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Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01JDPCFCK764DAFD0DR521PQT4> ?p ?o. }

• 01JDPCFCK764DAFD0DR521PQT4 classification P1.
• 01JDPCFCK764DAFD0DR521PQT4 date "2024".
• 01JDPCFCK764DAFD0DR521PQT4 language "eng".
• 01JDPCFCK764DAFD0DR521PQT4 type conference.
• 01JDPCFCK764DAFD0DR521PQT4 hasPart 01JDPCM95WYM6Z2JG7GGJXVJMV.pdf.
• 01JDPCFCK764DAFD0DR521PQT4 subject "Technology and Engineering".
• 01JDPCFCK764DAFD0DR521PQT4 doi "10.1016/j.ifacol.2024.08.167".
• 01JDPCFCK764DAFD0DR521PQT4 issn "2405-8963".
• 01JDPCFCK764DAFD0DR521PQT4 issue "12".
• 01JDPCFCK764DAFD0DR521PQT4 presentedAt urn:uuid:bfd8218c-c62c-445c-8cac-268bd9b5d5bc.
• 01JDPCFCK764DAFD0DR521PQT4 volume "58".
• 01JDPCFCK764DAFD0DR521PQT4 abstract "Personalised pharmacokinetic models imply stepping away from the classical assumption of homogeneous drug mixing in various tissue compartments in the body, with a particular impact on obese patients. In this work, the pharmacokinetic compartmental model structure is revisited to account for non-uniform distribution of uptake/clearance time constants in patients as a nonlinear function of body mass index. Simulations are confirming expected patterns of drug distribution in the body and can account for post-anesthesia side effects up to 72 hours. We apply spectroscopy to extract the complex impedance in fat tissue samples. The data is modelled by a Cole-Cole model, where parameters of the fractional order impedance model are optimized using a genetic algorithm. The findings suggest that fat tissue will exhibit anomalous diffusion when drug uptake and clearance are present. Copyright (c) 2024 The Authors. This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/)".
• 01JDPCFCK764DAFD0DR521PQT4 author 30a972b2-9784-11ed-bac3-dd73abd88931.
• 01JDPCFCK764DAFD0DR521PQT4 author 88292577-c5ac-11ec-a948-846bba855e46.
• 01JDPCFCK764DAFD0DR521PQT4 author 9347753b-3249-11ee-a7ea-df2862ac6552.
• 01JDPCFCK764DAFD0DR521PQT4 author 9C5754C4-530B-11E8-AC68-92A811A95AF2.
• 01JDPCFCK764DAFD0DR521PQT4 author C10E6192-1B01-11E2-A477-54B510BDE39D.
• 01JDPCFCK764DAFD0DR521PQT4 author F3BA6A3E-F0ED-11E1-A9DE-61C894A0A6B4.
• 01JDPCFCK764DAFD0DR521PQT4 author F6F803D2-F0ED-11E1-A9DE-61C894A0A6B4.
• 01JDPCFCK764DAFD0DR521PQT4 author FEE28A86-F0ED-11E1-A9DE-61C894A0A6B4.
• 01JDPCFCK764DAFD0DR521PQT4 author b13acc98-cb2c-11ec-887a-cc1b0132e2ed.
• 01JDPCFCK764DAFD0DR521PQT4 author urn:uuid:7ea46a03-5af4-4e66-9a7d-4d0c8f35b8c9.
• 01JDPCFCK764DAFD0DR521PQT4 author urn:uuid:eace8339-4dd2-4b82-b85f-c97b945e2168.
• 01JDPCFCK764DAFD0DR521PQT4 dateCreated "2024-11-27T08:40:46Z".
• 01JDPCFCK764DAFD0DR521PQT4 dateModified "2024-12-12T21:14:10Z".
• 01JDPCFCK764DAFD0DR521PQT4 name "A fractional order impedance model for heterogeneous drug distribution in obese patients during general anesthesia".
• 01JDPCFCK764DAFD0DR521PQT4 pagination urn:uuid:4d42d538-2040-44a6-aa69-98e099bd4c8e.
• 01JDPCFCK764DAFD0DR521PQT4 publisher urn:uuid:aabfaa8c-3930-4cca-8435-80fac2e59f49.
• 01JDPCFCK764DAFD0DR521PQT4 sameAs LU-01JDPCFCK764DAFD0DR521PQT4.
• 01JDPCFCK764DAFD0DR521PQT4 sourceOrganization urn:uuid:0e57f1a6-c3b7-461e-a287-8a87e3beb9b0.
• 01JDPCFCK764DAFD0DR521PQT4 sourceOrganization urn:uuid:2bd7b77a-173a-48f9-b325-670275b66cb9.
• 01JDPCFCK764DAFD0DR521PQT4 type P1.