Alzheimer's & Dementia Pharmacotherapy
Cholinesterase Inhibitors, Memantine & Disease-Modifying Anti-Amyloid Antibodies
Past RGUHS + DNB + MPMSU + MUHS + VNSGU · 26
DNBJun '25
RGUHSJun '24
DNBJun '22
VNSGUApr '22
DNBJun '21
MPMSUJun '17
MPMSU2017
MUHSSummer '17
MPMSU2016
MPMSU2016
DNBDec '16
DNBDec '15
MPMSU2014
MPMSU2014
MUHSWinter '14
MUHSSummer '14
MPMSU2013
DNBDec '13
MPMSU2011
MPMSU2011
DNBDec '11
RGUHSOct '10
MPMSU2008
RGUHSSep '07
MPMSU2005
MPMSU2003
Introduction & pathophysiology
- Alzheimer's disease (AD) is a progressive, irreversible neurodegenerative disorder — loss of hippocampal and cortical neurons (most vulnerable: entorhinal cortex & hippocampus) causing memory and cognitive decline; it is the prototypical cause of dementia. Death usually follows within 6–12 years, often from an immobility complication (pneumonia, pulmonary embolism).
- Two pathological hallmarks — extracellular amyloid plaques (aggregated amyloid β, Aβ) and intracellular neurofibrillary tangles (hyperphosphorylated tau in paired helical filaments). Plaques deposit first; tangle burden accrues over time and correlates more closely with cognitive impairment.
- Amyloid hypothesis — the early-onset autosomal-dominant genes APP, PSEN1, PSEN2 all drive Aβ production (presenilins form the catalytic core of γ-secretase); soluble Aβ oligomers (perhaps dimers) are more pathogenic than mature fibrils — the rationale for anti-amyloid therapy. APOE ε4 is the dominant risk allele (≥3-fold risk; ε4 carriers are <¼ of people yet >½ of AD cases).
- Three clinical stages — asymptomatic preclinical (Aβ/tau begin accumulating) → mild cognitive impairment (MCI) (episodic memory loss, function preserved) → dementia (progressive loss of functional ability). Modern diagnosis adds biomarkers — amyloid/tau PET (florbetapir, flutemetamol, florbetaben; flortaucipir for tau), CSF/plasma Aβ-tau, and the 2018 NIA-AA ATN framework (amyloid biomarker required for an AD diagnosis).
- Mechanisms of neuronal injury — Aβ and tau impair synaptic transmission/plasticity and drive excitotoxicity (excess glutamate via NMDA receptors — the basis for memantine), oxidative stress and neuroinflammation.
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Alzheimers Dementia Pharmacotherapy
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