Enhanced human tissue microdialysis using hydroxypropyl-ß-cyclodextrin as molecular carrier

Microdialysis sampling of lipophilic molecules in human tissues is challenging because protein binding and adhesion to the membrane limit recovery. Hydroxypropyl-ß-cyclodextrin (HP-ß-CD) forms complexes with hydrophobic molecules thereby improving microdialysis recovery of lipophilic molecules in vi...

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Veröffentlicht in:	PloS one 2013-04, Vol.8 (4), p.e60628
Hauptverfasser:	May, Marcus, Batkai, Sandor, Zoerner, Alexander A, Tsikas, Dimitrios, Jordan, Jens, Engeli, Stefan
Format:	Artikel
Sprache:	eng
Schlagworte:	2-Hydroxypropyl-beta-cyclodextrin Adipose tissue Adipose Tissue - drug effects Adipose Tissue - metabolism Adult Analytical methods Anandamide Animal tissues beta-Cyclodextrins - adverse effects beta-Cyclodextrins - pharmacology Biology Blood Circulation - drug effects Blood flow Calibration Catheters Cyclodextrin Cyclodextrins Endocannabinoids - metabolism Ethanol Ethanol - chemistry Experiments Fatty acids Feasibility Studies Female Fluids Glucose - metabolism Glycerol Human tissues Humans Hydrophobicity Lactates Lactic acid Lipolysis - drug effects Lipophilic Male Medical research Medical schools Medicine Metabolic disorders Metabolites Microdialysis Microdialysis - methods Muscle, Skeletal - drug effects Muscle, Skeletal - metabolism Muscles Musculoskeletal system Neurosurgery Perfusion Perfusion fluids Pharmaceutical sciences Pharmacology Physiology Product safety Protein binding Proteomics Rodents Stability analysis Toxicology Ultrafiltration
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description	Microdialysis sampling of lipophilic molecules in human tissues is challenging because protein binding and adhesion to the membrane limit recovery. Hydroxypropyl-ß-cyclodextrin (HP-ß-CD) forms complexes with hydrophobic molecules thereby improving microdialysis recovery of lipophilic molecules in vitro and in rodents. We tested the approach in human subjects. First, we determined HP-ß-CD influences on metabolite stability, delivery, and recovery in vitro. Then, we evaluated HP-ß-CD as microdialysis perfusion fluid supplement in 20 healthy volunteers. We placed 20 kDa microdialysis catheters in subcutaneous abdominal adipose tissue and in the vastus lateralis muscle. We perfused catheters with lactate free Ringer solution with or without 10% HP-ß-CD at flow rates of 0.3-2.0 µl/min. We assessed tissue metabolites, ultrafiltration effects, and blood flow. In both tissues, metabolite concentrations with Ringer+HP-ß-CD perfusate were equal or higher compared to Ringer alone. Addition of HP-ß-CD increased dialysate volume by 10%. Adverse local or systemic reactions to HP-ß-CD did not occur and analytical methods were not disturbed. HP-ß-CD addition allowed to measure interstitial anandamide concentrations, a highly lipophilic endogenous molecule. Our findings suggest that HP-ß-CD is a suitable supplement in clinical microdialysis to enhance recovery of lipophilic molecules from human interstitial fluid.
doi_str_mv	10.1371/journal.pone.0060628
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subjects	2-Hydroxypropyl-beta-cyclodextrin Adipose tissue Adipose Tissue - drug effects Adipose Tissue - metabolism Adult Analytical methods Anandamide Animal tissues beta-Cyclodextrins - adverse effects beta-Cyclodextrins - pharmacology Biology Blood Circulation - drug effects Blood flow Calibration Catheters Cyclodextrin Cyclodextrins Endocannabinoids - metabolism Ethanol Ethanol - chemistry Experiments Fatty acids Feasibility Studies Female Fluids Glucose - metabolism Glycerol Human tissues Humans Hydrophobicity Lactates Lactic acid Lipolysis - drug effects Lipophilic Male Medical research Medical schools Medicine Metabolic disorders Metabolites Microdialysis Microdialysis - methods Muscle, Skeletal - drug effects Muscle, Skeletal - metabolism Muscles Musculoskeletal system Neurosurgery Perfusion Perfusion fluids Pharmaceutical sciences Pharmacology Physiology Product safety Protein binding Proteomics Rodents Stability analysis Toxicology Ultrafiltration
title	Enhanced human tissue microdialysis using hydroxypropyl-ß-cyclodextrin as molecular carrier
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