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EP HUT™ Table Model 60170
The EP HUT™ Table serves as a superior head up tilt table and features a radiolucent top for invasive electrophysiology procedures. Its portability ensures syncope testing can be scheduled around more time-consuming and revenue-enhancing EP procedures. The EP HUT™ Table will easily rise to the rigorous demands of an EP lab while providing patient and staff safety with its carbon fiber top's low attenuation factor of .57mm Al.
Invasive Electrophysiology EP HUT TableT
Benefits
  • 5 second emergency response allows additional time to evaluate development of bradycardia1
  • Large metal free imaging area
  • Lowest combined Attenuation available, better images at lower doses, Less ambient radiation scatter2
  • Allows restorative measures to begin twice as fast as the alternative approach
  • Minimizes time in asystole
Features
  • 5 seconds 70° to -15° Trendelenburg emergency positioning
  • 18° per second emergency positioning
  • Separate home and emergency controls
  • "One button" return to level
  • "One button" emergency positioning
  • Programmable tilt angle, 5° increments
  • Two memory emergency positioning stop point
  • Fully adjustable 3 belt patient restraint system
  • Head up tilt - electrically adjustable to 90°
  • Trendelenburg - electrically adjustable 0° - 20°
  • Normal tilt rate of 6° degrees per second
  • Height - electrically adjustable 32" - 42"
  • Safe, slip resistant foot platform
  • Motors controlled by a sealed, water resistant, low voltage, control wand with self-retracting, coiled power cord
  • Carbon fiber construction
  • 53" of edge to edge imaging area
  • Attenuation .57 mm Al. equivalent
  • Low attenuation
  • Shaped top
  • Beveled edge
  • 2" low attenuation mattress pad
  • Short c-arm accessible base
  • Base enclosed by stainless steel shroud
  • 5 Inch, 2-way locking casters
Options & Accessories
  • Carbon fiber articulating arm boards and pads
References
  1. Han Yang, Serious Response inTilt Table Test in Elderly and its Prophylactic Management, Journal of Zhejiand University SCIENCE, 2005, 6B(4):304-306
  2. Kostas Perisinakis, PhD, Accurate Assessment of Patient Effective Radiation Dose and Associated Detriment Risk From Radiofrequency Catheter Ablation Procedures , Circulation. 2001;104:58-62
  3. A. Trianni, Dose to Cardiologists in Haemodynamic and Electrophysiology Cardiac Interventional Procedures, Radiation Protection Dosimetry, December 2005, Volume 117, Number 1-3
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Medical Positioning, Inc. | 1717 Washington St. Kansas City, MO 64108 | T: 816-474-1555 | 1-800-593-3246