Research
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69% More Power with the POWER X1
As new technologies emerge, the duration between required charging cycles should increase, resulting in greater call efficiency.
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Up to 300% More Loading Flexibility with POWER X1
The purpose of this study was to evaluate the angles at which two commercially available emergency cots would no longer load into the fastener.
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Up to 82% More Tip Resistance with POWER X1
The objective of this study was to determine the resistance to tip of commercially-available EMS powered cots based on offset patient placement at multiple bed heights.
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Ergonomic Analysis of Power “Cots” Shows the iNX Eliminates Lifting During Patient Handling
To confirm the reduction in loading and unloading forces, independent ergonomic experts studied EMTs and paramedics loading and unloading variable patient weights from a simulated ambulance deck while comparing two different types of power ambulance cots: The FERNO iN∫X and the Stryker® Power-PRO®.
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The Evaluation of Cot Stability in Patient Transport
The objective of this study was to determine the resistance to tip of an EMS cot based on offset patient placement at multiple cot heights using (pounds-force: lbf or Newtons: N).
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Comparison of Multiple Loading Scenarios for Emergency Cots & Loading Systems
The purpose of this study was twofold: 1) to evaluate the angles at which an emergency cot would no longer load into the fastener or loading system, and 2) to determine the forces (pounds-force: lbf or Newtons: N) required to load and unload the cot at these angles.
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