Age linear sizes of human talamus

The analysis of the results of morphometric study of the thalamus using the method of magnetic resonance imaging of 73 mesocrane men aged 27 to 83 years without diseases and injuries of the central and peripheral nervous system, who do not have a history of alcohol and drug dependence, with a predominance of the right hand (right-handed), with no signs of pathology of the brain departments detected during the study, was done. From young to old age, mesocrane men showed a decrease in the parameters of all linear sizes of the thalamus. In the young, elderly, and senile ages in the left hemisphere, there is a tendency for the predominance of parameters of the transverse, longitudinal and vertical dimensions of the thalamus in comparison with the right hemisphere (p>0.05). The results obtained can be used as a reference for the age-related anatomical norm of the size of the thalamus in mesocrane men and will be useful for radiologists when conducting magnetic resonance imaging studies of brain structures.

1. Arablinski A.V. Computer and magnetic resonance imaging in the diagnosis of acute brain diseases / AV. Arablinski // Medicinskij alfavit. – 2010. – Vol. 2(19) – P. 21-24.

2. Biryukov A.N. Age and gender aspects of MRI-callosometry / A.N. Biryukov, Yu.I. Medvedeva, P.D. Hazov // Bulletin of the St. Petersburg medical academy of postgraduate education. – 2011– Vol. 3(4) – P. 56-63.

3. Evsikov G.Yu. Value of functional magnetic resonance imaging of the brain in surgery of intracerebral pathological entities of the region of the Central convolutions / G.Yu. Evsikov, S.P. Morozov, S.K. Ternovoy, V.E. Sinitsyn // Nejrohirurgiya. – 2004. – №4 – Р.27-29.

4. Ishunina T.A. Cortical and subcortical human brain structures in aging and in Alzheimer’s disease / T.A. Ishunina // Morphological Newsletter. – 2011. – №4 – Р.83-98.

5. Korolev A. A. Thalamus syndrome in poststroke patients with movement disorders / A. A. Korolev, G. A. Suslova // International journal of applied and fundamental research. – 2011. – №5. – Р. 96.

6. Kudrenko A.S. Morphometric research neuronal and glial populations of kernels ventral thalamus at fetus and newborns in conditions of chronic placentary insufficiency / A.S. Kudrenko, V.V. Semchenko, S.S. Stepanov // Morphological Newsletter. – 2009. – № 1-2. – Р. 29-32

7. Medulloblastomas of the cerebellum in children: clinicopathologic comparison / V.V. Morgun, O.G. Chernenko, I.A. Malovichko [et al.] // Pathology. – 2017. – Vol. 14(39) – Р.31-37. DOI: 10.14739/2310-1237.2017.1.97171

8. Post-Stroke Thalamic Syndrome (review) / S. A. Perepelitsa, T. A. Tumilovich, A. A. Shcherbakova // General resuscitation. – 2019. – Vol. 15(5) – P.88-105.

9. Basal ganglia and cerebellar interconnectivity within the human thalamus / Esther A. Pelzer, Corina Melzer, Lars Timmermann [et al.] // Brain Structure and Function. – 2017. – Vol. 222, №1. – Р. 381–392. DOI: 10.1007/s00429- 016-1223-z

10. Cognitive Functions and Neurodevelopmental Disorders Involving the Prefrontal Cortex and Mediodorsal Thalamus / Zakaria Ouhaz, Hugo Fleming, Anna S. Mitchell // Frontiers in Neuroscience. – 2018. – Vol. 12, № 33. DOI: 10.3389/fnins.2018.00033

11. Drivers of the Primate Thalamus / Zita Rovó, István Ulbert, László Acsády // J Neurosci. – 2012. – Vol. 32, №49. – P. 17894–17908. DOI: 10.1523/JNEUROSCI.2815-12.2012

12. Primate Thalamus: More Than Meets an Eye / DJ Wallace, D Fitzpatrick, JND Kerr // Current Biology. – 2016. –Vol. 26, №2. – Р. 60-61. DOI: 10.1016/j.cub.2015.11.025.

13. Sleep-wake control and the thalamus / TС Gent, С Bassetti, AR Adamantidis // Current Opinion in Neurobiology. – 2018. – Vol. 52, №32. – Р. 188-197. doi: 10.1016/j.conb.2018.08.002

14. The brain, sirtuins, and ageing / A. Satoh, SI. Imai, L. Guarente // Nature Reviews Neuroscience. – 2017. Vol. 18, №6. – Р. 362–374. DOI: 10.1038/nrn.2017.42.

15. The Human Thalamus Is an Integrative Hub for Functional Brain Networks / Kai Hwang, Maxwell A. Bertolero, William B. Liu, Mark D'Esposito // J Neurosci. – 2017. –Vol. 37, № 23.– Р.5594–5607. DOI: 10.1523/JNEUROSCI.0067-17.2017