Animal Biotechnology

Content

• TABLE OF CONTENTS
• Executive Summary
• 1.Clinical Features, Epidemiology and Pathology
  • Introduction
  • Historical aspects
  • Clinical features of Alzheimer disease
  • Seven stages of Alzheimer disease
  • Detection of AD in the preclinical phase
  • Differentiation of AD from other dementias
  • Differentiation of AD from non-dementing disorders
  • Cerebral insufficiency and AD
  • Memory deficits and preclinical AD
  • Mild cognitive impairment
  • Diagnostic criteria of AD
  • Epidemiology
  • Epidemiology of aging
  • Epidemiology of dementia
  • Epidemiology of AD
  • Prevalence of AD according to age
  • Mortality in AD
  • Pathophysiology of AD
  • Cerebral atrophy and neuronal loss
  • Neuritic plaques and neurofibrillary tangles
  • Sp proteins as markers of neuronal death in AD
  • Role of tau in the pathogenesis of AD
  • Amyloid precursor protein
  • Relation of APP mutations to CNS disorders
  • Relation of APP to A deposits and pathogenesis of AD
  • Role of secretases in amyloid cascade
  • Role of exosomal proteins
  • Role of nicastrin
  • Neurotixicity of A deposits
  • Relation of A deposits to synaptic activity
  • Dysfunction of TGF- signaling accelerates A deposition
  • Role of TMP21 in presenilin complexes and A formation
  • Role of A dimers in the pathogenesis of AD
  • A deposit and clearance
  • Impairment of mitochondrial energy metabolism
  • A-binding alcohol dehydrogenase links AD to mitochondrial toxicity
  • Neural thread protein
  • Loss of synaptic proteins
  • AD and Down syndrome
  • Overlapping pathologies of AD and Parkinson disease
  • AD and age-related macular degeneration
  • Myelin hypothesis of AD
  • Blood-brain barrier in AD
  • Blood vessel damage in AD
  • Loss of serotonin 1A receptors in the brain
  • Factors in pathogenesis of AD
  • Astrocytes and AD
  • Axonal transport failure in AD
  • Cell-cycle hypothesis
  • Creatine and AD
  • Disturbances of interaction of nervous system proteins
  • DENN/MADD expression and enhanced pro-apoptotic signaling in AD
  • Gonadotrophins and AD
  • Glutamate transport dysfunction in AD
  • Innate immune system and AD
  • Insulin, diabetes and AD
  • Mechanisms underlying cognitive deficits in AD
  • Monoamine oxidase and AD
  • Neuroinflammation and AD
  • Neurotransmitter deficits
  • Neurotrophic factors
  • NF-B signaling and the pathogenesis of neurodegeneration
  • Nitric oxide and AD
  • Nogo receptor pathway
  • Oxidative stress and AD
  • Prostaglandins and AD
  • Quinolinic acid and AD
  • Retromer deficiency
  • Serotonin and AD
  • Spherotoxin
  • Synaptic failure in AD
  • Transmission of AD
  • Ubiquitin-proteasome system in pathogenesis of AD
  • Risk factors in the etiology of AD
  • Aging and developmental abnormalities of the cholinergic system
  • Cholesterol, dietary lipids, and A
  • Exposure to magnetic fields
  • Family history of AD
  • Homocysteine and AD
  • Level of education/type of job and risk of AD
  • Metals and AD
  • Obesity
  • Proneness to psychological distress and risk of AD
  • Traumatic brain injury and AD
  • Vascular risk factors for AD
  • Vitamin B12 and folate
  • AD versus non-dementing changes in the aging brain
  • AD and impairment in cognitive aging
  • Concluding remarks on pathophysiology of AD
  • Genetics of AD
  • Familial AD
  • Presenilins and calcium channel leak in pathogenesis of familial AD
  • Late onset AD
  • Genomics of AD
  • Introduction to genomics
  • Genes associated with Alzheimer disease
  • ApoE gene
  • ApoE genotype and nitric oxide
  • APOE genotype and age-related myelin breakdown
  • CALHM1 polymorphism and AD
  • Interaction between ApoE receptor and NMDA receptor
  • ApoE and ApoER2
  • LR11 receptor for ApoE as regulator of A
  • DAPK1 gene variants and AD
  • CYP46 and risk for AD
  • Genetic variants associated with late-onset AD
  • OGG1 mutations associated with AD
  • Role of SORL1 gene in AD
  • The Arctic mutation
  • LRRTM3 as a candidate gene for AD
  • AlzGene database
  • Molecular neuropathology
  • Proteomics of AD
  • Introduction
  • Application of proteomic technologies to study AD
  • Protein misfolding in AD
  • Common denominators of AD and prion diseases
  • Amyloid fibrils as a common feature of AD and prion diseases
• 2.Diagnostic Procedures for Alzheimer Disease
  • Importance of the diagnosis of Alzheimer disease
  • Methods of diagnosis of AD
  • Self-administered olfactory test
  • Neuropsychological testing
  • Assessment and evaluation
  • The seven minute screen
  • Measurement of aggregation in anterior segment of the eye
  • Activities of Daily Living
  • Alzheimer Disease Cooperative Study
  • CDR-SOB score
  • Clinician's Interview-Based Impression of Change
  • Resource Utilization in Dementia Battery
  • DETECT? System
  • Electrophysiology
  • Early detection of cataract associated with AD
  • Laboratory methods for diagnosis of AD
  • Monitoring of synthesis and clearance rates of A in the CSF
  • Molecular diagnostics for AD
  • Genetic tests for AD
  • ApoE genotyping
  • Gene expression patterns in AD
  • Molecular fingerprinting of the immune system in AD
  • Microarray-based tests for AD
  • Monoclonal antibody-based in vitro diagnosis of AD from brain tissues
  • Biomarkers of AD
  • The ideal biomarker for AD
  • CSF biomarkers of AD
  • CSF sulfatide as a biomarker for AD
  • Glycerophosphocholine as CSF biomarker in AD
  • Protein biomarkers of AD in CSF
  • Amyloid precursor protein
  • Tau proteins in CSF
  • Tests for the detection of A in CSF
  • Tests combining CSF tau and A
  • Urine tests for AD
  • Blood tests for AD
  • Blood A levels
  • Blood test for AD based on RNA hybridization
  • GSK-3 elevation in white blood cells
  • Lymphocyte Proliferation Test
  • Protein kinase C in red blood cells
  • A skin test for early detection of AD
  • Nanotechnology to measure amyloid-derived diffusible ligands
  • Simultaneous measurement of several biomarkers for AD
  • Concluding remarks about biomarkers for AD
  • Imaging in AD
  • Computed tomography
  • Magnetic resonance imaging
  • Arterial spin labeling with MRI
  • Magnetic resonance microscopy
  • Magnetic resonance spectroscopy
  • Single photon emission computed tomography and modifications
  • Positron emission tomography
  • In vivo imaging of A deposits by PET
  • In vivo detection of A plaques by MRI
  • Imaging agents for A and neurofibrillary tangles
  • Targeting of chemokine receptor as biomarker for brain imaging
  • Radioiodinated clioquinol as a biomarker for A
  • Imaging neuroinflammation in AD
  • Preclinical diagnosis of AD
  • Diagnosis of AD in the living patient
  • Meta-analysis of literature on imaging in AD
  • Alzheimer Disease Neuroimaging Initiative
  • Diagnosis of MCI and prediction of AD
  • Diagnosis of MCI
  • Computer-Administered Neurophychological screen for MCI
  • Infrared eye-tracking technology to detect MCI
  • PET for detection of MCI
  • MRI for detection of MCI
  • Presymptomatic detection of AD
  • PredictAD project
  • Use of biomarkers to predict AD in patients with MCI
  • Magnetoencephalography for detection of MCI and AD
  • Concluding remarks about prediction of AD in MCI
  • Ethical aspects of diagnostics for AD
  • Genetic testing for AD
  • Ethical issues of brain imaging in AD
  • Companies involved in diagnosis of AD
• 3.Management of Alzheimer Disease
  • Introduction
  • Cholinergic approaches
  • Mechanism of action of cholinesterase inhibitors
  • Choline and lecithin
  • Donepezil
  • Rivastigmine
  • Galantamine
  • Duration of treatment with ChE inhibitors
  • Comparative studies of ChE inhibitors
  • Donepezil versus rivastigmine
  • Donepezil versus galantamine
  • An assessment and future prospects of anticholinergic therapies
  • Neuroprotection in Alzheimer's disease
  • Memantine
  • Combination of memantine with ChE inhibitors
  • Monoamine oxidase inhibitors
  • Selegiline
  • Synaptoprotection in AD
  • Drugs for noncognitive symptoms in AD
  • Antidepressants
  • Antipsychotics
  • ChE inhibitors for behavioral and psychological disorders in AD
  • Concluding remarks and other drugs for agitation in AD
  • Sensory stimulation
  • Non-pharmacological treatments of AD
  • Management of memory loss in AD
  • Application of electrical fields for improvement of cerebral function in AD
  • Vagal nerve stimulation
  • Cerebrospinal fluid shunting
  • Omental transposition
  • Microchip-based hippocampal prosthesis for AD
  • Nutritional therapies for AD
  • Omega-3 fatty acids
  • Docosahexaenoic acid
  • Cocktail of dietary supplements for AD
  • Preventing decline of mental function with aging and dementia
  • Prevention of Alzheimer disease
  • Mental training
  • Physical exercise
  • Higher level of conscientiousness and decreased risk of AD
  • Caloric restriction
  • Nutritional factors in prevention of AD
  • Red wine antioxidants
  • Black and green teas
  • Caffeine
  • Drugs to prevent Alzheimer disease
  • Preimplantation genetic diagnosis of inherited Alzheimer disease
  • Presymptomatic detection of AD
  • Management of mild cognitive impairment
  • Management of Down syndrome
  • Guidelines for use of anti-dementia drugs in clinical practice
  • General care of the Alzheimer disease patients
  • Strategies for the management of Alzheimer disease
• 4.Research in Alzheimer Disease
  • Introduction
  • Animal models of Alzheimer disease
  • Lesional models
  • Cerebroventricular injection of A in rats
  • Lentiviral vector-based models of amyloid pathology
  • AAV-mediated gene transfer to increase hippocampal A
  • Transgenic mouse models
  • Quantitative assessment of amyloid load in transgenic models
  • Neuropathological studies on transgenic models of AD
  • In vivo magnetic resonance microimaging in transgenic models of AD
  • Transgenic model of AD with suppression of A production
  • Transgenic AD11 anti-NGF mice
  • Genetically altered mice with deficiency of vesicular ACh transporter
  • Limitations of mouse models of Alzheimer disease
  • Cholesterol-fed rabbits as models for AD
  • Zebrafish model for AD
  • Transgenic invertebrate models of Alzheimer disease
  • Drosophila model of AD
  • Caenorhabditis elegans Alzheimer disease model
  • Cell systems for AD research
  • In vitro neuronal cell Lines
  • Single-gene expression system for use in cell culture
  • Transgenic cells
  • In silico models
  • Estimation of progression rates of Alzheimer disease
  • Clinical trial methods in Alzheimer disease
  • Molecular imaging as a guide to drug development
  • Use of MRI and PET in clinical trials
  • Cognitive-function assessment in clinical trials
  • Clinical trials in mild cognitive impairment
  • Research in AD as a basis for future therapies
  • Use of microarrays for studying pathogenesis of AD
  • Computational brain mapping in AD
  • Study of neurogenesis in AD
  • Study of 3D structure of A
  • Solid-state NMR to study precursors of A
  • Research in Alzheimer disease at academic centers
  • Role of NIH in AD research
  • NIH Clinical Trials Database for AD
  • Alzheimer Research Consortium
  • The National Institute on Aging and AD research
• 5.Drug Discovery & Development for Alzheimer Disease
  • Introduction
  • Categories of drugs in development for AD
  • Memory-enhancing drugs
  • Enhancing memory by drugs that block eIF2a phosphorylation
  • Drugs based on cholinergic approaches
  • AP2238
  • Ganstigmina
  • T-82
  • Butyrylcholinesterase inhibitors
  • Muscarinic receptor modulators
  • Muscarinic M1 agonists
  • Muscarinic M2 antagonists
  • Nicotinic receptor modulators
  • Nicotine
  • Nicotinic receptor modulators
  • Drugs modulating gamma-aminobutyric acid receptors
  • AVE-3933
  • SGS742
  • Neuropeptide/neurotransmitters
  • Somatostatin release enhancers
  • Glutamate receptor modulators
  • Physiology and pharmacology of glutamate receptors
  • NMDA receptor ion channel complex
  • Metabotropic glutamate receptors
  • Glutamate receptor modulators as potential therapeutics for AD
  • Non-competitive NMDA modulators
  • AMPA modulators
  • Drugs affecting multiple neurotransmitters
  • Ensaculin
  • NS2330
  • RS-1259
  • Lecozotan
  • Vaccines for AD
  • Active immunization with A
  • AN-1792 vaccine
  • Complications in clinical trials with AN-1792
  • Effects of A vaccine on the brain
  • Strategies to avoid undesirable effect of A vaccination
  • Passive immunization in AD with monoclonal antibodies
  • Delivery of the passive antibody directly to the brain
  • Systemic injection of MAbs to treat AD
  • Combination of A immunotherapy and CD40-CD40L blockade
  • Shaping the immune responses elicited against A
  • Gene vaccination
  • Modified A nasal vaccine
  • Transdermal A vaccination
  • Other vaccines for AD
  • Nasal vaccination with Proteosome? adjuvant
  • T-cell vaccination with glatiramer acetate adjuvant
  • Early start of immunotherapy to clear A plaques
  • Reversal of cholinergic dysfunction by anti-A antibody
  • Mechanisms by which A antibodies reduce amyloid accumulation in the brain
  • Perspectives on vaccines for AD
  • Companies involved in AD vaccines
  • Inhibition of amyloid precursor protein aggregation
  • Secretase inhibitors
  • Neuroprotection by ?-secretase cleaved APP
  • -secretase inhibitors
  • ?-secretase inhibitors
  • Substrate-targeting big ?-secretase modulators
  • Amyloid-derived diffusible ligands
  • GABA receptor modulation by etazolate and APP processing
  • Depletion of serum amyloid P
  • Trojan-horse approach to prevent build-up of A aggregates
  • Drugs that inhibit the formation of A
• 22R-hydroxycholesterol
  • Acylaminopyrazole
  • Alzhemed
  • Antihypertensive drugs
  • Valsartan
  • Clioquinol and PBT2
  • Copper chelation by FKBP52
  • Zinc chelation from amyloid plaques
  • Tetrahydrocannabinol
  • NSAIDs
  • Flurbiprofen analogs with A42-lowering action
  • Nitric oxide-donating NSAIDs
  • In vivo demonstration of the effects of NSAIDs on brain in AD
  • Imatinib mesylate
  • Laminin
  • Paclitaxel
  • Phenserine
  • Tolserine
  • Platinum-based inhibitors of A
  • Heparin and its derivatives
  • A reassessment of the role of heparin in AD
  • Enoxaparin
  • HF0420
  • Heparan sulfate
  • Scyllo-cyclohexanehexol
  • Ubiquitin C-terminal hydrolase L1
  • Drugs to prevent the formation of NFTs
  • Tau suppression
  • ApoE4 as a therapeutic target in AD
  • Strategies to enhance clearance of A
  • Removal of A deposits by nanotechnology
  • Enhanced PKC? activity promotes clearance of A
  • Role of matrix metalloproteinases in clearance of A
  • Small molecule DAPH for clearance of amyloid
  • Therapeutics to reverse cerebral A deposits
  • ABCA1 overexpression to lower amyloid deposits
  • -sheet breakers
  • Intravenous immune globulin
  • Meptides
• 4,5-dianilinophthalimide for disruption of A1-42 fibrils
  • Blocking ApoE/A interaction to reduce A plaques
  • Inhibitors of A dehydrogenase
  • Companies developing A-directed therapeutics for AD
  • Antiinflammatory and antimicrobial drugs
  • Dapsone
  • Antimicrobial drugs against C. pneumoniae
  • PPAR-gamma agonists
  • Inhibitors of neuroinflammation
  • Etanercept
  • MW01-5-188WH
  • VP015
  • Antidiabetic drugs
  • Rosiglitazone
  • Pioglitazone
  • Nootropics
  • Acetyl-L-carnitine
  • Cerebrolysin
  • Ergot derivatives
  • Lisuride
  • Dihydroergocryptine
  • Neuroprotective effect drugs not primarily developed for AD
  • Angiotensin-converting enzyme inhibitors
  • Dimebon
  • Drugs acting on estrogen receptors
  • Estrogen
  • Raloxifene
  • Neurosteroids
  • Pregnenolone sulfate
  • Dehydroepiandrosterone
  • Lithium
  • MAO-B inhibitors
  • Ladostigil tartrate
  • Memoquin
  • Methylene blue
  • Nimodipine
  • Testosterone
  • Valproic acid
  • Future prospects of neuroprotection in AD
  • Targeting Cdk5 pathway
  • Antioxidants
  • Colostrinin
  • Curcumin
  • Melatonin
  • Synthetic catalytic scavengers
  • Dehydroascorbic acid
  • Omega-3 fatty acids
  • Vitamins
  • Vitamin E as antioxidant
  • Vitamins to lower homocysteine
  • Folic acid
  • Aminopyridazines
  • Nanobody-based drugs for AD
  • Nitric oxide based therapeutics for AD
  • Nitric oxide mimetics
  • iNOS inhibitors for AD
  • Novel drugs for AD from natural resources
  • Berberine chloride
  • Centella asiatica
  • Ginko biloba
  • Gilatide (from saliva of the Gila monster)
  • Huperzine-A
  • Hyperforin
  • Melissa officinalis
  • Nostocarboline derived from cyanobacteria
  • PTI-00703
  • Salvia
  • Securinega suffruticosa
  • Withania somnifera
  • ZT-1
  • Cholesterol and AD
  • Role of statins in reducing the risk of Alzheimer disease
  • ACAT inhibitors
  • Role of gene for cholesterol ester transfer protein
  • Cholesterol 24S-hydroxylase as a drug target for AD
  • Selectively increase of ApoA-I production
  • Neurotrophic factors
  • Brain derived neurotrophic factor
  • Nerve growth factor
  • Neotrofin (AIT-082)
  • Activity-dependent neuroprotective protein
  • Limitations of the use of NTFs for AD
  • Role of serotonin modulators in AD
  • Xaliproden
• 5-HT1A receptor antagonists
• 5-HT6 antagonists
• 5-HT4 receptor agonists
  • PRX-03140
  • Cell therapy for AD
  • Stem cell transplantation
  • Implantation of encapsulated cells for delivering NGF
  • Gene therapy for AD
  • ApoE gene therapy
  • Humanin gene therapy
  • Neprilysin gene therapy
  • NGF gene therapy
  • Targeting plasminogen activator inhibitor type-1 gene
  • Antisense approaches to AD
  • RNAi approaches to AD
  • Combined therapeutic approaches to AD
  • Drug delivery for Alzheimer disease
  • Delivery of thyrotropin-releasing hormone analogs by molecular packaging
  • Nanoparticle-based drug delivery for Alzheimers disease
  • Transdermal drug delivery in Alzheimer's disease
  • Intranasal delivery of nerve growth factor to the brain
  • Circadian rhythms and timing of cholinesterase inhibitor therapy
  • Clinical trials for AD
  • Drugs for AD that were discontinued in clinical trials
  • Evaluation of clinical trials of AD
  • Monitoring of cognitive function during clinical trials
  • Drug discovery for AD
  • Genomics-based drug discovery
  • Proteomics and drug discovery for AD
  • High through screening for AD drug candidates
  • Drugs acting on signaling pathways
  • Activation of GTPase signaling by Cytotoxic Necrotizing Factor 1
  • Drugs to reverse inhibition of the PKA/CREB pathway in AD
  • Inhibition of the CD40 signaling pathway
  • JNK pathway as a target
  • Mitogen-activated protein kinase pathway as target
  • Protein kinase C activators
  • Small molecule compounds binding to neurotrophin receptor p75NTR
  • Targeting Vav in tyrosine kinase signaling pathway
  • Novels targets/receptors for AD drug discovery
  • Activation of cerebral Rho GTPases
  • Blockade of TGF--Smad2/3 signaling in peripheral macrophages
  • Casein kinase 1
  • Cyclin-dependent kinase-5
  • Heat shock protein 90 inhibitors
  • Inactivation of aph-1 and pen-2 reduces APP cleavage
  • NF-B inhibitors
  • Kinases and phosphatases as targets for AD therapeutics
  • Phosphodiesterase inhibitors
  • Pin 1 as a target in AD
  • Receptor for advanced glycation end products
  • Src homology-containing protein-1 inhibitors
  • Targeting GABAergic system
  • Pharmacogenomics of Alzheimer disease
  • Personalized therapy of AD
  • Genotyping and AD therapeutics
  • Biomarkers of AD/companion diagnostics for cholinesterase inhibitors
  • Regulatory aspects of drug development for AD
  • EMEA guidelines for drug development for AD
  • Concluding remarks and future prospects of drugs for AD
• 6.Markets & Finances of AD Care
  • Introduction
  • Pharmacoeconomics of treatment of AD
  • Costs associated with Alzheimer disease
  • Pharmacoeconomics of donepezil
  • Pharmacoeconomics studies using rivastigmine
  • Pharmacoenonomics studies using galantamine
  • A comparison of pharmacoenonomics outcomes with different ChE inhibitors
  • Pharmacoenonomics studies using memantine
  • Patterns of AD care in major markets
  • Care of AD patients in the US
  • Cost of care
  • Medicare and AD
  • Patterns of practice in AD care
  • Opinions of physicians organizations on drugs for dementia
  • Care of AD patients in the UK
  • Cost of care
  • Patterns of practice in AD care
  • Retraction of NICE recommendations to NHS
  • Care of AD patients in Germany
  • Care of AD patients in France
  • Care of AD patients in Italy
  • Care of AD patients in Spain
  • Care of AD patients in Japan
  • Markets for AD diagnostics
  • Markets for AD therapeutics
  • Geographical markets for AD
  • Markets for currently approved drugs for AD
  • Markets for generic AD drugs
  • Future growth of AD market
  • Statins
  • Limitations of AD drug development by the biotechnology industry
  • Unmet needs in the management of AD
  • Drivers of AD markets
  • Increase of the aged populations
  • Increase in the number of approved drugs for AD
  • Limitations of the current therapies
  • Improvements in diagnosis
  • Increasing awareness of the disease
• 7.Companies
  • Introduction
  • Profiles of companies
  • Collaborations
• 8.References
• Tables
  • Table 1 1: Historical landmarks relevant to Alzheimer disease
  • Table 1 2: Clinical features of Alzheimer disease
  • Table 1 3: Non-Alzheimer dementias
  • Table 1 4: NINCDS-ADRDA Criteria for diagnosis of Alzheimer disease
  • Table 1 5: Relation of mutations in amyloid precursor protein to CNS disorders
  • Table 1 6: Risk factors for Alzheimer's disease
  • Table 1 7: Genes linked to AD
  • Table 1 8: Abnormalities of expression of brain proteins in Down's syndrome and AD
  • Table 2 1: Classification of methods of diagnosis of Alzheimer disease
  • Table 2 2: Neuropsychological test batteries and scales for Alzheimer's disease
  • Table 2 3: Available molecular diagnostic tests for Alzheimer disease
  • Table 2 4: Classification of biochemical markers of AD in blood and CSF
  • Table 2 5: Characteristics of an ideal biomarker for Alzheimer disease
  • Table 2 6: Companies involved in the diagnosis of Alzheimer disease
  • Table 3 1: Classification of treatments for Alzheimer disease
  • Table 3 2: Cholinergic approaches used in the treatment of Alzheimer disease
  • Table 3 3: Categories of neuroprotective agents for Alzheimer disease
  • Table 3 4: Strategies for prevention of Alzheimer disease
  • Table 3 5: Guidelines for the treatment of dementia
  • Table 4 1: Transgenic mouse models of Alzheimer disease
  • Table 5 1: Classification of therapies in development for Alzheimer disease
  • Table 5 2: Drugs for AD targeting nACh receptors
  • Table 5 3: Ionotropic glutamate receptors
  • Table 5 4: Classification of mGluRs
  • Table 5 5: Glutamate receptor modulators as potential therapeutic agents in AD
  • Table 5 6: Companies involved in developing vaccines for AD
  • Table 5 7: Companies developing A-directed therapeutics for AD
  • Table 5 8: Innovative neuroprotective approaches for Alzheimer disease
  • Table 5 9: Herbal therapies for AD
  • Table 5 10: Novel drug delivery methods for Alzheimer disease therapies
  • Table 5 11: Clinical trials in Alzheimer disease
  • Table 5 12: Discontinued, failed or inconclusive clinical trials of Alzheimer disease
  • Table 6 1: Direct and indirect costs associated with Alzheimer disease
  • Table 6 2: Prevalence of AD in major markets 2007-2017
  • Table 6 3: AD market values from 2007-2017 in the seven major world markets
  • Table 6 4: Markets for currently approved AD drugs 2007-2017
  • Table 6 5: Potential markets for drugs in development 2007-2017
  • Table 6 6: Limitations of AD drug discovery and development by the biotechnology industry
  • Table 6 7: Factors that drive AD markets
  • Table 7 1: Major players in Alzheimer's disease therapeutics
  • Table 7 2: Collaborations relevant to Alzheimer disease
• Figures
  • Figure 1 1: Percentages of world population of people over the age of 65 according to more developed and less developed portions ? 2000 to 2050
  • Figure 1 2: Prevalence of different types of dementia
  • Figure 1 3: Mechanisms of A clearance
  • Figure 1 4: Nitric oxide neurotoxicity and neuroprotection in relation to Alzheimer disease
  • Figure 1 5: Oxidative stress and Alzheimer disease
  • Figure 1 6: Role of proteosome inhibition in A generation and neurodegeneration
  • Figure 1 7: Pathomechanism of AD
  • Figure 3 1: Metabolism of acetylcholine
  • Figure 3 2: Neuroprotective effective of galantamine in AD
  • Figure 3 3: Strategies for the management of Alzheimer disease
  • Figure 5 1: NMDA receptor ion channel complex
  • Figure 5 2: Neurotoxicity due to misfolding of A1-42
  • Figure 5 3: Role of proteomics in drug discovery and development for Alzheimer disease
  • Figure 6 1: Unmet needs in the management of Alzheimer disease