BRIV_adv
Annals of Indian Academy of Neurology
  Users Online: 2593 Home | About the Journal | InstructionsCurrent Issue | Back IssuesLogin      Print this page Email this page  Small font size Default font size Increase font size
This article has been cited by
1Curcumin’s antiepileptic effect, and alterations in Nav1.1 and Nav1.6 expression in iron-induced epilepsy
Vikas Kumar,Chandra Prakash,Rameshwar Singh,Deepak Sharma
Epilepsy Research.2019;150()7
[DOI]
2Curcumin Cocrystal Micelles—Multifunctional Nanocomposites for Management of Neurodegenerative Ailments
Preshita P. Desai,Vandana B. Patravale
Journal of Pharmaceutical Sciences.2018;107(4)1143
[DOI]
3Role of nanostructures in improvising oral medicine
Shatadal Ghosh,Sumit Ghosh,Parames C. Sil
Toxicology Reports.2019;6(4)358
[DOI]
4The clinical use of curcumin on neurological disorders: An updated systematic review of clinical trials
Maryam Mohseni,Amirhossein Sahebkar,Gholamreza Askari,Thomas P. Johnston,Babak Alikiaii,Mohammad Bagherniya
Phytotherapy Research.2021;6(4)358
[DOI]
5Modulation in the conformational and stability attributes of the Alzheimer’s disease associated amyloid-beta mutants and their favorable stabilization by curcumin: molecular dynamics simulation analysis
Manika Awasthi,Swati Singh,Veda P. Pandey,Upendra N. Dwivedi
Journal of Biomolecular Structure and Dynamics.2018;36(2)407
[DOI]
6Modulation in the conformational and stability attributes of the Alzheimer’s disease associated amyloid-beta mutants and their favorable stabilization by curcumin: molecular dynamics simulation analysis
Anthony Booker
Journal of Biomolecular Structure and Dynamics.2015;36(2)293
[DOI]
7Modulation in the conformational and stability attributes of the Alzheimer’s disease associated amyloid-beta mutants and their favorable stabilization by curcumin: molecular dynamics simulation analysis
Jai Malik,Sunayna Choudhary
Journal of Biomolecular Structure and Dynamics.2021;36(2)1129
[DOI]
8Preparation, physicochemical and pharmacological study of curcumin solid dispersion with an arabinogalactan complexation agent
Qihong Zhang,Lubov Suntsova,Yulia S. Chistyachenko,Veronika Evseenko,Mikhail V. Khvostov,Nikolay E. Polyakov,Alexandr V. Dushkin,Weike Su
International Journal of Biological Macromolecules.2019;128(2)158
[DOI]
9Preparation, physicochemical and pharmacological study of curcumin solid dispersion with an arabinogalactan complexation agent
Mahshid Hodjat,Madiha Khalid,Mona Asghari,Sepideh Atri,Mahban Rahimifard,Solmaz Mohammadi Nejad,Maryam Baeeri
International Journal of Biological Macromolecules.2020;128(2)63
[DOI]
10Preparation, physicochemical and pharmacological study of curcumin solid dispersion with an arabinogalactan complexation agent
Mahshid Hodjat,Madiha Khalid,Mona Asghari,Sepideh Atri,Mahban Rahimifard,Solmaz Mohammadi Nejad,Maryam Baeeri
International Journal of Biological Macromolecules.2016;128(2)357
[DOI]
11Changes in the chemical properties and anti-oxidant activities of curcumin by microwave radiation
Yu Na Jung,Smee Kang,Bo Hyun Lee,Joo Hyoun Kim,Jungil Hong
Food Science and Biotechnology.2016;25(5)1449
[DOI]
12Changes in the chemical properties and anti-oxidant activities of curcumin by microwave radiation
Ricardo Cabezas,Marco Fidel Avila,Daniel Torrente,Janneth Gonzalez,Ramon Santos El-Bachá,Rubem Guedes,George E. Barreto
Food Science and Biotechnology.2015;25(5)827
[DOI]
13HSP60 mediates the neuroprotective effects of curcumin by suppressing microglial activation
Feijia Ding,Fan Li,Yunhong Li,Xiaolin Hou,Yi Ma,Nan Zhang,Jiao Ma,Rui Zhang,Bing Lang,Hongyan Wang,Yin Wang
Experimental and Therapeutic Medicine.2016;12(2)823
[DOI]
14Development of carbon nanotube-based polymer-modified electrochemical sensor for the voltammetric study of Curcumin
Pemmatte A. Pushpanjali,Jamballi G. Manjunatha,Balliamada M. Amrutha,Nagarajappa Hareesha
Materials Research Innovations.2020;12(2)1
[DOI]
15The Decoration of ZnO Nanoparticles by Gamma Aminobutyric Acid, Curcumin Derivative and Silver Nanoparticles: Synthesis, Characterization and Antibacterial Evaluation
Chanon Talodthaisong,Kittiya Plaeyao,Chatariga Mongseetong,Wissuta Boonta,Oranee Srichaiyapol,Rina Patramanon,Navaphun Kayunkid,Sirinan Kulchat
Nanomaterials.2021;11(2)442
[DOI]
16Solid Lipid Curcumin Particles Protect Medium Spiny Neuronal Morphology, and Reduce Learning and Memory Deficits in the YAC128 Mouse Model of Huntington’s Disease
Abeer Gharaibeh,Panchanan Maiti,Rebecca Culver,Shiela Heileman,Bhairavi Srinageshwar,Darren Story,Kristin Spelde,Leela Paladugu,Nikolas Munro,Nathan Muhn,Nivya Kolli,Julien Rossignol,Gary L. Dunbar
International Journal of Molecular Sciences.2020;21(24)9542
[DOI]
17Effects of curcuminoids on cognitive deficits in young audiovisually overstimulated mice
Ameema Tariq,Sana Javed,Syeda Mehpara Farhat,Touqeer Ahmed
Food Bioscience.2020;35(24)100565
[DOI]
18Therapeutic Effects of Curcumin on Alzheimer’s Disease
Edward C. Yao,Lei Xue
Advances in Alzheimer's Disease.2014;03(04)145
[DOI]
19Preparation of curcumin self-micelle solid dispersion with enhanced bioavailability and cytotoxic activity by mechanochemistry
Qihong Zhang,Nikolay E. Polyakov,Yulia S. Chistyachenko,Mikhail V. Khvostov,Tatjana S. Frolova,Tatjana G. Tolstikova,Alexandr V. Dushkin,Weike Su
Drug Delivery.2018;25(1)198
[DOI]
20Tetrahydrocurcumin epigenetically mitigates mitochondrial dysfunction in brain vasculature during ischemic stroke
Nandan K. Mondal,Jyotirmaya Behera,Kimberly E. Kelly,Akash K. George,Pranav K. Tyagi,Neetu Tyagi
Neurochemistry International.2019;122(1)120
[DOI]
21The enhanced bioavailability of free curcumin and bioactive-metabolite tetrahydrocurcumin from a dispersible, oleoresin-based turmeric formulation
Sanjib Kumar Panda,Somashekara Nirvanashetty,M. Missamma,Shavon Jackson-Michel
Medicine.2021;100(27)e26601
[DOI]
22The Emerging Role of Curcumin in the Modulation of TLR-4 Signaling Pathway: Focus on Neuroprotective and Anti-Rheumatic Properties
Maria Antonietta Panaro,Addolorata Corrado,Tarek Benameur,Cantatore Francesco Paolo,Daniela Cici,Chiara Porro
International Journal of Molecular Sciences.2020;21(7)2299
[DOI]
23Novel Curcumin loaded nanoparticles engineered for Blood-Brain Barrier crossing and able to disrupt Abeta aggregates
Ruozi Barbara,Daniela Belletti,Francesca Pederzoli,Martina Masoni,Johannes Keller,Antonio Ballestrazzi,Maria Angela Vandelli,Giovanni Tosi,Andreas M. Grabrucker
International Journal of Pharmaceutics.2017;526(1-2)413
[DOI]
24Involvement of PPAR-gamma in curcumin-mediated beneficial effects in experimental dementia
Puneet Rinwa,Baljinder Kaur,Amteshwar Singh Jaggi,Nirmal Singh
Naunyn-Schmiedeberg's Archives of Pharmacology.2010;381(6)529
[DOI]
25Vitamin E, Turmeric and Saffron in Treatment of Alzheimer’s Disease
Nur Adalier,Heath Parker
Antioxidants.2016;5(4)40
[DOI]
26Vitamin E, Turmeric and Saffron in Treatment of Alzheimer’s Disease
Rosa Tundis,Monica R. Loizzo,Seyed M. Nabavi,Ilkay Erdogan Orhan,Krystyna Skalicka-Wozniak,Grazia D’Onofrio,Francesca Aiello
Antioxidants.2018;5(4)63
[DOI]
27Alzheimer’s Disease Prevention and Treatment Using Herbal Agents
Tony L Brown
Journal of Analytical & Pharmaceutical Research.2016;2(4)63
[DOI]
28Effect of aflatoxin B1 on the seminiferous tubules and the possible protective role of curcumin in adult albino rats (Light and electron microscopic study)
Eman A. El-Kordy,Maha M. Abo Gazia
The Egyptian Journal of Histology.2015;38(3)614
[DOI]
29Analgesic effects of intravenous curcumin in the rat formalin test
Hwoe-Gyeong Ok,Hyeon Woo Kim,Hae-Kyu Kim
Journal of Inclusion Phenomena and Macrocyclic Chemistry.2021;38(3)614
[DOI]
30Analgesic effects of intravenous curcumin in the rat formalin test
K.P. Prabhakaran Nair
Journal of Inclusion Phenomena and Macrocyclic Chemistry.2013;38(3)179
[DOI]
31Pathophysiology and management of alzheimer’s disease: an overview
Ajit Kumar Thakur,Parul Kamboj,Kritika Goswami,Karan Ahuja
Journal of Analytical & Pharmaceutical Research.2018;7(2)179
[DOI]
32Antioxidant activities of inula viscosa extract and curcumin on U87 cells induced by beta-amyloid
Ares ALIZADE,Gülüzar ÖZBOLAT
Cukurova Medical Journal.2021;46(2)583
[DOI]
33Neuroprotective Role of the Nrf2 Pathway in Subarachnoid Haemorrhage and Its Therapeutic Potential
Ardalan Zolnourian,Ian Galea,Diederik Bulters
Oxidative Medicine and Cellular Longevity.2019;2019(2)1
[DOI]
34Biochemical Stabilization of Glucagon at Alkaline pH
Nicholas Caputo,Melanie A. Jackson,Jessica R. Castle,Joseph El Youssef,Parkash A. Bakhtiani,Colin P. Bergstrom,Julie M. Carroll,Matthew E. Breen,Gerald L. Leonard,Larry L. David,Charles T. Roberts,W. Kenneth Ward
Diabetes Technology & Therapeutics.2014;16(11)747
[DOI]
35Neuroprotective activities of curcumin and quercetin with potential relevance to mitochondrial dysfunction induced by oxaliplatin
Mohammad Waseem,Suhel Parvez
Protoplasma.2016;253(2)417
[DOI]
36Adsorption and desorption of curcumin by poly(vinyl) alcohol-multiwalled carbon nanotubes (PVA-MWCNT)
Nurliyana Ahmad Zawawi,Zaiton Abdul Majid,Noor Aini Abdul Rashid
Colloid and Polymer Science.2017;295(10)1925
[DOI]
37Effective suppression of the modified PHF6 peptide/1N4R Tau amyloid aggregation by intact curcumin, not its degradation products: Another evidence for the pigment as preventive/therapeutic “functional food”
Nooshin Bijari,Saeed Balalaie,Vali Akbari,Farhad Golmohammadi,Sajad Moradi,Hadi Adibi,Reza Khodarahmi
International Journal of Biological Macromolecules.2018;120(10)1009
[DOI]
38Mechanism of Anti-Cancer Activity of Curcumin on Androgen-Dependent and Androgen-Independent Prostate Cancer
Nurul Azwa Abd. Wahab,Nordin H. Lajis,Faridah Abas,Iekhsan Othman,Rakesh Naidu
Nutrients.2020;12(3)679
[DOI]
39Mechanism of Anti-Cancer Activity of Curcumin on Androgen-Dependent and Androgen-Independent Prostate Cancer
D. Prasath,K. Kandiannan,N.K. Leela,S. Aarthi,B. Sasikumar,K. Nirmal Babu
Nutrients.2018;12(3)99
[DOI]
40Formation of Curcumin Molecular Ion under Electrospray Ionisation Conditions in the Presence of Metal Cations
Wojciech Ostrowski,Anna Dzikowska,Rafal Franski
European Journal of Mass Spectrometry.2014;20(2)163
[DOI]
41Neuroprotection of Brain Cells by Lipoic Acid Treatment after Cellular Stress
Sara Paradells-Navarro,María Soledad Benlloch-Navarro,María Inmaculada Almansa Frias,Ma. Angeles Garcia-Esparza,Vania Broccoli,María Miranda,José Miguel Soria
ACS Chemical Neuroscience.2017;8(3)569
[DOI]
42Neuroprotection of Brain Cells by Lipoic Acid Treatment after Cellular Stress
Sethuraman Sathya,Kasi Pandima Devi
ACS Chemical Neuroscience.2018;8(3)239
[DOI]
43Neuroprotection of Brain Cells by Lipoic Acid Treatment after Cellular Stress
Reetika Dikshit,Sagar Karia,Abha Thakurdesai,Heena Merchant,Avinash De Sousa
ACS Chemical Neuroscience.2021;8(3)397
[DOI]
44Reducing Aß load and tau phosphorylation: Emerging perspective for treating Alzheimer's disease
Jaspreet Kalra,Aamir Khan
European Journal of Pharmacology.2015;764(3)571
[DOI]
45Controlled curcumin release via conjugation into PBAE nanogels enhances mitochondrial protection against oxidative stress
Prachi Gupta,Carolyn T. Jordan,Mihail I. Mitov,D. Allan Butterfield,J. Zach Hilt,Thomas D. Dziubla
International Journal of Pharmaceutics.2016;511(2)1012
[DOI]
46Evidence That Calebin A, a Component of Curcuma Longa Suppresses NF-?B Mediated Proliferation, Invasion and Metastasis of Human Colorectal Cancer Induced by TNF-ß (Lymphotoxin)
Constanze Buhrmann,Bastian Popper,Ajaikumar B. Kunnumakkara,Bharat B. Aggarwal,Mehdi Shakibaei
Nutrients.2019;11(12)2904
[DOI]
47Evidence That Calebin A, a Component of Curcuma Longa Suppresses NF-?B Mediated Proliferation, Invasion and Metastasis of Human Colorectal Cancer Induced by TNF-ß (Lymphotoxin)
Swati Sharma,Sangita Sharma,Rounak Chourasia,Aseesh Pandey,Amit Kumar Rai,Dinabandhu Sahoo
Nutrients.2021;11(12)11
[DOI]
48Evaluation of Traditional Medicines for Neurodegenerative Diseases UsingDrosophilaModels
Soojin Lee,Se Min Bang,Joon Woo Lee,Kyoung Sang Cho
Evidence-Based Complementary and Alternative Medicine.2014;2014(12)1
[DOI]
49Fluorescence of tautomeric forms of curcumin in different pH and biosurfactant rhamnolipids systems: Application towards on-off ratiometric fluorescence temperature sensing
Zeinab Moussa,Mazhar Chebl,Digambara Patra
Journal of Photochemistry and Photobiology B: Biology.2017;173(12)307
[DOI]
50Acute Administration of Bioavailable Curcumin Alongside Ferrous Sulphate Supplements Does Not Impair Iron Absorption in Healthy Adults in a Randomised Trial
Helena Tiekou Lorinczova,Gulshanara Begum,Derek Renshaw,Mohammed Gulrez Zariwala
Nutrients.2021;13(7)2300
[DOI]
51Curcumin-loaded self-nanomicellizing solid dispersion system: part II: in vivo safety and efficacy assessment against behavior deficit in Alzheimer disease
Ankit Parikh,Krishna Kathawala,Jintao Li,Chi Chen,Zhengnan Shan,Xia Cao,Xin-Fu Zhou,Sanjay Garg
Drug Delivery and Translational Research.2018;8(5)1406
[DOI]
52Synthesis, characterization, molecular docking evaluation, antidepressant, and anti-Alzheimer effects of dibenzylidene ketone derivatives
Muhammad Adnan Bashir,Arif-ullah Khan,Haroon Badshah,Edson Rodrigues-Filho,Zia Ud Din,Aslam Khan
Drug Development Research.2019;8(5)1406
[DOI]
53Genetics of Dementia
Claudia Padilla,Richard S. Isaacson
CONTINUUM: Lifelong Learning in Neurology.2011;17(5)326
[DOI]
54Alzheimer’s Disease, Inflammation, and the Role of Antioxidants
Benjamin Sinyor,Jocelyn Mineo,Christopher Ochner
Journal of Alzheimer's Disease Reports.2020;4(1)175
[DOI]
55Theracurmin Ameliorates Cognitive Dysfunctions in 5XFAD Mice by Improving Synaptic Function and Mitigating Oxidative Stress
Jihyun Kim,Jaehoon Kim,Zhouchi Huang,Nayeon Goo,Ho Jung Bae,Yongwoo Jeong,Ho Jae Park,Mudan Cai,Kyungnam Cho,Seo Yun Jung,Soo Kyung Bae,Jong Hoon Ryu
Biomolecules & Therapeutics.2019;27(3)327
[DOI]
56Natural and Synthetic Derivatives of Hydroxycinnamic Acid Modulating the Pathological Transformation of Amyloidogenic Proteins
Vladimir I. Muronetz,Kseniya Barinova,Sofia Kudryavtseva,Maria Medvedeva,Aleksandra Melnikova,Irina Sevostyanova,Pavel Semenyuk,Yulia Stroylova,Matej Sova
Molecules.2020;25(20)4647
[DOI]
57Curcumin’s Nanomedicine Formulations for Therapeutic Application in Neurological Diseases
Bahare Salehi,Daniela Calina,Anca Docea,Niranjan Koirala,Sushant Aryal,Domenico Lombardo,Luigi Pasqua,Yasaman Taheri,Carla Marina Salgado Castillo,Miquel Martorell,Natália Martins,Marcello Iriti,Hafiz Suleria,Javad Sharifi-Rad
Journal of Clinical Medicine.2020;9(2)430
[DOI]
58Curcumin’s Nanomedicine Formulations for Therapeutic Application in Neurological Diseases
Bahare Salehi,Daniela Calina,Anca Docea,Niranjan Koirala,Sushant Aryal,Domenico Lombardo,Luigi Pasqua,Yasaman Taheri,Carla Marina Salgado Castillo,Miquel Martorell,Natália Martins,Marcello Iriti,Hafiz Suleria,Javad Sharifi-Rad
Journal of Clinical Medicine.2011;9(2)281
[DOI]
59In vitroacetylcholinesterase inhibitory activity and the antioxidant properties ofAegle marmelosleaf extract: implications for the treatment of Alzheimer's disease
Md. Asaduzzaman,Md. Josim Uddin,M.A. Kader,A.H.M.K. Alam,Aziz Abdur Rahman,Mamunur Rashid,Kiyoko Kato,Toshihisa Tanaka,Masatoshi Takeda,Golam Sadik
Psychogeriatrics.2014;14(1)1
[DOI]
60Optical Spectroscopic and Morphological Characterizations of Curcuminized Silk Biomaterials: A Perspective from Drug Stabilization
Sudipta Panja,Sibaram Behera,Subhas C. Kundu,Mintu Halder
ACS Omega.2017;2(10)6755
[DOI]
61Vortex assisted deep eutectic solvent (DES)-emulsification liquid-liquid microextraction of trace curcumin in food and herbal tea samples
Funda Aydin,Erkan Yilmaz,Mustafa Soylak
Food Chemistry.2018;243(10)442
[DOI]
62Atherosklerosis and dementia
Anna Zatloukalová,Martin Roubec,David Školoudík,Petr Ambroz,Ondrej Machaczka,Jana Janoutová,Vladimír Janout
Profese online.2020;13(1)17
[DOI]
63In-vitro studies of curcumin encapsulated mesoporous Fe-Phenanthroline nanocluster for reduction of amyloid ß plaque
Anu Sharma,Anita Yadav,Katherine Cwiklinski,Elizabeth Quaye,Ravikumar Aalinkeel,Supriya D. Mahajan,Stanley A. Schwartz,Rakesh Kumar Sharma
Journal of Drug Delivery Science and Technology.2019;54(1)101314
[DOI]
64Polyphenols as Potential Metal Chelation Compounds Against Alzheimer’s Disease
Johant Lakey-Beitia,Andrea M. Burillo,Giovanni La Penna,Muralidhar L. Hegde,K.S. Rao,K.S. Jagannatha Rao,Gabrielle B. Britton,Luisa Lilia Rocha Arrieta,Norberto Garcia-Cairasco,Alberto Lazarowski,Adrián Palacios,Antoni Camins Espuny,Ricardo B. Maccioni
Journal of Alzheimer's Disease.2021;82(s1)S335
[DOI]
65Inhibitory effect of curcumin on the Al(III)-induced Aß42 aggregation and neurotoxicity in vitro
Teng Jiang,Xiu-Ling Zhi,Yue-Hong Zhang,Luan-Feng Pan,Ping Zhou
Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease.2012;1822(8)1207
[DOI]
66Current biochemical treatments of mitochondrial respiratory chain disorders
Robert Heaton,Lauren Millichap,Fatima Saleem,Jennifer Gannon,Gemma Begum,Iain P. Hargreaves
Expert Opinion on Orphan Drugs.2019;7(6)277
[DOI]
67Current biochemical treatments of mitochondrial respiratory chain disorders
Blake C. Walker,Srijan Adhikari,Sandeep Mittal
Expert Opinion on Orphan Drugs.2021;7(6)139
[DOI]
68Current biochemical treatments of mitochondrial respiratory chain disorders
Celia Rodríguez-Pérez,Ramón Aznar
Expert Opinion on Orphan Drugs.2020;7(6)207
[DOI]
69Cellular and molecular mechanisms of curcumin in prevention and treatment of disease
Sita Sharan Patel,Ashish Acharya,R. S. Ray,Ritesh Agrawal,Ramsaneh Raghuwanshi,Priyal Jain
Critical Reviews in Food Science and Nutrition.2020;60(6)887
[DOI]
70Epidemiology of dementia and its burden in the city of Kolkata, India
Tapas Kumar Banerjee,Saunak Dutta,Sujata Das,Malay Ghosal,Biman Kanti Ray,Atanu Biswas,Avijit Hazra,Arijit Chaudhuri,Neelanjana Paul,Shyamal Kumar Das
International Journal of Geriatric Psychiatry.2017;32(6)605
[DOI]
71Gene expression profiling reveals biological pathways responsible for phenotypic heterogeneity between UK and Sri Lankan oral squamous cell carcinomas
Anas A. Saeed,Andrew H. Sims,Stephen S. Prime,Ian Paterson,Paul G. Murray,Victor R. Lopes
Oral Oncology.2015;51(3)237
[DOI]
72Targeting mTOR to reduce Alzheimer-related cognitive decline: from current hits to future therapies
Antonella Tramutola,Chiara Lanzillotta,Fabio Di Domenico
Expert Review of Neurotherapeutics.2017;17(1)33
[DOI]
73Retro-Curcuminoids as Mimics of Dehydrozingerone and Curcumin: Synthesis, NMR, X-ray, and Cytotoxic Activity
Marco Obregón-Mendoza,María Estévez-Carmona,Simón Hernández-Ortega,Manuel Soriano-García,María Ramírez-Apan,Laura Orea,Hugo Pilotzi,Dino Gnecco,Julia Cassani,Raúl Enríquez
Molecules.2016;22(1)33
[DOI]
74Potential Role of Curcumin Against Biofilm-Producing Organisms on the Skin: A Review
Alexandra R. Vaughn,Kelly N. Haas,Waqas Burney,Erich Andersen,Ashley K. Clark,Robert Crawford,Raja K. Sivamani
Phytotherapy Research.2017;31(12)1807
[DOI]
75Anti-amnestic Effect of Curcumin in Combination with Donepezil, an Anticholinesterase Drug: Involvement of Cholinergic System
Ayodele Jacob Akinyemi,Ganiyu Oboh,Sunday Idowu Oyeleye,Opeyemi Ogunsuyi
Neurotoxicity Research.2017;31(4)560
[DOI]
76Anti-amnestic Effect of Curcumin in Combination with Donepezil, an Anticholinesterase Drug: Involvement of Cholinergic System
V. Kuete
Neurotoxicity Research.2017;31(4)329
[DOI]
77Gas-phase basicity and proton affinity measurements of Alzheimer's disease drugs by the extended kinetic method and a theoretical investigation
Voleti Nagaveni,Rajendiran Karthikraj,Ramesh Kumar Chitumalla,Kotamarthi Bhanuprakash,Mariappandar Vairamani,Sripadi Prabhakar
European Journal of Mass Spectrometry.2020;26(6)388
[DOI]
78Structure-based drug discovery of ApoE4 inhibitors from the plant compounds
Kh. Dhanachandra Singh,M. Karthikeyan,P. Kirubakaran,V. Sathya,S. Nagamani
Medicinal Chemistry Research.2012;21(6)825
[DOI]
79Targeted delivery of curcumin using MgONPs and solid lipid nanoparticles: Attenuates aluminum.induced neurotoxicity in albino rats
Swathi Ganna,RajasekharaReddy Gutturu,Rajesh Megala,Rasajna Nadella,DevaPrasad Raju Borelli,JohnSushma Nannepaga
Pharmacognosy Research.2020;12(4)380
[DOI]
80Phytochemicals against TNFa-Mediated Neuroinflammatory Diseases
Lalita Subedi,Si Eun Lee,Syeda Madiha,Bhakta Prasad Gaire,Mirim Jin,Silvia Yumnam,Sun Yeou Kim
International Journal of Molecular Sciences.2020;21(3)764
[DOI]
81Curcumin affects gene expression and reactive oxygen species via a PKA dependent mechanism in Dictyostelium discoideum
William S. Swatson,Mariko Katoh-Kurasawa,Gad Shaulsky,Stephen Alexander,Thierry Soldati
PLOS ONE.2017;12(11)e0187562
[DOI]
82A comprehensive review of the therapeutic potential of curcumin nanoformulations
Khadijeh Khezri,Majid Saeedi,Hassan Mohammadamini,Abbas Seyed Zakaryaei
Phytotherapy Research.2021;12(11)e0187562
[DOI]
83The protective effect of fermented Curcuma longa L. on memory dysfunction in oxidative stress-induced C6 gliomal cells, proinflammatory-activated BV2 microglial cells, and scopolamine-induced amnesia model in mice
Cheong-Su Eun,Jong-Soon Lim,Jihye Lee,Sam-Pin Lee,Seun-Ah Yang
BMC Complementary and Alternative Medicine.2017;17(1)e0187562
[DOI]
84Curcuma longa extract ameliorates motor and cognitive deficits of 6-hydroxydopamine-infused Parkinson’s disease model rats
Sujan Bhowmick,Marzan Sarkar,Jakir Hussain,Mehedi Hassan,Mafroz Basunia,Taslima Nahar,Azizur Rahman,Borhan Uddin,Shahdat Hossain
Advances in Traditional Medicine.2021;17(1)e0187562
[DOI]
85Curcumin, an active component of turmeric (Curcuma longa), and its effects on health
Betül Kocaadam,Nevin Sanlier
Critical Reviews in Food Science and Nutrition.2017;57(13)2889
[DOI]
86Self-assembled nanoparticles composed of glycol chitosan-dequalinium for mitochondria-targeted drug delivery
Sudipta Mallick,Su Jeong Song,Yoonhee Bae,Joon Sig Choi
International Journal of Biological Macromolecules.2019;132(13)451
[DOI]
87Preclinical studies of potential amyloid binding PET/SPECT ligands in Alzheimer's disease
Marie M. Svedberg,Obaidur Rahman,Håkan Hall
Nuclear Medicine and Biology.2012;39(4)484
[DOI]
88Nature’s Derivative(s) as Alternative Anti-Alzheimer’s Disease Treatments
Anuja Sharma,Yatender Kumar
Journal of Alzheimer's Disease Reports.2019;3(1)279
[DOI]
89Understanding the conformational flexibility and electrostatic properties of curcumin in the active site of rhAChE via molecular docking, molecular dynamics, and charge density analysis
Kandasamy Saravanan,Chinnasamy Kalaiarasi,Poomani Kumaradhas
Journal of Biomolecular Structure and Dynamics.2017;35(16)3627
[DOI]
90Iron and Copper Intracellular Chelation as an Anticancer Drug Strategy
Kavita Gaur,Alexandra Vázquez-Salgado,Geraldo Duran-Camacho,Irivette Dominguez-Martinez,Josué Benjamín-Rivera,Lauren Fernández-Vega,Lesly Carmona Sarabia,Angelys Cruz García,Felipe Pérez-Deliz,José Méndez Román,Melissa Vega-Cartagena,Sergio Loza-Rosas,Xaymara Rodriguez Acevedo,Arthur Tinoco
Inorganics.2018;6(4)126
[DOI]
91Iron and Copper Intracellular Chelation as an Anticancer Drug Strategy
Wei-Peng Teo
Inorganics.2015;6(4)279
[DOI]
92The effect of curcumin on cognition in Alzheimer’s disease and healthy aging: A systematic review of pre-clinical and clinical studies
S.D. Voulgaropoulou,T.A.M.J. van Amelsvoort,J. Prickaerts,C. Vingerhoets
Brain Research.2019;1725(4)146476
[DOI]
93Dairy constituents and neurocognitive health in ageing
David A. Camfield,Lauren Owen,Andrew B. Scholey,Andrew Pipingas,Con Stough
British Journal of Nutrition.2011;106(2)159
[DOI]
94Curcumin revitalizes Amyloid beta (25–35)-induced and organophosphate pesticides pestered neurotoxicity in SH-SY5Y and IMR-32 cells via activation of APE1 and Nrf2
Bibekananda Sarkar,Monisha Dhiman,Sunil Mittal,Anil K. Mantha
Metabolic Brain Disease.2017;32(6)2045
[DOI]
95The neuroprotective effect of curcumin against Cd-induced neurotoxicity and hippocampal neurogenesis promotion through CREB-BDNF signaling pathway
Dhondup Namgyal,Sher Ali,Rachna Mehta,Maryam Sarwat
Toxicology.2020;442(6)152542
[DOI]
96Leveraging hallmark Alzheimer’s molecular targets using phytoconstituents: Current perspective and emerging trends
Prajakta A. Dhage,Archana A. Sharbidre,Sarada P. Dakua,Shidin Balakrishnan
Biomedicine & Pharmacotherapy.2021;139(6)111634
[DOI]
97Nutrition and Dementia
Y. Brockdorf,John E. Morley
The journal of nutrition, health & aging.2021;25(5)590
[DOI]
98Mitochondrial dysfunction mediated cisplatin induced toxicity: Modulatory role of curcumin
Mohammad Waseem,Suhel Parvez
Food and Chemical Toxicology.2013;53(5)334
[DOI]
99Apolipoprotein E Polymorphism and Oxidative Stress in Peripheral Blood-Derived Macrophage-Mediated Amyloid-Beta Phagocytosis in Alzheimer’s Disease Patients
P. S. Jairani,P. M. Aswathy,Dhanya Krishnan,Ramsekhar N. Menon,Joe Verghese,P. S. Mathuranath,Srinivas Gopala
Cellular and Molecular Neurobiology.2019;39(3)355
[DOI]
100Neuroprotective effect of curcumin on okadaic acid induced memory impairment in mice
N. Rajasekar,Subhash Dwivedi,Santosh kumar Tota,Pradeep Kumar Kamat,Kashif Hanif,Chandishwar Nath,Rakesh Shukla
European Journal of Pharmacology.2013;715(1-3)381
[DOI]
101Electrozymographic evaluation of the attenuation of arsenic induced degradation of hepatic SOD, catalase in an in vitro assay system by pectic polysaccharides of Momordica charantia in combination with curcumin
Hasina Perveen,Moumita Dash,Shamima Khatun,Moulima Maity,Syed Sirajul Islam,Sandip Chattopadhyay
Biochemistry and Biophysics Reports.2017;11(1-3)64
[DOI]
102Combined in Vitro Cell-Based/in Silico Screening of Naturally Occurring Flavonoids and Phenolic Compounds as Potential Anti-Alzheimer Drugs
Alba Espargaró,Tiziana Ginex,Maria del Mar Vadell,Maria A. Busquets,Joan Estelrich,Diego Muñoz-Torrero,F. Javier Luque,Raimon Sabate
Journal of Natural Products.2017;80(2)278
[DOI]
103The Immunopathogenesis of Alzheimer’s Disease Is Related to the Composition of Gut Microbiota
Friedrich Leblhuber,Daniela Ehrlich,Kostja Steiner,Simon Geisler,Dietmar Fuchs,Lukas Lanser,Katharina Kurz
Nutrients.2021;13(2)361
[DOI]
104Curcumin Loaded-PLGA Nanoparticles Conjugated with Tet-1 Peptide for Potential Use in Alzheimer's Disease
Anila Mathew,Takahiro Fukuda,Yutaka Nagaoka,Takashi Hasumura,Hisao Morimoto,Yasuhiko Yoshida,Toru Maekawa,Kizhikkilot Venugopal,D. Sakthi Kumar,Dimitris Fatouros
PLoS ONE.2012;7(3)e32616
[DOI]
105WS-5 Extract of Curcuma longa, Chaenomeles sinensis, and Zingiber officinale Contains Anti-AChE Compounds and Improves ß-Amyloid-Induced Memory Impairment in Mice
Ju Eun Kim,Abinash Chandra Shrestha,Hyo Shin Kim,Ha Neul Ham,Jun Hyeong Kim,Yeong Jee Kim,Yun Jeong Noh,Su Jin Kim,Dae Keun Kim,Hyung Kwon Jo,Dae Sung Kim,Kwang Hyun Moon,Jeong Ho Lee,Kyung Ok Jeong,Jae Yoon Leem
Evidence-Based Complementary and Alternative Medicine.2019;2019(3)1
[DOI]
106Caffeine, a natural methylxanthine nutraceutical, exerts dopaminergic neuroprotection
Senthilkumar S. Karuppagounder,Subramaniam Uthaythas,Manoj Govindarajulu,Sindhu Ramesh,Koodeswaran Parameshwaran,Muralikrishnan Dhanasekaran
Neurochemistry International.2021;148(3)105066
[DOI]
107Curcumin and Apigenin - novel and promising therapeutics against chronic neuroinflammation in Alzheimer's disease
Madhuri Venigalla,Erika Gyengesi,Gerald Münch
Neural Regeneration Research.2015;10(8)1181
[DOI]
108Curcumin Analogues with Aldose Reductase Inhibitory Activity: Synthesis, Biological Evaluation, and Molecular Docking
Dasharath Kondhare,Sushma Deshmukh,Harshad Lade
Processes.2019;7(7)417
[DOI]
109Curcumin Analogues with Aldose Reductase Inhibitory Activity: Synthesis, Biological Evaluation, and Molecular Docking
Tahira Farooqui,Akhlaq A. Farooqui
Processes.2019;7(7)23
[DOI]
110Hydrophobic hydration driven self-assembly of curcumin in water: Similarities to nucleation and growth under large metastability, and an analysis of water dynamics at heterogeneous surfaces
Milan Kumar Hazra,Susmita Roy,Biman Bagchi
The Journal of Chemical Physics.2014;141(18)18C501
[DOI]
111Supplemental Substances Derived from Foods as Adjunctive Therapeutic Agents for Treatment of Neurodegenerative Diseases and Disorders
Gregory E. Bigford,Gianluca Del Rossi
Advances in Nutrition.2014;5(4)394
[DOI]
112Impact of Curcuma longa extract on the expression level of brain transporters in in vivo model
Marta Bukowska,Anna Bogacz,Marlena Wolek,Przemyslaw L. Mikolajczak,Piotr Olbromski,Adam Kaminski,Boguslaw Czerny
Herba Polonica.2019;65(1)32
[DOI]
113Role of medicinal plants against Alzheimer’s disease
Arpita Roy
International Journal of Complementary & Alternative Medicine.2018;11(4)32
[DOI]
114Stress Proteins and Glial Cell Functions During Chronic Aluminium Exposures: Protective Role of Curcumin
Pooja Khanna Sood,Uma Nahar,Bimla Nehru
Neurochemical Research.2012;37(3)639
[DOI]
115Influence of curcumin on the Al(iii)-induced conformation transition of silk fibroin and resulting potential therapy for neurodegenerative diseases
Teng Jiang,Guang-Rong Zhou,Yue-Hong Zhang,Ping-Chuan Sun,Qi-Ming Du,Ping Zhou
RSC Advances.2012;2(24)9106
[DOI]
116Curcumin-3,4-Dichloro Phenyl Pyrazole (CDPP) overcomes curcumin's low bioavailability, inhibits adipogenesis and ameliorates dyslipidemia by activating reverse cholesterol transport
Abhishek Gupta,Vinay Kumar Singh,Durgesh Kumar,Pragya Yadav,Santosh Kumar,Muheeb Beg,Kripa Shankar,Salil Varshney,Sujith Rajan,Ankita Srivastava,Rakhi Choudhary,Vishal M. Balaramnavar,Rabi Bhatta,Narender Tadigoppula,Anil Nilkanth Gaikwad
Metabolism.2017;73(24)109
[DOI]
117Curcumin-3,4-Dichloro Phenyl Pyrazole (CDPP) overcomes curcumin's low bioavailability, inhibits adipogenesis and ameliorates dyslipidemia by activating reverse cholesterol transport
T. K. Lim
Metabolism.2016;73(24)241
[DOI]
118Curcumin-3,4-Dichloro Phenyl Pyrazole (CDPP) overcomes curcumin's low bioavailability, inhibits adipogenesis and ameliorates dyslipidemia by activating reverse cholesterol transport
Vandita Kakkar,Parina Kumari,Suneera Adlakha,Indu Pal Kaur
Metabolism.2019;73(24)343
[DOI]
119Curcumin Inhibits the Primary Nucleation of Amyloid-Beta Peptide: A Molecular Dynamics Study
Irini Doytchinova,Mariyana Atanasova,Evdokiya Salamanova,Stefan Ivanov,Ivan Dimitrov
Biomolecules.2020;10(9)1323
[DOI]
120Promising Intervention Approaches to Potentially Resolve Neuroinflammation And Steroid Hormones Alterations in Alzheimer’s Disease and Its Neuropsychiatric Symptoms
Catia Scassellati,Antonio Carlo Galoforo,Ciro Esposito,Miriam Ciani,Giovanni Ricevuti,Cristian Bonvicini
Aging and disease.2021;12(5)1337
[DOI]
121Chinese nutraceuticals and physical activity; their role in neurodegenerative tauopathies
Abdullahi Alausa,Sunday Ogundepo,Barakat Olaleke,Rofiat Adeyemi,Mercy Olatinwo,Aminat Ismail
Chinese Medicine.2021;16(1)1337
[DOI]
122Chinese nutraceuticals and physical activity; their role in neurodegenerative tauopathies
Mohammad Zaidur Rahman Sabuj,Nazrul Islam
Chinese Medicine.2020;16(1)55
[DOI]
123Acetylcholinesterase inhibitory activity of phlorotannins isolated from the brown alga, Ecklonia maxima (Osbeck) Papenfuss
Rengasamy R.R. Kannan,Mutalib A. Aderogba,Ashwell R. Ndhlala,Wendy A. Stirk,Johannes Van Staden
Food Research International.2013;54(1)1250
[DOI]
124Phytoconstituents and their Possible Mechanistic Profile for Alzheimer’s Disease – A Literature Review
Duraiswamy Basavan,Nehru S.S. Chalichem,Mohan K.S. Kumar
Current Drug Targets.2019;20(3)263
[DOI]
125Examining the potential clinical value of curcumin in the prevention and diagnosis of Alzheimer’s disease
K. G. Goozee,T. M. Shah,H. R. Sohrabi,S. R. Rainey-Smith,B. Brown,G. Verdile,R. N. Martins
British Journal of Nutrition.2016;115(3)449
[DOI]
126Inverse Molecular Docking as a Novel Approach to Study Anticarcinogenic and Anti-Neuroinflammatory Effects of Curcumin
Veronika Furlan,Janez Konc,Urban Bren
Molecules.2018;23(12)3351
[DOI]
127Identification of neurological disease targets of natural products by computational screening
Janez Konc
Neural Regeneration Research.2019;14(12)2075
[DOI]
128Neuroprotective Effects of Marine Algae
Ratih Pangestuti,Se-Kwon Kim
Marine Drugs.2011;9(5)803
[DOI]
129Acquired Resilience: An Evolved System of Tissue Protection in Mammals
Jonathan Stone,John Mitrofanis,Daniel M. Johnstone,Benedetto Falsini,Silvia Bisti,Paul Adam,Arturo Bravo Nuevo,Mindy George-Weinstein,Rebecca Mason,Janis Eells
Dose-Response.2018;16(4)155932581880342
[DOI]
130Byakangelicin as a modulator for improved distribution and bioactivity of natural compounds and synthetic drugs in the brain
Yoon Young Kang,Jihyeon Song,Jun Yeong Kim,Heesun Jung,Woon-Seok Yeo,Yoongho Lim,Hyejung Mok
Phytomedicine.2019;62(4)152963
[DOI]
131Phytochemical-Mediated Glioma Targeted Treatment: Drug Resistance and Novel Delivery Systems
Hang Cao,Xuejun Li,Feiyifan Wang,Yueqi Zhang,Yi Xiong,Qi Yang
Current Medicinal Chemistry.2020;27(4)599
[DOI]
132Beneficial effects of nano-curcumin supplement on depression and anxiety in diabetic patients with peripheral neuropathy: A randomized, double-blind, placebo-controlled clinical trial
Sara Asadi,Mohammad Saeed Gholami,Fereydoun Siassi,Mostafa Qorbani,Gity Sotoudeh
Phytotherapy Research.2020;34(4)896
[DOI]
133Why does Finland have the highest dementia mortality rate? Environmental factors may be generalizable
Arnold R. Eiser
Brain Research.2017;1671(4)14
[DOI]
134Curcumin Protects Membranes through a Carpet or Insertion Model Depending on Hydration
Richard J. Alsop,Alexander Dhaliwal,Maikel C. Rheinstädter
Langmuir.2017;33(34)8516
[DOI]
135Synthesis and characterization of curcumin-sulfonamide hybrids: Biological evaluation and molecular docking studies
Govindharasu Banuppriya,Rajendran Sribalan,Vediappen Padmini
Journal of Molecular Structure.2018;1155(34)90
[DOI]
136Chalcone and its analogs: Therapeutic and diagnostic applications in Alzheimer’s disease
Pritam Thapa,Sunil P. Upadhyay,William Z. Suo,Vikas Singh,Prajwal Gurung,Eung Seok Lee,Ram Sharma,Mukut Sharma
Bioorganic Chemistry.2021;108(34)104681
[DOI]
137Beneficial Effects of Epigallocatechin-3-O-Gallate, Chlorogenic Acid, Resveratrol, and Curcumin on Neurodegenerative Diseases
Ryuuta Fukutomi,Tomokazu Ohishi,Yu Koyama,Monira Pervin,Yoriyuki Nakamura,Mamoru Isemura
Molecules.2021;26(2)415
[DOI]
138Protective effect of curcumin against chronic alcohol-induced cognitive deficits and neuroinflammation in the adult rat brain
V. Tiwari,K. Chopra
Neuroscience.2013;244(2)147
[DOI]
139Prenatal Curcumin Administration Reverses Behavioral and Neurochemical Effects and Decreases iNOS and COX-2 Expressions in Ischemic Rat Pups
Maria Valéria Leimig Telles,Maria Elizabeth Pereira Nobre,Lucas Parente Alencar,Keicy Parente de Siqueira,Ada Maria Farias Sousa Borges,Márnya Wellysa Leite Tavares,Isabelle Bernardo Alves,Lara Soares Duarte,Natália Kelly Rodrigues de Lacerda,Glaura Fernandes Teixeira de Alcântara,Débora Amado Scerni,Kelly Rose Tavares Neves,Glauce Socorro de Barros Viana
International Journal of Brain Science.2014;2014(2)1
[DOI]
140Dietary interventions as a neuroprotective therapy for the delay of the onset of cognitive decline in older adults: an umbrella review protocol
Debra Krause,Peter Roupas
JBI Database of Systematic Reviews and Implementation Reports.2015;13(2)74
[DOI]
141Role of Curcuminoids and Tricalcium Phosphate Ceramic in Rat Spinal Fusion
Daniel A. Ryan,Jiongjia Cheng,Koichi Masuda,John R. Cashman
Tissue Engineering Part C: Methods.2020;26(11)577
[DOI]
142Photoinitiators of polymerization with reduced environmental impact: Nature as an unlimited and renewable source of dyes
Guillaume Noirbent,Frédéric Dumur
European Polymer Journal.2021;142(11)110109
[DOI]
143Investigating the effect of gallium curcumin and gallium diacetylcurcumin complexes on the structure, function and oxidative stability of the peroxidase enzyme and their anticancer and antibacterial activities
Parisa Jahangoshaei,Leila Hassani,Fakhrossadat Mohammadi,Akram Hamidi,Khosro Mohammadi
JBIC Journal of Biological Inorganic Chemistry.2015;20(7)1135
[DOI]
144Epigenetic impact of curcumin on stroke prevention
Anuradha Kalani,Pradip K. Kamat,Komal Kalani,Neetu Tyagi
Metabolic Brain Disease.2015;30(2)427
[DOI]
145Ophthalmic Biomarkers for Alzheimer’s Disease: A Review
Ayesha Majeed,Ben Marwick,Haoqing Yu,Hassan Fadavi,Mitra Tavakoli
Frontiers in Aging Neuroscience.2021;13(2)427
[DOI]
146Curcumin-loaded embryonic stem cell exosomes restored neurovascular unit following ischemia-reperfusion injury
Anuradha Kalani,Pankaj Chaturvedi,Pradip K. Kamat,Claudio Maldonado,Philip Bauer,Irving G. Joshua,Suresh C. Tyagi,Neetu Tyagi
The International Journal of Biochemistry & Cell Biology.2016;79(2)360
[DOI]
147Addressing the psychological consequences of COVID-19 pandemic through Ayurveda: a positive approach for a positive perspective
Shagufta Raahat,Meenakshi Sharma,SisirK Mandal,AnandB More,Shalini Rai
Journal of Indian System of Medicine.2021;9(2)82
[DOI]
148Neuroprotective effects of curcumin on endothelin-1 mediated cell death in hippocampal neurons
Dorota L. Stankowska,Vignesh R. Krishnamoorthy,Dorette Z. Ellis,Raghu R. Krishnamoorthy
Nutritional Neuroscience.2017;20(5)273
[DOI]
149Curcumin induces brown fat-like phenotype in 3T3-L1 and primary white adipocytes
Jameel Lone,Jae Heon Choi,Sang Woo Kim,Jong Won Yun
The Journal of Nutritional Biochemistry.2016;27(5)193
[DOI]
150An overview of the possible therapeutic role of SUMOylation in the treatment of Alzheimer’s disease
S. Marcelli,E. Ficulle,L. Piccolo,M. Corbo,M. Feligioni
Pharmacological Research.2018;130(5)420
[DOI]
151An overview of the possible therapeutic role of SUMOylation in the treatment of Alzheimer’s disease
Tahira Farooqui,Akhlaq A. Farooqui
Pharmacological Research.2019;130(5)257
[DOI]
152Substantiation for the Use of Curcumin during the Development of Neurodegeneration after Brain Ischemia
Marzena Ulamek-Koziol,Stanislaw J. Czuczwar,Slawomir Januszewski,Ryszard Pluta
International Journal of Molecular Sciences.2020;21(2)517
[DOI]
153Mitochondria-targeting particles
Amaraporn Wongrakpanich,Sean M Geary,Mei-ling A Joiner,Mark E Anderson,Aliasger K Salem
Nanomedicine.2014;9(16)2531
[DOI]
154Mitochondria-targeting particles
Kaustubh S. Chaudhari
Nanomedicine.2021;9(16)227
[DOI]
155Mitochondria-targeting particles
Ana-Maria Enciu,Elena Codrici,Simona Mihai,Emilia Manole,Sevinci Pop,Eleonora Codorean,Cristina Mariana Niculite,Laura Necula,Isabela Tarcomnicu,Elvira Gille,Cristiana Pistol Tanase
Nanomedicine.2018;9(16)227
[DOI]
156Neuroprotective Effects of Curcumin in Cerebral Ischemia: Cellular and Molecular Mechanisms
Lalita Subedi,Bhakta Prasad Gaire
ACS Chemical Neuroscience.2021;12(14)2562
[DOI]
157Protective effects of flavonoids against Alzheimer’s disease-related neural dysfunctions
Mahsa Bakhtiari,Yunes Panahi,Javad Ameli,Behrad Darvishi
Biomedicine & Pharmacotherapy.2017;93(14)218
[DOI]
158Protective effects of flavonoids against Alzheimer’s disease-related neural dysfunctions
Shweta Dang,Deeksha Mehtani,Atinderpal Kaur,Reema Gabrani
Biomedicine & Pharmacotherapy.2018;93(14)227
[DOI]
159Diphenylalanin nanofibers-inspired synthesis of fluorescent gold nanoclusters for screening of anti-amyloid drugs
Tayebeh Zohrabi,Amir Amiri-Sadeghan,Mohammad Reza Ganjali,Saman Hosseinkhani
Methods and Applications in Fluorescence.2020;8(4)045002
[DOI]
160Synthesis and Evaluation of the Anti-Oxidant Capacity of Curcumin Glucuronides, the Major Curcumin Metabolites
Ambar Choudhury,Suganya Raja,Sanjata Mahapatra,Kalyanam Nagabhushanam,Muhammed Majeed
Antioxidants.2015;4(4)750
[DOI]
161Synthesis and Evaluation of the Anti-Oxidant Capacity of Curcumin Glucuronides, the Major Curcumin Metabolites
Touqeer Ahmed,Sana Javed,Ameema Tariq,Anwarul-Hassan Gilani
Antioxidants.2017;4(4)463
[DOI]
162A Review on Current Strategies and Future Perspective in Respect to Alzheimer’s Disease Treatment
Souravh Bais,Renu Kumari,Yash Prashar
Current Research in Neuroscience.2015;6(1)1
[DOI]
163The protective role of plant biophenols in mechanisms of Alzheimer's disease
Syed H. Omar,Christopher J. Scott,Adam S. Hamlin,Hassan K. Obied
The Journal of Nutritional Biochemistry.2017;47(1)1
[DOI]
164The protective role of plant biophenols in mechanisms of Alzheimer's disease
Navrattan Kaur,Bibekananda Sarkar,Iqbal Gill,Sukhchain Kaur,Sunil Mittal,Monisha Dhiman,Prasad R. Padala,Regino Perez-Polo,Anil K. Mantha
The Journal of Nutritional Biochemistry.2017;47(1)79
[DOI]
165Mechanistic Insights of Curcumin Interactions with the Core-Recognition Motif of ß-Amyloid Peptide
Priyadharshini Kumaraswamy,Swaminathan Sethuraman,Uma Maheswari Krishnan
Journal of Agricultural and Food Chemistry.2013;61(13)3278
[DOI]
166The Potential of Curcumin in Treatment of Spinal Cord Injury
Raghavendra Sanivarapu,Vijayalakshmi Vallabhaneni,Vivek Verma
Neurology Research International.2016;2016(13)1
[DOI]
167Gut Microbiota Disorder, Gut Epithelial and Blood–Brain Barrier Dysfunctions in Etiopathogenesis of Dementia: Molecular Mechanisms and Signaling Pathways
Menizibeya O. Welcome
NeuroMolecular Medicine.2019;21(3)205
[DOI]
168Turmeric (Curcuma longa) and its major constituent (curcumin) as nontoxic and safe substances: Review
Vahid Soleimani,Amirhossein Sahebkar,Hossein Hosseinzadeh
Phytotherapy Research.2018;32(6)985
[DOI]
169Curcumin-Loaded Nanoparticles Potently Induce Adult Neurogenesis and Reverse Cognitive Deficits in Alzheimer’s Disease Model via Canonical Wnt/ß-Catenin Pathway
Shashi Kant Tiwari,Swati Agarwal,Brashket Seth,Anuradha Yadav,Saumya Nair,Priyanka Bhatnagar,Madhumita Karmakar,Manisha Kumari,Lalit Kumar Singh Chauhan,Devendra Kumar Patel,Vikas Srivastava,Dhirendra Singh,Shailendra Kumar Gupta,Anurag Tripathi,Rajnish Kumar Chaturvedi,Kailash Chand Gupta
ACS Nano.2014;8(1)76
[DOI]
170Factors underlying cognitive decline in old age and Alzheimer’s disease: the role of the hippocampus
Wafa Jaroudi,Julia Garami,Sandra Garrido,Michael Hornberger,Szabolcs Keri,Ahmed A. Moustafa
Reviews in the Neurosciences.2017;28(7)705
[DOI]
171Novel concept of exosome-like liposomes for the treatment of Alzheimer's disease
Mário Fernandes,Ivo Lopes,Luana Magalhães,Marisa P. Sárria,Raul Machado,João Carlos Sousa,Cláudia Botelho,José Teixeira,Andreia C. Gomes
Journal of Controlled Release.2021;336(7)130
[DOI]
172Alzheimer’s Disease and the Neuroprotective Effects of Dietary Curcumin
Tony LB
Journal of Psychology & Clinical Psychiatry.2016;6(3)130
[DOI]
173Comparative docking and ADMET study of some curcumin derivatives and herbal congeners targeting ß-amyloid
Dev Bukhsh Singh,Manish Kumar Gupta,Rajesh Kumar Kesharwani,Krishna Misra
Network Modeling Analysis in Health Informatics and Bioinformatics.2013;2(1)13
[DOI]
174Emerging Applications of Nanotechnology in Healthcare Systems: Grand Challenges and Perspectives
Sumaira Anjum,Sara Ishaque,Hijab Fatima,Wajiha Farooq,Christophe Hano,Bilal Haider Abbasi,Iram Anjum
Pharmaceuticals.2021;14(8)707
[DOI]
175Nanostructured Peptide Fibrils Formed at the Organic-Aqueous Interface and Their Use as Templates To Prepare Inorganic Nanostructures
Kanishka Biswas,C. N. R. Rao
ACS Applied Materials & Interfaces.2009;1(4)811
[DOI]
176Nanostructured Peptide Fibrils Formed at the Organic-Aqueous Interface and Their Use as Templates To Prepare Inorganic Nanostructures
Akhlaq A. Farooqui
ACS Applied Materials & Interfaces.2016;1(4)209
[DOI]
177Nanostructured Peptide Fibrils Formed at the Organic-Aqueous Interface and Their Use as Templates To Prepare Inorganic Nanostructures
Krishna Prasad Pathak,Emanuela Mattos
ACS Applied Materials & Interfaces.2021;1(4)209
[DOI]
178Curcumin as inhibitor of mammalian Cathepsin B, Cathepsin H, acid phosphatase and alkaline phosphatase: a correlation with pharmacological activities
Indu Ravish,Neera Raghav
Medicinal Chemistry Research.2014;23(6)2847
[DOI]
179Curcumin Protects Microglia and Primary Rat Cortical Neurons against HIV-1 gp120-Mediated Inflammation and Apoptosis
Luyan Guo,Yanyan Xing,Rui Pan,Mingliang Jiang,Zheng Gong,Liqing Lin,Junbing Wang,Guoyin Xiong,Jun Dong,Xiangming Zha
PLoS ONE.2013;8(8)e70565
[DOI]
180Role of Vital Trace Elements in Nanocurcumin-Centered Formulation: A Novel Approach to Resuscitate the Immune System
Mahendra Kumar Trivedi,Mayank Gangwar,Sambhu Charan Mondal,Snehasis Jana
Biological Trace Element Research.2018;182(2)265
[DOI]
181Differential outcome of schizophrenia: Does cultural explanation suffice?
Bangalore N. Gangadhar,Jagadisha Thirthalli
Asian Journal of Psychiatry.2009;2(2)53
[DOI]
182Estimation of curcumin intake in Korea based on the Korea National Health and Nutrition Examination Survey (2008-2012)
Youngjoo Kwon
Nutrition Research and Practice.2014;8(5)589
[DOI]
183Microglia Specific Drug Targeting Using Natural Products for the Regulation of Redox Imbalance in Neurodegeneration
Shashank Kumar Maurya,Neetu Bhattacharya,Suman Mishra,Amit Bhattacharya,Pratibha Banerjee,Sabyasachi Senapati,Rajnikant Mishra
Frontiers in Pharmacology.2021;12(5)589
[DOI]
184Therapeutic Potential of Phytoconstituents in Management of Alzheimer’s Disease
Anurag Kumar Singh,Sachchida Nand Rai,Anand Maurya,Gaurav Mishra,Rajendra Awasthi,Anshul Shakya,Dinesh Kumar Chellappan,Kamal Dua,Emanuel Vamanu,Sushil Kumar Chaudhary,M. P. Singh,Adolfo Andrade-Cetto
Evidence-Based Complementary and Alternative Medicine.2021;2021(5)1
[DOI]
185Nanoparticle-mediated approaches for Alzheimer’s disease pathogenesis, diagnosis, and therapeutics
Sajini D. Hettiarachchi,Yiqun Zhou,Elif Seven,Madepalli K. Lakshmana,Ajeet K. Kaushik,Hitendra S. Chand,Roger M. Leblanc
Journal of Controlled Release.2019;314(5)125
[DOI]
186Curcumin attenuates inflammatory response and cognitive deficits in experimental model of chronic epilepsy
Harpreet Kaur,Ishan Patro,Kulbhushan Tikoo,Rajat Sandhir
Neurochemistry International.2015;89(5)40
[DOI]
187The metamorphosis of vascular stents: passive structures to smart devices
Purandhi Roopmani,Swaminathan Sethuraman,Santhosh Satheesh,Uma Maheswari Krishnan
RSC Advances.2016;6(4)2835
[DOI]
188The metamorphosis of vascular stents: passive structures to smart devices
Jeganathan Manivannan,Thangarasu Silambarasan,Janakiraman Shanthakumar,Natarajan Suganya,Shankar Kanchana
RSC Advances.2016;6(4)501
[DOI]
189A REVIEW – PROBABLE MECHANISM OF ACTION OF CURCUMIN FOR THE TREATMENT OF ALZHEIMER DISEASE (AD)
Joychandra O,Varkung Valte
Journal of Evolution of medical and Dental Sciences.2013;2(2)133
[DOI]
190Plants-Derived Neuroprotective Agents: Cutting the Cycle of Cell Death through Multiple Mechanisms
Taiwo Olayemi Elufioye,Tomayo Ireti Berida,Solomon Habtemariam
Evidence-Based Complementary and Alternative Medicine.2017;2017(2)1
[DOI]
191Nose-to-Brain Delivery of Antioxidants as a Potential Tool for the Therapy of Neurological Diseases
Maria Cristina Bonferoni,Giovanna Rassu,Elisabetta Gavini,Milena Sorrenti,Laura Catenacci,Paolo Giunchedi
Pharmaceutics.2020;12(12)1246
[DOI]
192Medical Plants and Nutraceuticals for Amyloid-ß Fibrillation Inhibition
Steffi Witter,Raiker Witter,Raivo Vilu,Ago Samoson
Journal of Alzheimer's Disease Reports.2018;2(1)239
[DOI]
193Natural product-based amyloid inhibitors
Paul Velander,Ling Wu,Frances Henderson,Shijun Zhang,David R. Bevan,Bin Xu
Biochemical Pharmacology.2017;139(1)40
[DOI]
194Interaction of curcumin with Al(III) and its complex structures based on experiments and theoretical calculations
Teng Jiang,Long Wang,Sui Zhang,Ping-Chuan Sun,Chuan-Fan Ding,Yan-Qiu Chu,Ping Zhou
Journal of Molecular Structure.2011;1004(1-3)163
[DOI]
195Development of an ultrasonic-assisted restricted access supramolecular solvent-based liquid phase microextraction (UA-RAS-LPME) method for separation-preconcentration and UV-VIS spectrophotometric detection of curcumin
Pertab Menghwar,Erkan Yilmaz,Mustafa Soylak
Separation Science and Technology.2018;53(16)2612
[DOI]
196Curcuminoid submicron particle ameliorates cognitive deficits and decreases amyloid pathology in Alzheimer’s disease mouse model
Yi-Heng Tai,Yu-Yi Lin,Kai-Chen Wang,Chao-Lin Chang,Ru-Yin Chen,Chia-Chu Wu,Irene H. Cheng
Oncotarget.2018;9(12)10681
[DOI]
197Curcuminoid submicron particle ameliorates cognitive deficits and decreases amyloid pathology in Alzheimer’s disease mouse model
Kodoth Prabhakaran Nair
Oncotarget.2019;9(12)195
[DOI]
198Turmeric powder and its derivatives from Curcuma longa rhizomes: Insecticidal effects on cabbage looper and the role of synergists
Wagner de Souza Tavares,Yasmin Akhtar,Gabriel Luiz Padoan Gonçalves,José Cola Zanuncio,Murray B. Isman
Scientific Reports.2016;6(1)195
[DOI]
199Turmeric powder and its derivatives from Curcuma longa rhizomes: Insecticidal effects on cabbage looper and the role of synergists
Magisetty Obulesu
Scientific Reports.2021;6(1)73
[DOI]
200Curcumin a colorimetric and fluorimetric cyanide probe in aqueous system and living cells
Yousef M. Hijji,Anas G. Elsafy,Hala Sultan Al-Easa,Bassam Attili,Mahmoud Abdelrasoul,Nura Mohamed,Gheyath K. Nasrallah
Analytical Methods.2019;11(40)5169
[DOI]
201Hydroxypropyl-ß-cyclodextrin as an effective carrier of curcumin – piperine nutraceutical system with improved enzyme inhibition properties
Anna Stasilowicz,Ewa Tykarska,Kornelia Lewandowska,Maciej Kozak,Andrzej Miklaszewski,Joanna Kobus-Cisowska,Daria Szymanowska,Tomasz Plech,Jacek Jenczyk,Judyta Cielecka-Piontek
Journal of Enzyme Inhibition and Medicinal Chemistry.2020;35(1)1811
[DOI]
202Traditional Ayurvedic and herbal remedies for Alzheimer’s disease: from bench to bedside
Rohit Sharma,Kamil Kuca,Eugenie Nepovimova,Atul Kabra,MM Rao,PK Prajapati
Expert Review of Neurotherapeutics.2019;19(5)359
[DOI]
203Antioxidant Properties of Popular Turmeric(Curcuma longa)Varieties from Bangladesh
E. M. Tanvir,Md. Sakib Hossen,Md. Fuad Hossain,Rizwana Afroz,Siew Hua Gan,Md. Ibrahim Khalil,Nurul Karim
Journal of Food Quality.2017;2017(5)1
[DOI]
204A Curcumin Analog Exhibits Multiple Biologic Effects on the Pathogenesis of Alzheimer’s Disease and Improves Behavior, Inflammation, and ß-Amyloid Accumulation in a Mouse Model
Ih-Jen Su,Hong-Yi Chang,Hui-Chen Wang,Kuen-Jer Tsai
International Journal of Molecular Sciences.2020;21(15)5459
[DOI]
205Curcumin as potential therapeutic natural product: a nanobiotechnological perspective
Soumitra Shome,Anupam Das Talukdar,Manabendra Dutta Choudhury,Mrinal Kanti Bhattacharya,Hrishikesh Upadhyaya
Journal of Pharmacy and Pharmacology.2016;68(12)1481
[DOI]
206Curcumin as potential therapeutic natural product: a nanobiotechnological perspective
Esteban A. Oyarzabal,Yen-Yu Ian Shih,Jau-Shyong Hong
Journal of Pharmacy and Pharmacology.2016;68(12)107
[DOI]
207Curcumin as potential therapeutic natural product: a nanobiotechnological perspective
Robert Vianello,Janez Mavri
Journal of Pharmacy and Pharmacology.2017;68(12)199
[DOI]
208Lower vertebrate and invertebrate models of Alzheimer's disease – A review
Neha Sharma,Navneet Khurana,Arunachalam Muthuraman
European Journal of Pharmacology.2017;815(12)312
[DOI]
209In vitro cytotoxicity of curcuminoids against head and neck cancer HNO97 cell line
Z. Almalki,M. Algregri,M. Alhosin,M. Alkhaled,S. Damiati,M. A. Zamzami
Brazilian Journal of Biology.2023;83(12)312
[DOI]
210Curcumin or bisdemethoxycurcumin for nose-to-brain treatment of Alzheimer disease? A bio/chemo-informatics case study
Rania M. Hathout,Sherweit H. El-Ahmady,AbdelKader A. Metwally
Natural Product Research.2018;32(24)2873
[DOI]
211Effects of medicinal plants on Alzheimer's disease and memory deficits
Muhammad Akram,Allah Nawaz
Neural Regeneration Research.2017;12(4)660
[DOI]
212Bioinorganic Chemistry of Alzheimer’s Disease
Kasper P. Kepp
Chemical Reviews.2012;112(10)5193
[DOI]
213Bioinorganic Chemistry of Alzheimer’s Disease
Shilpa Amarya,Kalyani Singh,Manisha Sabharwal
Chemical Reviews.2018;112(10)5193
[DOI]
214Design, synthesis, and evaluation of curcumin analogues as potential inhibitors of bacterial sialidase
Bo Ram Kim,Ji-Young Park,Hyung Jae Jeong,Hyung-Jun Kwon,Su-Jin Park,In-Chul Lee,Young Bae Ryu,Woo Song Lee
Journal of Enzyme Inhibition and Medicinal Chemistry.2018;33(1)1256
[DOI]
215Calebin-A induces cell cycle arrest in human colon cancer cells and xenografts in nude mice
Wen-Shiung Liou,Chen Lin,Pei-Sheng Lee,Nagabhushanam Kalyanam,Chi-Tang Ho,Min-Hsiung Pan
Journal of Functional Foods.2016;26(1)781
[DOI]
216The Use of Multiscale Molecular Simulations in Understanding a Relationship between the Structure and Function of Biological Systems of the Brain: The Application to Monoamine Oxidase Enzymes
Robert Vianello,Carmen Domene,Janez Mavri
Frontiers in Neuroscience.2016;10(1)781
[DOI]
217Therapeutic Effects of Curcumol in Several Diseases; An Overview
Sheema Hashem,Sabah Nisar,Geetanjali Sageena,Muzafar A. Macha,Santosh K. Yadav,Roopesh Krishnankutty,Shahab Uddin,Mohammad Haris,Ajaz A. Bhat
Nutrition and Cancer.2021;73(2)181
[DOI]
218Solid lipid curcumin particles provide greater anti-amyloid, anti-inflammatory and neuroprotective effects than curcumin in the 5xFAD mouse model of Alzheimer’s disease
Panchanan Maiti,Leela Paladugu,Gary L. Dunbar
BMC Neuroscience.2018;19(1)181
[DOI]
219Preservation of dendritic spine morphology and postsynaptic signaling markers after treatment with solid lipid curcumin particles in the 5xFAD mouse model of Alzheimer’s amyloidosis
Panchanan Maiti,Zackary Bowers,Ali Bourcier-Schultz,Jarod Morse,Gary L. Dunbar
Alzheimer's Research & Therapy.2021;13(1)181
[DOI]
220Nanomedicine: A Promising Way to Manage Alzheimer’s Disease
Nazeer Hussain Khan,Maria Mir,Ebenezeri Erasto Ngowi,Ujala Zafar,Muhammad Mahtab Aslam Khan Khakwani,Saadullah Khattak,Yuan-Kun Zhai,En-She Jiang,Meng Zheng,Shao-Feng Duan,Jian-She Wei,Dong-Dong Wu,Xin-Ying Ji
Frontiers in Bioengineering and Biotechnology.2021;9(1)181
[DOI]
221Bioactive compound from the Tibetan turnip (Brassica rapa L.) elicited anti-hypoxia effects in OGD/R-injured HT22 cells by activating the PI3K/AKT pathway
Hanyi Hua,Hongkang Zhu,Chang Liu,Wenyi Zhang,Jiayi Li,Bin Hu,Yahui Guo,Yuliang Cheng,Fuwei Pi,Yunfei Xie,Weirong Yao,He Qian
Food & Function.2021;12(7)2901
[DOI]
222Nanotheranostic agents for neurodegenerative diseases
Terry Tetley,Jorge Bernardino de la Serna,Sonia Antoranz Contera,Parasuraman Padmanabhan,Mathangi Palanivel,Ajay Kumar,Domokos Máthé,George K. Radda,Kah-Leong Lim,Balázs Gulyás
Emerging Topics in Life Sciences.2020;4(6)645
[DOI]
223The potency of heterocyclic curcumin analogues: An evidence-based review
Fiona C. Rodrigues,NV Anil Kumar,Goutam Thakur
Pharmacological Research.2021;166(6)105489
[DOI]
224Equipment-free and visual detection of Pb2+ ion based on curcumin-modified bacterial cellulose nanofiber
Elham Sheikhzadeh,Sara Naji-Tabasi,Asma Verdian,Simin Kolahi-Ahari
Journal of the Iranian Chemical Society.2021;166(6)105489
[DOI]
225Neurodegenerative Shielding by Curcumin and Its Derivatives on Brain Lesions Induced by 6-OHDA Model of Parkinson's Disease in Albino Wistar Rats
Shyam Sunder Agrawal,Sumeet Gullaiya,Vishal Dubey,Varun Singh,Ashok Kumar,Ashish Nagar,Poonam Tiwari
Cardiovascular Psychiatry and Neurology.2012;2012(6)1
[DOI]
226Potential Roles of Myeloid Differentiation Factor 2 on Neuroinflammation and Its Possible Interventions
Thura Tun Oo,Wasana Pratchayasakul,Nipon Chattipakorn,Siriporn C. Chattipakorn
Molecular Neurobiology.2020;57(11)4825
[DOI]
227Unraveling the mechanism of neuroprotection of curcumin in arsenic induced cholinergic dysfunctions in rats
Pranay Srivastava,Rajesh S. Yadav,Lalit P. Chandravanshi,Rajendra K. Shukla,Yogesh K. Dhuriya,Lalit K.S. Chauhan,Hari N. Dwivedi,Aditiya B. Pant,Vinay K. Khanna
Toxicology and Applied Pharmacology.2014;279(3)428
[DOI]
228Computational investigation of curcumin, a natural polyphenol that inhibits the destabilization and the aggregation of human SOD1 mutant (Ala4Val)
E. Srinivasan,R. Rajasekaran
RSC Advances.2016;6(104)102744
[DOI]
229Computational investigation of curcumin, a natural polyphenol that inhibits the destabilization and the aggregation of human SOD1 mutant (Ala4Val)
Naofumi Shiomi
RSC Advances.2018;6(104)102744
[DOI]
230Chemical constituents and their acetyl cholinesterase inhibitory and antioxidant activities from leaves of Acanthopanax henryi: potential complementary source against Alzheimer’s disease
Xiao Dan Zhang,Xiang Qian Liu,Yang Hee Kim,Wan Kyunn Whang
Archives of Pharmacal Research.2014;37(5)606
[DOI]
231Chemical constituents and their acetyl cholinesterase inhibitory and antioxidant activities from leaves of Acanthopanax henryi: potential complementary source against Alzheimer’s disease
Saima Khan,Kaneez Fatima Shad
Archives of Pharmacal Research.2020;37(5)606
[DOI]
232Voltammetric determination of curcumin in spices
G. K. Ziyatdinova,A. M. Nizamova,H. C. Budnikov
Journal of Analytical Chemistry.2012;67(6)591
[DOI]
233Fabrication and characterization of curcumin-releasing silk fibroin scaffold
Naresh Kasoju,Utpal Bora
Journal of Biomedical Materials Research Part B: Applied Biomaterials.2012;100B(7)1854
[DOI]
234Use of Curcumin, a Natural Polyphenol for Targeting Molecular Pathways in Treating Age-Related Neurodegenerative Diseases
Panchanan Maiti,Gary Dunbar
International Journal of Molecular Sciences.2018;19(6)1637
[DOI]
235Curcumin inhibits the Al(iii) and Zn(ii) induced amyloid fibrillation of ß-lactoglobulin in vitro
Sampa Pal,Sanhita Maity,Subrata Sardar,Hasan Parvej,Niloy Das,Jishnu Chakraborty,Umesh Chandra Halder
RSC Advances.2016;6(112)111299
[DOI]
236Curcumin and neurodegenerative diseases: a perspective
Altaf S Darvesh,Richard T Carroll,Anupam Bishayee,Nicholas A Novotny,Werner J Geldenhuys,Cornelis J Van der Schyf
Expert Opinion on Investigational Drugs.2012;21(8)1123
[DOI]
237Curcumin Ameliorates Neuroinflammation, Neurodegeneration, and Memory Deficits in p25 Transgenic Mouse Model that Bears Hallmarks of Alzheimer’s Disease
Jeyapriya Raja Sundaram,Charlene Priscilla Poore,Noor Hazim Bin Sulaimee,Tej Pareek,Wei Fun Cheong,Markus R. Wenk,Harish C. Pant,Sally A. Frautschy,Chian-Ming Low,Sashi Kesavapany
Journal of Alzheimer's Disease.2017;60(4)1429
[DOI]
238Polyphenols as adjunctive treatments in psychiatric and neurodegenerative disorders: Efficacy, mechanisms of action, and factors influencing inter-individual response
Gerwyn Morris,Elizabeth Gamage,Nikolaj Travica,Michael Berk,Felice N. Jacka,Adrienne O'Neil,Basant K. Puri,Andre F. Carvalho,Chiara C. Bortolasci,Ken Walder,Wolfgang Marx
Free Radical Biology and Medicine.2021;172(4)101
[DOI]
239The effect of oral capsule of curcumin and vitamin E on the hot flashes and anxiety in postmenopausal women: A triple blind randomised controlled trial
Khatereh Ataei-Almanghadim,Azizeh Farshbaf-Khalili,Ali Reza Ostadrahimi,Elnaz Shaseb,Mojgan Mirghafourvand
Complementary Therapies in Medicine.2020;48(4)102267
[DOI]
240Curcumin and linseed oil co-delivered in phospholipid nanoemulsions enhances the levels of docosahexaenoic acid in serum and tissue lipids of rats
D. Sugasini,B.R. Lokesh
Prostaglandins, Leukotrienes and Essential Fatty Acids.2017;119(4)45
[DOI]
241Neuropsychopharmacotherapeutic efficacy of curcumin in experimental paradigm of autism spectrum disorders
Ranjana Bhandari,Anurag Kuhad
Life Sciences.2015;141(4)156
[DOI]
242Neuropsychopharmacotherapeutic efficacy of curcumin in experimental paradigm of autism spectrum disorders
Ashraful Hoque,Xiao-Chun Xu
Life Sciences.2013;141(4)127
[DOI]
243Neuropsychopharmacotherapeutic efficacy of curcumin in experimental paradigm of autism spectrum disorders
Mahendra Rai,Raksha Pandit,Priti Paralikar,Dipali Nagaonkar,Farkhanda Rehman,Carolina Alves dos Santos
Life Sciences.2017;141(4)139
[DOI]
244Neuropsychopharmacotherapeutic efficacy of curcumin in experimental paradigm of autism spectrum disorders
Adeeb Shehzad,Salman Ul Islam,Young Sup Lee
Life Sciences.2019;141(4)437
[DOI]
245A high throughput drug screening paradigm using transgenic Caenorhabditis elegans model of Alzheimer’s disease
Emelyne Teo,Soon Yew John Lim,Sheng Fong,Anis Larbi,Graham D. Wright,Nicholas Tolwinski,Jan Gruber
Translational Medicine of Aging.2020;4(4)11
[DOI]
246Biological activity, design, synthesis and structure activity relationship of some novel derivatives of curcumin containing sulfonamides
Jaggi Lal,Sushil K. Gupta,D. Thavaselvam,Dau D. Agarwal
European Journal of Medicinal Chemistry.2013;64(4)579
[DOI]
247Biological activity, design, synthesis and structure activity relationship of some novel derivatives of curcumin containing sulfonamides
David Camfield,Lauren Owen,Andrew Pipingas,Con Stough,Andrew Scholey
European Journal of Medicinal Chemistry.2012;64(4)302
[DOI]
248Presenting a New Standard Drug Model for Turmeric and Its Prized Extract, Curcumin
Franco Cavaleri
International Journal of Inflammation.2018;2018(4)1
[DOI]
249Green processing of thermosensitive nanocurcumin-encapsulated chitosan hydrogel towards biomedical application
Thi Bich Tram Nguyen,Le Hang Dang,Thi Thanh Thuy Nguyen,Dai Lam Tran,Dai Hai Nguyen,Van Toan Nguyen,Cuu Khoa Nguyen,Thi Hiep Nguyen,Van Thu Le,Ngoc Quyen Tran
Green Processing and Synthesis.2016;5(6)1
[DOI]
250Curcumin Alleviates Neuropathic Pain by Inhibiting p300/CBP Histone Acetyltransferase Activity-Regulated Expression of BDNF and Cox-2 in a Rat Model
Xiaoyan Zhu,Qian Li,Ruimin Chang,Dong Yang,Zongbing Song,Qulian Guo,Changsheng Huang,Daqing Ma
PLoS ONE.2014;9(3)e91303
[DOI]
251The ubiquitin proteasomal system: a potential target for the management of Alzheimer's disease
Kundlik Gadhave,Nityanand Bolshette,Ashutosh Ahire,Rohit Pardeshi,Krishan Thakur,Cristiana Trandafir,Alexandru Istrate,Sahabuddin Ahmed,Mangala Lahkar,Dafin F. Muresanu,Maria Balea
Journal of Cellular and Molecular Medicine.2016;20(7)1392
[DOI]
252The ubiquitin proteasomal system: a potential target for the management of Alzheimer's disease
Magisetty Obulesu
Journal of Cellular and Molecular Medicine.2021;20(7)19
[DOI]
253Marine-derived bioactive materials for neuroprotection
Ratih Pangestuti,Se-Kwon Kim
Food Science and Biotechnology.2013;22(5)1
[DOI]
254Evaluation of phenolic profile, antioxidant and anticancer potential of two main representants of Zingiberaceae family against B164A5 murine melanoma cells
Corina Danciu,Lavinia Vlaia,Florinela Fetea,Monica Hancianu,Dorina E Coricovac,Sorina A Ciurlea,Codruta M Soica,Iosif Marincu,Vicentiu Vlaia,Cristina A Dehelean,Cristina Trandafirescu
Biological Research.2015;48(1)1
[DOI]
255The present and future of pharmacotherapy of Alzheimer’s disease: A comprehensive review
Abhinav Anand,Albert Anosi Patience,Neha Sharma,Navneet Khurana
European Journal of Pharmacology.2017;815(1)364
[DOI]
256Pre-administration of turmeric prevents methotrexate-induced liver toxicity and oxidative stress
Adel Rezaei Moghadam,Soheil Tutunchi,Ali Namvaran-Abbas-Abad,Mina Yazdi,Fatemeh Bonyadi,Daryoush Mohajeri,Mohammad Mazani,Hassan Marzban,Marek J. Los,Saeid Ghavami
BMC Complementary and Alternative Medicine.2015;15(1)364
[DOI]
257Dietary Supplementation with Curcumin Reduce Circulating Levels of Glycogen Synthase Kinase-3ß and Islet Amyloid Polypeptide in Adults with High Risk of Type 2 Diabetes and Alzheimer’s Disease
Rohith N Thota,Jessica I Rosato,Cintia B Dias,Tracy L Burrows,Ralph N Martins,Manohar L Garg
Nutrients.2020;12(4)1032
[DOI]
258Dietary Supplementation with Curcumin Reduce Circulating Levels of Glycogen Synthase Kinase-3ß and Islet Amyloid Polypeptide in Adults with High Risk of Type 2 Diabetes and Alzheimer’s Disease
Mohamed A. Salem,Ahmed Zayed,Shahira M. Ezzat
Nutrients.2021;12(4)121
[DOI]
259Synthesis and in vitro localization study of curcumin-loaded SPIONs in a micro capillary for simulating a targeted drug delivery system
Mohammed Anwar,Mohammed Asfer,Ayodhya P. Prajapati,Sharmistha Mohapatra,Sohail Akhter,Asgar Ali,Farhan J. Ahmad
International Journal of Pharmaceutics.2014;468(1-2)158
[DOI]
260Novel curcumin-based pyrano[2,3-d]pyrimidine anti-oxidant inhibitors for a-amylase and a-glucosidase: Implications for their pleiotropic effects against diabetes complications
Afsoon Yousefi,Reza Yousefi,Farhad Panahi,Samira Sarikhani,Amin Reza Zolghadr,Aminollah Bahaoddini,Ali Khalafi-Nezhad
International Journal of Biological Macromolecules.2015;78(1-2)46
[DOI]
261Novel curcumin-based pyrano[2,3-d]pyrimidine anti-oxidant inhibitors for a-amylase and a-glucosidase: Implications for their pleiotropic effects against diabetes complications
A. Thahira Banu,Janeline Lunghar
International Journal of Biological Macromolecules.2021;78(1-2)359
[DOI]
262The Efficacy of Curcumin on Cognition, Depression, and Agitation in Older Adults with Alzheimer’s Disease
Jyotsna Sharman,Roofia Galeshi,Lisa Onega,Susanne Ashby,Kavya Sharman
The Open Nutrition Journal.2017;11(1)11
[DOI]
263Age related neurodegenerative Alzheimer’s disease: Usage of traditional herbs in therapeutics
Abhishek Singh,Sindhu Agarwal,Sarika Singh
Neuroscience Letters.2020;717(1)134679
[DOI]
264A Newly Synthesized Rhamnoside Derivative Alleviates Alzheimer’s Amyloid-ß-Induced Oxidative Stress, Mitochondrial Dysfunction, and Cell Senescence through Upregulating SIRT3
Yi Li,Jing Lu,Xin Cao,Hongwei Zhao,Longfei Gao,Peng Xia,Gang Pei
Oxidative Medicine and Cellular Longevity.2020;2020(1)1
[DOI]
265Benefits of curcumin in brain disorders
Abid Bhat,Arehally M. Mahalakshmi,Bipul Ray,Sunanda Tuladhar,Tousif A. Hediyal,Esther Manthiannem,Jagadeeswari Padamati,Ramesh Chandra,Saravana B. Chidambaram,Meena K. Sakharkar
BioFactors.2019;45(5)666
[DOI]
266Effects of LED-Based photodynamic therapy using red and blue lights, with natural hydrophobic photosensitizers on human glioma cell line
Zahra Jamali,Sedigheh Marjaneh Hejazi,Seyed Mohsen Ebrahimi,Hemen Moradi-Sardareh,Maliheh Paknejad
Photodiagnosis and Photodynamic Therapy.2018;21(5)50
[DOI]
267Amelioration of ß-amyloid-induced cognitive dysfunction and hippocampal axon degeneration by curcumin is associated with suppression of CRMP-2 hyperphosphorylation
Yunliang Wang,Honglei Yin,Jinfeng Li,Yuzhen Zhang,Bing Han,Zhilei Zeng,Nana Qiao,Xiaomei Cui,Jiyu Lou,Jing Li
Neuroscience Letters.2013;557(5)112
[DOI]
268The Chemistry of Neurodegeneration: Kinetic Data and Their Implications
Matic Pavlin,Matej Repic,Robert Vianello,Janez Mavri
Molecular Neurobiology.2016;53(5)3400
[DOI]
269Systematically designed chitosan-coated solid lipid nanoparticles of ferulic acid for effective management of Alzheimer’s disease: A preclinical evidence
Sumant Saini,Teenu Sharma,Atul Jain,Harmanjot Kaur,O.P. Katare,Bhupinder Singh
Colloids and Surfaces B: Biointerfaces.2021;205(5)111838
[DOI]
270Systematically designed chitosan-coated solid lipid nanoparticles of ferulic acid for effective management of Alzheimer’s disease: A preclinical evidence
Komal Panchal,Vidhi Bhatt,Mahima Raval,Anand Krishna Tiwari
Colloids and Surfaces B: Biointerfaces.2020;205(5)111838
[DOI]
271Buwas Kuning(Yellow Rice) and its Symbolic Functions Among the Sama-Bajau of Malaysia
Hanafi Hussin
SAGE Open.2019;9(4)215824401988514
[DOI]
272Therapeutic approaches in alzheimer’s disease: ? -amyloid peptide inhibitors
Krishna R Gupta,Chetna P Hiwase,Nikita S Bhandekar,Milind J Umekar
Indian Journal of Pharmacy and Pharmacology.2020;7(3)147
[DOI]
273Ethnopharmacological Approaches for Dementia Therapy and Significance of Natural Products and Herbal Drugs
Devesh Tewari,Adrian M. Stankiewicz,Andrei Mocan,Archana N. Sah,Nikolay T. Tzvetkov,Lukasz Huminiecki,Jaroslaw O. Horbanczuk,Atanas G. Atanasov
Frontiers in Aging Neuroscience.2018;10(3)147
[DOI]
274Exploring the Promise of Targeting Ubiquitin-Proteasome System to Combat Alzheimer’s Disease
Abdullah Al Mamun,Md. Sahab Uddin,Md. Tanvir Kabir,Sayema Khanum,Md. Shahid Sarwar,Bijo Mathew,Abdur Rauf,Muniruddin Ahmed,Ghulam Md Ashraf
Neurotoxicity Research.2020;38(1)8
[DOI]
275Amyloidosis in Alzheimer’s Disease: The Toxicity of Amyloid Beta (Aß), Mechanisms of Its Accumulation and Implications of Medicinal Plants for Therapy
Anchalee Prasansuklab,Tewin Tencomnao
Evidence-Based Complementary and Alternative Medicine.2013;2013(1)1
[DOI]
276Convergent synthesis and characterization of fatty acid-conjugated poly(ethylene glycol)-block-poly(epsilon-caprolactone) nanoparticles for improved drug delivery to the brain
Ho Yin Li,Bowen Zhang,Pui Shan Chan,Jingwen Weng,Chi Kwan Tsang,Wai Yip Thomas Lee
European Polymer Journal.2018;98(1)394
[DOI]
277Allium hookeri Extracts Improve Scopolamine-Induced Cognitive Impairment via Activation of the Cholinergic System and Anti-Neuroinflammation in Mice
Ji-Hye Choi,Eun-Byeol Lee,Hwan-Hee Jang,Youn-Soo Cha,Yong-Soon Park,Sung-Hyen Lee
Nutrients.2021;13(8)2890
[DOI]
278Distribution of Types of Dementia in the First 100 Patients Seen at a Dementia Clinic in India
Vijay Chandra,Veer Singh Mehta,Amos Korczyn
Journal of Alzheimer's Disease.2017;59(3)797
[DOI]
279Precautionary Ellagic Acid Treatment Ameliorates Chronically Administered Scopolamine Induced Alzheimer's Type Memory and Cognitive Dysfunctions in Rats
Ramandeep Kaur,Sidharth Mehan,Deepa Khanna,Sanjeev Kalra,Shaba Parveen
Pharmacologia.2015;6(5)192
[DOI]
280Codelivery of Plasmid and Curcumin with Mesoporous Silica Nanoparticles for Promoting Neurite Outgrowth
Cheng-Shun Cheng,Tsang-Pai Liu,Fan-Ching Chien,Chung-Yuan Mou,Si-Han Wu,Yi-Ping Chen
ACS Applied Materials & Interfaces.2019;11(17)15322
[DOI]
281Enteromorpha prolifera Extract Improves Memory in Scopolamine-Treated Mice via Downregulating Amyloid-ß Expression and Upregulating BDNF/TrkB Pathway
Seung Yeon Baek,Fu Yi Li,Da Hee Kim,Su Jin Kim,Mee Ree Kim
Antioxidants.2020;9(7)620
[DOI]
282Curcumin and hesperetin attenuate D-galactose-induced brain senescencein vitroandin vivo
Jihye Lee,Yoo Sun Kim,Eunju Kim,Yerin Kim,Yuri Kim
Nutrition Research and Practice.2020;14(5)438
[DOI]
  About this journal 
  Editorial Board 
  Online Submission 
  Current Issue 
  Archives 
  Ahead of print 
  Instructions to Authors 
  Subscription
  Alerting 
  Feedback 

Submit Articles

Alerts

Join us