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In the 1980s comedy Real Genius, laboratory safety is the stuff of sight gags and pratfalls. Playing the movie protagonist, Val Kilmer protects himself from a six megawatt laser using Ray Ban sunglasses and a baseball umpire gear. Later, that laser energy is harnessed to heat a house sized popcorn popper.

In reality, laser work is serious business, particularly for home built systems arrayed on open optical benches, with the beam bouncing from mirror to mirror. Just ask Alipasha Vaziri, a research specialist at the Howard Hughes Medical Institute Janelia Farm Research Campus. Vaziri builds laser based systems for two photon microscopy, a technique that uses high peak power, ultrafast pulsed lasers to excite the fluorophores in biological samples.

In addition to donning the usual safety eyewear found in every laser lab, Vaziri and his colleagues also remove watches, wedding rings and even hanging identification badges that might possibly get into the beam path and reflect its light in an uncontrolled direction. He even avoids tying his shoes when the laser is on, so that his eyes will not cross the level of the laser.

To do their work effectively, multiphoton lasers must concentrate more power in short bursts (pulses). Although only a fraction of that power actually hits the sample, the laser systems typically deliver femtosecond pulses with peak pulse powers around 0.25 megawatts, Vaziri says, and members of his lab are developing a widefield multiphoton system using about 1,000 times higher pulse energies; by comparison, the typical one photon microscopy diode laser puts out about 50 milliwatts of continuous power.

For biological samples, multiphoton techniques are relatively gentle; long wavelengths, though undetectable to the human eye, penetrate deeper into the sample than visible light can and yet induce less phototoxicity. But for researchers eyes, the lasers are anything but gentle. And their invisibility boosts the safety hazard, says Vaziri. visible lasers, your reflexes are fast and could mitigate some of the damage [that results from accidentally looking at the beam], but that is not true of invisible [infrared] lasers. But there is only so much that such seminars can do. Researchers must actively consider how generic rules apply to their own workflows, says Susan Cook, a biological safety officer at Washington University in St. Louis. incumbent on each lab [principal investigator] to build a culture of safety. the Wellcome Trust Sanger Institute near Cambridge, UK, researchers create risk assessments for every experiment (or class of experiment) they do, Pandora Charms 2016 says Andrew White, campus health and safety manager.

A requirement of both UK and EU law, these five page documents force researchers essentially to conduct a dry run of the procedure while focusing on potential hazards and strategies to mitigate them. about getting you to stop and think before you start work, explains White.

The safety assessment for SDS gel electrophoresis, for instance, lists among other things that powdered acrylamide should be avoided in favor of ready made solutions, and that 2 mercaptoethanol should be only in a fume cupboard. risk assessment to work, however, researchers must recognize the danger in the first place. Cook points out that even seemingly harmless flow cytometry poses a substantial biosafety threat if users are not properly trained. High pressure flow lines can easily become clogged and cause cells to aerosolize, and researchers new to flow cytometry may not appreciate the risk, she says. That is where a solid rapport with lab safety personnel comes in handy, Cook says; you have a good relationship with people Pandora Sale 2016 in the lab, they will come to us and say, starting a new experiment, what do I need to know? office advises most flow cytometry users to wear gloves, eye protection and a lab coat. If the researcher will be working with respiratory Pandora Sale pathogens, such as influenza virus, she directs them to one of the university two biosafety cabinet instruments, to protect against infectious aerosols.

Yet despite the best efforts of lab workers and safety officers, accidents will happen.

In early 2009, a 23 year old laboratory worker at the University of California, Los Angeles, died of injuries sustained when a pyrophoric, or highly reactive, air sensitive chemical, t butyl lithium, ignited. As in many accidents, multiple things went wrong1. The syringe used for the synthesis, which was several inches shorter than recommended, malfunctioned, exposing the reactive liquid to the air. Unneeded hexane in the lab hood spilled and ignited as well. The researcher, Sheharbano Sangji, was not wearing a lab coat, and her clothes caught fire. A nearby safety shower went unused.

In labs and lab safety offices across the United States, the response was immediate introspection. At Yale University, Environmental Health and Safety director Peter Reinhardt and his staff undertook a census of campus labs to determine who was using such chemicals, how much they had on hand, and what they were using them for.

Of the 536 principal investigators that work with chemicals on campus, Reinhardt says, identified maybe 10 or 15 labs that have this chemical, of which maybe five use it on a regular basis. the most part, the census uncovered no problems; in those labs, researchers were using and storing the chemicals correctly, in accordance with the university existing safety plan for pyrophoric chemicals. Yet members of his office also realized that the plan could use something of a makeover.

Yale University previous plan, for instance, merely suggested a flame resistant lab coat and chemical resistant gloves; the new policy requires them. this incident, there were maybe a few people using flame resistant lab coats, but not all, Reinhardt says. Researchers, he notes, can view these webinars at their leisure or when they need a quick refresher on a particular technique, and can skip forwards and backwards through the material as needed. In addition, these videos provide a training mechanism that can accommodate the rapid personnel turnover typical of academic labs.

Making training more accessible is one of the best things a department like his can do, says Reinhardt, whose office has produced dozens of training videos over the past decade. is prevention, so we spend a lot of resources on it. According to the US Bureau of Labor Statistics, the rate of recordable incidents in scientific research and development services has steadily declined from 2.1 per 100 full time employees in 2003 to 1.2 in 2008 (the most recent data available).

Mirroring that, Science Applications International Corporation (SAIC) Frederick, home to some 2,400 staff, has more than halved its accident rate among lab workers over the past decade, from 5.20 per 100 full time employees in 2000 to 2.28 in 2009 even than among nonlaboratory administrative employees, according to occupational safety manager, Scott Keimig. effect, our laboratories are our safest work environment, Keimig says.

These numbers, of course, mostly reflect acute accidents; chronic injuries and exposure hazards are much more difficult to track. Declining accident rates can, in part, be attributed to researchers increasing awareness of the dangers associated with the compounds and materials with which they work. Yet technical progress helps, too. DNA sequencing, for instance, used to require radioactive phosphorus, liters of electrophoresis running buffer, cumbersome gel rigs run at high voltage and large glass plates. Today, almost nobody sequences that way anymore, instead relying on fluorescent dyes, automated instruments and core facilities.

Automation and miniaturization tend to shrink or eliminate chemical exposure risks, not to mention the musculoskeletal damage induced by endless hours of pipetting. Yet not every hazard is declining. Now that nearly every work cubicle sports a computer, repetitive stress injuries actually are on the rise.

At the University of California, Berkeley, 40% of the injuries reported in the 74 labs in the molecular and cellular biology department were attributable to repetitive strain, according to Mark Freiberg, director of the university Office of Environment, Health and Safety; the remaining 60% were divided evenly between slip and fall injuries, exposures to chemicals or ultraviolet light, and cuts from glassware and other objects.

we cover all the lab hazards, it easy to show some really attention getting photos of lab fires and burns, and that makes a real impression, Freiberg says. hard to make an impression about chronic wrist pain, but that not a trivial injury. robots, for all their convenience, pose potential risks too, says White. can get crush injuries, he says. robots come with safety devices, but sometimes scientists defeat safety devices [such as light sensors that are supposed to detect a user hand] for reasons of convenience. he has never seen such an event happen, White says it is a concern, especially at a facility like the Sanger Institute, which has an abundance of robots to feed its sequencing and genomics pipelines.

Biosafety hazardsBiological hazards also are evolving. Pathogenic organisms have been and continue to be particularly worrisome, not to mention a regulatory nightmare, especially in light of stricter policies put into place after the World Trade Center and anthrax attacks. A recent study estimated that red tape has increased the cost of work on such agents as Bacillus anthracis and Ebola virus from about per paper before rules were tightened to around today2.

But even non agents can raise safety flags. The Protein Chemistry Laboratory at SAIC Frederick offers surface plasmon resonance and mass spectrometry services to the National Cancer Institute and the National Institutes of Health. John Simpson, senior scientist and the lab acting safety officer, says the lab has had just two incidents in the past nine years: a cut resulting from broken glassware and a back injury caused by moving a refrigerator.

But it is the biological samples his team handles that gives Simpson pause. have no clue what the provenance of a sample is, he says. Pandora Sale 2016 Given the lab location Detrick, Maryland, USA, home of the US Army Medical Research Institute of Infectious Diseases, whose biosafety level 4 facility handles the worst of the worst, pathogenically speaking awareness of safety is heightened, and we treat samples as such, Simpson says. He quips, treat everything as if it Ebola with a pinch of HIV and go from there. same philosophy holds at the University of Wisconsin, Madison. of what we are seeing now is what we would label nonconventional blood borne pathogen exposures, says occupational health officer Jim Morrison. A blood borne pathogen, Morrison explains, includes everything from recombinant viruses to stem cells that potentially poses a risk of infection.

Once the province of microbiologists who were trained to handle them, recombinant lentiviruses and adenoviruses can now be purchased as kits by any green graduate student with a purchase order. But without proper training in virology, these scientists may not recognize the potential danger such reagents hold: though such hazards have not yet been observed and are deemed unlikely, these viruses potentially can mix with undetected pathogens if introduced into cultured human cells to produce a replication competent, infectious particle.

an accessibility thing, Cook says. are really easy to get. You don have to think about the viral life cycle and what can go wrong. It just a black box. though researchers may not think of them that way, human stem cells also pose an infection risk. These cells typically are screened for known viruses, but unknown pathogens can nevertheless slip through. As a result, the standard practice at University of Wisconsin is to consider stem cells potential blood borne pathogens and follow precautions developed for human blood, says Jim Turk, assistant director of environment, health and safety.

Researchers handling those cells and the resulting biological products must therefore use universal precautions safety glasses and lab coats. And spills, aerosols, needle sticks and so on, can no longer be simply cleaned with bleach and ignored; they must be considered potential infections. If a researcher reports an incident and expresses a concern for personal safety, Morrison office will refer that individual to an infectious disease specialist.

Currently medical personnel are ill equipped to handle such situations, says Morrison. Occupational health providers are trained to deal with typical workplace issues: conventional blood borne pathogens, musculoskeletal injuries, trauma from slips and falls, and so on. In the future, he predicts, large research institutions will be looking for occupational medical pandora murano glass beads 100% genuine personnel who can assess situations involving more esoteric agents. challenge for the employers, he says, to work with the clinical providers to make sure they have a good understanding of [how to deal with] that. Turk knowledge, no actual infections attributable to stem cell biology or recombinant materials have occurred at University of Wisconsin, Madison, which, as the birthplace of human embryonic stem cell research has a large and active stem cell research program. But, you get a lot of people handling stuff, accidents are going to happen, he says. tend to err on the side of caution.
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