Baclofen (fun drug) and ethanol combined poisoning in humans: A histopathology and morphometry model.

Background: - This study intends to address the scarcity of data regarding the pathogenesis of Baclofen poisoning in humans, which has seen a recent increase, worldwide, especially amongst the young people. Another reason for the conduction of this study was lack of the substantial data about the histo-pathological findings of lungs, in synergistic toxicity of Baclofen with Ethanol, in-spite of it being very common in humans, and both being respiratory depressant with similar mechanism of action.

Purpose: - The authors aimed to understand the pathogenesis of fatal poisonings in humans due to Baclofen in combination with Ethanol via an animal research model.

Effectiveness of GK-2, a Nerve Growth Factor Mimetic, in Preventing Post-Resuscitation Changes in the Brain.

Neurological status was assessed and the numbers of neurons per 1 mm in pyramidal neuronal layer length in CA1 and CA4 hippocampal fields and cerebellar Purkinje cells were evaluated in albino male rats on post-resuscitation day 14 after 12-min cardiac arrest. Intraperitoneal administration of GK-2 (1 mg/kg 30 min after resuscitation and within the next 3 days with an interval of 24 h) accelerated neurological recovery of the animals, sharply reduced the intensity of cerebellar Purkinje cell death, and prevented loss of pyramidal neurons in the hippocampus. These results show the effectiveness of systemic administration of the nerve growth factor mimetic GK-2 in improving structural and functional state of the brain in the post-resuscitation period.

Role of ADP-ribosyl cyclase in the pathogenesis of neurological disorders after coronary artery bypass surgery and experimental ischemia.

The pathogenesis of neuronal dysfunction was evaluated from the viewpoint of cellular disturbances in NAD(+) metabolism and changes in activity of NAD(+)-utilizing enzymes (e.g., ADP-ribosyl cyclase/CD38).

Postresuscitation changes in neuronal hippocampal populations in rats with different learning ability.

The state of pyramidal cell populations in CA1 and CA4 hippocampal fields was studied in resuscitated and intact rats with different learning ability. Morphometry showed that postresuscitation damage to neurons was more pronounced in good learners compared to poor learners. Interferometry revealed higher protein content in neurons in poor learners compared to successfully trained rats.