Profens acids

Sugiura M, Hayakawa R, Xie Z, Sugiura K, Hiramoto K, Shamoto M. Experimental study on phototoxicity and the photosensitization potential of ketoprofen, suprofen, tia-profenic acid and benzophenone and the photocross-reac-tivity in guinea pigs. Photodermatol Photoimmunol Photomed 2002 18(2) 82-9. 

Gyllenhaal, O., Stefansson, M. Reversal of elution order for profen acid enantiomers in packed-column SFC on chiralpak AD, Chirality, 2005,17, 257-265. 

Van Overbeke, A. Baeyens, W. Van den Bossche, W. Dewaele, C. Enantiomeric separation of amide derivatives of some 2-arylpropionic acids by HPLC on a cellulose-based chiral stationary phase. J.Pharm.Biomed.Anai, 1994, 12, 911-916 [chiral derivatization also, flurbiprofen, ketoprofen, tia-profenic acid]... 

For most free amino acids and small peptides, a mixture of alcohol with water is a typical mobile phase composition in the reversed-phase mode for glycopeptide CSPs. For some bifunctional amino acids and most other compounds, however, aqueous buffer is usually necessary to enhance resolution. The types of buffers dictate the retention, efficiency and - to a lesser effect - selectivity of analytes. Tri-ethylammonium acetate and ammonium nitrate are the most effective buffer systems, while sodium citrate is also effective for the separation of profens on vancomycin CSP, and ammonium acetate is the most appropriate for LC/MS applications. 

FIGURE 2.20 Schematic presentation of the hydrogen-bonded cyclic dimers of enantiomeric antipodes of 2-phenylpropionic acid, Ibuprofen, and Naproxen (the latter two compounds are drugs from the group of profens). 

Oumada et al. [148] described a new chromatographic method for determining the aqueous pKa of dmg compounds that are sparingly soluble in water. The method uses a rigorous intersolvent pH scale in a mobile phase consisting of a mixture of aqueous buffer and methanol. A glass electrode, previously standardized with common aqueous buffers, was used to measure pH online. The apparent ionization constants were corrected to a zero-cosolvent pH scale. Six sparingly soluble nonsteroidal antiinflammatory weak acids (diclofenac, flurbiprofen, naproxen, ibu-profen, butibufen, fenbufen) were used successfully to illustrate the new technique. 

Profens Small peptides N-blocked amino acids... 

DNP derivates of amino acids, profens Quinine carbamate Cj-dimers Methanol—0.1 206 M ammonium acetate, pH 6.0 (80 20)... 

Zwiener C. and F.H. Frimmel (2003). Short-term tests with a pilot sewage plant and biofilm reactors for the biological degradation of the pharmaceutical compounds clofibric acid, ibu-profen, and diclofenac. Science of the Total Environment 309 201-211. 

A fused tricyclic ring system based on an indole provides yet another NSAID. Michael addition of the anion from diethyl methylmalonate to cyclohexanone followed by acid hydrolysis of the product gives cyclohexanone (21-3), which incorporates the characteristic profen 2-substituted carboxylic side chain. Sequential reaction with para-chlorophenylhydrazine and a strong acid gives the fused indole... 

Amino acid conjugation of profen drugs leads to chiral inversion, as discussed in chapter 5. 

The 2-arylpropionic acid derivatives (profens) are important classes of NSAIDs that have been in clinical use for over 20 years. The profens have been used clinically as racemic agents with the exception of (S)-(+)-naproxen, which has been developed and used only as a single enantiomeric drug. 

The effect of various SFC parameters on chiral resolution were also studied. Modifiers can provide control over both retention and selectivity and, therefore, certain modifiers were used to optimize the separation in sub-FC and SFC. The effect of the enantioselectivity of carbon dioxide on acidic drugs (benzoxaprofen, temazepam, and mephobarbital), profen, and barbiturate derivatives was carried out on Chiralcel OJ, with acetonitrile or methanol as organic modifier [140]. Acetonitrile proved to be a good alternative to methanol, especially for the profen compounds that were not well resolved when methanol was used. Wilson [143] studied the effects of methanol, ethanol, and 2-propanol as organic modifiers on the chiral resolution of ibuprofen on Chiralpak AD CSPs. Methanol was found to be the best organic modifier. 

The application of antibiotics as chiral selectors has resulted in the successful resolution of almost all types of neutral, acidic, and basic racemic molecule. These antibiotics have been used for the enantiomeric resolution of amino acids, their derivatives, peptides, alcohols, and other pharmaceuticals. The selectivities of the most commonly used antibiotic-based (vancomycin, teicoplanin, and ristocetin A) CSPs varied from one racemate to another and are given in Table 1. Vancomycin was used for the chiral resolution of amino acids, amines, amides, imides, cyclic amines, amino alcohols, hydantoins, barbiturates, oxazolidinones, acids, profens, and other pharmaceuticals. Teicoplanin was found to be excellent chiral selector for the enantiomeric resolution of amino acids, amino alcohols, imides, peptides, hydantoins, a-hydroxy and halo acids, and oxazolidinones, whereas ristocetin A is capable of chiral resolution of amino acids, imides, amino... 

Reversed phase Amines, amides, imides, acids, profens a-Hydroxy acids, oxazolidinones, amino acids, peptides a-Hydroxy acids, acids, profens, amino acids, amino esters, hydantoins, peptides... 

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