SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310361848> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4310361848 abstract "Abstract Prevention and early intervention are the current focus of treatment for Alzheimer's disease (AD). An increase in reactive oxygen species (ROS) is a feature of the early stages of AD, thus suggesting that the removal of excess ROS can be a viable method of improving AD. Natural polyphenols are able to scavenge ROS and thus promising for treating AD. However, some issues need to be addressed. Among them, important are that most polyphenols are hydrophobic, have low bioavailability in the body, are easily degraded, and that single polyphenols have insufficient antioxidant capacity. In this study, we employed two polyphenols, resveratrol (RES) and oligomeric proanthocyanidin (OPC), and creatively grafted them with hyaluronic acid (HA) to form nanoparticles to address the aforementioned issues. Meanwhile, we strategically grafted the nanoparticles with the B6 peptide, enabling the nanoparticles to cross the blood–brain barrier (BBB) and enter the brain for AD treatment. Our results illustrate that B6‐RES‐OPC‐HA nanoparticles can significantly scavenge ROS, reduce brain inflammation, and improve learning and memory ability in AD mice. B6‐RES‐OPC‐HA nanoparticles have the potential to prevent and alleviate early AD." @default.
W4310361848 created "2022-12-09" @default.
W4310361848 creator A5015651799 @default.
W4310361848 creator A5022504253 @default.
W4310361848 creator A5026361131 @default.
W4310361848 creator A5030554560 @default.
W4310361848 creator A5037381552 @default.
W4310361848 creator A5047170729 @default.
W4310361848 creator A5049950391 @default.
W4310361848 creator A5063523362 @default.
W4310361848 creator A5066309017 @default.
W4310361848 creator A5069994888 @default.
W4310361848 creator A5075234540 @default.
W4310361848 creator A5088091238 @default.
W4310361848 date "2022-11-29" @default.
W4310361848 modified "2023-10-10" @default.
W4310361848 title "Macromolecular nanoparticles to attenuate both reactive oxygen species and inflammatory damage for treating Alzheimer's disease" @default.
W4310361848 cites W1533318596 @default.
W4310361848 cites W1969688942 @default.
W4310361848 cites W1976845082 @default.
W4310361848 cites W2004297939 @default.
W4310361848 cites W2010821874 @default.
W4310361848 cites W2014898742 @default.
W4310361848 cites W2015953835 @default.
W4310361848 cites W2018522439 @default.
W4310361848 cites W2020671379 @default.
W4310361848 cites W2027357842 @default.
W4310361848 cites W2032602280 @default.
W4310361848 cites W2036735444 @default.
W4310361848 cites W2038768313 @default.
W4310361848 cites W2050394298 @default.
W4310361848 cites W2053088224 @default.
W4310361848 cites W2069207853 @default.
W4310361848 cites W2069789444 @default.
W4310361848 cites W2080084871 @default.
W4310361848 cites W2085800477 @default.
W4310361848 cites W2088261937 @default.
W4310361848 cites W2089012108 @default.
W4310361848 cites W2105581127 @default.
W4310361848 cites W2113581305 @default.
W4310361848 cites W2115432439 @default.
W4310361848 cites W2124213395 @default.
W4310361848 cites W2153747061 @default.
W4310361848 cites W2328882059 @default.
W4310361848 cites W2592077559 @default.
W4310361848 cites W2775709378 @default.
W4310361848 cites W2883628966 @default.
W4310361848 cites W2886328984 @default.
W4310361848 cites W2900633866 @default.
W4310361848 cites W2908579851 @default.
W4310361848 cites W2920901214 @default.
W4310361848 cites W2941198005 @default.
W4310361848 cites W2965013078 @default.
W4310361848 cites W2980847366 @default.
W4310361848 cites W2982165025 @default.
W4310361848 cites W2997127098 @default.
W4310361848 cites W2997887045 @default.
W4310361848 cites W3009773061 @default.
W4310361848 cites W3010804879 @default.
W4310361848 cites W3042981350 @default.
W4310361848 cites W3082842628 @default.
W4310361848 cites W3094609997 @default.
W4310361848 cites W3111509171 @default.
W4310361848 cites W3112946476 @default.
W4310361848 cites W3165497367 @default.
W4310361848 cites W3204394754 @default.
W4310361848 cites W3206860662 @default.
W4310361848 cites W3209225825 @default.
W4310361848 cites W4213312500 @default.
W4310361848 cites W4214699315 @default.
W4310361848 cites W4224252863 @default.
W4310361848 cites W4229458066 @default.
W4310361848 cites W4281392027 @default.
W4310361848 cites W4281563004 @default.
W4310361848 cites W605176161 @default.
W4310361848 doi "https://doi.org/10.1002/btm2.10459" @default.
W4310361848 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37206236" @default.
W4310361848 hasPublicationYear "2022" @default.
W4310361848 type Work @default.
W4310361848 citedByCount "2" @default.
W4310361848 countsByYear W43103618482023 @default.
W4310361848 crossrefType "journal-article" @default.
W4310361848 hasAuthorship W4310361848A5015651799 @default.
W4310361848 hasAuthorship W4310361848A5022504253 @default.
W4310361848 hasAuthorship W4310361848A5026361131 @default.
W4310361848 hasAuthorship W4310361848A5030554560 @default.
W4310361848 hasAuthorship W4310361848A5037381552 @default.
W4310361848 hasAuthorship W4310361848A5047170729 @default.
W4310361848 hasAuthorship W4310361848A5049950391 @default.
W4310361848 hasAuthorship W4310361848A5063523362 @default.
W4310361848 hasAuthorship W4310361848A5066309017 @default.
W4310361848 hasAuthorship W4310361848A5069994888 @default.
W4310361848 hasAuthorship W4310361848A5075234540 @default.
W4310361848 hasAuthorship W4310361848A5088091238 @default.
W4310361848 hasBestOaLocation W43103618481 @default.
W4310361848 hasConcept C155672457 @default.
W4310361848 hasConcept C169760540 @default.
W4310361848 hasConcept C171250308 @default.
W4310361848 hasConcept C181389837 @default.
W4310361848 hasConcept C185592680 @default.