Emergency Care

3-minute read

Being an EMT is a demanding job, both physically and emotionally. The repetition of loading and unloading cots in and out of an ambulance day after day can take its toll on the body.

EMS workers experience musculoskeletal injuries from overexertion five times more often than the average U.S. worker.1 Studies show manual patient handling is the single greatest risk factor for overexertion injuries for healthcare workers.1

A costly problem

At any given time, 10 percent of the EMS workforce is out of work due to EMT injury.2 In fact, one in four caregivers suffer a career-ending back injury within the first four years of employment3 and low back strain causes 78 percent of compensation days in the U.S. alone.4

Incredibly, the cost of a typical strain injury is $67,248 ($32,023 direct and $35,225 indirect costs).5 With these grim statistics, what can be done to recruit and retain EMTs and paramedics in your community?


Six tips for success

In 2017, the Center for Disease Control and Prevention (CDC) and National Institute for Occupational Safety and Health (NIOSH) published six recommendations for reducing risk in EMS:6

  1. Protect workers and promote safety, health and well-being through workplace policies, programs and activities

  2. Promote safe patient-handling techniques

  3. Protect workers from exposures to blood and other potentially infectious body fluids

  4. Prevent slips, trips and falls

  5. Improve motor vehicle safety

  6. Prevent violence by patients

Unfortunately, many of the recommended risk-mitigation steps outlined above are overlooked, causing unnecessary injuries, loss of staff and high workers' compensation costs.6

The Powered System

Woman being loaded into ambulance on a Stryker Power-Pro cot Stryker’s Power-PRO XT powered ambulance cot utilizes a battery-powered hydraulic system, effectively raising and lowering a cot and patient up to 500* pounds with the touch of a button, reducing spinal loading, lost or modified workdays7 and increasing recruitment and retention.

The Power-LOAD powered cot fastener system improves guided loading and unloading of patients, with a safe working load of up to 700 pounds, eliminating the need to steer the cot into and out of the ambulance. The wireless communication with the Power-PRO controls cot functionality when loading and unloading, creating a safer environment for teams around the globe.

Together, they create the Powered System—a SAE J3027 crash compliant solution that helps attract and retain EMTs and paramedics by reducing the likelihood of job-related injuries. It’s even backed by a Proven to Save Guarantee—citing a 50 percent reduction of cot related injuries and a 100 percent reduction in missed safety hooks.8,9


Saving lives shouldn’t be back breaking

A 100 percent reduction in cot related injuries saved one organization $545,500 over four and a half years,10 and 99 percent of those surveyed agree that Stryker’s Powered System makes their jobs easier.11


“The Powered System has extended the careers of our paramedics, protected patients and reduced on the job injuries costs by hundreds of thousands of dollars,”
- Shane Cohea, Director of Safety and Security for Norman Regional Health System


Together, we save lives

Connect with a Stryker representative to learn more about the Powered System.


Learn more

Emergency patient transport



*Maximum unassisted lift capacity is 500 pounds. Cot loads over 300 pounds may require additional assistance to meet set cot load height.


  1. https://www.cdc.gov/niosh/topics/safepatient/default.html.
  2. Studnek JR, Ferketich A, Crawford JM. On the job illness and injury resulting in lost work time among a national cohort of emergency medical services professionals. Am J Ind Med, 2007 Dec; 50(12):921–31.
  3. Sanders, Mick J. (2011) Mosby’s Paramedic Textbook (4th ed. P. 36).
  4. https://www.sciencedirect.com/science/article/pii/073567579090081A.
  5. https://www.osha.gov/dcsp/smallbusiness/safetypays/estimator.html. As of August 1, 2018 with a 3% profit margin for strain.
  6. https://www.cdc.gov/niosh/docs/2017-194/pdfs/2017-194.pdf.
  7. Fredericks T, Butt S, Harms K, et al. Evaluation of medical cot design considering the biomechanical impact on emergency response personnel. The XXVth Annual Occupational Ergonomics and Safety Conference. 2013.
  8. Contact your sales representative to see if you qualify for the EMS guarantee.
  9. Subject to the terms and conditions of EMS Proven to Save.
  10. Stryker (2018). EMSStat – Norman Regional Health System Case Study (Case Study on Power-PRO XT cots and Power-LOAD cot fastening systems). Retrieved from: http://ems.stryker.com.
  11. Stryker (2016). Staff Satisfaction Case Study (Case Study on Power-PRO XT cots and Power-LOAD cot fastening systems). Retrieved from: http://ems.stryker.com.

Stryker Corporation or affiliated entities own, use or have applied for the trademarks or service marks, Power-LOAD, Power-PRO, Stryker. All other trademarks are trademarks of their respective owners or holders. The absence of a product or service name or logo from this list does not constitute a waiver of Stryker's trademark or other intellectual property rights concerning that name or logo.

Copyright © 2021 Stryker. Do not copy, reproduce, distribute, publish, modify, create derivative works, transmit, or exploit the copyrighted materials without prior permission from Stryker.

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