Science teachers need to know the necessary actions to take in the event of a medical emergency. The Occupational Safety and Health Administration (OSHA) and American National Standards Institute (ANSI) provide insight on this issue by means of workplace regulations and standards.

OSHA first aid standard

The OSHA 29 CFR 1910.151 Subpart K Medical and First Aid standard requires the employer to have medical personnel who can administer first aid and are available for advice and consultation. In school settings, this is usually the school nurse. There must be first aid supplies available at the site. In situations where a person’s eyes or body may be exposed to corrosive materials, OSHA notes that facilities for quick drenching or flushing of eyes and body (e.g., eyewash and safety shower) must be available.

Although OSHA does not require first aid training for employees who have medical personnel on or near the site, first aid training is essential for science teachers. Science teachers and supervisors must have some training with drenching or flushing equipment. Use of eyewash and acid showers should be annually reviewed as part of the first aid training of all science teachers and supervisors.

The first few minutes following a safety incident are critical, so science teachers need to respond to the situation even before medical responders arrive. Moreover, the victim of a lab accident may seek legal action should a teacher provide first aid without training or fail to provide first aid, so science teachers should request formal first aid training from their employers.

Dealing with emergencies

The following list describes examples of lab safety incidents that require first aid training for science teachers.

• Burns. Heat-producing equipment (including Bunsen burners, matches, and hotplates) and chemical and electrical sources can cause burns. Should that happen, immediately soak the burned area in cold water and request immediate assistance from the school’s healthcare provider.

• Chemical exposure. With the increased emphasis on hands-on, process, and inquiry-based science, chemical exposure is more likely to happen inside the classroom. Review the Safety Data Sheets (SDSs) for each hazardous chemical being used prior to any laboratory work. If someone is exposed to the chemical, immediately use the eyewash or acid shower, as appropriate, and flush with copious amounts of tepid water for a minimum of 15 minutes. Request immediate assistance from the school’s health care provider.

• Poisons. Accidental swallowing of poisonous chemicals in the laboratory either by direct sources or cross contamination can happen. Review SDSs with students prior to use of these chemicals, so they all are familiar with their potential harm to the body. If the person becomes unconscious or is convulsing, request immediate assistance from the school’s healthcare provider. The same is true should the person complain of a “burning feeling” in their throat, but also provide plenty of water or milk in this situation. The teacher should give the student the drink, preferably outside the lab, to help prevent cross contamination via toxin residue in the lab. Call the Poison Control Center (1-800-2221222), too, especially if you know what poison has been accidentally taken.

• Sharp objects. Sharp objects such as a ring stand rod, dowel, or stick can be hazardous. Do not remove the object from one’s skin. Try to keep the individual calm and still. Request immediate assistance from the school’s health care provider.

• Lacerations and bleeding. Broken glassware or other sharp objects can cause lacerations. If an injured person starts bleeding, put on latex or NIOSH-approved plastic gloves and apply direct pressure to control bleeding. Request immediate assistance from the school’s healthcare provider.

• Allergic reactions. Given the high frequency of allergens in labs, teachers should ask parents and guardians to identify any known allergens prior to activities. Also, secure input from the school nurse on each student. For serious allergic reactions (anaphylaxis), see if the individual has an epinephrine auto injector and help them use it, if needed. Turn them on their side if they are vomiting or bleeding. Raise their feet about 12 inches and cover them with a blanket. Make sure their clothing is loose so they can breathe. Call 911 immediately. Request immediate assistance from the school’s healthcare provider.

• Amputations. With the use of power and hand tools in STEM labs and physics labs, there is a risk of amputations. Request immediate assistance from the school’s healthcare provider and call 911. Try to stop the bleeding in the interim by having the person lay down and elevating the part that is bleeding. Apply steady direct pressure using gloves. Check and treat for shock. For details on administering first aid to treat for shock and what to do with an amputated body part, read information provided by the U.S. National Library of Medicine.

First aid kits

OSHA does not provide a mandatory list of contents but suggests that employers follow the basic list of first aid kit contents available from the American National Standards Institute (ANSI Z 308.1-1978). Included in the list are large and small sterile bandages, adhesive tape, antibiotic cream, antiseptic solution, scissors, eyewash, and cotton balls and swabs.

In the end

First aid training is needed in science laboratories. Teachers need to make sure their administrators provide this training each year. This blog post is only a starting point. Teachers need to secure formal input from medical personnel for the proper response to each incident.

Acknowledgment

I would like to thank Jane Megson, district head nurse at Glastonbury Public Schools in Glastonbury, Connecticut, for her review and contribution to this blog commentary.

Submit questions regarding safety in K–12 to Ken Roy at safesci@sbcglobal.net, or leave him a comment below. Follow Ken Roy on Twitter: @drroysafersci.

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This week in education news, early exposure to robotics helps break gender stereotypes; the next generation of science education means more doing; dance programs help students develop skills such as creativity and persistence that benefit them in the classroom and beyond; Iowa employers are having trouble filling high-tech jobs with below-average STEM pay; a new report finds time, planning, support and professional development as critical to success; rural schools face unique challenges, including teacher recruitment and retention; and ‘Strong Start, Strong Finish’ is vital to Alabama’s future.

Educators Gain Valuable Tech Experience Through Industry Certifications

All 138 teachers in Chagrin Falls Exempted Village Schools are Level 1 Google Certified Educators. Earning those certifications in 2016 did not come cheaply: Teachers devoted precious time to prepare for the three-hour exam, and the Ohio school district footed the bill for training, support and test fees. But when the entire teaching staff understands how to use the arsenal of Google tools to support learning in their classrooms, the benefits far outweigh the cost, says Mike Daugherty, the district’s director of technology and information systems. Read the article featured in Ed Tech Magazine.

Breaking Gender Stereotypes Through Early Exposure To Robotics

Over the past two decades, women in the U.S. have made notable progress in historically male-dominated fields, such as law and business. However, when it comes to technology and engineering, they are progressing at a much slower rate. STEM educational interventions aimed at addressing the gender disparity between men and women have generally focused on increasing the interest of girls and women during high school and college. For many girls, though, interventions that begin during adolescence may be coming too late. Read the article featured in Education Week.

Adapting To And Mitigating Climate Change

Climate change did not cause Harvey, Irma, or Jose, but it is a huge part of the story. Whether you believe in climate change or not, you are likely thinking that we need to adapt and mitigate to reduce damages and death. Veronica dug deep into the subject with Dr. David Evans, executive director of the National Science Teachers Association; Franklin W. Nutter, president of Reinsurance Association of America; and Gerald E. Galloway, professor of engineering at Glenn L. Martin Institute. Watch the panel discussion, hosted by WJLA’s Good Morning Washington.

The Next Generation Of Science Education Means More Doing

Five groups of high school students worked around tables in Vielca Anglin’s science classroom on a recent afternoon at City-As-School in New York City. They had half-liter water bottles in front of them and a range of materials including pebbles, soil, rice, marbles, scouring pads and gauze. Their task: create a gravity-driven water filtration system that gets dirty water as clean as possible. It was up to them to decide what materials to use and in what order. This type of project reflects the best intentions of the Next Generation Science Standards, which encourage teachers to enable students to learn science by doing. Read the article featured in The Hechinger Report.

How Dance Can Help Students In STEM Disciplines

A proof-of-concept study at North Carolina State University finds participation in dance programs helps students – including those in science, technology, engineering and mathematics (STEM) disciplines – develop skills such as creativity and persistence that benefited them in the classroom and beyond. Read the article featured on Phys.org.

Iowa Struggles To Fill High-Tech Jobs With Below-Average STEM Pay

Iowa employers are reporting trouble filling jobs requiring education in science, technology, engineering and math, while the state’s average pay for high-tech positions is 15 percent below the national average, federal statistics show. Read the article featured in the Iowa City Press-Citizen.

DeVos Wants To Steer Grant Money To School Choice, STEM, And More

Want a better shot of getting federal grant money out of U.S. Secretary of Education Betsy DeVos’ department? You may want to consider pitching a project with a STEM, workforce development, competency-based education, or literacy focus—or one that embraces school choice, including for disadvantaged groups of students. And you should find a way to show how you are giving taxpayers good bang for their buck. Read the article featured in Education Week.

Report: Time, Planning, Support, PD Necessary For Blended Learning Success

The latest report from the Foundation for Blended and Online Learning (FBOL) and the Evergreen Education Group, “Teaching with Technology: Educators’ Perspectives and Recommendations for Successful Blended Instructional Strategies,” based on a survey of teachers from a variety of school models in 38 states, identifies time, thoughtful planning, support and relevant professional development as critical to success. Read the brief featured in Education DIVE.

The Geography Of Teacher Shortages

When most of us hear about struggling schools, we probably picture poor inner-city neighborhoods and school buildings filled with graffiti, drugs and violence. While many struggling schools are located in urban centers, just as many can be found in rural areas or small towns – especially in the South. Rural schools face a number of unique obstacles. Approaches to improving education that make sense in urban contexts do not always work for them, particularly when it comes to teacher recruitment and retention. Read the article featured in U.S. News & World Report.

High School Kids Need Good Teachers, Not Good Lecturers

Teaching means helping students wrestle with concepts, make deep connections, and act to improve their world. Ineffective lecturing, on the other hand, is about the futile attempt to fill what the lecturer views are the empty buckets of students’ minds. Students then go through the motions of learning, hold on to their preconceptions, and don’t deeply change their understanding of the concepts and the world. Read the article featured in the Huffington Post.

‘Strong Start, Strong Finish’ Is Vital To Alabama’s Future

For far too long, Alabama has ranked nearly last in the country in education. Our children are our most valuable resources, and they deserve nothing less than the absolute best. It is well past time that we turn things around and compete for number one instead of settling for forty-eighth. We need an educational renaissance in our state. We must ensure that our children are equipped with a top-notch education so that they can compete in a modern, global economy and prepare them to secure good, high-paying jobs. Read the article featured on Al.com.

Stay tuned for next week’s top education news stories.

The Communication, Legislative & Public Affairs (CLPA) team strives to keep NSTA members, teachers, science education leaders, and the general public informed about NSTA programs, products, and services and key science education issues and legislation. In the association’s role as the national voice for science education, its CLPA team actively promotes NSTA’s positions on science education issues and communicates key NSTA messages to essential audiences.

The mission of NSTA is to promote excellence and innovation in science teaching and learning for all.

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Creating a STEM Culture for Teaching and Learning by Jeff Weld offers insight for educators, policy makers, and business leaders about why STEM education matters and where it’s headed next. This new NSTA Press book includes case studies and real life vignettes from people invested in bringing meaningful STEM curricula to K-12 classrooms.

Weld, who directs the Iowa Governor’s STEM Advisory Council, was formerly an award-winning high school science teacher.  

In Creating a STEM Culture, Weld argues for a holistic approach to STEM education. “Anything short of the cultivation of a culture for STEM is insufficient. Success requires a systemic rather than a piecemeal approach to STEM education. All dimensions of schooling must be on the table—teacher preparation, scheduling, school-parent relations, professional development, curriculum, assessment, the disciplines, physical space, administrator support, business and community engagement, and of course budgets. STEM is ushering an invigorating evolution of education,” Weld states in the opening chapter.

Weld notes that in the U.S., 47 states have launched Science-Technology-Engineering-Mathematics initiatives; globally, STEM has been an educational priority in many countries. In this book, Weld makes the argument for why STEM matters both inside and outside of school walls.

For school leaders, the book offers a road map for building community support and understanding to help them bring their districts and individual schools to the forefront of the nation’s STEM initiatives. For K-12 educators, the book offers practical tips and strategies for creating a classroom culture that includes effective and well-integrated STEM education.

For policy makers, Creating a STEM Culture makes the case for integrating STEM-related policies at the local, regional, state, and national policy levels. Also, for business leaders, the book explains why it is important to collaborate with the K-12 education system to create a future workforce that is prepared for careers that might not even yet exist.

Creating a STEM Culture is meant to create conversation. In fact, the book compiles a range of opinions from different sectors addressing two central questions: what scares people about adopting STEM education, and what excites them about adopting STEM education.

“The one thing that worries me most about America’s STEM movement that we need to get right is the opportunity for all students (not just the best and brightest) to become STEM literate. By this, I am referring to their ability to not only be able to know and understand basic science and mathematical facts and concepts as they apply to the natural and known world, but to also have the capacity to observe real-world situations and apply their STEM knowledge in a way that embraces and employs the technological problem-solving and engineering design processes to effectively create viable solutions,” says Steven Barbato, executive director and CEO, International Technology and Engineering Educators Association (ITEEA).

Read the free sample chapter, “Community Buy-in for STEM”, to learn about authentic examples of public awareness strategies that have been used to promote STEM in local communities.

This book is also available as an e-book.

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