Indexed keywords
ALTERNATING CURRENT;
COMPUTER PROGRAM;
DESICCATION;
ELECTRIC ACTIVITY;
ELECTRIC CURRENT;
ELECTROSURGERY;
FORCEPS;
HEMOSTASIS;
LAPAROSCOPIC SURGERY;
MINIMALLY INVASIVE SURGERY;
NANOSURGERY;
REVIEW;
RISK REDUCTION;
SCAR FORMATION;
SURGEON;
SURGICAL ANATOMY;
SURGICAL INSTRUMENT;
SURGICAL RISK;
SURGICAL TECHNIQUE;
THERMAL INJURY;
BLEEDING;
ELECTROCOAGULATION;
FEMALE;
GYNECOLOGIC SURGERY;
HUMAN;
METHODOLOGY;
TREATMENT OUTCOME;
VASCULAR SURGERY;
BLOOD LOSS, SURGICAL;
ELECTROCOAGULATION;
ELECTROSURGERY;
FEMALE;
GYNECOLOGIC SURGICAL PROCEDURES;
HEMOSTASIS, SURGICAL;
HUMANS;
TREATMENT OUTCOME;
VASCULAR SURGICAL PROCEDURES;
1
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2
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Physics and clinical application of electrosurgery
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Laparoscopic Hysterectomy and Pelvic Floor Reconstruction
Odell, R.C.1
3
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The effect of bipolar electrosurgical coagulation waveform on a rat uterine model of fallopian tube sterilization
Tucker RD, Benda JA, Sievert CE, et al. The effect of bipolar electrosurgical coagulation waveform on a rat uterine model of fallopian tube sterilization. J Gynecol Surg. 1992;8:235-241.
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Benda, J.A.2
Sievert, C.E.3
5
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Energy systems for operative laparoscopy
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Complications and recommended practices for electrosurgery in laparoscopy
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Electrosurgery at laparoscopy: Guidelines to avoid complication
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Bladder and bowel injury after electrodesiccation with Kleppinger bipolar forceps: A clinicopathologic study
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Hulka, J.F.2
11
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The mechanism of blood vessel closure by high frequency electrocoagulation
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Sigel, B.1
Dunn, M.R.2
