TY - JOUR
T1 - Robot assisted transaxillary surgery (RATS) for the removal of thyroid and parathyroid glands
AU - Landry, Christine S.
AU - Grubbs, Elizabeth G.
AU - Stephen Morris, G.
AU - Turner, Nadine S.
AU - Christopher Holsinger, F.
AU - Lee, Jeffrey E.
AU - Perrier, Nancy D.
PY - 2011/4
Y1 - 2011/4
N2 - Background: Robotic assisted transaxillary surgery (RATS) is a minimally invasive approach for the removal of the thyroid and/or parathyroid glands through the axilla. This anatomically directed technique, popularized by Chung, eliminates a visible scar and affords excellent high definition optics of the cervical anatomy. We report an initial series of single access RATS in the U.S. Methods: The prospective endocrine surgery database at a tertiary care center was used to capture all patients who underwent RATS between October 2009 and March 2010. All procedures were performed using a single transaxillary incision. Results: Fourteen operations were performed on 13 patients. Indications for RATS were indeterminate thyroid nodules in 11 patients, the need for completion thyroidectomy in 1 patient, and primary hyperparathyroidism in 2 patients. For patients who underwent robotic assisted thyroid lobectomy, the median thyroid nodule size was 2.1 cm (range, 0.8-2.8 cm), and the median body mass index was 25.33 (range, 21.3-34.4). Mean and median total operative times for robotic assisted thyroid lobectomies were 142 minutes and 137 minutes respectively (range, 113-192 minutes). Operative time for the 2 patients who underwent robotic assisted parathyroidectomy was 115 and 102 minutes. Minor complications occurred in 4 patients (28.5%), with no significant perioperative morbidity or mortality. Conclusion: RATS is feasible. We believe that further study of the RATS technique for removing thyroid lobes and parathyroid glands is warranted. This initial series suggests that careful, continued investigation is necessary prior to routine implementation into clinical practice across the U.S.
AB - Background: Robotic assisted transaxillary surgery (RATS) is a minimally invasive approach for the removal of the thyroid and/or parathyroid glands through the axilla. This anatomically directed technique, popularized by Chung, eliminates a visible scar and affords excellent high definition optics of the cervical anatomy. We report an initial series of single access RATS in the U.S. Methods: The prospective endocrine surgery database at a tertiary care center was used to capture all patients who underwent RATS between October 2009 and March 2010. All procedures were performed using a single transaxillary incision. Results: Fourteen operations were performed on 13 patients. Indications for RATS were indeterminate thyroid nodules in 11 patients, the need for completion thyroidectomy in 1 patient, and primary hyperparathyroidism in 2 patients. For patients who underwent robotic assisted thyroid lobectomy, the median thyroid nodule size was 2.1 cm (range, 0.8-2.8 cm), and the median body mass index was 25.33 (range, 21.3-34.4). Mean and median total operative times for robotic assisted thyroid lobectomies were 142 minutes and 137 minutes respectively (range, 113-192 minutes). Operative time for the 2 patients who underwent robotic assisted parathyroidectomy was 115 and 102 minutes. Minor complications occurred in 4 patients (28.5%), with no significant perioperative morbidity or mortality. Conclusion: RATS is feasible. We believe that further study of the RATS technique for removing thyroid lobes and parathyroid glands is warranted. This initial series suggests that careful, continued investigation is necessary prior to routine implementation into clinical practice across the U.S.
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U2 - 10.1016/j.surg.2010.08.014
DO - 10.1016/j.surg.2010.08.014
M3 - Article
C2 - 20947113
AN - SCOPUS:79952701716
SN - 0039-6060
VL - 149
SP - 549
EP - 555
JO - Surgery
JF - Surgery
IS - 4
ER -