Radio-guided surgery of differentiated thyroid cancer using (131)I or 99mTc-Sestamibi.

The classical therapeutic approach to patients with differentiated thyroid cancer (DTC) is based on total or near-total thyroidectomy, followed by (131)I treatment and thyroid-stimulating hormone suppressive therapy. This approach allows complete cure in many patients, especially when the tumour is diagnosed at an early stage; it also allows long-term survival in patients with locoregional recurrences or distant metastases if they can be treated with (131)I. In contrast, when metastatic DTC deposits lose their ability to trap (131)I (non-functioning metastases), a worse prognosis is expected. Nevertheless, in patients with locoregional non-functioning recurrences, an early diagnosis and prompt surgical extirpation can lead to a favourable prognosis. In these cases, radical surgery is needed. This can be achieved with radio-guided surgery using a hand-held gamma probe and a tumour-seeking radiotracer to detect, intraoperatively, the smallest metastatic lesions. In this paper, we discuss the two principal techniques proposed in the literature for radio-guided surgery of non-functioning DTC metastatic recurrences, the first using high doses of (131)I and the second using low doses of 99mTc-Sestamibi

Role of 99m Tc-sestamibi SPECT in accurate selection of primary hyperparathyroid. Patients minimally invasive radio-guided surgery

none8PURPOSE: A prerequisite for optimum minimally invasive radio-guided surgery (MIRS) for primary hyperparathyroidism (PHPT) is the demonstration of significant uptake of (99m)Tc-sestamibi in a parathyroid adenoma (PA). The aim of this study was to evaluate the clinical role or (99m)Tc-sestamibi SPECT in selecting patients for this procedure. METHODS: Fifty-four consecutive PHPT patients were evaluated by single-session (99m)Tc-pertechnetate/(99m)Tc-sestamibi planar subtraction scintigraphy, followed by (99m)Tc-sestamibi SPECT acquisition to localise hyperfunctioning PAs and assist in planning the surgical approach. RESULTS: Scintigraphy showed the presence of a solitary PA in 47/54 patients (87%) and two or more PAs in four patients (7.4%); it was negative in the remaining three patients (5.6%). The overall sensitivity of (99m)Tc-sestamibi scintigraphy was 94.6%. In 7/54 patients, the PA was located deep in the para-oesophageal/paratracheal space. So far, 22 patients with scintigraphic evidence of a solitary PA (in four of whom the PA was located deep in the neck) have undergone successful MIRS using the low 37 MBq (1 mCi) (99m)Tc-sestamibi dose protocol. Intraoperative quick parathyroid hormone (QPTH) assay demonstrated a fall in all 22 patients, thus confirming successful removal of the hyperfunctioning PA. No major surgical complications were observed. After a period of follow-up ranging between 6 and 27 months (median 13 months), no case of persistent/recurrent PHPT was recorded. When comparing the parathyroid to background (P/B) ratio measured at planar and SPECT preoperative scintigraphy with that measured intraoperatively with the gamma probe, a good linear correlation was found between the SPECT and the intraoperative gamma probe measurements (r=0.89; p<0.01) but no correlation was found with planar scintigraphic data. CONCLUSION: Our preliminary data suggest that measurement of the P/B ratio by means of (99m)Tc-sestamibi SPECT is more accurate in predicting the intraoperative measurements with the gamma probe. In this respect, a preoperative (99m)Tc-sestamibi SPECT acquisition should be recommended for better selection of PHPT patients in whom a MIRS approach can be offered.noneRUBELLO D; MASSARO A; CITTADIN S; RAMPIN L; AL-NAHHAS A; BONI G; MARIANI G; PELIZZO M.R.Rubello, D; Massaro, A; Cittadin, S; Rampin, L; AL NAHHAS, A; Boni, G; Mariani, G; Pelizzo, MARIA ROS

Minimally invasive radioguided parathyroidectomy. Biomed Pharmacother.

We reported here the data on minimally invasive radio-guided parathyroidectomy (MIRP) in a large group of 253 patients enrolled from the whole series of 355 consecutive patients affected by primary hyperparathyroidism (P-HPT) referred to our center. On the basis of preoperative imaging including Sestamibi scintigraphy and neck ultrasound (US), 263 patients (74% of the whole series) with evidence of a solitary parathyroid adenoma (PA) and a normal thyroid gland were addressed to MIRP and in 253 (96%) of them this minimally invasive neck exploration was successfully performed. The MIRP protocol developed in our center consisted of a very low 1 mCi Sestamibi injection in the operating room a few minutes before the start of intervention, thus minimizing the radiation exposure dose to the patient and personnel. No major intraoperative complication was recorded in patients treated by MIRP and only a transient hypocalcemia in 8.5% of cases. The mean duration time for MIRP was 35 min and the mean hospital stay 1.2 days. Local anesthesia was also performed in 62 patients, 54 of whom were elderly patients with concomitant invalidating diseases contraindicating general anesthesia. No HPT relapse was observed during subsequent follow-up. The gamma probe was used also during bilateral neck exploration in the group of 92 patients excluded from MIRP. The most frequent cause of exclusion from MIRP in our series was the presence of concomitant Sestamibi avid thyroid nodules (68.5% of cases) that can give false positive results at radio-guided surgery. In conclusion, MIRP is an effective treatment in patients with a high likelihood of a solitary PA and a normal thyroid gland at scintigraphy and US so that an accurate preoperative localizing imaging is required for MIRP. A low 1 mCi Sestamibi dose appears sufficient to perform MIRP. Patients with concomitant Sestamibi avid thyroid nodules should be excluded from MIRP

Minimally invasive radio-guided parathyroidectomy

We reported here the data on minimally invasive radio-guided parathyroidectomy (MIRP) in a large group of 253 patients enrolled from the whole series of 355 consecutive patients affected by primary hyperparathyroidism (P-HPT) referred to our center. On the basis of preoperative imaging including Sestamibi scintigraphy and neck ultrasound (US), 263 patients (74% of the whole series) with evidence of a solitary parathyroid adenoma (PA) and a normal thyroid gland were addressed to MIRP and in 253 (96%) of them this minimally invasive neck exploration was successfully performed. The MIRP protocol developed in our center consisted of a very low 1 mCi Sestamibi injection in the operating room a few minutes before the start of intervention, thus minimizing the radiation exposure dose to the patient and personnel. No major intraoperative complication was recorded in patients treated by MIRP and only a transient hypocalcemia in 8.5% of cases. The mean duration time for MIRP was 35 min and the mean hospital stay 1.2 days. Local anesthesia was also performed in 62 patients, 54 of whom were elderly patients with concomitant invalidating diseases contraindicating general anesthesia. No HPT relapse was observed during subsequent follow-up. The gamma probe was used also during bilateral neck exploration in the group of 92 patients excluded from MIRP. The most frequent cause of exclusion from MIRP in our series was the presence of concomitant Sestamibi avid thyroid nodules (68.5% of cases) that can give false positive results at radio-guided surgery. In conclusion, MIRP is an effective treatment in patients with a high likelihood of a solitary PA and a normal thyroid gland at scintigraphy and US so that an accurate preoperative localizing imaging is required for MIRP. A low 1 mCi Sestamibi dose appears sufficient to perform MIRP. Patients with concomitant Sestamibi avid thyroid nodules should be excluded from MIRP