Thyroid cryotherapy in an experimental rat model

Translational Study on Recurrent Laryngeal Nerve Temperature Susceptibility

BACKGROUND

Recurrent laryngeal nerve (RLN) injury is the most common and serious complication after thyroid surgery. However, little is known about the temperature threshold leading to RLN injury. In this study, we investigated threshold temperatures that cause RLN injury during thyroid surgery using continuous intraoperative neuromonitoring in swine models.

METHODS

Four pigs weighing 30 to 40 kg were used for this study. We applied automatic periodic stimulation to the vagus nerve and dissected the RLN. The operative field was then filled with water at various temperatures (1.9°C to 87.4°C). The threshold temperature was defined as the temperature measured before filling the operative field that was associated with adverse events (latency increase of more than 10% or amplitude decrease of more than 50%). Loss of signal was defined as the electromyography (EMG) signal disappearing and not recovering during 30 min of observation.

RESULTS

The low and high threshold temperatures were 2.5°C and 81.5°C, respectively. There were no adverse events at surrounding temperatures between 5.9°C and 77.5°C. The EMG signals in the RLNs exposed to the low threshold temperatures recovered, and there was no loss of signal. In contrast, the RLNs that showed adverse events at the high threshold temperatures showed loss of signal and no recovery of EMG signals.

CONCLUSIONS

The RLN was found to be resistant to cold injury, whereas surrounding temperatures above 81.5°C may cause permanent thermal injury to the RLN. The surrounding temperature should be controlled within the safe range during thyroid surgery to avoid RLN injury.

Clinical-pathological study of the healing of wounds provoked on the dorso-lingual mucosa in 186 albino rats

OBJECTIVE: To evaluate wound healing of incisions created in the upper aerodigestive tract.

STUDY DESIGN AND SETTING: In this prospective and blind study, 186 adult rats were assigned to six groups to create incisions in the tongue. In the first three groups, the wounds were made with a steel scalpel; no substance was applied to the wound in the first group, but N-butyl-2-cyanoacrylate was applied in the second group, and trichloroacetic acid at 50 percent in the third group. In the fourth, fifth, and sixth groups, the wounds were caused by cryosurgery, electrocautery, and CO2 laser. Hemostasis, postoperative oral intake, and wound healing were measured. Statistical analysis was performed with analysis of variance.

RESULTS: The wounds to which N-butyl-2-cyanoacrylate was applied showed no hemorrhaging and faster reepithelialization and resolution of the inflammatory response.

CONCLUSIONS: N-butyl-2-cyanoacrylate is a good hemo-static for managing wounds in the oral mucosa provoked by steel scalpel.

© 2007 American Academy of Otolaryngology-Head and Neck Surgery Foundation. All rights reserved.

Experimental cryosurgery investigations in vivo

Cryosurgery is the use of freezing temperatures to elicit an ablative response in a targeted tissue. This review provides a global overview of experimentation in vivo which has been the basis of advancement of this widely applied therapeutic option. The cellular and tissue-related events that underlie the mechanisms of destruction, including direct cell injury (cryolysis), vascular stasis, apoptosis and necrosis, are described and are related to the optimal methods of technique of freezing to achieve efficacious therapy. In vivo experiments with major organs, including wound healing, the putative immunological response following thawing, and the use of cryoadjunctive strategies to enhance cancer cell sensitivity to freezing, are described.

Histologic changes in thyroid nodules after percutaneous ethanol injection in patients subsequently operated on due to new focal thyroid lesions

This paper reports macro- and microscopic changes in hyperfunctioning thyroid nodules (HTN), initially diagnosed as solitary, in patients treated with percutaneous ethanol injection (PEI). In 78 patients, benign solitary HTN were diagnosed by clinical and hormonal examination. High resolution ultrasonography confirmed the solitary nodule. The results of fine needle aspiration biopsy (FNAB), performed twice, ruled out malignancy of the nodule. The patients were referred for PEI treatment. At 1-year follow-up, newly formed thyroid nodules, whose volumes increased, were detected in five patients (6.4%) with HTN, initially diagnosed as solitary. Therefore, these patients were operated on. Subtotal thyroidectomy was performed. At the intraoperative macroscopic evaluation, a hard fibrous solid mass was found in place of three nodules (n1, n2, n3) following PEI treatment. The middle area of the cut surface of PEI-treated nodules (n4 and n5) in the other two patients was firm and haemorrhagic, surrounded by a fibrous mass. Histolopathologic examination of n1, n2 and n3 revealed fibrosis and hyalinosis. Examination of n4 and n5 showed haemorrhagic necrosis in the middle of the nodules surrounded by fibrous tissue.

Thyroid cryotherapy in an experimental rat model-topography of temperature during therapy and functional results

The aim of this study was to investigate post cryotherapy thyroid function status of normal rat thyroid tissue and to determine the topography of temperature of cryotreated tissues and of tissues adjacent to them. Nitrous oxide cryotherapy was performed in 40 male Wistar rats. They were divided into four groups of 10. In group I, the right thyroid lobe was subjected to cryotherapy and the left lobe was not frozen. In group II, both thyroid lobes were cryotreated. In group III, the right lobe was frozen and the left lobe was excised. In group IV, the thyroid was subjected to neither cryotherapy nor surgery. During cryotherapy, the temperature in various places of the thyroid and in the surrounding tissues was measured. Serum thyrotropin concentrations were determined before an experiment and 4 weeks after in all rats. The results of temperature measurements proved that it is possible to limit cryotherapy to certain areas of thyroid tissue and to spare the neighboring tissues, because they are not subjected to temperatures that are damaging. The effectiveness of cryotherapy was confirmed by functional effect. Cryotherapy changed function of thyroid tissue. There was a statistically significant difference between mean baseline and follow-up concentrations in rats of groups II and III. In both groups hypothyroidism occurred post cryotherapy.