Laminar and neurochemical organization of the dorsal cochlear nucleus of the human, monkey, cat, and rodents.

The dorsal cochlear nucleus (DCN) is a brainstem structure that receives input from the auditory nerve. Many studies in a diversity of species have shown that the DCN has a laminar organization and identifiable neuron types with predictable synaptic relations to each other. In contrast, studies on the human DCN have found a less distinct laminar organization and fewer cell types, although there has been disagreement among studies in how to characterize laminar organization and which of the cell types identified in other animals are also present in humans.

Neurochemical organization of the vestibular brainstem in the common chimpanzee (Pan troglodytes).

Chimpanzees are one of the closest living relatives of humans. However, the cognitive and motor abilities of chimpanzees and humans are quite different. The fact that humans are habitually bipedal and chimpanzees are not implies different uses of vestibular information in the control of posture and balance.

Understanding tinnitus: the dorsal cochlear nucleus, organization and plasticity.

Tinnitus, the perception of a phantom sound, is a common consequence of damage to the auditory periphery. A major goal of tinnitus research is to find the loci of the neural changes that underlie the disorder. Crucial to this endeavor has been the development of an animal behavioral model of tinnitus, so that neural changes can be correlated with behavioral evidence of tinnitus.

Nonphosphorylated neurofilament protein is expressed by scattered neurons in the human vestibular brainstem.

Vestibular information is critical for the maintenance of balance and posture and for the control of eye movements. The eighth nerve carries vestibular information to four brainstem nuclei called the vestibular nuclear complex (VNC); these nuclei relay vestibular signals to several additional brainstem nuclei. The structure, connections, effects of lesions and neuronal response properties of the vestibular brainstem have been studied in many nonhuman species.