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TRANSCRIPT
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Electrosurgery Intervention in
Flexible Endoscopy---Managing Safety
Clinical Update For Physicians and Nurses
2010
Greg Chappuis, B.S.ERBE-USA, INC
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HUMAN DIGESTIVE TRACT
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Wall Thickness of the Small / Right Colon The wall thickness of the right colon and small bowel is approximately 2mm which is less than three stacked pennies.
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PEDUNCULATED POLYP
• Basic pedunculated polyp.
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SESSILE POLYPS
• Sessile Polyp:
Any polyp with a
broad base.
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Hemostasis
• Superficical bleeding
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Many tools…many variables
Braided – non braided snare?
Cap assisted?
Submucosal fluid cushion?Type of generator?
Waveform?
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WOULD A PILOT FLY WITHOUT AN UNDERSTANDING
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We are educated…but….
50%
21%
10%
19%
None 1/2 to 1 Day
1+ Day
< 1 Hour
> Formalized Education on Electrosurgery
Survey of 400 Surgeons
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LET’S TAKE A CLOSER LOOK AT ELECTROSURGERY
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Basic Principles of Electrosurgery
Direct current = Cautery
Direct current, which for example is generated by batteries, is not suitable for electrosurgical procedures because in addition to the desired thermal effect it also generates an undesirable electrolytic effect, producing acids and bases at the electrode poles.
Danger of caustic burns ! - 11
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Basic Principles of Electrosurgery
Alternating current
Alternating current with frequencies which are normally used in every household (50-60 Hz) is not suitable for electrosurgical procedures because in addition to the desired thermal effect, these frequencies can produce an undesirable faradic effect resulting in neuromuscular stimulation.
Muscle contractions !- 12
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Basic Principles of Electrosurgery
Stimulating effect of alternating current on nerve and muscle cells as a function of frequency
The frequency of the alternating current must be high enough to ensure that no neuromuscular stimulation is produced.
Therefore only high-frequency alternating current with frequencies above 300.000 Hz (300kHz) is used in electrosurgery.
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The Electrical FREQUENCY Spectrum
(Why patients do not feel electrosurgery…)
54-880 MHz
60 Hz 100,000 Hz350,000 Hz
ESU’s
550-1550 kHz
Household Neuromuscularstimulation
AM Radio
TV
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• Circuit - flow of current from the ESU to the active electrode, to the patient, to the pad, and back to the ESU.
• Voltage - electrical force pushing current around the circuit, through varying degrees of tissue resistance.
• Resistance (Impedance) - literally the tissue being treated, which has varying characteristics.
The Clinical Circuit
• Current – flow of electrons through the electrical circuit.
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So how does the clinical circuit work…
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Clinical Translation of Ohm’s Law
Mathematically: Current =
Clinically:
• Current increases as voltage increases
• Current decreases as resistance increases
Remember: Current is the flow of electrons through a circuit in response to an applied electromotive force.
Voltage
Resistance
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Two Basic Principles of
• Always seeks ground.
• Always seeks the path of least resistance.
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• Well vascularized area.
• Shortest circuit possible.
• Optimum – on flank.
• Alternatives – Thigh or Arm.
• Avoid Buttock placement.
• Remove pads carefully to prevent shearing of skin.
Dispersive Electrodes
GI Endoscopy Pad Placement
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Muscle, Kidney, Eye
Liver, Oral Cavity
Gallbladder
Bowel, Fat
Mesentary, Brain
Scar Tissue, Lung, Adhesions
Least to Most Resistance
Tissue Impedance
Impedance Varies with Water Content of Tissue
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There are Two Different TYPES of ESUs
CONSTANT POWER
• Watts (power) setting is chosen.
• The Watts remain constant.
• Voltage varies to maintain Watts.
• All tissue is treated with same Wattage.
• ValleyLab, Conmed,Endostat, et al.
CONSTANT VOLTAGE
• Wattage (power) maximum is selected.
• Voltage remains constant.
• Microprocessors read tissue response.
• Watts (power) varies according to tissue variables encountered at the active electrode contact point.
• ERBE
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Temp Tissue Effect
104°F: Reversible cellular trauma
120°F: Irreversible cellular trauma
158°F: Coagulation (Desiccation)
212°F: Cutting
392°F: Carbonization
ESU Thermal Effects on Cells
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Basic Principles of ElectrosurgeryCutting
Thermal EffectsCutting using high-frequency current Essential: ! Sparking !
Maximum current density The extremely rapid vaporization
of the intracellular liquid leads to the rupturing of the cell membrane
No mechanical force is required
Simultaneous hemostasis (adjustable)
(Vaporization)
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Constant Power - Types of Electrical Waveforms
Blend
Blend is NOT a mixture of cut and coag. It is a modification of the duty cycle or coag “ON” time
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Constant Voltage
Voltage (EFFECT)
EFFECT - is how much voltage that is constantly being delivered to target tissue. As you increase EFFECT, hemostasis and thermal effect increases.
EFFECT 1
EFFECT 2
EFFECT 3
EFFECT 4
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Types of Electrical Waveforms
Cutting: Sinusoid (constant)
• Voltage quickly raises water temperature in the cell to boiling point
• Cell water turns to steam
• Cell explodes, separating from adjoining cells
• Cleavage plane is created = clinical “CUT”
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Constant Voltage
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ERBE Regulation of Power Output
The power output is dynamically regulated within the pre-set limits.
It is independent of: the cutting electrode the direction of the cut the tissue
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Conventional vs. AutomaticCutting Outcomes
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Electrosurgical Cutting Waveform
Endocut™
Proprietary waveform that involves a fractionated cutting mode characterized by alternating cutting and coagulation cycles.
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Sphincterotomy
Sphincterotomy Techniques
• Pure or blended waveform controlled by pedal tapping.
• Software controlled, fractionated cut / coag cycle with ‘pedal down’.
Clinical Applications
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Efficacy of Using Endocut
Akiho H, Sumida Y, Akahoshi K, Murata A, Ouchi J, Motomura Y, ToyomasuT, Kimura M, Kubokawa M, Matsumoto M, Endo S, Nakamura K. Safety advantage of endocut mode over endoscopic sphincterotomy for choledocholithiasis. World J Gastroenterol. 2006 Apr 7;12(13):2086-8.
As noted in this study, efficacy of using endocut was shown in comparison To conventional blended cut mode for pancreatitis by reducing the hypermylasemia.
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Efficacy of Using Endocut
Perini RF, Sadurski R, Cotton PB, Patel RS, Hawes RH, Cunningham JT.Post-sphincterotomy bleeding after the introduction of microprocessor-controlled electrosurgery: does the new technology make the difference? Gastrointest Endosc 2005; 61:53-57.
The study revealed less endoscopic bleeding with the use of a microprocessor-controlled in comparison to conventional electrosurgery.
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Clinical Benefits of CO2 Insufflation
Bretthauer M, et al. Carbon dioxide insufflations for more comfortable endoscopic retrograde cholangiopancreatopagraphy: a randomized, controlled, double-blind trial. Endoscopy 2007;39:58-64.
• Absorbed 150 times faster than room air – less distention and intra and post operative pain.
• Due to the rapid absorption, diminished distention / pain post procedure occur allowing the physician to quickly rule out insufflation pain, in the event of pancreatitis or perforation.
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Clinical Applications
Clinical Video: Endocut Polypectomy
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Basic Principles of ElectrosurgeryCoagulation
Thermal EffectsCoagulation: Hemostasis through ...
“Coagulation” of proteins... Desiccation and shrinkage
through the slow vaporization of cellular liquid and vascular occlusion
Devitalization
Tumors Lesions .........
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Conventional Vs. AutomaticCoag
Conventional Automatic
Coag
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Types of Electrical Waveforms
Coag: Modulated (with resting points)
• Current waveform with spikes of high voltage followed by rest periods
• This allows the cellular proteins to slowly denature
• Coagulation occurs
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Electrosurgical Technique
Modulation - Coagulation
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Hemostasis depends on modulation and voltage
Soft Forced Swift Dessicate
SprayFulgurate
Keep in mind, you can have the wattage set at 60 watts per mode, but get very different tissue effects depending on the waveform and voltage associated with it.
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Basic Principles of ElectrosurgeryBIPOLAR
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monopolar electrosurgery bipolar electrosurgery
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Submucosal Injection
Submucosal injection provides an additional cushion to protect the muscularis and also aids in dispersing electrosurgical current during electrosurgical procedures, including APC
Needle-free submucosal injection
Norton ID, Wang LN, Levine SA, Bugart LJ, Hofmeister EK, Yacavo RF, et al. In vivo characterization of colonic thermal injury caused by argon plasma coagulation. Gastrointest Endosc 2002;55:631-6.
Needle injection
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Submucosal Injection
Submucosal needle-free injection
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Electrode
Argon Plasma
Argon Gas
Gas Flow in Probe
MucosaSelf-LimitingDesiccation Zone
Argon Plasma Coagulation
When argon gas becomes electrically charged, it forms a plasma with a self-limiting desiccation zone
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• Non-contact application
• As target tissue becomes coagulated, current automatically seeks new conductive tissue resulting in uniform hemostasis.
• Smoke is reduced
• Thinner eschar, more flexible
• Limited penetration depth of approximately 3mm
Argon Plasma Coagulation
Advantages:
Non-contact no sticking to tissue
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APC GI Clinical Applications
• Radiation Induced Proctopathy• Watermelon Stomach (GAVE)• Treatment of Residual Adenomatous Tissue• Stent Shortening (e.g. migrated stents)• Strictures• Exophytic Benign or Malignant Tumors• Oozing from Vascular Lesions (e.g. Angiodysplasias, Arteriovenous Malformations (AVMs), Telangiectasias)
Gastroenterology Uses found in Clinical Literature
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Argon Plasma Coagulation
References:
1. “The role of endoscopy in ampullary and duodenal adenomas”. Gastrointestinal Endoscopy; 2006: Vol. 64, No 6.2. Brooker, J. Treatment with APC reduces recurrence after piecemeal resection of large sessile colonic polyps: a
randomized trial and recommendations. Gastrointestinal Endoscopy, 2002.3. Buyukberber, Mehmet. APC in the treatment of hemorrhagic radiation proctitis. Turk J Gastroenterol, 2005.4. Dulai, Gareth. Treatment of Water Melon Stomach. Current Treatment Options in Gastroenterology, 2006.5. Eickhoff, A, et al. Prospective nonrandomized comparison of two modes of argon beamer (APC) tumor desobstruction:
effectiveness of the new pulsed APC versus forced APC. Endoscopy 2007: 39: 637-642. Ferreira, L, et al. Post-Sphincterotomy Bleeding: Who, What, When, and How. American Journal of Gastroenterology. 2007.
6. Eickhoff, A, et al. Pain sensation and neuromuscular stimulation during argon plasma coagulation in gastrointestinal endoscopy. Surg Endosc. 2007.
7. Fujishiro, M. Safety of Argon Plasma Coagulation for Hemostasis During Endoscopic Mucosal Resection. Surg Laparosc Endosc Percutan Tech; 2006.
8. Fukami, N. Endoscopic treatment of large sessile and flat colorectal lesions. Current Opinions in Gastroenterology. 2006:22:54-59.
9. Fukatsu, H, et al. Evaluation of needle-knife precut papillotomy after unsuccessful biliary cannulation, especially with regard to postoperative anatomic factors. Surg Endosc. 2008;22:717-23.
10. Garcia, A, et al. Safety and efficacy of argon plasma coagulator ablation therapy for flat colorectal adenomas. Rev Esp Enferm Dig. 2004:96:315-321.
11. Herrera S, et al. The beneficial effects of argon plasma coagulation in the management of different types of gastric vascular ectasia lesions in patients admitted for GI hemorrhage. Gastrointestinal Endoscopy 2008.
12. Horiuchi, A, et al. Effect of precut sphincterotomy on biliary cannulation based on the characteristics of the major duodenal papilla. Clin Gastroenterol Hepatol. 2007;5:1113-8.
13. Ifadhli A, et al. Efficacy of argon plasma coagulation compared with topical formalin application for chronic radiation proctopathy. Can J Gastroenterol 2008;22:129-132.
14. Kitamura, Tadashi. Argon plasma coagulation for early gastric cancer: technique and outcome. Gastrointestinal Endoscopy, 2006.
15. Kwan, V. APC in the Management of Symptomatic GI Vascular Lesions. American Journal of Gastroenterology. 2006.16. Lecleire, S, et al. Bleeding gastric vascular ectasia treated by argon plasma coagulation: a comparison between patients
with and without cirrhosis. Gastrointestinal Endoscopy. 2008:67.
Gastroenterology Uses found in Clinical Literature
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References:
17. Manner, H, et al. Safety and efficacy of a new high power argon plasma coagulation system (hp-APC) in lesions of the upper gastrointestinal tract. Digestive and Liver Disease. 2006.
18. Norton, I, et al. A Randomized Trial of Endoscopic Biliary Sphincterotomy Using Pure-Cut Versus Combined Cut and Coagulation Waveforms. Clinical Gastroenterology and Hepatology. 2005; 3:1029-1033.
19. Norton, I, et al. Efficacy of colonic submucosal saline solution injection for the reduction of iatrogenic thermal injury. Gastrointestinal Endoscopy. 2002:Vol 56, No 1.
20. Olmos, Jorge. APC for prevention of recurrent bleeding from GI angiodysplasias. Gastrointestinal Endoscopy, 2004.21. Ortner, M, et al. Endoscopic Interventions for Preneoplastic and Neoplastic Lesions: Mucosectomy, Argon Plasma
Coagulation, and Photodynamic Therapy. Digestive Diseases. 2002;20 :167-172.22. Perini, Rafael. Post-sphincterotomy bleeding after microprocessor-controlled electrosurgery. Gastrointestinal Endoscopy.
2005. 23. Regula, J. Argon Plasma Coagulation after Piecemeal Polypectomy of Sessile Colorectal Adenomas: Long-Term Follow-
Up Study. Endoscopy, 2003.24. Repici, A. Endoscopic polypectomy: techniques, complications and follow-up. Tech Coloproctol. 2004; 8: S283-S290.25. Rerknimitr, R. Trimming a Metallic Biliary Stent Using an Argon Plasma Coagulator. Cardio Vascular and Interventional
Radiology, 2006.26. Ross, A. Flat and Depressed Neoplasms of the Colon in the Western World. American Journal of Gastroenterology.
2006.27. Schubert, D. Endoscopic treatment of benign gastrointestinal anastomotic strictures using argon plasma coagulation in
combination with diathermy. Surg Endosc; 2003:17:1579-1582.28. Soctikno, R, et al. Prevalence of Nonpolypoid (Flat and Depressed) Colorectal Neoplasms in Asymptomatic and
Symptomatic Adults. JAMA. 2008: Vol 299, No 9.29. Vargo, John. Clinical Applications of APC. Gastrointestinal Endoscopy, 2004.30. Zlatanic, J, et al. Large sessile colonic adenomas: use of argon plasma coagulator to supplement piecemeal snare
polypectomy. Gastrointestinal Endoscopy; 1999: Vol. 49, No. 6.
Argon Plasma Coagulation Gastroenterology Uses found in Clinical Literature Cont.
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Argon Plasma Coagulation
Pulsed 2 APC GAVE
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Argon Plasma Coagulation
The extent of the thermal effect of APC on tissue depends on several factors:
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Argon Plasma Coagulation
Another important factor involving thermal effect is the mode chosen
APC has evolved through specialized modes with more controllable thermal effect:
• Pulsed 1 APC: pulses one time per second, used for focused coagulation
• Pulsed 2 APC: pulses 16 times per second, used for wide spread coagulation
• Forced APC: Constant beam, often used for devitilization of tissue (Original APC for GI – ERBE APC 300 circa 1992 – used Forced or constant beam only)
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Argon Plasma CoagulationModes
Precise APC:
• The Precise mode creates a more superficial coagulation effect using a low-energy output, suitable for temperature sensitive, thin-walled areas
• Due to its potential to auto-regulate the beam by increasing and decreasing intensity with probe movement (i.e distance in relation to target tissue), thermal effect is more homogenous
Regula J, Wronska E, et al. Vascular lesions of the gastrointestinal tract. Best Practice and Research Clinical Gastroenterology 2008; 22: 313-328
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Argon Plasma Coagulation
Application techniques:
Static:• The probe is focused in one single area, thermal penetration will increase over time
• If applied for long periods of time in the same area, carbonization and vaporization can occur
• For superficial treatment, short activation times of 1 to 2 seconds are used Dynamic: • The probe is moved with paintbrush-like strokes over the target area while observing the target tissue effect
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Argon Plasma Coagulation offers particular advantages for endoscopic applications as it allows APC to be applied en face or tangentially, enabling less accessible areas to be easily treated
En face APC
Tangential APC
Argon Plasma Coagulation
Ar
Ionized Argon Gas
ArAr
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Argon Plasma Coagulation
GI Thermal Tissue Sensitivity
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DISPOSABLE Filter Integrated Probes
Built-in Filter, Disposable Hose, Integrated probe in all styles
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• 2.3mm (7fr) Straight Fire Probe is good for focused areas. It can fire straight forward or tangential to the tissue.
• 3.2 mm (10 fr) Straight Fire Probe is good for tumor ablation in the stomach and esophagus. It requires a therapeutic scope with a larger working channel.
Straight Fire Probe
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2.3 mm (7 fr) 360º Circumferential Probe Provides additional protection from perforation. Wide variety of uses. Ideal for those new to APC.
Circumferential Probe
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Side Fire Probe
2.3 mm (7 fr.) Side Fire Probe works well in large areas requiring hemostasis. The 45 degree opening provides a wide wedge-shaped path of APC
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2.3 mm (7 fr) 300mm length fits all models of push enteroscopes. Used for AVMs in the Small Bowel.
Enteroscope Probes
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In Conclusion…
Understanding all possible variables can lead to better clinical decisions in support of optimal outcomes.