SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2072877159> ?p ?o ?g. }

Showing items 1 to 100 of ±129 with 100 items per page.

W2072877159 endingPage "132" @default.
W2072877159 startingPage "121" @default.
W2072877159 abstract "The release of lactose (hydrophilic) from polymer tablets made with hydrophobically modified poly(acrylic acid) (HMPAA) have been studied and compared to the release of ibuprofen, a hydrophobic active substance. Lactose is one of the most used excipients for tablets, but lactose release has not been widely studied. One reason could be a lack of good analytical tools. A novel biosensor with cellobiose dehydrogenase (CDH) was used to detect the lactose release, which has a polydiallyldimethylammonium chloride (PDADMAC) layer that increases the response. A sample treatment using polyethylenimine (PEI) was developed to eliminate possible denaturants. The developed methodology provided a good approach to detect and quantify the released lactose. The release was studied with or without the presence of a model amphiphilic substance, sodium dodecyl sulphate (SDS), in the release medium. Ibuprofen showed very different release rates in the different media, which was attributed to hydrophobic interactions between the drug, the HMPAA and the SDS in the release medium. The release of hydrophilic lactose, which did not associate to any of the other components, was rapid and showed only minor differences. The new methodology provides a useful tool to further evaluate tablet formulations by a relatively simple set of experiments." @default.
W2072877159 created "2016-06-24" @default.
W2072877159 creator A5009557258 @default.
W2072877159 creator A5023581715 @default.
W2072877159 creator A5041221432 @default.
W2072877159 creator A5044352119 @default.
W2072877159 creator A5050795062 @default.
W2072877159 creator A5056724166 @default.
W2072877159 date "2014-07-01" @default.
W2072877159 modified "2023-10-10" @default.
W2072877159 title "Quantifying the release of lactose from polymer matrix tablets with an amperometric biosensor utilizing cellobiose dehydrogenase" @default.
W2072877159 cites W1522767714 @default.
W2072877159 cites W1606954488 @default.
W2072877159 cites W182957396 @default.
W2072877159 cites W1966045434 @default.
W2072877159 cites W1976732734 @default.
W2072877159 cites W1977861698 @default.
W2072877159 cites W1979278937 @default.
W2072877159 cites W1986646406 @default.
W2072877159 cites W1992248040 @default.
W2072877159 cites W1995038206 @default.
W2072877159 cites W1995939358 @default.
W2072877159 cites W1996592265 @default.
W2072877159 cites W1998966261 @default.
W2072877159 cites W2003480886 @default.
W2072877159 cites W2008021250 @default.
W2072877159 cites W2010723772 @default.
W2072877159 cites W2011645665 @default.
W2072877159 cites W2012413704 @default.
W2072877159 cites W2014544506 @default.
W2072877159 cites W2020344425 @default.
W2072877159 cites W2021013287 @default.
W2072877159 cites W2027507514 @default.
W2072877159 cites W2031996722 @default.
W2072877159 cites W2036167206 @default.
W2072877159 cites W2036958657 @default.
W2072877159 cites W2041301386 @default.
W2072877159 cites W2043304759 @default.
W2072877159 cites W2044713081 @default.
W2072877159 cites W2046447102 @default.
W2072877159 cites W2047760357 @default.
W2072877159 cites W2050782835 @default.
W2072877159 cites W2050898579 @default.
W2072877159 cites W2052160250 @default.
W2072877159 cites W2053335622 @default.
W2072877159 cites W2060171510 @default.
W2072877159 cites W2063612056 @default.
W2072877159 cites W2068313125 @default.
W2072877159 cites W2069106257 @default.
W2072877159 cites W2069917458 @default.
W2072877159 cites W2075685805 @default.
W2072877159 cites W2076982692 @default.
W2072877159 cites W2078941597 @default.
W2072877159 cites W2081517072 @default.
W2072877159 cites W2087839799 @default.
W2072877159 cites W2095555524 @default.
W2072877159 cites W2108929776 @default.
W2072877159 cites W2116448697 @default.
W2072877159 cites W2123510974 @default.
W2072877159 cites W2141817053 @default.
W2072877159 cites W2153962050 @default.
W2072877159 cites W2158075824 @default.
W2072877159 cites W2161989957 @default.
W2072877159 cites W2312315638 @default.
W2072877159 doi "https://doi.org/10.1016/j.ijpharm.2014.03.060" @default.
W2072877159 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24726632" @default.
W2072877159 hasPublicationYear "2014" @default.
W2072877159 type Work @default.
W2072877159 sameAs 2072877159 @default.
W2072877159 citedByCount "13" @default.
W2072877159 countsByYear W20728771592014 @default.
W2072877159 countsByYear W20728771592015 @default.
W2072877159 countsByYear W20728771592016 @default.
W2072877159 countsByYear W20728771592017 @default.
W2072877159 countsByYear W20728771592018 @default.
W2072877159 countsByYear W20728771592020 @default.
W2072877159 countsByYear W20728771592021 @default.
W2072877159 countsByYear W20728771592023 @default.
W2072877159 crossrefType "journal-article" @default.
W2072877159 hasAuthorship W2072877159A5009557258 @default.
W2072877159 hasAuthorship W2072877159A5023581715 @default.
W2072877159 hasAuthorship W2072877159A5041221432 @default.
W2072877159 hasAuthorship W2072877159A5044352119 @default.
W2072877159 hasAuthorship W2072877159A5050795062 @default.
W2072877159 hasAuthorship W2072877159A5056724166 @default.
W2072877159 hasConcept C106487976 @default.
W2072877159 hasConcept C141603559 @default.
W2072877159 hasConcept C160756335 @default.
W2072877159 hasConcept C178790620 @default.
W2072877159 hasConcept C185592680 @default.
W2072877159 hasConcept C2778724459 @default.
W2072877159 hasConcept C2779251873 @default.
W2072877159 hasConcept C2780412358 @default.
W2072877159 hasConcept C43617362 @default.
W2072877159 hasConcept C521977710 @default.
W2072877159 hasConcept C55493867 @default.
W2072877159 hasConceptScore W2072877159C106487976 @default.
W2072877159 hasConceptScore W2072877159C141603559 @default.