Anticipate, recognize, evaluate, control, and confirm


Anticipate, recognize, evaluate, control, and confirm is a decision-making framework and process used in the field of industrial hygiene to anticipate and recognize hazards, evaluate exposures, and control and confirm protection from risks. ARECC supports hazard-informed exposure assessment, exposure-informed hazard assessment, and risk-informed decision making in any endeavor.

History

The ARECC decision-making framework began as recognize, evaluate, and control. In 1994 then-president of the American Industrial Hygiene Association Harry Ettinger added the anticipate step to formally convey the duty and opportunity of the worker protection community to proactively apply its growing body of knowledge and experience to assessing and managing hazards, exposures, and resulting risks in existing and emerging situations.
The confirm step was added in 2011 to clarify the necessity of confirming that all steps in the decision-making framework were being effectively applied and that the desired outcomes were being achieved. Overall confirmation of the adequacy of decision making for risk management includes measurements of the effectiveness of controls in the workplace and evaluation of results from occupational epidemiological studies. Confirmation of training, documentation, and continuous improvement of the entire decision-making process must be carried out to ensure that all steps are scientifically grounded and appropriately applied.

The ARECC process

The implementation of ARECC involves conducting risk assessment and applying risk management. The ARECC graphic shown in Figure 1 appears as the first illustration in the authoritative industrial hygiene reference book A Strategy for Assessing and Managing Occupational Exposures. The Occupational Exposure Assessment Body of Knowledge document developed by the American Industrial Hygiene Association provides an organized summary of the collective knowledge and skills necessary for persons to use the ARECC process in conducting occupational exposure assessments. AIHA is using this BoK to establish a framework for the development of education programs and knowledge/skill assessment tools, and for the improvement of the state of professional IH knowledge.

Risk assessment

During the risk assessment phase, the details of existing or potential hazards and exposures are assessed to characterize risks. The hazard identification/dose-response/exposure assessment/risk assessment approach mirrors the process that was formulated by the National Academy of Sciences / National Research Council. Schulte et al. noted the interrelated criteria of hazard identification/exposure assessment/risk assessment/risk management/fostering of benefits for responsible development of nanotechnology. Schulte et al. also noted significant examples of progress in the fields of toxicology, metrology, exposure assessment, engineering controls and personal protective equipment, risk assessment, risk management, medical surveillance, and epidemiology for protection of nanotechnology workers.
As emphasized in Figure 1, strong interactions are needed between the hazard assessment and exposure assessment activities. Exposure-informed hazard assessment ensures that realistic information about actual workplace exposure compositions, concentrations, and conditions are factored into any laboratory-based studies of health effects that are conducted. Hazard-informed exposure assessment ensures that the relevant exposures are assessed in the appropriate locations and at the appropriate times. Identifying and defining dose-response relationships for exposures to hazards allows for the establishment of occupational exposure limits, hazard criteria for concerns such as exposures to skin, and the grouping of materials into hazard bands that can be similarly controlled.

Risk management

The risk management portion of the ARECC framework and process emphasizes leadership commitment to the safety and health mission and application of the hierarchy of controls. Commitment includes confirming that all ARECC process steps are being followed and that protection of safety, health, well-being, and productivity is being achieved.
The hierarchy of hazard controls is an integral component of the application of ARECC. The hierarchy is traditionally depicted as a vertical listing of hazard control and exposure control options in descending order of priority, beginning at the top with elimination of the hazard as the most effective control, followed by substitution of a less hazardous option, followed by engineering controls to prevent exposures, followed by administrative and work practice controls, and concluding with use of personal protective equipment as the least effective control at the bottom.
Figure 2 depicts an alternative depiction of the hierarchy as a pyramid of interactive control elements. The components of hazard and exposure control depicted in the pyramid formulation of the hierarchy of control are
Figure 3 illustrates how the pyramid formulation of the interrelated elements of the hierarchy of control can be used to provide retrospective, contemporaneous, or prospective insights about the sustainability and levels of risks associated with work activities that involve different combinations of hazards, exposures, controls, and resulting risks. For example, elimination of a hazard is considered to be a highly sustainable strategy, and if a hazard was or is thought to have been eliminated from a process, then initial evaluations can focus on confirmation of material inventories and process knowledge. Similarly, control situations that rely heavily on engineered controls, warnings, work practices, or use of PPE are less sustainable and involve greater risks, and risk management evaluations can focus on confirmation of whether those controls were actually in place and properly applied.
In addition, other hazards may also be present such as heat stress, slips trips and falls, struck-by injuries, toxic metals, toxic gases, electrical shock, lasers, shift work and fatigue. If multiple hazards are present in a work activity, the status of the hierarchy of controls can be assessed for each hazard, and a worst-first, all-hazards approach can be used to prioritize actions to ensure protection from risks. Ideally, as recommended in the American National Standard for Prevention through Design the hierarchy will be used to guide the design of work in a manner that will prevent the presence of hazards, exposures, and resulting risks.

ARECC leaders, cultures, and systems

The ARECC framework recognizes the essential contributions of leaders, cultures, and systems to achieving success. When failures to protect people and the environment from risks have occurred, root causes of those failures can be traced to shortcomings or breakdowns in one or more aspects of the prevailing leaders, cultures, and systems. Aspects of the decision-making framework and process related to building and sustaining relevant and reliable leaders, cultures, and systems can be particularly important when disparate technologies or activities are converging.
As illustrated in Figure 4, the components of a leaders, cultures, and systems approach in any setting can enable ARECC to:
Figure 4 includes a "score card" that can be used to assess the adequacy of each element of the Connected/Protected/Respected, Leaders/Cultures/Systems, Tools/Training/Experience environment. This enables effective focus on areas that must be sustained and areas that require improvement.