about
The excitotoxin quinolinic acid induces tau phosphorylation in human neuronsAge related changes in NAD+ metabolism oxidative stress and Sirt1 activity in wistar ratsMetal and complementary molecular bioimaging in Alzheimer's disease.Excitotoxic potential of the cyanotoxin β-methyl-amino-L-alanine (BMAA) in primary human neurons.Age-associated changes in oxidative stress and NAD+ metabolism in human tissue.Pomegranate from Oman Alleviates the Brain Oxidative Damage in Transgenic Mouse Model of Alzheimer's disease.Construction and use of a Cupriavidus necator H16 soluble hydrogenase promoter (PSH) fusion to gfp (green fluorescent protein)Therapeutic role of sirtuins in neurodegenerative disease and their modulation by polyphenols.Involvement of the kynurenine pathway in human glioma pathophysiology.Therapeutic relevance of ozone therapy in degenerative diseases: Focus on diabetes and spinal pain.Wnt-5a ligand modulates mitochondrial fission-fusion in rat hippocampal neuronsUptake and mitochondrial dysfunction of alpha-synuclein in human astrocytes, cortical neurons and fibroblasts.Upregulation of glycolytic enzymes, mitochondrial dysfunction and increased cytotoxicity in glial cells treated with Alzheimer's disease plasma.Differential expression of sirtuins in the aging rat brainDiet rich in date palm fruits improves memory, learning and reduces beta amyloid in transgenic mouse model of Alzheimer's disease.Identification of Cerebral Metal Ion Imbalance in the Brain of Aging Octodon degus.Promotion of cellular NAD(+) anabolism: therapeutic potential for oxidative stress in ageing and Alzheimer's disease.Neuroprotective effects of hesperidin, a plant flavanone, on rotenone-induced oxidative stress and apoptosis in a cellular model for Parkinson's disease.Neuroprotective effects of a variety of pomegranate juice extracts against MPTP-induced cytotoxicity and oxidative stress in human primary neurons.Application of Targeted Mass Spectrometry for the Quantification of Sirtuins in the Central Nervous System.NAD+ metabolism and oxidative stress: the golden nucleotide on a crown of thorns.Neuroprotective effect of natural products against Alzheimer's disease.Excitotoxicity in the pathogenesis of autism.The kynurenine pathway in brain tumor pathogenesis.Role of Sirt1 during the ageing process: relevance to protection of synapses in the brain.Signaling pathway cross talk in Alzheimer's diseaseAccelerating Alzheimer's research through 'natural' animal models.Teneurins and Alzheimer's disease: a suggestive role for a unique family of proteins.Therapeutic approaches to modulating glutathione levels as a pharmacological strategy in Alzheimer's disease.Luteolin as an anti-inflammatory and neuroprotective agent: A brief review.Natural products, micronutrients, and nutraceuticals for the treatment of depression: A short review.Quercetin and the mitochondria: A mechanistic view.Insights Into Effects of Ellagic Acid on the Nervous System: A Mini Review.Resveratrol as a Potential Therapeutic Candidate for the Treatment and Management of Alzheimer's Disease.Genetic and environmental factors in vascular dementia: an update of blood brain barrier dysfunction.Effects of Kynurenine Pathway Inhibition on NAD Metabolism and Cell Viability in Human Primary Astrocytes and Neurons.The application of lipidomics to biomarker research and pathomechanisms in Alzheimer's disease.Resveratrol and Alzheimer's Disease: Mechanistic Insights.Chlorogenic Acid and Mental Diseases: From Chemistry to MedicineRhodiola rosea L. and Alzheimer's Disease: From Farm to Pharmacy.
P50
Q33485236-C693FE20-9957-4033-95DC-DBC4887C0D84Q33889428-3934DE18-37A0-4D7E-B4B3-554A5B1B67B3Q33901773-18FEA0AE-006A-4C68-B14A-89021FE92AFEQ34293498-A925EFA8-BCCE-4CCC-BCDE-CABE8DE47062Q34359729-3896D44E-9298-422D-BC5A-7BB649E51DB7Q34453860-ECBC2DC4-61D6-464F-92A8-570CF67EF824Q34538058-9A8CEEFA-4153-434B-9141-4ADFBB3606ABQ34546583-BD3DCF4F-8B6A-4665-A94C-F31CBB924F07Q34556982-1611FB53-5629-4DDC-BB41-FE994BC917CDQ34557662-3BE5D1F8-936D-4EDC-A928-80522F8789B7Q34774573-85EB9854-6BAD-4254-A035-B143336A4B8BQ35008102-F7F4211D-AE75-4E48-9F6C-41D7BE1C60FAQ35191570-A2748EE7-CD14-4C82-AB1B-6F66124B46A6Q35584969-ED561017-4578-426E-A3D9-61B9EB2FA359Q35792238-B59E6BFD-8D6E-4BAF-843B-B2E27EA25D50Q36345404-A701AFE7-09CC-43DA-B6B4-5BD60A395373Q37181486-EC75F1B1-8B93-468E-9F97-44A6EAFA2DA3Q37239738-F566EA92-0F1C-44BC-81CC-034D40087453Q37275312-D4CFE06D-BB7D-4A98-A7B1-D9EFF0379ED0Q37352729-B9975068-4041-45D9-AC34-2531B6ED4912Q37984791-18F912B8-32A1-4821-BBF5-F1905C64B594Q38012044-7B8230F2-5910-4165-A7C8-34B257225998Q38052081-1B984C4A-A6EE-4EE0-A458-DDE98F010F15Q38059195-675E73A4-5454-4D54-A012-3E5F3DFFB422Q38185276-1EFFB7E1-93EA-4DD6-B52D-F0D49CF251C7Q38200151-5A3BCEB6-CE49-4A6A-A00A-B1811B76EC8EQ38324666-5FB581FF-A68B-424D-AAFC-52CC254106BDQ38349507-ABD75092-D832-4001-B018-794AA976C78FQ38366745-C6F86F2E-A4E5-45DB-BBA9-D02EAD0E411AQ38585096-24673394-7C7A-476D-8A24-79A335E83278Q38650263-04686F7A-3E33-4714-B35A-8107BE594C4DQ38689031-3EEC28DD-ABB0-4AE4-BB68-F73AE4A9F25DQ38710199-D132F7F5-E14C-458D-9BA4-899E668346C6Q38723145-36A5EF15-04B3-48D2-BC67-AF3403847A91Q38727383-2F00B92E-A0B4-4CCC-B7B8-6B1D581600DFQ38728529-BE459A12-31E8-4343-B736-FE274000C3B6Q38779741-375C4240-54AA-4A5D-A81B-47B083D9BCF9Q38780918-BAF55FF5-5946-454F-9B6B-7464FF4DE13DQ38788042-DADD2CC5-5DC4-4AE0-99E9-168483F221D2Q38802429-506172D4-9F13-4A13-B45C-E785218AFFF4
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Nady Braidy
@ast
Nady Braidy
@en
Nady Braidy
@es
Nady Braidy
@nl
type
label
Nady Braidy
@ast
Nady Braidy
@en
Nady Braidy
@es
Nady Braidy
@nl
prefLabel
Nady Braidy
@ast
Nady Braidy
@en
Nady Braidy
@es
Nady Braidy
@nl
P106
P1153
25631599100
P31
P496
0000-0002-0497-5572