Copyright
©The Author(s) 2015.
World J Pharmacol. Sep 9, 2015; 4(3): 236-264
Published online Sep 9, 2015. doi: 10.5497/wjp.v4.i3.236
Published online Sep 9, 2015. doi: 10.5497/wjp.v4.i3.236
Active | Mechanism of action | Drug delivery system | Efficacy study model | Ref. |
Oral | ||||
Rutin | Antioxidant | Only drug | Preclinical rodent streptozotocin induced AD model | [85] |
(-)-Epigallocatechin-3-gallate | Antioxidant, α-secretase activator | Nanolipid carriers | In vitro, preclinical rodent model | [137] |
Chitosan | Preclinical rodent model | [138] | ||
Mifepristone | Antiprogesterone activity, AD symptomatic relief | PLGA nanoparticles | Preclinical rodent model | [139-141] |
Estradiol | Estrogenic activity, AD symptomatic relief | Tween 80 coated PLGA nanoparticles | Preclinical rodent model | [142,143] |
CNTF P021 (Ac-DGGLAG-NH2) | Neurotrophic factor | Only drug | Preclinical rodent AD transgenic model | [144] |
Clioquinol | Metal ion Cu/Zn chelator | Only drug | Preclinical rodent AD transgenic model | [145,146] |
Galactose | Glucose restoration | Only drug | Preclinical streptozotocin induced rodent model | [147] |
Transdermal | ||||
Galantamine | AChEI | Drug in adhesive type patch | Preclinical rodent model | [151] |
Donepezil (base and salt form) | AChEI | Fatty acid based topical formulation | In vitro skin model, preclinical rodent model | [152] |
Huperzine A | AChEI | Microemulsion, solid lipid nanoparticles, nanostructured lipid carriers | In vitro skin model, preclinical rodent model | [153] |
Donepezil | AChEI | Iontophoresis, Wearable Electronic Drug Delivery System patches | Preclinical rodent model | [154] |
Rasageline and selegiline | MAO-B inhibitors | Solution and carbopol based gel - iontophoresis | In vitro skin model | [155] |
Memantine | NMDA receptor modulator | Iontophoresis with penetration enhancers | In vitro skin model | [156] |
Aβ(1-42) antigen | AD immunovaccine | Microneedles | Preclinical rodent model | [161] |
Intravenous | ||||
Clioquinol | Cu/Zn chelator | Only drug | Preclinical rodent AD transgenic model | [42] |
Lithium | GSK-3 inhibitor of tau phosphorylation | Only drug | Preclinical rodent AD transgenic model | [76,77] |
Valproate sodium | GSK-3 inhibitor of tau phosphorylation | Only drug | Preclinical rodent AD transgenic model | [76,77] |
Nerve growth factor | Cholinergic neuron protection | Polysorbate 80 coated PBCA nanoparticles | Preclinical scopolamine induced rodent model | [162] |
PEG chemical conjugate | Preclinical rodent model | [163] | ||
Antitransferrin antibody chemical conjugate | Preclinical rodent model | [163,164] | ||
Galantamine | AChEI | Peptide targeting ligand functionalized liposomes | In vitro cell line | [165] |
Aβ binding peptide QSH | Aβ reduction | Targeted PEGylated polylactic acid nanocarriers | Preclinical AD induced rodent model | [166] |
Thiflavin T | Specific Aβ plaque binding | PBCA Nanoparticles | Preclinical rodent model | [168,169] |
Anti- Aβ antibody | AD immunotherapy | Only drug | Preclinical rodent AD transgenic model | [49,50] |
BAM -10 antibody | AD immunotherapy | External targeting with trans-cranial application of magnetic and ultrasound energy | Preclinical rodent AD transgenic model | [186,187] |
Cholic acid | Cholinergic management | Fluorescent labeled PEG-PLGA nanoparticles, external ultrasound | Preclinical rodent model | [188] |
Octapeptide NAP derived from the neurotrophic factor | Neuroprotective activity | Only drug | Preclinical rodent model | [196,197] |
Mesenchymal stem Cells | Neuronal growth | Only drug | In vitro, Preclinical transgenic AD rodent model | [203,204] |
Intranasal | ||||
Insulin | Multicascade anti AD activity | Only drug | Preclinical rodent model | [130-132] |
Tacrine | AChEI | Cyclodextrin coated bovine serum albumin nanospeheres | Ex vivo permeation model | [175] |
Curcumin | Antioxidant, anti- Aβ activity | Nanoemulsion | Ex vivo permeation model | [177] |
siRNA | AD associated gene silencing | Cell penetrating peptide TAT conjugated polycaprolactone- PEG Micelles | Early development | [184] |
Gene delivery | AD associated gene silencing | Exosomes | Early development | [185] |
Pituitary adenylate cyclase-activating polypeptide | Neuroprotective activity | Only drug | Preclinical rodent model | [198] |
Implants | ||||
Rivastigmine | AChEI | BTM and SAM based organogel implants, subcutaneous administration | Preclinical rodent model | [195] |
- Citation: Desai P, Shete H, Adnaik R, Disouza J, Patravale V. Therapeutic targets and delivery challenges for Alzheimer’s disease. World J Pharmacol 2015; 4(3): 236-264
- URL: https://www.wjgnet.com/2220-3192/full/v4/i3/236.htm
- DOI: https://dx.doi.org/10.5497/wjp.v4.i3.236