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⚗️ Metals 1041
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neuroscience (64)cognitive function (30)synaptic plasticity (25)stress (15)antidepressant (14)pharmacology (11)cognitive dysfunction (10)toxicology (9)cognition (9)serotonin (8)major depressive disorder (7)molecular biology (7)spinal cord injury (7)prefrontal cortex (7)chronic stress (6)autism spectrum disorder (6)chronic pain (6)exosomes (6)ptsd (6)cognitive (6)irisin (5)pregnancy (5)memory impairment (5)network pharmacology (5)cognitive performance (5)endoplasmic reticulum stress (5)neuropharmacology (5)environmental enrichment (4)homeostasis (4)oncology (4)neuroprotective effects (4)traumatic brain injury (4)molecular mechanisms (4)depressive disorder (4)cardiovascular (4)psychopharmacology (4)neuroregeneration (4)resveratrol (4)post-traumatic stress disorder (4)chitosan (4)affective disorders (3)osteoporosis (3)insomnia (3)high-intensity interval training (3)neurobiological mechanisms (3)serum (3)treatment-resistant depression (3)mirna (3)nerve regeneration (3)animal model 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📌 LLM 852
▸ LLM (77)
bdnf (116)neuroprotection (67)depression (63)neuroinflammation (53)neurotrophic factor (49)alzheimer's disease (44)oxidative stress (40)anxiety (32)inflammation (28)apoptosis (22)cognitive impairment (20)biomarkers (16)neurodegeneration (16)gene expression (15)parkinson's disease (15)hippocampus (15)cognitive decline (15)brain (15)gut microbiota (13)schizophrenia (13)microglia (11)therapeutic target (11)neurogenesis (11)biomarker (10)creb (9)signaling pathway (9)huntington's disease (8)animal study (8)bdnf/trkb (8)neurodegenerative disease (7)neuron (7)hpa axis (5)cerebral ischemia (5)autophagy (4)in vitro (4)nrf2 (4)mitochondrial dysfunction (4)hiv (4)synaptic remodeling (3)mapk (3)longitudinal study (3)gut (2)preclinical study (2)synaptogenesis (2)cerebrospinal fluid (2)mtor (2)plasma (2)epigenetic mechanisms (2)multiple sclerosis (2)dna damage (2)erk1/2 (2)nf-κb (2)amyloid clearance (1)mechanotransduction (1)neurotrophic effects (1)cholinergic neurotransmission (1)alzheimer (1)neuropsychiatric disorder (1)feature selection (1)brain injury (1)neural stem cell (1)neuroinflammatory signaling (1)review (1)microbial metabolite (1)friedreich's ataxia (1)nrf2/are (1)non-alcoholic steatohepatitis (1)clinical observation (1)cerebellar granule neurons (1)pi3k/akt (1)exposome (1)neurocognitive performance (1)cohort study (1)stress response (1)erk/creb (1)epigenetic regulation (1)neuroendocrine signaling (1)
🦠 Diseases 57
▸ Diseases — Other (15)
neurodegenerative diseases (15)neurodegenerative disorder (10)neurodegenerative disorders (10)diabetes (5)cancer (3)type 2 diabetes (2)lung cancer (2)alzheimer disease (2)type 2 diabetes mellitus (2)type 3 diabetes (1)neurodegenerative (1)non-small cell lung cancer (1)diabetes mellitus (1)anticancer (1)gestational diabetes mellitus (1)
⚙️ Mechanisms 56
▸ Mechanisms — Other (43)
signaling pathways (6)signaling (4)mitochondrial dynamics (3)epigenetics (2)mitochondrial (2)bdnf signaling (2)mitochondrial biogenesis (1)epigenetic (1)crf signaling (1)pi3k/akt signaling pathway (1)oxidative dna damage (1)mapk/erk/jnk signaling pathways (1)bdnf/trkb signaling (1)biological signaling pathways (1)mitochondrial fatty acid β-oxidation (1)mitochondrial fusion (1)wnt signaling (1)nf-kb signaling (1)neural signaling (1)akt signaling pathway (1)mitochondrial quality (1)pi3k/akt/mtor signaling pathway (1)mitochondrial functions (1)camp/pka signaling pathway (1)cholinergic signaling (1)neuroplastic signaling (1)cellular signaling (1)neurotrophin signaling (1)metabolite signaling (1)serotonergic signaling (1)mitochondria (1)epigenetic modifications (1)endocrine signaling (1)insulin signaling (1)ng2 signaling (1)pacap signaling (1)pi3k/akt/bdnf signaling (1)bdnf-trkb signaling pathway (1)camp signaling (1)mitochondrial energy metabolism (1)pain signaling (1)calcium signaling (1)neuroimmune signaling (1)
🎯 Targets 22
▸ Targets — Other (13)
micrornas (4)microrna (3)maternal separation (2)lncrna (2)maternal immune activation (2)maternal exercise (2)microrna-34a (1)maternal (1)mtor pathway (1)rna (1)dna methylation (1)mrna (1)fibrinolytic enzymes (1)
🧬 Activities 20
▸ Activities — Other (10)
antioxidant (11)sensory nerves (1)antioxidant activity (1)pet imaging (1)in vivo imaging (1)bioluminescence imaging (1)sensory neurotoxicity (1)neuroimaging (1)antioxidants (1)antioxidant properties (1)
🔗 Ligands 19
▸ Ligands — Other (12)
ketamine (4)monoamine deficiency (2)monoaminergic (2)dopamine (2)dopaminergic neurons (2)dopaminergic neuron (1)histaminergic transmission (1)esketamine (1)monoamine (1)dopaminergic (1)methamphetamine (1)histamine (1)
🧠 Concepts 5
▸ Concepts — Other (4)
metabolism (2)immunometabolism (1)brain metabolism (1)energy metabolism (1)
💊 Drugs 4
▸ Drugs — Other (3)
quercetin (2)oxaliplatin (1)paclitaxel (1)

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Ultrasound-Mediated Gene Therapy in Alzheimer's Disease Validated through In Vivo PET Imaging.

Yutong Guo, Josquin Foiret, Javier Ajenjo +9 more · 2026 · bioRxiv : the preprint server for biology · added 2026-04-24
Efficient, spatially selective delivery of adeno-associated virus (AAV) therapeutics to deep brain structures remains a major challenge to gene therapy for Alzheimer's disease (AD), owing to limited t Show more
Efficient, spatially selective delivery of adeno-associated virus (AAV) therapeutics to deep brain structures remains a major challenge to gene therapy for Alzheimer's disease (AD), owing to limited transport across the blood-brain barrier (BBB) and poor penetration to target neurons. Here, we establish an integrated, noninvasive imaging and therapy platform that combines microbubble-enhanced focused ultrasound (MB-FUS) with positron emission tomography/computed tomography (PET/CT) to transiently modulate the BBB, enhance region-specific AAV delivery following systemic dosing, and longitudinally track transduction in vivo. Optimized MB-FUS achieved targeted hippocampal delivery of systemically administered AAV9 in healthy mice, resulting in a 10-fold enhancement of neuronal transduction as compared to non-FUS controls. Importantly, longitudinal PET reporter gene imaging in the 5xFAD AD model demonstrated robust brain AAV transduction that remained stable for at least seven months. Finally, to assess therapeutic impact, we used brain-derived neurotrophic factor (BDNF) as a test cargo. MB-FUS-facilitated delivery elevated BDNF expression in targeted regions and produced short-term improvements in synaptic signaling in 5xFAD mice. Collectively, these results highlight MB-FUS as a next-generation delivery platform to overcome barriers to AAV therapeutic delivery in Alzheimer's disease and position longitudinal PET assessment as a critical, translatable tool for monitoring and optimizing gene therapy. Show less
no PDF DOI: 10.64898/2026.02.02.703398
BDNF adeno-associated virus alzheimer's disease blood-brain barrier gene therapy in vivo imaging pet imaging ultrasound