Putamen

The putamen (pjutˈeɪmən; from Latin, meaning "nutshell") is a round structure located at the base of the forebrain (telencephalon). The putamen and caudate nucleus together form the dorsal striatum. It is also one of the structures that compose the basal nuclei. Through various pathways, the putamen is connected to the substantia nigra, the globus pallidus, the claustrum, and the thalamus, in addition to many regions of the cerebral cortex. A primary function of the putamen is to regulate movements at various stages (e.g. preparation and execution) and influence various types of learning. It employs GABA, acetylcholine, and enkephalin to perform its functions. The putamen also plays a role in degenerative neurological disorders, such as Parkinson's disease. The word "putamen" is from Latin, referring to that which "falls off in pruning", from "putare", meaning "to prune, to think, or to consider". Until recently, most MRI research focused broadly on the basal ganglia as a whole, for various reasons (e.g. image resolution, rarity of isolated infarct or hemorrhage within the putamen, etc.). However, many studies have been done on the basal ganglia and relevant brain-behavior relationships. In the 1970s, the first single unit recordings were done with monkeys monitoring pallidal neuron activity related to movement. Since then, more extensive neuronal tracing, stimulation, and imaging research methods (e.g. fMRI, DWI) that allow for investigation of the putamen have been developed. The putamen is a structure in the forebrain. Along with the caudate nucleus it forms the dorsal striatum. The caudate and putamen contain the same types of neurons and circuits – many neuroanatomists consider the dorsal striatum to be a single structure, divided into two parts by a large fiber tract, the internal capsule, passing through the middle. The putamen, together with the globus pallidus, makes up the lentiform nucleus. The putamen is the outermost portion of the basal ganglia.

Interrelation between cardiac and brain small-vessel disease: a pilot quantitative PET and MRI study

Cortico-muscular connectivity is modulated by passive and active Lokomat-assisted Gait

Clinical feasibility and validation of the accelerated T2 mapping sequence GRAPPATINI in brain imaging

Clinical feasibility and validation of the accelerated T2 mapping sequence GRAPPATINI in brain imaging

Interrelation between cardiac and brain small-vessel disease: a pilot quantitative PET and MRI study

Cortico-muscular connectivity is modulated by passive and active Lokomat-assisted Gait