The important role of healthcare lighting

by maz_atta | April 14, 2021 12:00 pm

Colette Fleming

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All images courtesy Axis Lighting

The built environment can have a positive effect on the overall state of a person’s physical and emotional well-being. Nowhere is this more important than in a health-care facility. As Florence Nightingale noted in the 19th century, the physical environment of a medical facility can affect the psychological well-being and behaviour of all occupants—from patients and their visitors to medical staff. Unfortunately, Nightingale’s vision[2] was largely neglected during the post-war economic boom of the mid-20th century when rapid advances in medical technology, and an increased focus on efficiency in the delivery of medical care, meant a decrease in attention on the human dimensions of hospital design. However, just as medicine has moved toward evidence-based [medicine] where clinical choices are informed by studies, health-care design is increasingly guided by rigorous research linking hospitals’ physical environments to patient outcomes.

The contemporary environment of care recognizes that, while the physicality of hospitals must support the effective delivery of care, they are in and of themselves tools in the healing process, supporting wellness through psycho-physiological effects.

Expanded role of lighting

Healthcare organizations and architecture, engineering, and construction (AEC) firms have taken evidence-based design research and expanded it beyond patients with the recognition that the physical environment also affects staff, doctors, and visitors. Many factors are involved in the built environment, including lighting. A growing understanding of the effects of light on human biology, as well as its importance for helping to offer pleasant, non-institutional environments, has created a desire for hospital lighting systems to provide flexibility in spectral output and control. With a focus on both patient and staff wellness, the AEC industry and health-care facility managers are looking for thoughtfully configured lighting that balances both visual and circadian needs and promotes healing outcomes.

Lighting is an important conduit in hospital control systems because it can deliver more connectivity due to its use everywhere. Wireless or wired connectivity with sensors installed in luminaires can provide a continuous stream of data to monitor things. For example, are the rooms occupied, how much natural light is available, or what is the lighting system’s power consumption. With Internet of Things (IoT) functionality, data from lighting systems can be gathered, analyzed, and fed back to facilities professionals. Security, emergency egress and ingress routing, and room light-level control can also be accomplished.

Health-care lighting needs to meet many form-and-function criteria: symbiotic with the overall design, advanced technology that provides multiple precise distribution options to deliver the many layers of light required in health-care environments, lighting that promotes circadian entrainment (i.e. aligning internal body clocks with the 24-hour day), glare-free comfortable lighting that supports the visual tasks of staff while enhancing the overall well-being of patients, and ease of maintenance to withstand harsh cleaning protocols necessary to minimize risk of hospital-acquired infections. This is a tall order. However, advanced technologies, deeper understanding of the varied needs of patients and staff, and forward-thinking manufacturers who have sought end-user input are driving better health-care lighting products and designs.

Importance of glare-free lighting

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Linear lighting is installed in the corridor ceiling for glare-free passage. Architectural sconces complement ambient lighting in the corridor, and often provide low-level lighting when daytime transitions to evening. Light levels can be adjusted to minimize the effect of spill light into patient rooms, which can disrupt good sleep.

Glare can simply be annoying, cause discomfort, or diminish one’s ability to perform visual tasks. Depending on an individual’s sensitivity, it may even contribute to eye fatigue and headaches. Different strategies can be used to control glare from lighting. Luminaire design and lighting layout play a significant role as they affect a person’s viewing angle to luminaire brightness. Well-designed optics that uniformly distribute light reduce brightness from luminaires, aiding in visual comfort. Minimizing brightness contrast between luminaires and surrounding ceiling and wall surfaces also reduces impressions of glare, while indirect lighting or localized task lighting can mitigate reflections on computer screens or tablets. There is even a metric used to predict discomfort glare in interior applications. The metric is the unified glare rating (UGR), which factors in several of the elements mentioned here. Providing glare-free comfortable lighting supports the visual tasks of staff while enhancing the overall well-being of patients.

Lighting and patient care

Research shows there is a clear correlation between exposing patients to sufficient light during the day and their improved sleep and mood, and reduced depression and shorter hospital stays. Tunable white technology improves patient outcomes and caregiver well-being by mimicking natural light patterns that support human circadian rhythms. Deviation from an individual’s natural circadian rhythm can negatively affect sleep, appetite, and mood patterns, which, in turn, can affect emotional and physical well-being as well as one’s attentiveness. Forward-thinking lighting manufacturers have developed luminaires to curate these wavelengths that create a balance closer to natural light.

The lighting needs of patients and medical professionals are different. For patients, it is important to create a calm and relaxing environment to which they can easily adjust. However, in examination environments, there is often a need for higher light levels as functional light to support diagnosis and help professionals work more effectively.

In a facility operating 24/7, these conflicting lighting needs, especially during the overnight shift, present a challenge because staff need to be awake and alert at night while patients are resting. To address this, different lighting strategies are needed in patient and staff areas.

Supporting the health of employees

A growing body of evidence is pointing to the disruptive impacts of excessive light exposure at night and its role in circadian misalignment. Approximately one in four health-care workers is engaged in shiftwork, and as a result, has a circadian rhythm that remains permanently out of phase with natural light and dark cycles. Circadian disruption has health consequences in both the short- and long-term. Shift workers are also subject to decreased productivity, alertness, and vigilance, which may contribute to more errors on the job (Read “Designing for Health: Light, Circadian Rhythms, and Health of Caregivers” by Monica Kumar).

There are two ways in which light conditions can support staff wellness with respect to circadian rhythms: adequate exposure to daylight during day hours, and limited or controlled exposure to light at night. By mimicking natural light patterns that support human circadian rhythms, tunable light fixtures can be programmed to subtly change colour temperature and light level throughout the day to help improve patient outcomes and caregiver well-being.

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Circadian lighting is not about a single luminaire, or an isolated area; it considers the lighted environment as a whole. A dark patient room activates a rise in melatonin levels, the hormone that promotes good sleep—and good sleep can lead to quicker recovery. Step lights provide safe navigation to reduce falls.

When designing staff zones, consider the activities that take place throughout the day with respect to daylight composition at those times. For instance, if staff are more likely to be in a biologically dark (i.e. non-daylit) space in the morning hours, this increases the importance of trying to simulate daylight through use of fixtures that can provide the right combination of intensity and blue-rich spectrum to support circadian entrainment. During evening hours, consider whether task illuminance thresholds can be met through warm colour temperatures, including amber, and reduced light levels, perhaps through indirect lighting.

Nurses may alternate day and night shifts, and the latter can be rotating or permanent—erratic schedules that easily disrupt circadian rhythms over time. Since adjacent corridor lighting also affects their environment, lighting systems should provide nurses control over spectrum, intensity, and time of day to suit their personal needs and schedule.

Reducing errors

In addition to managing circadian alignment, lighting serves a critical purpose in reducing staff errors. Based on studies that cite adequate lighting in medication areas as one of the top environmental solutions for avoiding errors, lighting approaches and technologies should be an important consideration during new construction or renovation.

Innovatively engineered luminaires that provide the right amount of illumination for staff can reduce eyestrain and fatigue and lessen errors and incorrect assessments.

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Innovatively engineered luminaires that provide the right amount of illumination for staff can reduce eyestrain and fatigue and lesson errors and incorrect assessments.

It makes sense the amount of light is directly related to task performance, with better performance correlating with higher and better light levels. “The Impact of Light on Outcomes in Health-care Settings,” conducted for the Center for Health Design, concludes there is strong evidence that adequate lighting is essential for staff performing visual tasks in hospitals, and poor lighting conditions can result in errors. The study also cites[6] research suggesting these visual lighting needs differ from biological lighting needs, such as to stimulate the circadian rhythm for people working long shifts under artificial light.3 Modifications can be incorporated into the design of the working environment to improve efficiency, productivity, safety, and job satisfaction. Scientists at the Lighting Research Center (LRC) have been exploring the role of light and investigating how it can be used to improve performance and facilitate healthier outcomes for shift workers. Previous studies showed that long-wavelength (red) light exposure increases objective and subjective measures of alertness at night without suppressing nocturnal melatonin and inducing circadian disruption. The LRC’s recent study investigated whether exposure to red light at night would increase measures of alertness and improve performance. LRC researchers hypothesized—and the results supported this—that exposure to red and white light[7] would improve performance, and that only white light would significantly affect nighttime melatonin levels.

Form meets function

Architectural lighting works to serve and enhance the architecture, not merely as an accessory, but to create a cohesive spatial experience. However, in health-care facilities, there are additional considerations, such as caregiver effectiveness and patient well-being. For years, health-care lighting has been a tale of two extremes—offering either functional but institutional appearance, or extremely decorative forms. Some manufacturers and designers have come to realize there does not need to be a tradeoff. To move the industry forward, it is critical to understand architects’ and designers’ perspectives of wanting luminaires with sleek, low-profile styles to elevate health-care lighting design while providing glare-free, comfortable illumination that supports the visual tasks of staff, and enhances the overall well-being of patients.

Maintenance is another important consideration in health-care lighting. To combat health-care associated infections (HAIs), luminaires must withstand hospital cleaning protocols and hold up to the most stringent infection control requirements.

Infection control and reduced maintenance

Health-care acquired infections[8] (HAIs) are the fourth leading cause of death in health-care facilities in Canada. It is estimated more than 200,000 Canadians[9] acquire a HAI each year and that 8000 of them die as a result.6 Besides the traditional prevention and control strategies of hand hygiene, environmental cleaning, and infection control surveillance, the built environment can significantly contribute to the reduction of HAIs. Hospitals are continuously looking for ways to reduce HAIs and tragic deaths. One solution is sealed luminaires designed to withstand harsh cleaning protocols while also reducing maintenance time and costs.

Contaminants in light fixtures that are not sealed can travel through the facility’s HVAC system. However, installing luminaires with sealed housings prevents transference of pathogens from patient room to plenum to help reduce risk of HAIs. An ingress protection rating ensures the fixtures are sealed against contaminants and an NSF2 rating guarantees cleanability.

Health-care facility managers are all too aware of the time and effort it takes to perform maintenance on ceiling luminaires throughout the hospital. Pulling out the oftentimes 59-kg (130-lb) ceiling patient room fixtures to take back to the maintenance department for repairs requires two people and a lift. However, when repairs are needed on lightweight luminaires, work can be done quickly in the patient room itself, thereby reducing costs and prolonging sustainability of the luminaire system.

In Canada, the requirements for emergency power and egress lighting are defined in the National Building Code (NBC). Specifically, the code calls for the provision of emergency power supply from a power source such as batteries or generators that will continue to supply power for two hours in the event the regular power supply to the building is interrupted.

Conclusion

Meeting architectural priorities, addressing myriad functions of lighting, and being mindful of facility considerations are critical in health-care facilities. There is evidence supporting the important role lighting plays on patients, visitors, and staff. However, if health-care luminaires only complement the architecture without being human-centric, then they overlook a vital role. Yet, the functional luminaires that have been standard for decades in hospitals ignore the importance architecture and design play in promoting patient healing and staff well-being. Recognizing there no longer needs to be a tradeoff in form and function will bring dramatic advances in health-care lighting.

[10]Colette Fleming is director of health care for BalancedCare. Fleming has worked in the lighting industry for over 25 years. Her focus has been on health-care product development, marketing, and sales for the last decade. Fleming can be reached at colettef@axislighting.com[11].

Endnotes:
  1. [Image]: https://www.constructioncanada.net/wp-content/uploads/2021/08/BalancedCare_Nurses-station.jpg
  2. Nightingale’s vision: https://www.energy.gov/sites/prod/files/2020/02/f71/ssl-davis-etal-2020_HERD_nurses-satisfaction-patient-room-lighting.pdf
  3. [Image]: https://www.constructioncanada.net/wp-content/uploads/2021/08/elle_corner_render_application_hallway_rgb.jpg
  4. [Image]: https://www.constructioncanada.net/wp-content/uploads/2021/08/BalancedCare_night_lights-ambient-2.jpg
  5. [Image]: https://www.constructioncanada.net/wp-content/uploads/2021/08/BalancedCare_DAY_lights-on.jpg
  6. The study also cites: http://info.aia.org/aiarchitect/thisweek06/0929/0929p_light.pdf
  7. exposure to red and white light: https://www.lrc.rpi.edu/resources/newsroom/pdf/2014/RedLightNighttime8511.pdf
  8. Health-care acquired infections: https://hospitalnews.com/ultraviolet-hvac-keys-reducing-hospital-acquired-infections/
  9. more than 200,000 Canadians: https://www.canada.ca/en/public-health/corporate/publications/chief-public-health-officer-reports-state-public-health-canada/chief-public-health-officer-report-on-state-public-health-canada-2013-infectious-disease-never-ending-threat/healthcare-associated-infections-due-diligence.html
  10. [Image]: https://www.constructioncanada.net/wp-content/uploads/2021/08/ColetteFleming_Headshotcrop.jpg
  11. colettef@axislighting.com: mailto:colettef@axislighting.com

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