BACKGROUND: The relationship between thyroid autoimmunity and cancer is still uncertain. PATIENTS: We approached this issue in 570 consecutive patients submitted to thyroidectomy for an indeterminate nodule on cytology. Thyroid autoimmunity was defined as positivity of circulating thyroid autoantibodies (TAb), autoimmune hypo- or hyperthyroidism, thyroid hypoechogenicity on ultrasound, and lymphocytic infiltration on histology. RESULTS: TAb were found in 122/570 (21.4%), hypoechogenicity in 115/570 (20.1%), and lymphocytic infiltration in 117/570 (20.5%) of patients. The three features of thyroid autoimmunity were highly concordant: hypoechogenicity was observed in 71/448 (15.8%) patients with negative TAb and in 44/122 (36%) with positive TAb (P < 0.0001); lymphocytic infiltration was found in 53/448 (11.8%) patients with negative TAb and in 64/122 (52.4%) with positive TAb (P < 0.0001); hypoechogenicity on ultrasound was observed in 73/453 (16.1%) patients without, and in 42/117 (35.9%) with lymphocytic infiltration (P < 0.0001). None of these parameters was associated with malignancy. TAb were found in 32/135 (23.7%) patients with carcinoma and in 90/435 (20.6%) with a benign lesion (P = NS); hypoechogenicity was observed in 26/135 (19.2%) patients with carcinoma and in 89/435 (20.4%) patients with benign lesions (P = NS); lymphocytic infiltration was present in 28/135 (20.7%) patients with carcinoma and in 89/435 (20.4%) with benign lesions (P = NS). The frequency of cancer in 11 patients with clinically overt thyroid autoimmune disease did not differ from that observed in the whole study group. CONCLUSION: In this group of patients with indeterminate thyroid nodules at cytology, clinical and pathological criteria of thyroid autoimmunity were strongly concordant and not associated with malignancy.
BACKGROUND: The relationship between thyroid autoimmunity and cancer is still uncertain. PATIENTS: We approached this issue in 570 consecutive patients submitted to thyroidectomy for an indeterminate nodule on cytology. Thyroid autoimmunity was defined as positivity of circulating thyroid autoantibodies (TAb), autoimmune hypo- or hyperthyroidism, thyroid hypoechogenicity on ultrasound, and lymphocytic infiltration on histology. RESULTS: TAb were found in 122/570 (21.4%), hypoechogenicity in 115/570 (20.1%), and lymphocytic infiltration in 117/570 (20.5%) of patients. The three features of thyroid autoimmunity were highly concordant: hypoechogenicity was observed in 71/448 (15.8%) patients with negative TAb and in 44/122 (36%) with positive TAb (P < 0.0001); lymphocytic infiltration was found in 53/448 (11.8%) patients with negative TAb and in 64/122 (52.4%) with positive TAb (P < 0.0001); hypoechogenicity on ultrasound was observed in 73/453 (16.1%) patients without, and in 42/117 (35.9%) with lymphocytic infiltration (P < 0.0001). None of these parameters was associated with malignancy. TAb were found in 32/135 (23.7%) patients with carcinoma and in 90/435 (20.6%) with a benign lesion (P = NS); hypoechogenicity was observed in 26/135 (19.2%) patients with carcinoma and in 89/435 (20.4%) patients with benign lesions (P = NS); lymphocytic infiltration was present in 28/135 (20.7%) patients with carcinoma and in 89/435 (20.4%) with benign lesions (P = NS). The frequency of cancer in 11 patients with clinically overt thyroid autoimmune disease did not differ from that observed in the whole study group. CONCLUSION: In this group of patients with indeterminate thyroid nodules at cytology, clinical and pathological criteria of thyroid autoimmunity were strongly concordant and not associated with malignancy.
Authors: Anurag Verma; Joseph B Leader; Shefali S Verma; Alex Frase; John Wallace; Scott Dudek; Daniel R Lavage; Cristopher V Van Hout; Frederick E Dewey; John Penn; Alex Lopez; John D Overton; David J Carey; David H Ledbetter; H Lester Kirchner; Marylyn D Ritchie; Sarah A Pendergrass Journal: Pac Symp Biocomput Date: 2016
Authors: Christine E Cherella; Trevor E Angell; Danielle M Richman; Mary C Frates; Carol B Benson; Francis D Moore; Justine A Barletta; Monica Hollowell; Jessica R Smith; Erik K Alexander; Edmund S Cibas; Ari J Wassner Journal: Thyroid Date: 2019-08 Impact factor: 6.568
Authors: F Boi; L Minerba; M L Lai; B Marziani; B Figus; F Spanu; A Borghero; S Mariotti Journal: J Endocrinol Invest Date: 2012-08-29 Impact factor: 4.256
Authors: E Fiore; T Rago; M Scutari; C Ugolini; A Proietti; G Di Coscio; M A Provenzale; P Berti; L Grasso; S Mariotti; A Pinchera; P Vitti Journal: J Endocrinol Invest Date: 2009-04 Impact factor: 4.256