RESUMO
Craniopharyngiomas (CPs) are benign tumors that are believed to arise from embryonic remnants of the Rathke pouch epithelium. Herein, we report a case of aseptic meningitis due to spontaneous rupture of multicystic CP, which contained an Ommaya catheter. A 19-year-old boy was admitted to the hospital with a 4-day history of acute severe headache after strenuous physical exercise followed by altered sensorium, fever, and neck stiffness. Cerebrospinal fluid (CSF) analysis revealed marked pleocytosis and elevated protein levels. CSF culture was otherwise negative. Cyst reduction on subsequent imaging confirmed the diagnosis. The patient received intravenous steroid therapy and was discharged asymptomatic. This is a rare evolution of a multicystic CP, which was previously treated with intracystic therapy and had an Ommaya catheter. Clinicians should be aware of spontaneous CP rupture and look actively for the occurrence of cholesterol crystals or elevated CSF levels of cholesterol as well as prompt follow-up imaging.
RESUMO
Evidence indicates that neuroplasticity-based cognitive training can improve cognition in patients with schizophrenia, but the individual response to training varies greatly between subjects. Hence, there is a need to understand the neurological underpinnings of cognitive training to reveal predictors of treatment response. D-serine is a crucial modulator of neuroplasticity, and decreased levels of D-serine may contribute to deficits in neuroplasticity in schizophrenia. Interestingly, we observed that training mice to identify auditory oddballs increased extracellular levels of D-serine in the hippocampus during training. Serine racemase (Srr) is the only source of brain D-serine; thus, it is possible that Srr may mediate the response to training. To test this hypothesis, we trained mice that have a mutated version of Srr (SrrY269*/SrrY269*) and reduced levels of D-serine in the same auditory training. SrrY269*/SrrY269* mice showed decreased performance during auditory training (defined as the capacity to discriminate an oddball during a sequence of tones). Importantly, auditory training improved prepulse inhibition (PPI) in SrrY269*/SrrY269* but not in wild-type mice. Finally, D-serine (100 mg/kg i.p.) given 30 min before training sessions to SrrY269*/SrrY269* mice improved training performance, but it did not enhance PPI. Taken together, our results show that D-serine is involved in the response to neuroplasticity-based auditory training and that PPI deficits can be improved by auditory oddball training even in the presence of neuroplasticity deficits.