Information technology (IT) is increasingly pervading everything we do. For instance, worldwide statistics show that more people have access to a mobile phone than to working toilets (Times Magazine, 2013), and while the existence of genome editing may have seemed unimaginable just a few years ago, tools have now equipped scientists with the ability to genetically modify human embryos (Liang et al., 2015). Such developments are occurring exponentially with an increasing array of technological features, designs, and data generated from applications impacting on all aspects of human life including food, health, energy, and the environment. The first personal computer was released in 1974, and within a mere seven decades, by 2045 computing power is expected to exceed that of all human brains combined. This “technological singularity” is a widely debated hypothetical moment in time where artificial intelligence (AI) will surpass our cognitive limitations (Kurzweil, 2005).

The first use of HIT in a clinical setting can be traced back to 1952, when Dr. Arthur Rappoport reported his experiences with using the McBee Manual Punch Card in a pathology laboratory setting (Porth and Lübke, 1996). This was followed by the emergence of hospital information systems in the 1960s, with the Latter Day Saints Hospital in Utah (USA, now Intermountain) being the first to implement this in 1967. Others, including The COmputer STored Ambulatory Record and the Regenstrief Medical Record System, followed. The Health Evaluation through Logical Programming system had the ability to collect demographic and clinical data with decision support features. It is used to the present day, but may be replaced by Cerner in the near future (Gardner et al., 1999; Healthcare IT News, 2015). The development of clinical specialty systems for laboratory, radiology, pathology, radiotherapy, pharmacy, and primary care followed. Integration of these was not possible until the 1980s, when larger integrated medical information systems emerged, facilitated by the development of high-speed communication networks. In 1985, the first patient scheduling software called “Cadence” was launched by Epic Systems, followed by EpicCare in 1992. Subsequent developments in the 21st century have been characterized by growing clinical uses of technologies drawing on an ever increasing array of data sources (including patients and various care settings), mobile applications that allow patients and providers to gather and view data “on the go”, and the exploitation of digital data generated for reuse (Cresswell and Sheikh, 2016). An overview of key historical developments is provided in Box 1.1.

Clinical informatics represents a highly interdisciplinary field that involves “analyzing, designing, implementing, and evaluating information and communication systems that enhance individual and population health outcomes, improve patient care, and strengthen the clinician-patient relationship (Gardner et al., 2009).” As such, the field can be positioned at the intersection of clinical care, the health system, and information and communication technology. Its interdisciplinary nature is a core feature, and it includes clinical providers such as physicians, nurses, and pharmacists, but also medical librarians, information scientists, and communication specialists, to name just a few of the types of professionals involved.

Clinical informatics applications have been shown to result in a number of benefits including, among others, the pr...