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HOW TO ACHIEVE OPTIMAL HEALTHCARE ACOUSTICS
There are a variety of sounds present in clinical settings including those from individualized discussions, patient/clinician interactions, medical equipment, rolling carts, HVAC systems and other sources. These sounds can be irritating and disruptive at times, particularly to those patients with certain medical conditions, which can be exacerbated by hearing issues, medication intake, pre-existing fears and anxieties and age.
Acoustics in healthcare environments are complex and require a careful, strategic design. Specific acoustical considerations in healthcare settings include supporting patient well-being and privacy; supporting communication among staff; and meeting standards and regulations of Health Insurance Portability and Accountability Act of 1996 (HIPAA). Evidence Based Design acknowledges acoustical control as a key component in healthcare design. In this Calhoun facility, acoustical control was an essential necessity. Numerous steps were taken to control sound levels and transmission. Maintaining patient privacy was our highest concern. The following are some of the targeted mitigation measures implemented into our facility.
1. Vulcanized Composition Rubber Underlayment: Flooring is an especially important design element within the healthcare environment. Not only is it necessarily found in all spaces, but the type of flooring specified greatly influences the outcome of each space. ECO Silence Underlayment made from Vulcanized Composition Rubber (recycled tires) is an underlayment designed to exceed IIC requirements while maintaining a low profile. Our 2mm underlayment can achieve Delta IIC ratings up to 25dB and IIC ratings up to 72 dB. Rubber underlayment not only provides acoustical properties it adds additional cushion underfoot. Caregiver staff spends most of their workday on their feet and this reduces leg and back fatigue.
2. Interior solid core doors with high pressure laminate, HPL is considered to be one of the most durable decorative surface materials in the healthcare industry. All doors have acoustic sound seals to block sounds from entering or exiting the rooms.
3. The above-door transfer grille simply has two grilles located above the door between the room and common space, one on each wall, with offset baffles to limit sound transmission.
4. Rooftop HVAC units are high SEER units with lower fan speed to mitigate noise transmission
5. Sound Masking in Healthcare Clinics: It was essential to install a state-of-the-art Sound Masking System in our clinic. Our primary focus is to provide our patients’ right to speech privacy, as well as the physical and psychological effects of noise on patients and caregivers. Studies have shown that noise increases distractions affect health and mood decreases productivity, and increases error rates. Sound masking is part of a proactive approach in providing patients with speech privacy and comfort and providing our caregivers with the productive “space” they need to excel.
6. Lay-in ceiling with sound attenuation providing a CAC value of 42. Typical throughout
Air Exchange Grilles
Air exchange grilles can also play a role in addressing HIPAA compliance. These grilles are installed in ceilings and allow for the exchange of air between rooms while preventing sound transmission. The grilles are designed to be acoustically transparent, which means that sound waves can pass through them without being amplified or distorted. This allows for the free flow of air while maintaining patient privacy.
Wall System
The wall system is modular and specifically designed for healthcare environments. With an STC rating range of 44-48, it can reduce sound between rooms, making speech unintelligible so protect patient privacy. This is a significant improvement over traditional drywall, which typically has an STC rating of 35. The wall system achieves this high STC rating by using a combination of soundabsorbing materials and sound-blocking techniques.
Sound Masking Systems
Sound masking systems are used to help address HIPAA issues in healthcare facilities and are especially useful in openplan healthcare environments, such as waiting rooms or shared workspaces, where conversations are more likely to be overheard. These systems use a low-level background sound to mask or “drown out” conversations and other ambient noise, making it more difficult for unauthorized personnel to overhear PHI. Sound masking systems can be customized to suit the specific needs of a healthcare project and can be integrated with our other sound attenuation materials, such as the wall system, for maximum effectiveness.