Retention Behavior of Neutral and Positively and Negatively Charged Solutes on an Immobilized‐Artificial‐Membrane (IAM) Stationary Phase

Abstract: The retention behavior of neutral, positively charged, and negatively charged solutes on the IAM.PC.DD2 stationary phase was investigated and compared. A set of monofunctional compounds and complex drugs (steroids, nonsteroidal anti-inflammatory drugs, and b-blockers) were selected for this study, i.e., neutral solutes and solutes with acidic or basic functionalities which are positively charged or negatively charged at pH 7.0. The correlation between the retention factor log k w at pH 7.0 on the IAM.PC.DD2 st… Show more

“…3, a, shows that b-blockers which are positively charged at the experimental conditions are retained strongest on the ILC column among the three sets of solutes. The same result was also found for IAM chromatography [21]. This suggests that the interaction of ionized drugs with immobilized liposomes depends not only on their lipophilicity expressed as log P oct , but also on additional interactions including electrostatic interactions and their ability to form H-bonds with the polar head groups of the phospholipids (b-blockers can form more H-bonds than alkyl(4-methylbenzyl)-amines).…”

“…It was found that positively charged solutes are more retained than negatively charged solutes on an IAM.PC.DD2 stationary phase [21], which was explained as the result of a larger affinity of positively charged drugs to phospholipid membranes compared to the negatively charged compounds. However, we did not obtain the same results by ILC with immobilized unilamellar egg PC liposomes in this study.…”

“…IAMw values (capacity factor at pH 7.0) were obtained from experiments using an IAM.PC.DD2 HPLC column [21]. The octan-1-ol/H 2 O partitioning data (log P N oct and log D 7:0 oct ) were taken from the literature [21].…”

“…The octan-1-ol/H 2 O partitioning data (log P N oct and log D 7:0 oct ) were taken from the literature [21]. According to the pK a values of the compounds [21], the alkyl(4-methylbenzyl)amines and b-blockers (compounds 1 -14) are fully positively charged, whereas the monofunctional carboxylic acids and NSAIDs (compounds 15 -22) are fully negatively charged at both pH 7.4 and 7.0.…”

Drug–Membrane Interaction on Immobilized Liposome Chromatography Compared to Immobilized Artificial Membrane (IAM), Liposome/Water, and Octan‐1‐ol/Water Systems

“…3, a, shows that b-blockers which are positively charged at the experimental conditions are retained strongest on the ILC column among the three sets of solutes. The same result was also found for IAM chromatography [21]. This suggests that the interaction of ionized drugs with immobilized liposomes depends not only on their lipophilicity expressed as log P oct , but also on additional interactions including electrostatic interactions and their ability to form H-bonds with the polar head groups of the phospholipids (b-blockers can form more H-bonds than alkyl(4-methylbenzyl)-amines).…”

“…It was found that positively charged solutes are more retained than negatively charged solutes on an IAM.PC.DD2 stationary phase [21], which was explained as the result of a larger affinity of positively charged drugs to phospholipid membranes compared to the negatively charged compounds. However, we did not obtain the same results by ILC with immobilized unilamellar egg PC liposomes in this study.…”

“…IAMw values (capacity factor at pH 7.0) were obtained from experiments using an IAM.PC.DD2 HPLC column [21]. The octan-1-ol/H 2 O partitioning data (log P N oct and log D 7:0 oct ) were taken from the literature [21].…”

“…The octan-1-ol/H 2 O partitioning data (log P N oct and log D 7:0 oct ) were taken from the literature [21]. According to the pK a values of the compounds [21], the alkyl(4-methylbenzyl)amines and b-blockers (compounds 1 -14) are fully positively charged, whereas the monofunctional carboxylic acids and NSAIDs (compounds 15 -22) are fully negatively charged at both pH 7.4 and 7.0.…”

Drug–Membrane Interaction on Immobilized Liposome Chromatography Compared to Immobilized Artificial Membrane (IAM), Liposome/Water, and Octan‐1‐ol/Water Systems

“…The interaction of drugs with phospholipids has been investigated by IAM-HPLC for different sets of neutral and charged compounds such as β-blockers (90), non-steroidal anti-inflammatory drugs (NSAIDs) (91), dihydropyridine (DHPs) calcium channel blockers (92), and for a set of compounds with a wide structural diversity (93). It was found that log k IAMw values from IAM columns correlate with log P oct only for neutral and structurally related compounds and that electrostatic interactions between the charged solutes and the polar heads of phospholipid play a vital role in IAMs.…”

Lipophilicity and Its Relationship with Passive Drug Permeation

Magnetic, Fluorescent, and Copolymeric Silicone Microspheres