Study of the Effects of L-tryptophane Nanoparticles on Motor Behavior in Alzheimer's Experimental Models

Abstract: Background: Alzheimer's disease (AD) is a neurodegenerative disease characterized by the progressive and incapacitating decay of cognitive, neuropsychiatric, and behavioral manifestations. L-tryptophan is the precursor amino acid of serotonin, which is a neurotransmitter responsible for mood balance and the sense of well-being and can be administered in the form of nanoparticles. Objective: This study analyzed the effectiveness of L-tryptophan nanoparticles and L-tryptophan on behavioral physiological alter… Show more

“…The animals were anesthetized with 80mg/Kg ketamine hydrochloride to 15mg/Kg xylazine hydrochloride via intraperitoneal. They were soon taken to an extereotaxic apparatus (David Kopf, USA) where their heads were fixed by the petrous temporal bone and upper incisors under coordinates AP= -3.0mm, ML= 1.6mm, -1.6mm and DV= 3.0mm, taking the bregma as reference, receiving 4µl of β-amyloid peptide via Hamilton syringe in the CA1 region of the hippocampus for the process of senile plaque development [14]. After the induction of the neuroinflammation and neurofibrillary process, the animals were rested for a period of 30 days for the inflammatory and neurodegenerative processes of hippocampal neurons to occur.…”

Effects of α-Humulene and its Nanoparticles in Experimental Model of Alzheimer's Disease: Behavioral Analysis and Anti-Inflammatory Activity

“…The animals were anesthetized with 80mg/Kg ketamine hydrochloride to 15mg/Kg xylazine hydrochloride via intraperitoneal. They were soon taken to an extereotaxic apparatus (David Kopf, USA) where their heads were fixed by the petrous temporal bone and upper incisors under coordinates AP= -3.0mm, ML= 1.6mm, -1.6mm and DV= 3.0mm, taking the bregma as reference, receiving 4µl of β-amyloid peptide via Hamilton syringe in the CA1 region of the hippocampus for the process of senile plaque development [14]. After the induction of the neuroinflammation and neurofibrillary process, the animals were rested for a period of 30 days for the inflammatory and neurodegenerative processes of hippocampal neurons to occur.…”

Effects of α-Humulene and its Nanoparticles in Experimental Model of Alzheimer's Disease: Behavioral Analysis and Anti-Inflammatory Activity

Nanobiotechnology in Neurodegenerative Diseases

Therapeutic nanotechnologies for Alzheimer’s disease: A critical analysis of recent trends and findings