Tiroid Hastalıklarının Beyin Gelişimi Üzerindeki Etkileri

Andersen, S.L., Andersen, S., Vestergaard, P, Olsen, J. (2018). Maternal Thyroid Function in Early Pregnancy and Child Neurodevelopmental Disorders: A Danish Nationwide Case-Cohort Study. Thyroid, 28(4):537-546.

Arianas, G.Κ., Kostopoulou, E., Ioannidis, A., Dimopoulos, I., Chiotis, C., Prezerakos, P., Spiliotis, B.E., Rojas Gil, A.P. (2022). Emotional intelligence scores in children and adolescents with subclinical hypothyroidism-correlation with serum serotonin and thyroid-stimulating hormone (TSH) concentrations. Hormones (Athens), 21(1):53-60.

Bono, G., Fancellu, R., Blandini, F., Santoro, G., Mauri, M. (2004). Cognitive and a.ective status in mild hypothyroidism and interactions with l-thyroxine treatment. Acta Neurol Scand, 110: 59–66.

Burrow, G.N., Fisher, D.A., Larson, P.R. (1994). Maternal and fetal thyroid function. N Engl J Med, 331: 1072-1078.

Chen, Y., Luo, Z.C., Zhang, T., Fan, P., Ma, R., Zhang, J., Ouyang, F. (2023). Maternal Thyroid Dysfunction and Neuropsychological Development in Children. J Clin Endocrinol Metab, 108(2):339-350.

Clairman, H., Skocic, J., Lischinsky, J.E., Rovet, J. (2015). Do children with congenital hypothyroidism exhibit abnormal cortical morphology? Pediatr Res, 78(3):286-97.

Delange, F. (1998). Screening for congenital hypothyroidism used as an indicator of the degree of iodine deficiency and of its control. Thyroid, 8(12):1185-92.

Eng, L., Lam, L. (2020). Thyroid Function During the Fetal and Neonatal Periods. Neoreviews, 21(1): e30-e36

Ge, G.M., Leung, M.T.Y., Man, K.K.C., Leung, W.C., Ip, P., Li, G.H.Y., Wong, I.C.K., Kung, A.W.C., Cheung, C.L.(2020). Maternal Thyroid Dysfunction During Pregnancy and the Risk of Adverse Outcomes in the Offspring: A Systematic Review and Meta-Analysis. J Clin Endocrinol Metab, 105(12): dgaa555

Hizkiyahu, R., Badeghiesh, A., Baghlaf, H., Dahan, M.H. (2022). Associations between hyperthyroidism and adverse obstetric and neonatal outcomes: A study of a population database including almost 17,000 women with hyperthyroidism. Clin Endocrinol (Oxf), 97(3):347-354.

Kara, C. (2021). Tiroid gelişimi, fizyolojisi ve işlevlerin değerlendirilmesi. Darendeliler, F., Aycan, Z., Kara, C., Özen, S., Eren, E (Eds), Çocuk Endokrinolojisi ve Diyabet (s1058-1098) içinde. İstanbul Medikal Sağlık ve Yayıncılık

Korevaar, T.I., Muetzel, R., Medici, M., Chaker, L., Jaddoe, V.W., de Rijke, Y.B., Steegers, E.A., Visser, T.J., White, T., Tiemeier, H., Peeters, R.P. (2016). Association of maternal thyroid function during early pregnancy with offspring IQ and brain morphology in childhood: a population-based prospective cohort study. Lancet Diabetes Endocrinol, 4(1):35-43.

LaFranchi, S.H., Haddow, J.E., Hollowell, J.G. (2005). Is thyroid inadequacy during gestation a risk factor for adverse pregnancy and developmental outcomes? Thyroid, 15(1):60-71.

Laurberg, P., Andersen, S.L. (2016). ENDOCRINOLOGY IN PREGNANCY: Pregnancy and the incidence, diagnosing and therapy of Graves' disease. Eur J Endocrinol, 175(5):R219-30.

Lazarus, J.H. (2015). The importance of iodine in public health. Environ Geochem Health, 37(4):605-18.

Min, H., Dong, J., Wang, Y., Wang, Y., Teng, W., Xi, Q., Chen, J. (2016). Maternal Hypothyroxinemia-Induced Neurodevelopmental Impairments in the Progeny. Mol Neurobiol, 53(3):1613-1624.

Moog, N.K., Entringer, S., Heim, C., Wadhwa, P.D., Kathmann, N., Buss, C. (2017). Influence of maternal thyroid hormones during gestation on fetal brain development. Neuroscience, 342:68-100.

Morreale de Escobar, G., Obregón, M.J., Escobar del Rey, F. (2000). Is neuropsychological development related to maternal hypothyroidism or to maternal hypothyroxinemia? J Clin Endocrinol Metab, 85(11):3975-87.

Noda, M. (2018). Thyroid Hormone in the CNS: Contribution of Neuron-Glia Interaction. Vitam Horm, 106:313-331.

Prezioso, G., Giannini, C., Chiarelli, F. (2018). Effect of Thyroid Hormones on Neurons and Neurodevelopment. Horm Res Paediatr, 90(2):73-81.

Rapaport, R. (2000). Congenital hypothyroidism: expanding the spectrum. J Pediatr, 136: 10-12.

Rego, T., Lado, C.G., Rodríguez, P.C., Santos, F.S., Angueira, F.B., Castro-Feijóo, L., Conde, J.B., Castro-Gago, M. (2017). Severe neurological abnormalities in a young boy with impaired thyroid hormone sensitivity due to a novel mutation in the MCT8 gene. Hormones (Athens), 16(2):194-199.

Rovet, J.F. (2014). The Role of Thyroid Hormones for Brain Development and Cognitive Function. Endocr Dev, 26:26-43.

Samuels, S.L., Namoc, S.M., Bauer, A.J. (2018). Neonatal Thyrotoxicosis. Clin Perinatol, 45(1):31-40.

Senese, R., Cioffi, F., de Lange, P., Goglia, F., Lanni, A. (2014): Thyroid: biological actions of 'nonclassical' thyroid hormones. J Endocrinol, 221(2):R1-12.

Selva, K.A., Mandel, S.H., Rien, L., Sesser, D., Miyahira, R., Skeels, M., Nelson, J.C., Lafranchi, S.H. (2002). Initial treatment dose of L-thyroxine in congenital hypothyroidism. J Pediatr, 141(6):786-92.

Stoupa, A., Kariyawasam, D., Nguyen Quoc, A., Polak, M., Carré, A. (2022). Approach to the Patient With Congenital Hypothyroidism. J Clin Endocrinol Metab, 107(12):3418-3427.

Su, P.Y., Huang, K., Hao, J.H., Xu, Y.Q., Yan, S.Q., Li, T., Xu, Y.H., Tao, F.B. (2011). Maternal thyroid function in the first twenty weeks of pregnancy and subsequent fetal and infant development: a prospective population-based cohort study in China. J Clin Endocrinol Metab, 96(10):3234-41.

Şıklar, Z., Oçal, G., Bilir, P., Ergur, A., Berberoğlu, M. (2009). "Maternal/Neonatal" iodine status in patients with prolonged physiological jaundice. Exp Clin Endocrinol Diabetes, 117(7):312-5.

Trumpff, C., De Schepper, J., Vanderfaeillie, J., Vercruysse, N., Van Oyen, H., Moreno-Reyes, R., Tafforeau, J., Vandevijvere, S. (2016). Neonatal thyroid-stimulating hormone concentration and psychomotor development at preschool age. Arch Dis Child, 101(12):1100-1106.

Uchida, K., Suzuki, M. (2021). Congenital Hypothyroidism and Brain Development: Association With Other Psychiatric Disorders. Front Neurosci, 15:772382.

Vaidyanathan, P. (2022). Update on Pediatric Hyperthyroidism. Adv Pediatr, 69: 219-229.

Zuñiga, L.F.F., Muñoz, Y.S., Pustovrh, M.C. (2022). Thyroid hormones: Metabolism and transportation in the fetoplacental unit. Mol Reprod Dev, 89(11):526-539.

Andersen, S.L., Andersen, S., Vestergaard, P, Olsen, J. (2018). Maternal Thyroid Function in Early Pregnancy and Child Neurodevelopmental Disorders: A Danish Nationwide Case-Cohort Study. Thyroid, 28(4):537-546.

Arianas, G.Κ., Kostopoulou, E., Ioannidis, A., Dimopoulos, I., Chiotis, C., Prezerakos, P., Spiliotis, B.E., Rojas Gil, A.P. (2022). Emotional intelligence scores in children and adolescents with subclinical hypothyroidism-correlation with serum serotonin and thyroid-stimulating hormone (TSH) concentrations. Hormones (Athens), 21(1):53-60.

Bono, G., Fancellu, R., Blandini, F., Santoro, G., Mauri, M. (2004). Cognitive and a.ective status in mild hypothyroidism and interactions with l-thyroxine treatment. Acta Neurol Scand, 110: 59–66.

Burrow, G.N., Fisher, D.A., Larson, P.R. (1994). Maternal and fetal thyroid function. N Engl J Med, 331: 1072-1078.

Chen, Y., Luo, Z.C., Zhang, T., Fan, P., Ma, R., Zhang, J., Ouyang, F. (2023). Maternal Thyroid Dysfunction and Neuropsychological Development in Children. J Clin Endocrinol Metab, 108(2):339-350.

Clairman, H., Skocic, J., Lischinsky, J.E., Rovet, J. (2015). Do children with congenital hypothyroidism exhibit abnormal cortical morphology? Pediatr Res, 78(3):286-97.

Delange, F. (1998). Screening for congenital hypothyroidism used as an indicator of the degree of iodine deficiency and of its control. Thyroid, 8(12):1185-92.

Eng, L., Lam, L. (2020). Thyroid Function During the Fetal and Neonatal Periods. Neoreviews, 21(1): e30-e36

Ge, G.M., Leung, M.T.Y., Man, K.K.C., Leung, W.C., Ip, P., Li, G.H.Y., Wong, I.C.K., Kung, A.W.C., Cheung, C.L.(2020). Maternal Thyroid Dysfunction During Pregnancy and the Risk of Adverse Outcomes in the Offspring: A Systematic Review and Meta-Analysis. J Clin Endocrinol Metab, 105(12): dgaa555

Hizkiyahu, R., Badeghiesh, A., Baghlaf, H., Dahan, M.H. (2022). Associations between hyperthyroidism and adverse obstetric and neonatal outcomes: A study of a population database including almost 17,000 women with hyperthyroidism. Clin Endocrinol (Oxf), 97(3):347-354.

Kara, C. (2021). Tiroid gelişimi, fizyolojisi ve işlevlerin değerlendirilmesi. Darendeliler, F., Aycan, Z., Kara, C., Özen, S., Eren, E (Eds), Çocuk Endokrinolojisi ve Diyabet (s1058-1098) içinde. İstanbul Medikal Sağlık ve Yayıncılık

Korevaar, T.I., Muetzel, R., Medici, M., Chaker, L., Jaddoe, V.W., de Rijke, Y.B., Steegers, E.A., Visser, T.J., White, T., Tiemeier, H., Peeters, R.P. (2016). Association of maternal thyroid function during early pregnancy with offspring IQ and brain morphology in childhood: a population-based prospective cohort study. Lancet Diabetes Endocrinol, 4(1):35-43.

LaFranchi, S.H., Haddow, J.E., Hollowell, J.G. (2005). Is thyroid inadequacy during gestation a risk factor for adverse pregnancy and developmental outcomes? Thyroid, 15(1):60-71.

Laurberg, P., Andersen, S.L. (2016). ENDOCRINOLOGY IN PREGNANCY: Pregnancy and the incidence, diagnosing and therapy of Graves' disease. Eur J Endocrinol, 175(5):R219-30.

Lazarus, J.H. (2015). The importance of iodine in public health. Environ Geochem Health, 37(4):605-18.

Min, H., Dong, J., Wang, Y., Wang, Y., Teng, W., Xi, Q., Chen, J. (2016). Maternal Hypothyroxinemia-Induced Neurodevelopmental Impairments in the Progeny. Mol Neurobiol, 53(3):1613-1624.

Moog, N.K., Entringer, S., Heim, C., Wadhwa, P.D., Kathmann, N., Buss, C. (2017). Influence of maternal thyroid hormones during gestation on fetal brain development. Neuroscience, 342:68-100.

Morreale de Escobar, G., Obregón, M.J., Escobar del Rey, F. (2000). Is neuropsychological development related to maternal hypothyroidism or to maternal hypothyroxinemia? J Clin Endocrinol Metab, 85(11):3975-87.

Noda, M. (2018). Thyroid Hormone in the CNS: Contribution of Neuron-Glia Interaction. Vitam Horm, 106:313-331.

Prezioso, G., Giannini, C., Chiarelli, F. (2018). Effect of Thyroid Hormones on Neurons and Neurodevelopment. Horm Res Paediatr, 90(2):73-81.

Rapaport, R. (2000). Congenital hypothyroidism: expanding the spectrum. J Pediatr, 136: 10-12.

Rego, T., Lado, C.G., Rodríguez, P.C., Santos, F.S., Angueira, F.B., Castro-Feijóo, L., Conde, J.B., Castro-Gago, M. (2017). Severe neurological abnormalities in a young boy with impaired thyroid hormone sensitivity due to a novel mutation in the MCT8 gene. Hormones (Athens), 16(2):194-199.

Rovet, J.F. (2014). The Role of Thyroid Hormones for Brain Development and Cognitive Function. Endocr Dev, 26:26-43.

Samuels, S.L., Namoc, S.M., Bauer, A.J. (2018). Neonatal Thyrotoxicosis. Clin Perinatol, 45(1):31-40.

Senese, R., Cioffi, F., de Lange, P., Goglia, F., Lanni, A. (2014): Thyroid: biological actions of 'nonclassical' thyroid hormones. J Endocrinol, 221(2):R1-12.

Selva, K.A., Mandel, S.H., Rien, L., Sesser, D., Miyahira, R., Skeels, M., Nelson, J.C., Lafranchi, S.H. (2002). Initial treatment dose of L-thyroxine in congenital hypothyroidism. J Pediatr, 141(6):786-92.

Stoupa, A., Kariyawasam, D., Nguyen Quoc, A., Polak, M., Carré, A. (2022). Approach to the Patient With Congenital Hypothyroidism. J Clin Endocrinol Metab, 107(12):3418-3427.

Su, P.Y., Huang, K., Hao, J.H., Xu, Y.Q., Yan, S.Q., Li, T., Xu, Y.H., Tao, F.B. (2011). Maternal thyroid function in the first twenty weeks of pregnancy and subsequent fetal and infant development: a prospective population-based cohort study in China. J Clin Endocrinol Metab, 96(10):3234-41.

Şıklar, Z., Oçal, G., Bilir, P., Ergur, A., Berberoğlu, M. (2009). "Maternal/Neonatal" iodine status in patients with prolonged physiological jaundice. Exp Clin Endocrinol Diabetes, 117(7):312-5.

Trumpff, C., De Schepper, J., Vanderfaeillie, J., Vercruysse, N., Van Oyen, H., Moreno-Reyes, R., Tafforeau, J., Vandevijvere, S. (2016). Neonatal thyroid-stimulating hormone concentration and psychomotor development at preschool age. Arch Dis Child, 101(12):1100-1106.

Uchida, K., Suzuki, M. (2021). Congenital Hypothyroidism and Brain Development: Association With Other Psychiatric Disorders. Front Neurosci, 15:772382.

Vaidyanathan, P. (2022). Update on Pediatric Hyperthyroidism. Adv Pediatr, 69: 219-229.

Zuñiga, L.F.F., Muñoz, Y.S., Pustovrh, M.C. (2022). Thyroid hormones: Metabolism and transportation in the fetoplacental unit. Mol Reprod Dev, 89(11):526-539.