Radiofrequency electrosurgery

Safety assessment of electrosurgical electrodes by using mini pig tissue

Electrosurgical electrodes are the main dissecting devices widely used for surgeries throughout the world. The present study aimed to evaluate the thermal injury and safety within animals' organs following a minimally invasive electrosurgery technique with electrosurgical electrode AE40-300 (LIPO) and AE20-80 (LIFT). To ensure the effective application of electrosurgery in a clinical environment, it is crucial to minimize heat-induced injury to nearby tissues. In this study, the skin, liver, kidney, and femoral muscle dissected from 9 minipigs were used in tissue thermal spread experiments. Thermal imaging area analysis, maximum temperature, and time to reach basal temperature were evaluated. Thermography results revealed that the surgical temperature was significantly lower in the minimally invasive electrosurgery with AE40-300 (LIPO) and AE20-80 (LIFT) compared to the predicate device. In addition, AE40-300 (LIPO) and AE20-80 (LIFT) created a relatively small thermal injury area and thermal diffusion. Our results indicated that the tested devices named AE40-300 (LIPO) and AE20-80 (LIFT) reduced excessive thermal injury and could be applied to clinical use safely.

Electrosurgery Turbinate Reduction Revisited: Can Comparable Volumetric Heating be Achieved Without Feedback Control?

BACKGROUND AND OBJECTIVES

Temperature-controlled radiofrequency inferior turbinate ablation (TCRFA) uses a feedback system to control thermal injury and achieve precise volumetric heating to induce specific scar formation. However, it requires costly single-use proprietary consumables. Comparable volumetric tissue heating may be achieved for a fraction of the cost by adjusting the power settings on traditional monopolar electrosurgery devices that use low-cost needle tips. This pre-clinical study aims to determine the optimized power parameters to achieve electrosurgical coagulum volume similar to that of TCRFA.

STUDY DESIGN/MATERIALS AND METHODS

An electrosurgery submucosal diathermy (SMD) system (cut mode, 4-32 W, 5-120 seconds) and a temperature-controlled radiofrequency ablation system (standard clinical parameters for treating inferior turbinate hypertrophy) were used to coagulate egg white and chicken breast. Coagulum major and minor axis were measured, and lesion volume was approximated as prolate spheroid.

RESULTS

No significant difference in volume was found between the temperature-controlled system and the electrosurgery system at 8 W for 30 seconds, 8 W for 60 seconds, 16 W for 30 seconds, 32 W for 5 seconds, and 32 W for 15 seconds. The time to achieve equivalent lesion size was significantly less in the SMD system when compared to the temperature-controlled system (P < 0.05).

CONCLUSION

Electrosurgery handpieces may achieve similar lesion volume effects as the temperature feedback-controlled, single-use handpieces when set to the optimized parameters. SMD handpieces are significantly more cost and time effective than proprietary devices, and they are easily used in the office. SMD devices may be a more affordable alternative to temperature-controlled systems with comparable lesion volume effect and may be valuable for office-based therapy. Lasers Surg. Med. © 2020 Wiley Periodicals LLC.

Effect of high-frequency electric field on the tissue sticking of minimally invasive electrosurgical devices

Generally minimally invasive surgery is performed using an endoscope and other instruments including electrosurgical units (ESUs), and the adhesion of tissue to electrodes is a major concern. The mechanism governing this tissue sticking, especially the influence of high-frequency electric field, is still unclear. In this study, the effect of high-frequency electric field on the tissue sticking upon electrodes was investigated. The electrosurgical cutting test was performed on ex vivo fresh porcine liver under blend mode using a monopolar ESU. A heat-adherence test without electric field was used as a control. For the control group, the electrode was heated and maintained at a certain temperature and directly in contact with porcine liver. Both sticking tissues obtained from these two tests are partially carbonized porcine liver tissue, but their microstructure and bonding with electrode are obviously different. The sticking tissue formed just under heat is composed of biggish nanoparticles of different sizes which are loosely aggregated and has a weak bonding with the electrode, while the sticking tissue from the electrosurgical cutting test consists of tightly packed fine nanoparticles of equable size as a result of thermo-electric coupling and has a strong bonding with the electrode. Obviously, high-frequency electric field plays an extremely important role in the formation of the sticking tissue. It is the thermo-electric coupling that underlies the function of minimally invasive electrosurgical devices, and the effect of high-frequency electric field cannot be ignored in the tissue sticking study and anti-sticking strategies.

EXPERIENCE OF REMOVING BENIGN NEOPLASMS OF SKIN IN CERVICOFACIAL AREA USING THE METHOD OF PLASMA ABLATION

Choosing appropriate methods for removal of benign skin lesions (BSL) in the cervicofacial area has always been an important and challenging issue. Removal of the BSL is indicated and performed for medical and aesthetic reasons. A method with less painful procedures, a short healing period, without noticeable long-lasting traces (such as scars, dyschromia) and, predictably, fewer repeat procedures is preferred. Objectives. Evaluation of the effectiveness, safety and convenience of BSL plasma ablation using Plexr® (GMV, Italy); Comparison of the reparative processes speed after the BSL removal in the cervicofacial area applying the Plexr® device with other instrumental methods (based on literature reviews). Materials and Methods. We identified a group of patients wishing to remove papilloma, xanthelasma, dermal nevi, dermatofibroma on their face and body. Neoplasms (skin lesions) were assessed visually and by means of the Dermlite 3DN dermatoscope. Patients with atypical skin lesions were excluded from the study and referred to a medical oncologist for consultation. Each patient, having been fully briefed on the nature and course of the medical procedure, as well as required aftercare, submitted their written informed consent. Plasma ablation of BSL was performed using Plexr® device. Re-examination of patients was carried out after the scab from the treated area of the skin had fallen off. Results. We have performed 373 BSL removal procedures, including 212 (57%) — in the cervicalfacial area, among which there have been 47 (13%) cases of acrochordoni, papilloma, xanthelasma, syringoma and upper and lower eyelid milia removals. Complete healing has been recorded in 98% of all cases, with repeated corrective procedure being required only for one patient due to insufficiently deep tissues destruction in the course of multiple syringoma removal in the lower eyelid area. Conclusion. The results obtained allow to consider the method of BSL tissues plasma ablation applying Plexr® device effective, safe, non-traumatic, inexpensive, with a short period of tissue healing (7—10 days). BSL removal with the help of Plexr® — is a good alternative to conventional surgical and laser methods, which can be introduced into medical practice.

What is the efficacy of nasal surgery in patients with obstructive sleep apnea syndrome?

PURPOSE

Obstructive sleep apnea syndrome (OSAS) is characterized by repetitive episodes of partial or complete obstruction of the upper airway during sleep and is associated with increasing respiratory efforts, with a consequent oxyhemoglobin desaturation, sleep fragmentation, and daytime symptoms, most commonly excessive sleepiness. The effectiveness of continuous positive airway pressure (CPAP) is undoubtedly high in treating those patients who use it regularly, but for those who refuse it, the success rate is 0. It is for this subset of patients that surgical therapy can be useful. The purpose of this study was to evaluate the effects of nasal surgery on nasal resistance, sleep apnea, sleep quality, and nasal volumetric measurement in adult male patients with OSAS.

METHODS

Twenty male patients with complaints of hypersomnia and snoring were included in the study. Polysomnography of patients with the prediagnosis of OSAS was planned. All patients underwent CPAP treatment before and after surgery. Patients, who had anatomic structural defects causing nasal valve shrinkage, were operated on at the Plastic Reconstructive and Aesthetic Department. Volumetric measurements of the nose were obtained before and after the operation.

RESULTS

In our study, it was observed that respiratory tract space of patients increased subsequent to the surgery, and thereby OSAS level decreased, and tolerating CPAP device was easier. Measurements of internal nasal valve vertex and fields and external nasal valve fields before and after operation were significant.

CONCLUSIONS

Surgical relief of this nasal obstruction may improve quality of life in patients with OSAS.

Effects of prednisone and ibuprofen on radio frequency volume tissue reduction in a rabbit model

This study investigates whether acute anti-inflammatory medications (prednisone and ibuprofen) alter muscle volumetric reduction following radio frequency tissue ablation (RFTA). We used a rabbit model to measure changes in leg muscle volume using serial magnetic resonance imaging in 3 groups: RFTA without medication (group 1), RFTA with prednisone and ibuprofen (group 2), and no RFTA or medication (group 3). The mean volumetric changes for groups I and 2 differed on days 1 and 7 (+0.5 cm3 versus -0.4 cm3, p < .0001; and -0.03 cm3 versus -0.7 cm3, p < .05), but not on day 28 (-0.8 cm3 versus -1.0 cm3, not significant). Group 3 had no change in volume. The volumetric reduction varied. Impaired volumetric reduction (<50% mean change) occurred in 30% of extremities and correlated to lower tissue impedance (p < .04). Combined steroidal and nonsteroidal anti-inflammatory medications did decrease acute edema, but not the final volumetric reduction, following RFTA. Volumetric changes are variable and may be altered by tissue impedance.

Temperature-controlled radiofrequency tissue volume reduction in the human soft palate

OBJECTIVE

To validate the use of temperature-controlled radiofrequency energy applied to the soft palate in a multicenter setting for reduction of snoring in a minimally morbid manner.

METHODS

Prospective, nonrandomized multicenter study of 113 patients who had a respiratory disturbance index less than 15 and minimum oxygen saturation not less than 85% and who were seeking treatment for habitual disruptive snoring. Patients were given either single or multiple lesions to the soft palate during each treatment session.

RESULTS

Patients received 1978 J on average with an overall average of 2.4 treatments. Snoring scores went from an average of 7.8 (visual analog scale (VAS), 0-10) pretreatment to 3.2 posttreatment. Pain was minimal, averaging 1.7 (VAS 0-10) on days 1 to 6. Complications were few and transient, and mild.

CONCLUSIONS

The multiple lesion protocol was the most successful; reducing snoring from 7.6 to 2.7, on a VAS with an average of 1232 J delivered over 1.6 treatments. Temperature-controlled radiofrequency was found to be a minimally invasive, well-tolerated procedure that was safe and efficacious in this study group.