease and reporting epidemic disease. Chinese Primary Health Care. 2006, 20: 39-40. (in Chinese)
Zhuo JT, Yang HH, Wang SS: Measles Surveillance in a Rural Area: Assessment of a Passive Reporting System. Chinese Journal of Epidemiology. 1994, 15: 203-5. (in Chinese)
World Health Organization: Overview of the WHO framework for monitoring and evaluating surveillance and response systems for communicable diseases. Weekly Epidemiological Record. 2004, 79: 322-6.
Nsubuga P, Eseko N, Wuhib T: Structure and performance of infectious disease surveillance and response system of Tanzania 1998. WHO Bulletin. 2002, 80: 196-202.
Centers for Disease Control and Prevention: Assessment of infectious disease surveillance-Uganda. MMWR. 2000, 49: 687-90.
World Health Organization: Assessment of the national communicable disease surveillance and response system, Ethiopia. Weekly Epidemiological Record. 2001, 76: 9-16.
Wuhib T, Chorba TL, Davidiants V: Assessment of the infectious disease surveillance systems of the republic of Armenia. BMC Public Health. 2002, 2: 3-10.1186/1471-2458-2-3.
McNabb SJ, Chungong S, Ryan M: Conceptual framework of public health surveillance and action and its application in health sector reform. BMC Public Health. 2002, 2: 2-10.1186/1471-2458-2-2.
World Health Organization: Communicable disease surveillance and response systems-guide to monitoring and evaluating. World Health Organization. 2006
World Health Organization: Protocol for the assessment of national communicable disease surveillance and response systems. World Health Organization. 2001
Guo Q, Zhang CY, Ji YB: Investigation of infectious disease direct reporting network management in China medical institutions. Disease Surveillance. 2010, 25: 410-13. (in Chinese)
Buehler JW: Surveillance. Modern Epidemiology. Edited by: Rothman KJ, Greenland S, Lash TL. 2008, Philadelphia, Lippincott Williams & Wilkins, 470-1. 3
Ministry of Health of the People's Republic of China: Notice on the program of equipping Western Region with computers to facilitate internet-based communicable disease and public health emergency report. 2005-8-29 (in Chinese), [http://www.moh.gov.cn/publicfiles/business/htmlfiles/mohbgt/s6694/200805/35058.htm]
Centers for Disease Control and Prevention: Guidelines for evaluating surveillance systems. MMWR. 1988, 37 (S6): 1-18.
Centers for Disease Control and Prevention: Updated guidelines for evaluating public health surveillance systems. MMWR. 2001, 50 (S5): 1-35.
World Health Organization Regional Office for Africa (AFRO): Integrated disease surveillance-a regional strategy for communicable diseases (1999-2003). AFRO. 1999
World Health Organization: Documentation of integrated disease surveillance and response implementation in the African and Eastern Mediterranean regions. World Health Organization. 2002
The pre-publication history for this paper can be accessed here:http://www.biomedcentral.com/1471-2458/10/704/prepub
The authors thank all the experts from the School of Public Health, Peking University Health Science Center, CCDC, CDC of Hebei Province, CDC of Gansu Province, CDC of Yunnan Province, CDC of Tianjin Municipality, CDC of Zhejiang Province, CDC of Hubei Province and CDC of Anhui Province who gave their unselfish and valuable opinions and supports. Also we thank all the respondents who kindly contributed their time and gave their feedback in time. Finally, we extend our sincere gratitude to all three of the journal's reviewers who gave excellent suggestions which helped us to perfect this article.
The authors declare that they have no competing interests.
WYX and LML initiated this study. WYX carried out the design of the study, the mailed investigation, data entry, data analysis and paper writing. JL participated in the design of the study, data analysis and paper writing. LML participated in the design of the study, carried out the paper reviewing. All authors read and approved the final manuscript.
Electronic supplementary material
Additional file 1: Questionnaire for director of province-level CDC. The questionnaire for the chief directors of province-level CDCs. It comprised 13 questions including the list of priority communicable disease, the goal of communicable disease prevent and control, the current situation of NDRS and disease-specific surveillance systems and the comments. (DOC 85 KB)
Additional file 2: Questionnaire for NDRS at province-level. The questionnaire for the directors of the NDRS administrative branches at province-level CDCs. It comprised 24 questions. All the related activities presented in table 1 were included. (DOC 262 KB)
Additional file 3: Questionnaire for disease-specific surveillance systems at province-level CDCs. The questionnaire for the directors of the administrative branches of disease-specific surveillance systems at province-level CDCs. It comprised 25 questions. All the related activities presented in table 1 were included. (DOC 209 KB)
Additional file 4: Questionnaire for director of county-level CDC. The questionnaire for the chief directors of county-level CDCs. It comprised 13 questions including the list of priority communicable disease, the goal of communicable disease prevent and control, the current situation of NDRS and disease-specific surveillance systems and the comments. (DOC 90 KB)
Additional file 5: Questionnaire for NDRS at county-level CDCs. The questionnaire for the directors of the NDRS administrative branches at county-level CDCs. It comprised 23 questions. All the related activities presented in table 1 were included. (DOC 278 KB)
Additional file 6: Questionnaire for disease-specific surveillance systems at county-level CDCs. The questionnaire for the directors of the administrative branches of disease-specific surveillance systems at county-level CDCs. It comprised 25 questions. All the related activities presented in table 1 were included. (DOC 219 KB)
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Xiong, W., Lv, J. & Li, L. A survey of core and support activities of communicable disease surveillance systems at operating-level CDCs in China. BMC Public Health 10, 704 (2010). https://doi.org/10.1186/1471-2458-10-704