ABSTRACT
Discovered in 1865 by Jules Bernard Luys, the subthalamic nucleus is a set of small nuclei located in the diencephalon, inferior to the thalamus and superior to the substantia nigra, that can be visualized in a posterior coronal section. Histologically, it consists of neurons compactly distributed and filled with a large number of blood vessels and sparse myelinated fibers. This review presents an analysis of this anatomical region, considering what is most recent in the literature. Subthalamic neurons are excitatory and use glutamate as the neurotransmitter. In healthy individuals, these neurons are inhibited by nerve cells located in the side globus pallidus. However, if the fibers that make up the afferent circuit are damaged, the neurons become highly excitable, thus causing motor disturbances that can be classified as hyperkinetic, for example ballism and chorea, or hypokinetic, for example Parkinson disease (PD). The advent of deep brain stimulation has given the subthalamic nucleus great visibility. Studies reveal that the stimulation of this nucleus improves themotor symptoms of PD.
Subject(s)
Subthalamic Nucleus/anatomy & histology , Subthalamic Nucleus/abnormalities , Subthalamic Nucleus/surgery , Parkinson Disease , Substantia Nigra/anatomy & histology , Cerebral Cortex/anatomy & histology , Corpus Striatum/anatomy & histology , Deep Brain Stimulation/methods , Globus Pallidus/anatomy & histology , Motor Cortex/anatomy & histologyABSTRACT
Neuropsychiatric disease has polygenic determinants but is often precipitated by environmental pressures, including adverse perinatal events. However, the way in which genetic vulnerability and early-life adversity interact remains obscure. We hypothesised that the extreme environmental stress of prematurity would promote neuroanatomic abnormality in individuals genetically vulnerable to psychiatric disorders. In 194 unrelated infants (104 males, 90 females), born before 33 weeks of gestation (mean gestational age 29.7 weeks), we combined Magnetic Resonance Imaging with a polygenic risk score (PRS) for five psychiatric pathologies to test the prediction that: deep grey matter abnormalities frequently seen in preterm infants are associated with increased polygenic risk for psychiatric illness. The variance explained by the PRS in the relative volumes of four deep grey matter structures (caudate nucleus, thalamus, subthalamic nucleus and lentiform nucleus) was estimated using linear regression both for the full, mixed ancestral, cohort and a subsample of European infants. Psychiatric PRS was negatively associated with lentiform volume in the full cohort (ß = -0.24, p = 8 × 10-4) and a European subsample (ß = -0.24, p = 8 × 10-3). Genetic variants associated with neuropsychiatric disease increase vulnerability to abnormal lentiform development after perinatal stress and are associated with neuroanatomic changes in the perinatal period.
Subject(s)
Environmental Exposure/adverse effects , Gray Matter/embryology , Infant, Premature, Diseases/genetics , Infant, Premature, Diseases/psychology , Mental Disorders/genetics , Multifactorial Inheritance/genetics , Brain Mapping , Caudate Nucleus/abnormalities , Caudate Nucleus/embryology , Corpus Striatum/abnormalities , Corpus Striatum/embryology , Europe , Female , Gray Matter/abnormalities , Humans , Infant, Newborn , Infant, Premature/psychology , Magnetic Resonance Imaging , Male , Subthalamic Nucleus/abnormalities , Subthalamic Nucleus/embryology , Thalamus/abnormalities , Thalamus/embryologyABSTRACT
A patient with absence of the basal ganglia and refractory epilepsy without impairment of pyramidal or extrapyramidal motor function is reported. Imaging findings suggest a vascular insult as etiology. Preserved motor function could be explained by neuronal plasticity involving contralateral corticostriatal and pallidothalamic connections and points to a lesion received in early pregnancy.
