Computerized warning system alerts doctors to medications that could harm elderly patients

Monday, 26 August 2013

Islamabad, Aug 27 (Newswire): Adverse drug events, such as dizziness or confusion occur in an estimated 40 percent of all hospital patients and can be the result of inappropriate medications being ordered.

Not surprisingly, elderly individuals are particularly vulnerable to these adverse events, which not only result in longer hospitalizations, but can also pose a threat of serious complications and even death.

Now a study by researchers at Beth Israel Deaconess Medical Center (BIDMC) finds that a specially programmed computer warning system can significantly reduce doctors' orders for drugs that pose a danger to older patients. The findings are reported in the August 9-23 issue of the Archives of Internal Medicine.

"We have long known that certain commonly prescribed drugs can be harmful to older patients," says geriatrician and lead author Melissa Mattison, MD, Associate Director of Hospital Medicine at BIDMC and Instructor of Medicine at Harvard Medical School. "But because the majority of doctors have not been trained in geriatric medicine, they may not be aware of these risks. Our study found that when doctors were alerted that the drugs they were ordering could pose a danger to older hospital patients, the orders dropped almost immediately."

Computerized provider order entry (CPOE) enables physicians to electronically order medications and treatments for hospital inpatients and was developed, in part, to help prevent errors in prescribing medications (such as drug allergies or drug-drug interactions). CPOE systems can be programmed to issue a computerized "warning message" that alerts physicians to possible problems and conflicts. BIDMC first started using a CPOE system approximately 10 years ago.

In 2004, Mattison, together with a pharmacist and computer information specialist, began work to develop a specialized version of the CPOE system that could be used to help doctors in prescribing medications for elderly patients. The new system uses components of the Beers List, which was developed by physician Mark Beers in 1993 to draw attention to dozens of common drugs that should be prescribed "with caution" to elderly patients.

"Many drugs commonly used today have not been tested in seniors or elderly patients," explains Mattison. "As a result, a dose that is appropriate for a younger adult may lead to potentially harmful side effects in older individuals, who tend to metabolize medications more slowly." In addition, she adds, seniors and elders are often already taking multiple medications, resulting in a situation that can predispose seniors to potentially dangerous side effects.

In designing the new CPOE system, the authors were mindful of the risks posed by information overload. "We did not want to overdo the warnings," explains Mattison. "Too many 'alerts' just lead to user fatigue and people stop paying attention, which makes a warning system useless." The authors, therefore, carefully selected a small group of 18 medications from the Beers list that are commonly prescribed in the inpatient hospital setting and for which alternative medications were available.

Since 2005, doctors at BIDMC who attempt to order one of these 18 Beers drugs for a patient 65 years of age or older, receive a "warning" on their computer screen, informing them of potential risks. Although the doctor can override the warning and continue to prescribe the medication, he or she must provide an explanation for the decision, which is selected from a list that is provided by the system.

Mattison and her colleagues then formally tested this system. "For three and a half years, we measured the number of orders of the 18 selected Beers medications that were made each day," she explains. "We also monitored the use of several medications that were part of the original Beers list, but were not flagged in our warning system."

Their results showed that orders for flagged medications dropped from 11.56 to 9.94 total orders per day, and dropped from 0.070 to 0.045 orders per total number of patients per day, amounting to a decrease of approximately 20 percent in the use of flagged medications. They found that the number of orders for unflagged medications did not change.

"To our knowledge, no CPOE system has previously been described that utilizes a warning system built around PIMs [potentially inappropriate medications] in older, hospitalized adults," the authors write. "Up to 60 percent of adverse drug events occur at the time that medications are ordered. CPOE provides an opportunity for intervention to change prescribing practices."

Adds Mattison, "Historically speaking, medical schools do not provide students with much training in the unique needs of geriatric patients. Yet, with the exception of pediatrics or obstetrics, you can't name a field in medicine where doctors are not routinely caring for older individuals, and as the population ages, this will only increase. Using CPOE to guide care at the point of ordering -- to steer clinicians to choose potentially better alternative medications and treatments -- is an exciting opportunity to improve care for this vulnerable population."

This study was supported, in part, by the National Center for Research Resources of the National Institutes of Health. Study coauthors include BIDMC investigators Kevin Afonso, Long Ngo and Kenneth Mukamal.
Continue Reading | comments

Larger waist associated with greater risk of death

Islamabad, Aug 27 (Newswire): Individuals with a large waist circumference appear to have a greater risk of dying from any cause over a nine-year period, according to a report in the Archives of Internal Medicine.

Having a large waist circumference has previously been associated with inflammation, insulin resistance, type 2 diabetes, abnormal cholesterol levels and heart disease, according to background information in the article. This may be because waist circumference is strongly correlated with fat tissue in the viscera -- surrounding the organs in the abdomen -- which is thought to be more dangerous than fat tissue under the skin.

Eric J. Jacobs, Ph.D., and colleagues at the American Cancer Society, Atlanta, examined the association between waist circumference and risk of death among 48,500 men and 56,343 women age 50 and older (median or midpoint age, 69 years in men and 67 years in women). All had participated in the Cancer Prevention Study II Nutrition Cohort, for which they completed a mailed questionnaire about demographic, medical and behavioral factors in 1992 or 1993 and provided information about weight and waist circumference in 1997. Deaths and their causes were tracked through the National Death Index until Dec. 31, 2006; a total of 9,315 men and 5,332 women died during this timeframe.

After adjusting for body mass index (BMI) and other risk factors, very large waists (120 centimeters or 47 inches or larger in men, and 110 centimeters or 42 inches or larger in women) were associated with approximately twice the risk of death during the study period. A larger waist was associated with higher risk of death across all categories of BMI, including normal weight, overweight and obese; however, among women, the association was strongest for those at a normal weight.

"The reason for the stronger association between waist circumference and mortality among women with low BMI in our study is unclear," the authors write. "Future detailed analyses of the relationship between waist circumference and visceral adipose tissue or measures of insulin resistance within categories of BMI could identify biological reasons for potential differences in the strength of the association between waist circumference and mortality."

The results may affect the development of future guidelines for obesity, the authors suggest. "Currently available clinical guidelines from the National Institutes of Health are based on evidence from the 1990s," they write. "These guidelines recommend that waist circumference be used to identify increased disease risk only among individuals in the overweight and obese categories of BMI. In addition, the NIH guidelines recommend weight loss goals for all patients in the obese category of BMI (30 or greater), but they do not specifically recommend weight loss goals for abdominally obese patients (waist circumference of 88 centimeters or larger in women or 102 centimeters or larger in men) who are in the normal or overweight BMI category unless they also have two or more cardiovascular risk factors or a desire to lose weight."
Continue Reading | comments

Brain rhythm predicts ability to sleep through a noisy night

Islamabad, Aug 27 (Newswire): Ever wonder why some people can sleep through just about anything, while others get startled awake at each and every bump in the night?

People who have trouble sleeping in noisy environments often resort to strategies like earplugs or noise-cancelling headphones that muffle the sound, but a new study from investigators at Massachusetts General Hospital (MGH) may lead to ways to block disturbing sounds within the brain. In their report in the August 10 issue of Current Biology, the team reports finding a brain-wave pattern, reflecting activity of a key structure, that predicts the ease at which sleep can be disrupted by noise.

"We wanted to investigate what the brain does to promote stable sleep, even in the face of noise, and why some people are better at staying asleep than others," explains Jeffrey Ellenbogen, MD, chief of the MGH Division of Sleep Medicine. "Understanding the tools and techniques the brain naturally uses could help us harness and expand those responses to help stay asleep in noisy environments."

Upon entering the brain, most sensory information, including sound, passes through a deep-brain structure called the thalamus on its way to the cortex where signals are perceived. Communication between these structures continues during sleep and is reflected by fluctutions in the brain's electrical field, producing rhythmic patterns detected through electroencephalography (EEG). Typical EEG patterns are used to distinguish stages of sleep, and in the second and third stages, slow brain wave patterns are interspersed with brief, rapid pulses called spindles.

Previous research suggested that brain activity producing spindles, which only appear during sleep, also keeps sensory information from passing through the thalamus, a hypothesis the current study was designed to test. The team enrolled 12 healthy, adult volunteers, each of whom spent three consecutive nights in the MGH sleep lab. EEG reading were taken throughout each night, the first of which was quiet. During the next two nights, participants were regularly subjected to increasing levels of noise until their EEGs indicated they were no longer asleep.

A piece of advice for those who really must go to sleep with the radio or TV on: use a timer. The researchers' evidence shows that such noises do disrupt sleep, whether the sleeping person realizes it or not.

Analyzing the results revealed that each participant maintained a consistent, night-to-night spindle rate and that those with higher rates on the quiet night were less likely to be aroused on the noisy nights. Participants often were not aware that their sleep had been interrupted, Ellenbogen notes, indicating that environmental noise can have a greater impact on sleep quality than an individual may realize.

"We were surprised by the magnitude of the effect," he explains. "We designed the study to follow participants for three nights to capture a lot of data, but the effect was so pronounced that we could see it after a single 'noisy' night. Now we want to study behavioral techniques, drugs or devices that may enhance sleep spindles and see if they can help people stay asleep when confronted with noise and maintain otherwise healthy, natural sleep."

An assistant professor of Neurology at Harvard Medical School, Ellenbogen hopes this work will be particularly helpful to hospital patients, who are under stress and need quality sleep but are surrounded by often-noisy equipment. "We need to work with hospitals around the country to develop solutions, targeting sounds like alarms to the people who need to hear them and not those who don't. Brain-based solutions like enhancing sleep spindles will likely have a role in these strategies."

Lead author of the Current Biology article is Thien Thahn Dang-Vu, MD, PhD, MGH Neurology. Additional co-authors are Scott McKinney, MGH Neurology: Orfeu Buxton, PhD, Brigham and Woman's Hospital; and Jo Solet, PhD, Cambridge Health Alliance. The study was supported by grants from the Academy of Architecture for Health, the Facilities Guidelines Institute and the Centre for Health Design.
Continue Reading | comments
 
Copyright © 2011. Newswire . All Rights Reserved
Company Info | Contact Us | Privacy policy | Term of use | Widget | Advertise with Us | Site map
Template Modify by Creating Website. Inpire by Darkmatter Rockettheme Proudly powered by Blogger