Articles: ventilators.
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Anasth Intensivther Notfallmed · Jun 1984
[Adjustment of synchronized intermittent ventilation with the Drager Company's SIMV Pulmolog].
When choosing an IMV frequency in a respirator, the aim should be to guarantee a minimum of ventilation. With most respirators the "time-window" for the synchronisation of the mandatory stroke volume is within the ventilatory cycle. ⋯ This difference is most important for daily clinical practice, as the minimum IMV frequency may be below the adjusted one. The manufacturer has reacted by changing the data on the manufacturer's label.
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Comparative Study
Impact on ventilator-check time of an in-circuit computerized respiratory monitoring system.
To ensure appropriate quality control of mechanical ventilatory support in our institution, checks of patient status and ventilator performance are made every 2 hours. Our standard method of surveillance requires disconnecting the patient from the ventilator and connecting him to extraneous monitoring devices. We assessed the use of an in-circuit computerized respiratory monitoring system for ventilator surveillance and found that with this system significantly less therapist time was required to perform a check (5.8 +/- 1.18 minutes vs 9.9 +/- 1.53 minutes for the standard procedure) and that use of this system avoids the potential hazards associated with disconnecting a patient from the ventilator and introducing additional monitoring devices to the airway.
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Critical care medicine · Jan 1984
Comparative StudyPercutaneous transtracheal jet ventilation for cardiopulmonary resuscitation: evaluation of a new jet ventilator.
This study compared percutaneous transtracheal jet ventilation (PTJV) at a frequency (f) of 20/min, with high-frequency positive-pressure ventilation (HFPPV) at f of 60/min, and endotracheal intubation and intermittent positive-pressure ventilation (ET IPPV) at f of 10/min in apneic dogs. Fifty-four emergency medicine trainees (EMTs) attempted PTJV via a 14-gauge Angiocath attached to a hand-held jet ventilator, f of 20/min, and ET IPPV using an Ambu bag, f of 10/min. Twenty-nine other EMTs attempted cricothyrotomy using a prototype nonkinkable catheter (Arrow) and a new jet ventilator, Bronchovent, f of 60/min, equipped with a pressure sensor which stops ventilation at pressures greater than 20 cm H2O. ⋯ There was a higher equipment failure rate (catheter kinking and dislodgment) in the PTJV group. In the HFPPV group, the Bronchovent's pressure-limiting sensor stopped ventilation when the catheter was kinked or out of position, reducing the extent of subcutaneous emphysema and barotrauma. With further catheter improvements, HFPPV Bronchovent may offer a safe and reliable method of ventilating patients during CPR in the field.