Evaluation of public health surveillance system performance in Dangila district, Northwest Ethiopia: a concurrent embedded mixed quantitative/qualitative facility-based cross-sectional study

Public health surveillance is the continuous and systematic data collection, analysis, interpretation and dissemination regarding diseases or other health-related events that present a potential threat to public health security. It primarily aims to prevent and control diseases/conditions under surveillance and thereby to improve health [1, 2]. The system is designed to monitor routine and ad hoc data within and outside the health system and to use them to assess risks to public health. If predefined alert or action thresholds are surpassed, the system triggers rapid response activities [3]. Moreover, data and interpretations derived from the surveillance system are useful in setting public health priorities, planning and implementing control activities, and evaluating the effectiveness of interventions [4].

To manage the increasing sufferings from the effects of public health emergencies, the Ethiopian Public Health Institute established a fully integrated, adaptable and all-hazards approach system called Public Health Emergency Management (PHEM) system, which incorporated the International Health Regulation (IHR 2005) obligations. It is the process of emergency preparedness, early detection, response and recovering from the public health effects of emergency threats so that health, economic and environmental impacts are minimized [5, 6]. It primarily builds capacity at all surveillance levels, especially at the district level, with active community participation to detect early and respond to epidemics/other public health emergencies at a local level. Nationally, the surveillance system incorporated 23 priority diseases/conditions that are to be reported on immediately and weekly bases, based on the national guideline recommendation [5]. In addition to this, in the Amhara region, leishmaniasis and high HIV viral load (> 1000 copy/ml) are diseases/conditions under public health surveillance. Among those diseases under surveillance, polio and guinea worm are targeted for eradication; while neonatal tetanus, measles, leprosy, lymphatic filariasis, onchocerciasis and malaria are under elimination program. The community and health facilities especially health posts are the main sources of information for the surveillance. The information collected from this sites is compiled in standard forms, with simple analysis and then forwarded to the district health office. District level uses standard formats to compile, aggregate and send the data to zone/region using paper-based reporting formats, from which the central level receives. Feedback and information sharing follow the same route if any.

Thus, the implementation status of disease/event surveillance should be evaluated on regular bases to ensure that whether the system is serving a useful public health function or not and is meeting its objectives. This is important to improve the system’s usefulness, quality, efficiency, and attributes [4]. However, data on the performance of the existing surveillance system are scarce in the country, particularly in the study area. Therefore, we evaluated the performance of a public health surveillance system in Dangila district, northwest Ethiopia.

According to the finding, the weekly surveillance report completeness in the district (100%), is higher than the 95% national target set by the country [8], as well as the 80% WHO target [9]; showing that all the visited health facilities were reporting to their respective level as per the standard in the national guideline. However, even though the overall completeness of the district seemed very satisfying throughout the year, it decreases as one goes down from the district health office to the health posts, because of the incompleteness was masked as the data gets compiled at each surveillance level.

Average report timeliness in the district was 94.6%, which is in line with the 95% national target set under the health sector transformation plan [8] and slightly lower than the 1st quarter timeliness report from Eritrea [10], but higher than the 61.5% timeliness report from upper east region of Ghana [11]. This timely report gives timely information for the district surveillance officials, which helps to detect and manage outbreaks early, to predict future outbreaks, trends of disease occurrence, cases for further studies, and action for problems identified on time.

Regarding surveillance communication, the structure of data flow from the lower to the upper level was well organized with a unidirectional flow of data, with simple and defined roles and responsibility of each reporting entity. However, the reporting flow has several obstacles such as inadequate infrastructure like the absence of transportation, lack of wired telephone, and no internet access for email service.

It is not enough to collect, record and report numerical data about morbidity, mortality and conditions from the catchment area; the data must also be analyzed in terms of time, place and person at each surveillance level where it is collected. However, the district health office simply merges and sends its weekly surveillance data to the Zonal Health Department, and subsequently to the Regional Public Health Institute; for the purpose of reporting to the respective higher level. This is because they are obligated to send the weekly report to the higher administrative level and not for real-time intervention of public health problems. The same is true for health centers; they aggregate the data they received from health posts and send it to the district health office every Monday in the afternoon. But, they didn’t analyze data on weekly, monthly and quarterly bases, except for malaria which was being monitored using the WHO malaria monitoring chart. As stated above, if the health facilities in the district don’t analyze and use the data, the utility of the surveillance system becomes minimal, which makes the system too weak to pick outbreaks early that could guide prompt response. The absence of data analysis, interpretation and utilization for local action seen in the present study is in line with the report from southwestern parts of the country [12], and the report from Nigeria and South Africa [13, 14]. The possible reasons might be a skill gap in data management system, weak supervision and feedback system, low or no legal enforcement to the surveillance activities, lack of incentives, lack of continues capacity building training, and lack of sense of ownership.

It is essential to build feedback loops into the system through regular epidemiological bulletins with tables and graphs showing trends and progress towards targets and reports on the investigation and control of outbreaks. However, in the assessed district, the feedback system was found to be weak due to the absence of epidemiologically analyzed and interpreted data to send it for health facilities; but verbal feedback was occasionally sent to the lower health facilities. Similar finding was reported from Akwaibom state of Nigeria [13]. Besides, even though the district was conducting a supportive supervisory activity in an irregular and integrated way, the working supervisory checklist was not well-prepared and it only talks about a few diseases under surveillance like malaria and tuberculosis. The reason for the absence of a holistic and detailed supervisory checklist could be lack of reference materials to prepare the checklist, less emphasis and commitment to prepare the checklist.

The district health office has Emergency Preparedness and Response Plan (EPRP) which was not supported by the budget and/ or logistics required to respond in case an emergency occurred. But, the district administrative council reserved an emergency budget which only be mobilized after an event has occurred. This slows down timely investigation and mitigation of expected events in the district by the district health office. The rest health facilities don’t have written EPRP as well as outbreak investigation and supervision checklist. Also, even though there is established rapid response team/ technical committee in the district and health facilities, it lacks functionality or regular monthly meeting at all levels. As observed in meeting minutes, the rapid response team had a meeting when an outbreak occurs, however, most of the team members were not trained on epidemic preparedness and response. Also, the rapid response team did not review their plans, actions, and learned experiences. This will make the district and the facilities to immediately wait and perceive the support of the higher levels in case of public health emergencies. This will make all responses to be late and give emergencies to take the chance and stay longer by adversely affecting the public. The misconception that a rapid response team is built to take immediate response once outbreaks happened might bet the possible reason for the non-functional rapid response team in the entire district.

Thus, during outbreaks, the team usually focuses on individual case treatment rather than investigating and directing response to the associated factors from the public point of view. In addition to these, the district annual performance review meeting didn’t address all the activities related to public health emergency surveillance and outbreak investigation and response. This shows as the emphasis given to disease/event surveillance was low in the study area.

Our mixed quantitative/qualitative study on public health surveillance system has some constraints. Like any performance assessments, Public Health Emergency (PHEM) personnel’s working within the public health surveillance system may be fearful of punitive measures or poor publicity if deficiencies were identified. However, during the sessions of each visit, we briefed stakeholders about the purpose of the assessment which was to evaluate the performance of the system and not merely the individual’s performances. Despite our attempts to brief the stakeholders, their responses may have been biased towards projecting a better image of their performance.

The surveillance system is found to be simple, useful, flexible, acceptable, and representative. Weekly report timeliness and completeness are above the national and international targets. But, there remain problems with proper communication between surveillance levels, lack of budget, computer inaccessibility, lack of supervision checklist, masking of report completeness at lower levels and missed variables from weekly reporting format. Generally, the overall implementation status of the system in the district is not satisfactory to achieve the intended objective of surveillance for public health action due to the lack of regular data analysis, interpretation and feedback dissemination to which it may concerns. To strengthen and to create a well-functioning surveillance system, regular supportive supervision and epidemiologically analyzed and interpreted feedback system incorporating important variables is a must.