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ShareMay 1, 2006 — New, hi-tech panels can help bring down unhealthy noise levels in hospitals. The panels are made of fiberglass and coated with anti-bacterial fabric. If placed on walls and ceilings they can absorb the noise produced by equipment, loud conversation, or ventilation systems -- instead of helping it propagate.
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BALTIMORE--You wouldn't have surgery at a baseball game, but a new study shows hospital noise levels are equivalent to a sporting event.
It's a deafening problem for Johns Hopkins registered nurse Claire Beers. "It's often the conversation noise because people are speaking above all of the equipment and all of the background noise," she says.
The biggest noise offenders? Conversation, intercom pages, and ventilation systems. But now, acoustical engineers say a sound solution could be in new sound-free padded panels.
"What it's doing is taking all of that sound away so that it can't keep hanging around the facility," Johns Hopkins acoustical engineer Ilene Busch-Vishniac tells DBIS.
The panels are made of fiberglass, covered in anti-bacterial fabric. When placed on the ceiling or walls, sound waves hit the panels and become absorbed and trapped, losing their energy in the entangled fibers within the panels -- leaving nothing left but peace and quiet.
Busch-Vishniac says the more material a hospital installs, the quicker that sound ceases to be audible.
Putting an end to hospital noise could make Beers' work-day quieter and safer. She says, "It's why we have a whole series of checks and balances because the environment is so distracting." But this distraction now has a sound science solution.
Researchers say long-range noise solutions will require sound experts and architects working together to reduce noise problems when planning future hospitals and renovations of existing medical centers.
BACKGROUND: A new study by researchers at Johns Hopkins University reveals that hospital noise levels around the world have increased steadily over the past 50 years. In fact, it is among the top complaints of both patients and hospital staff members. To date, scientific studies have been scarce, and were conducted by medical personnel, not acoustical experts. The Hopkins researchers were also able to test two techniques that helped reduce noise in some patient areas.
THE PROBLEM: Hospital sound levels have risen from 57 decibels -- about the noise level of a normal conversation -- to 72 decibels -- about the noise level of a freeway -- since 1960. This exceeds the World Health Organization's 1995 guidelines for hospital noise. Among other concerns, high noise levels disturb patients and staff members, raise the risk of medical errors, and hinder efforts to modernize hospitals with speech recognition systems. Noise levels even remain high at night because of hospital ventilation settings. Many spaces use acoustical ceiling tiles to absorb sound, but these are often absent from patient areas because they can house infectious organisms.
POSSIBLE SOLUTIONS: Two small changes made in the study helped reduce noise by modest amounts. First, in the pediatric intensive care ward, outfitting staff with small hands-free personal communicators that operate much like cell phones enabled them to be signaled quietly and directly. It cut the frequency of loudspeaker announcements from an average of one every five minutes to about once an hour. And by wrapping fiberglass insulation inside an antibacterial fabric and attachment them as sound absorbers to the ceiling and calls of a cancer unit, they were able to reduce the amount of sound bouncing around a room by a factor of three. Unfortunately, noise from air handling systems is much more difficult to address in existing facilities. For future new hospitals or renovations, acoustics experts and architects could work together to reduce noise problems.
HOW NOISE CANCELLATION WORKS: Unlike ear plugs and sound dampeners, noise cancellation tries to block the unwanted sound at its source, rather than merely trying to prevent it from entering our ears. If we add two sound waves together, and the peaks of one line up with the valleys of the other, they will cancel each other out. Digital signal processors (DSPs) are microelectronic devices that determine which sound wave is required to cancel the unwanted sound wave (noise). It then creates that sound and amplifies it through speakers or headphones. The end result is near silence. Most cell phones, CD players, and hearing aids now contain one or more DSP devices.
The Acoustical Society of America contributed to the information contained in the TV portion of this report.
Editor's Note: This article is not intended to provide medical advice, diagnosis or treatment.
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