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when there is sufficient contact between the patient and the return electrodeto preventpatient burns
® Technology | Electrosurgery Safety Monopolar laparoscopic instruments have an inherent problem with their design ; they are prone to insulation failure and capacitive couplingcausingpatient burns
Non - AEM Laparoscopic Instruments Monopolar laparoscopic instruments have an inherent problem with their design ; they are prone to insulation failure and capacitive couplingcausingpatient burns
Technology | AEM ® Burn Protection vs. Other Technologies Monopolar laparoscopic instruments have an inherent problem with their design ; they are prone to insulation failure and capacitive couplingcausingpatient burns
to provide self - limiting propertiesto preventpatient burns
the lead loopsmay causepatient burns
the contact area between the patient and the electrode ... sufficientto preventpatient burns
what techniques are usedto preventpatient burns during electrosurgery
The founders of Encision recognized that traditional monopolar laparoscopic instruments have an inherent design flaw ; they are prone to insulation failure and capacitive couplingcausingpatient burns
a wealth of aviation and OR lightscausingpatient burns
the amount of contact area between the patient and the electrosurgical return electrode ... sufficientto preventpatient burns
a patented “ Freeze- Detect " technologycan preventpatient burns
By actively adjusting the operating frequency , the control loop maintains any chosen heating profile at the electrode - patient contact surfacethereby preventingpatient burns
Therefore , when the present invention is used with plastic cannulas , instrument connectors 70 need only be applied to the laparoscope 38 , the grasper 42 and any other inserted instrumentsto preventpatient burns
Is a ligating clip applier used to rapidly occlude vessels and other tubular structures B. Contains shears that allow you to cut in between coagulated tissue C. Requires a grounding pad and adequate patient contactto preventpatient burns D.
Sensors or electrodes trapped under defibrillator pads or paddles during defibrillation or sensors or electrodes in contact with high frequency electrosurgical equipmentcan causepatient burns
The pulsed Radiofrequency fields ... in turncan causepatient burns
Cable leads or electrodes trapped under defibrillator pads or paddles during defibrillation or electrodes in contact with high frequency electrosurgical equipmentcan causepatient burns
scanning with the nitro pad onmay causepatient burns
Light source cords , which attach to certain endoscopescan causepatient burns
adaptedto preventpatient burns
the improper application of plaster of Paris splintscausingburns to patient
Electrosurgical Active Electrodes Failure to Secure Electrosurgical Unit Active - Electrode Pencils Between Uses(passive) Caused by28-Dec-2018 Patient Burns
electric dental handpieces(passive) caused bypatient burns
performing monopolar electrosurgical procedures in a safe and effective mannerpreventingpatient burns
edge effectsmay causepatient burns
Rotary surgical handpiecescan causepatient burns
® Burn Protection vs. Other TechnologiesMonopolar laparoscopic instruments have an inherent problem with their design ; they are prone to insulation failure and capacitive couplingcausingpatient burns
the firm ’s LightSheer Desire device(passive) caused bypatient burns
either air - cooling the instruments or immersion in sterile liquid ( e.g. , saline(passive) may be prevented byPatient burns
Any implanted device containing metal such as a pin , plate , screw , or artificial heart valve , to name a fewcan causepatient burns
electrical leakscould causepatient burns
dried - out electrodes with the help of top - fill ports(passive) caused bypatient burns
the physical mechanismcan causepatient burns
either air - cooling the instruments or immersion in sterile liquid ( eg . saline(passive) may be prevented bypatient burns
eddy currents in the bodymay causeburns in the patient
overheated airmay causepatient burns
that is useful in an electrosurgical unitto preventpatient burns
the contact area ... sufficientto preventpatient burns
The secondary arcing that could occur during defibrillationcould causepatient burns
from the misconnection of a “ flying lead ” bipolar electrosurgical cableresultingfrom the misconnection of a “ flying lead ” bipolar electrosurgical cable
from blankets that were in cabinets set to greater than 130 ° Fresultingfrom blankets that were in cabinets set to greater than 130 ° F
from use of the device for extended periods of time on high temperature settingscan resultfrom use of the device for extended periods of time on high temperature settings
an immediate response to the involved tissues , which is seen as a coagulative necrosis , with the degree of involvement depending on the temperature to which the skin is exposed and the duration of the exposurecausean immediate response to the involved tissues , which is seen as a coagulative necrosis , with the degree of involvement depending on the temperature to which the skin is exposed and the duration of the exposure
from unholstered electrosurgical active electrode pencilsresultingfrom unholstered electrosurgical active electrode pencils
from such misuse of conventional endoscopic video systemsresultingfrom such misuse of conventional endoscopic video systems
in thermal bowel injuryresultingin thermal bowel injury
at the point of attachmentcan resultat the point of attachment