The study investigates whether shared online access to epidemiological data for general practitioners, disease prevention officers, emergency care services and microbiology laboratories changes clinical practice with regard to testing, diagnosing and treatment of communicable diseases. The main hypothesis is that "online access for general practitioner to epidemiological data about communicable diseases changes clinical practice for testing, diagnosing and treatment of communicable diseases".
We will collect data from general practitioners (GP) offices by installing local data extraction solutions. Each installation will build a local anonymous database of GP consultations extracted from the local electronic patient record (EPR) system. These anonymous data records will be used to produce local disease statistics before they are exported to a centralized server available in the Norwegian Health network. The centralized server will produce daily reports about the epidemiological situation in the patient population. We will combine the syndromic data from the GP offices with data from the microbiology laboratories on the hospitals that covers the study areas. The epidemiological data will be made available to the intervention areas in the study through web based and customized client applications. By using data extracted from the GP offices EPR databases and the microbiology laboratories we will investigate the study hypothesis.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
HEALTH_SERVICES_RESEARCH
Masking
NONE
Enrollment
200
In the intervention areas we will give the study participants online access to the Snow disease surveillance system. The system will provide data about the incidents of respiratory and gastrointestinal communicable diseases in the patient population.
Earlier diagnosis and treatment for communicable diseases
General practitioners (GP) have three possible decisions in a consultation with a patient; 1) treat on suspicion, 2) take a sample, 3) wait and see whether the patient recovers or get worse, or 4) a combination of 1 and 2. In situations with decision 3 (wait and see) the patient may return to a consultation later on. The hypothesis is that online access to epidemiological data from the local patient population will enable GPs to make the right decision more often based on knowledge about the epidemiological situation in the patient population.
Time frame: Measured at the end of the data collection period, approx. 1.5 year. (December 2012)
Earlier detection of local disease outbreaks
Syndromic surveillance enables earlier detection of local disease outbreaks compared to traditional laboratory based surveillance. We will record the time of disease outbreak detection in both intervention and control areas and compare.
Time frame: Measured at the end of the data collection period, approx. 1.5 year. (December 2012)
Lower number of infected during disease outbreaks
We will compare the number of infected in the intervention and control areas. The hypothesis is that the intervention areas will have fewer infected compared to the control areas.
Time frame: Measured at the end of the data collection period, approx. 1.5 year. (December 2012)
Impact on health service costs
We will measure the cost related to communicable diseases in the control and intervention areas. Our prediction is that it will change.
Time frame: Measured at the end of the data collection period, approx. 1.5 year. (December 2012)
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