ISO/TS 6226:2025

Technical
Specification
ISO/TS 6226
First edition
Health informatics — Reference
2025-06
architecture for syndromic
surveillance systems for infectious
diseases
Informatique de santé — Architecture de référence pour les
systèmes de surveillance syndromique des maladies infectieuses
Reference number
© ISO 2025
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ii
Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 General . 3
4.1 Types of public health surveillance .3
4.1.1 Event-based surveillance (EBS) .3
4.1.2 Indicator-based surveillance .3
4.2 Syndromic surveillance process .3
4.2.1 General .3
4.2.2 Planning .4
4.2.3 Implementation .4
4.2.4 Monitoring .4
4.2.5 Evaluation . .4
5 Reference architecture of syndromic surveillance systems . 4
5.1 General .4
5.2 Syndromic surveillance system component .5
5.2.1 General .5
5.2.2 Data processing .5
5.2.3 Surveillance services .7
5.2.4 Infrastructures .8
5.3 Data sources . .8
5.4 Policy input .9
5.5 External services .10
Bibliography .11

iii
Foreword
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iv
Introduction
Novel infectious diseases have been continuously occurring since the 2000s, such as the Middle East
respiratory syndrome (MERS), severe acute respiratory syndrome (SARS), and coronavirus disease 2019
(COVID-19). COVID-19 pandemic has been the most significant public health crisis, and it has also brought
unprecedented social and economic disruptions globally. COVID-19 has claimed millions of lives and
overwhelmed public health systems in many countries. Early detection of outbreaks and prompt response
have become very important to prevent the widespread of infectious diseases.
Syndromic surveillance is the near real-time collection, analysis, interpretation, and dissemination of
health-related data to enable the early identification of the impact (or absence of impact) of potential health
[7]
threats that can require public health action. Syndromic surveillance is a method of surveillance that aims
to detect outbreaks earlier than traditional methods by focusing on the early symptom period before clinical
or laboratory confirmation of a particular disease and using both clinical and alternative data sources such
as care-seeking rates, insurance claims, laboratory ordering volume, school and work absenteeism, over-the-
[8] [7]
counter drug sales, and internet-based health searches. WHO presents the following four advantages of
syndromic surveillance:
— Early warning: Many syndromic surveillance systems operate in near real-time (daily, for example),
allowing the timely identification of, and response to, incidents.
— Situational awareness: During an incident, syndromic surveillance systems enable further description
of healthcare seeking behaviour in near real-time, for example providing key intelligence to incident
managers and response teams (such as identifying particularly affected age groups or geographical
clusters).
— Reassurance: During mass gatherings and other similar events, syndromic surveillance can often
provide reassurance that there have been no widespread acute public health problems, particularly
where surveillance is long term and a ‘normal’ or historical baseline level has been established prior to
the event.
— Flexibility: By using broad and adaptable syndromes, syndromic surveillance systems can be flexible
in responding to a variety of public health demands ranging from infectious disease outbreaks to
environmental incidents and mass gatherings, in addition to providing measures of impact of public
health interventions, for example the impact of vaccination. Syndromic surveillance also has the potential
to detect newly emerging threats not covered by existing surveillance systems.
The value of a reference architecture is that it helps to reduce a project complexity and risks, and to
increase effectiveness for accomplishing a goal through common languages, principles, and interoperable
[4][9]
requirements. The notable standard for the reference architecture, ISO 23903, notes that “a reference
architecture provides a formal and domain-independent representation of any ecosystems regarding its
components, their structure and functions, and their relationships, based on their underlying knowledge
spaces represented through related ontologies, through all viewpoints of the system evolution or
development process”. ISO 23903 which presents a considerably high-level concept, gives useful insight into
[9][10]
the reference architecture for syndromic surveillance system.
This document intends to define a reference architecture for establishing a syndromic surveillance system
for infectious diseases. The document defines the available data sources required for syndromic surveillance
and identifies architectural components of a syndromic surveillance system including data processing and
surveillance services.
v
Technical Specification ISO/TS 6226:2025(en)
Health informatics — Reference architecture for syndromic
surveillance systems for infectious diseases
1 Scope
This document specifies a reference architecture for event-based syndromic surveillance systems for
infectious diseases. The system reference architecture addresses architectural components including
concepts, data sources, and outputs of syndromic surveillance system.
[11]
From the perspective of the diagnostic process, this document covers the processes from the symptom-
onset stage to the health-behaviour stage, which is prior to the healthcare-encounter stage.
Non-infectious health hazards, such as natural disasters, human-induced emergencies and chronic diseases,
and their associated surveillance systems are beyond the scope of this document.
2 Normative references
There are no normative references in this document.
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminology databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at https:// www .electropedia .org/
3.1
application programming interface
API
set of functions, procedures, methods or classes that an operating system, library or service provides to
support requests made by computer programs
[SOURCE: ISO/HL7 27951:2009, 3.1]
3.2
architecture
set of rules to define the structure of a system (3.12) and the interrelationships between its parts
[SOURCE: ISO 23903:2021, 3.1]
3.3
early warning and response
EWAR
organized mechanism to detect as early as possible any abnormal occurrence or any divergence from the
usual or normally observed
...