viernes, 27 de mayo de 2016

NIOSH Research Rounds-May, 2016

CDC
NIOSH Research Rounds-May, 2016

In This Issue

Research Explores Workplace Exposure to Carbon Nanotubes

Since the 1980s, the burgeoning nanomaterial field has led to a growing number of manufacturers worldwide making and using these materials in coatings, computers, clothing, cosmetics, sports equipment, and medical devices, among other items. As the word “nano” implies, these materials are extremely small, between approximately 1 and 100 nanometers in size by some definitions. Novel chemical and physical properties occur at this scale, making nanomaterials ideal for creating and manufacturing new or improved products. One of the most promising is the carbon nanotube, a nano-sized cylinder comprising either pure carbon or carbon with residual trace metal content. Available in one layer (single-walled) or many layers (multi-walled), carbon nanotubes’ unique chemical, electrical and mechanical strengthening properties make their use widespread in many materials in manufacturing, research, biomedicine, and other fields.
As with any new, rapidly expanding technology, questions about health and safety need to be resolved so that any unintended risks can be identified and addressed. The National Institute for Occupational Safety and Health (NIOSH) conducts robust research with diverse partners to better understand the occupational health and safety implications of nanoparticles and to recommend prudent strategies for controlling worker exposures as knowledge advances. The following two articles summarize two published papers by NIOSH investigators with partners at Kazan State Medical University, in Kazan, Russia, exploring whether workplace exposure to multi-walled carbon nanotubes could pose a risk for lung disease. For both studies, participants from the same facility in Kazan volunteered to participate. The findings from the studies by themselves do not answer the question of whether workplace exposure to multi-walled carbon nanotubes would result in occupational illness. However, they support the need for further research and underscore the importance of precautionary control measures.

Abnormalities in Regulation of Cell Growth and Cell Death

Workers exposed to multi-walled carbon nanotubes were significantly more likely than were unexposed workers to have abnormal changes related to various cell functions including cell growth and cell death, according to a study by NIOSH and Kazan University investigators. This study, published in the peer-reviewed journal PLOS ONE, is the first to look at these cellular changes in blood samples from workers exposed to multi-walled carbon nanotubes.

Cellular Changes Linked to Lung Inflammation and Scarring

In a related study by NIOSH and Kazan University investigators, workers exposed to multi-walled carbon nanotubes were significantly more likely than were non-exposed workers to have cellular changes that correlated with lung inflammation and scarring. These findings, published in the peer-reviewed journal Toxicology and Applied Pharmacology, underscore the importance of implementing strict control measures as a reasonable precaution to prevent exposure to workers handling multi-walled carbon nanotubes.
Animal studies reported adverse lung effects related to multi-walled carbon nanotube exposure via inhalation, but it was unclear whether these effects extended to people. In the animal model, these health effects included inflammation, scarring and thickening of tissues, and lesion formation. To examine if similar effects occur in people, investigators used a panel of biomarkers for inflammation and scarring in workers exposed to multi-walled carbon nanotubes. Voluntary study participants included 22 workers at one multi-walled carbon nanotube manufacturing facility in Russia. Most of the participants were males between 19 and 63 years old. The investigators assigned the participants to one of two groups based on their occupational exposure to multi-walled carbon nanotubes. The first group comprised 10 workers who worked with the nanotubes for more than 1 year. The second group comprised 12 workers who did not work with the nanotubes, although they worked in the same facility as the workers who did. Investigators used a test called high magnification transmission electron microscopy, as well as tests for elemental carbon, to examine the workplace air for the presence of multi-walled carbon nanotubes. Use of electron microscopy allowed the investigators to verify the presence of the multi-walled carbon nanotubes in air samples from the facility.

Adequate Sleep Benefits Workers and Employers

We all need it, even crave it, but many of us find it difficult to get the recommended amount for our health: it is sleep. Healthy People 2020, which outlines the national health goals for the next decade, recommends that adults get 7 or more hours of sleep each day. After reviewing the evidence, the American Academy of Sleep Medicine, the Sleep Research Society, the National Sleep Foundation, and the American Thoracic Society all conclude most adults need 7-9 hours of sleep each day for optimum health. For some people, however, long hours or shift work—working during nighttime hours—make getting adequate sleep regularly difficult. As part of its long-standing commitment to reducing potential health and safety risks associated with demanding work hours, NIOSH studies the factors that contribute to inadequate sleep among workers and how to address them in the context of work schedules.
By organizing work schedules to allow workers enough time for adequate sleep, both employers and workers benefit, according to a recent NIOSH literature review published in the Journal of Women’s Health. Numerous scientific studies link adequate sleep to mental health, weight control, safety, and a stronger immune system. Under its Research to Practice, or r2p, initiative, NIOSH develops training and other materials for workers and employers in various industries to reduce the risks from inadequate sleep. These materials include a comprehensive online course for nurses, who often must work shift hours, and training for emergency responders on reducing risks associated with long work hours (see links below).

New Jersey’s Healthcare Violence Prevention Law: Compliance and Effectiveness

Healthcare workers make it their job to help others, yet face a significant risk of workplace violence ranging from intimidation to physical attacks. In fact, compared with workers in all other industries combined, healthcare workers are nearly 5 times more likely to encounter workplace violence. NIOSH strives to protect these workers by studying the causes and prevention of violence in healthcare.
As the fastest-growing sector of the United States economy, healthcare employs more than 18 million workers, most of whom are women. More than half of all nonfatal assaults in private industry occur in healthcare, usually by patients. In an ongoing study addressing this serious and persistent problem, NIOSH investigators with university and union partners are measuring compliance with the New Jersey Violence Prevention in Health Care Facilities Act, which became law in 2008; the regulations became effective September 6, 2011. The law requires healthcare facilities in the state to establish a comprehensive workplace-violence prevention program, which includes a multidisciplinary workplace violence prevention committee, written violence prevention policies and procedures that is specific to their facilities, and employee training. Although New Jersey joins several other states with similar laws, it is unclear whether the laws are effective at reducing violence against healthcare workers.

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