The nondominant (usually right) inferior‑posterior parietal cortex integrates visual, tactile, and proprioceptive inputs into a unified spatial map of contralateral space. Injury disconnects awareness of the left side of the body and environment, producing hemi‑neglect, constructional apraxia, and dressing apraxia. Patients may deny ownership of the affected limb or attribute its movement to others (anosognosia and asomatognosia). Frontal, temporal, or occipital lesions can impair attention or vision but do not create the characteristic neglect syndrome.

Occlusion of the posterior‑inferior cerebellar artery causes the Wallenberg (lateral medullary) syndrome. Ipsilateral symptoms—facial numbness (trigeminal nucleus), Horner syndrome, nystagmus, hoarseness, dysphagia (nucleus ambiguus), and limb ataxia—arise alongside contralateral loss of body pain and temperature (spinothalamic tract). Vestibular nuclei involvement explains vertigo and vomiting, whereas damage to respiratory centers produces hiccups. Midline (medial) medullary or pontine strokes give different crossed findings.

The cerebellar hemispheres coordinate timing and amplitude of ipsilateral limb movements. Lesions produce intention tremor (worsening as the limb approaches a target), dysmetria on finger–nose testing, and impaired rapid alternating movements (dysdiadochokinesia). Because descending motor pathways cross twice, deficits appear on the same side as the cerebellar injury. Basal ganglia or corticospinal tract lesions impair initiation or strength rather than precision of movement.

The right inferior parietal lobule constructs internal representations of body schema and external space. Damage leads to hemispatial neglect, extinction to double stimulation, and denial of paresis (anosognosia). The patient may confabulate explanations for involuntary limb movement (alien‑limb phenomena). Left parietal lesions impair language‑related praxis; temporal lesions affect memory or emotion but not spatial attention.

Neural progenitor cells in the subgranular zone of the dentate gyrus divide, migrate a short distance into the granule‑cell layer, and differentiate into excitatory granule neurons. These newborn cells integrate into hippocampal circuits, contribute to pattern separation, and may support mood regulation and memory. In the adult human brain, robust neurogenesis outside the dentate gyrus and olfactory bulb is minimal or controversial.

The ACA supplies medial aspects of frontal and parietal lobes, including leg motor cortex and anterior cingulate. Infarction produces contralateral leg weakness and sensory loss, urinary incontinence, and abulia or reduced initiation due to cingulate damage. The face and arm are spared because they reside in lateral motor cortex (MCA territory). Posterior cerebral infarcts cause homonymous hemianopia, and Horner syndrome reflects sympathetic pathway injury.

The orbitofrontal and ventromedial regions of the frontal lobe modulate social conduct, impulse control, and foresight. Lesions, tumors, or frontotemporal degeneration here yield disinhibition, jocularity, profanity, and poor financial or sexual judgment. Temporal lobe pathology more typically causes memory or emotional disturbances, parietal lesions impair spatial awareness, and occipital damage affects vision.