Naproxen determination

S)-Naproxen is the aaive ingredient in the widely used pain relievers Naprosyn and Aleve. The three-dimensional orientation of two atoms at a single carbon in naproxen determines its therapeutic properties. Changing the position of these two atoms converts this anti-inflammatory agent into a liver toxin. In Chapter 5 we learn more about stereochemistry and how small structural differences can have a large effect on the properties of a molecule. 

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. 

Stuer et al. [46] evaluated the presence of the 25 most used pharmaceuticals in the primary health sector in Denmark (e.g., paracetamol, acetyl salicylic acid, diazepam, and ibuprofen). They compared PECs with experimental determinations and they conclude that measured concentrations were in general within a factor of 2-5 of PECs. Carballa et al. [45] also determined PECs for pharmaceuticals (17), musk fragrances (2) and hormones (2) in sewage sludge matrix. For that purpose they used three different approaches (1) extrapolation of the per capita use in Europe to the number of Spanish inhabitants for musk fragrances (2) annual prescription items multiplied by the average daily dose for pharmaceuticals and (3) excretion rates of different groups of population for hormones. They indicated that these PECs fitted with the measured values for half of them (carbamazepine, diazepam, ibuprofen, naproxen, diclofenac, sulfamethoxazole, roxithromycin, erythromycin, and 17a-ethiny I e strad iol). 

In order to determine more precisely the fate of pharmaceuticals during sludge treatment, different experiments have been conducted in controlled conditions. In continuous anaerobic reactors treating sludge spiked with pharmaceuticals, Carballa et al. [114] observed removals higher than 80% for naproxen, sulfamethoxazole, and roxithromycin, while 40% and 23% of ibuprofen and iopromide, respectively, were eliminated at both mesophilic (37°C) and thermophilic (55°C) temperatures. For diclofenac and diazepam, elimination of about 60% was observed in mesophilic conditions while in thermophilic conditions, 38% and 73% of these two compounds, respectively, were eliminated. In these experiments, the sludge retention time (15 or 30 days) did not seem to influence pharmaceutical removal... 

No detectable amounts of naproxen or its lysine conjugates were found in the plasma after administration of the conjugate and it can be inferred that excretion into the urine is the crucial process which determines the elimination rate fi. The lack of diffusion into the bloodstream is a favourable property in relation to unwanted extra-renal effects. 

Lelievre and Gareil (31) studied chiral separations of nonsteroidal anti-inflammatory drugs (carprofen, flurbiprofen, indoprofen, ketoprofen, naproxen, propafenone, and suprofen) and determined the acidity and inclusion complex formation constants of these chiral compounds with different neutral CDs (/3-CD, HP-/3-CD, DM-/3-CD, TM-/3-CD, and HP-y-CD). In... 

Some non-steroidal anti-inflammatory drugs (NSAIDs) were found to have the following capacity factors in a particular mobile on a reverse-phase column aspirin 0.4, naproxen 3.6, ibuprofen 14.5, diclofenac 10.4, paracetamol 0.2. Given that the column had a t of 2 min determine the retention times of the NSAIDs. 

Polyphosphazenes are a relatively new class of biodegradable polymers. Their hydrolytic stability or instability is determined not by changes in the backbone structure but by changes in the side groups attached to an unconventional macromolecular backbone. Synthetic flexibility and versatile adaptability of polyphosphazenes make them unique for drug delivery applications. For example, Veronese et al.18 prepared polyphos-phazene microspheres with phenylalanine ethyl ester as a phosphorous substituent and loaded it with succinylsulphathiazole or naproxen. The kinetics of release from these matrices were very convenient in yielding local concentrations of the two drugs that are useful per se or when mixed with hydroxyapatite for better bone formation. Polyphosphazene matrices are also considered as potential vehicles for the delivery of proteins and vaccines.19... 

Hsieh et al. [46] described an HPLC method for simultaneous determination of the R-(—) and (S)-(+)-enantiomers of vigabatrin in human serum after precolumn derivatization with a fluorescent chiral reagent (naproxen acyl chloride) and detection at 350 nm with excitation at 230 nm. Separation was achieved on an Agilent Eclipse XDB-C8 (5 /an) column (15 cm x 4.6 mm) using a mixed solvent of acetate buffer (pH 7)-methanol (60 40) as a mobile phase at a flow rate of 1.2 ml/min. The calibration graphs for each enantiomer were linear over the... 

While many aspects of nonlinear pharmacokinetic behavior may impact on the above equation, the more relevant pharmacokinetic processes for ASOs are absorption and distribution at or below therapeutic or nontoxic plasma concentrations. Nonlinear absorption or distribution processes can affect AUC terms in a nonproportional manner when different doses are compared, thereby resulting in an inaccurate determination of bioavailability. This has been shown to occur on numerous occasions for compounds such as ascorbic acid or naproxen [59-62]. Such cases require an understanding of the capacity-limiting cause of the nonlinearity and the pharmacokinetic processes upon which this impacts, in case of ASOs absorption and intercompartmental distribution processes from the central compartment into the peripheral tissues. With this understanding, various methods may then be applied to best approximate the rate of change of the plasma concentrations from one sampling time to the next allowing for an estimate of the absolute BAV. 

D. Moir, N. Beaulieu, N. M. Curran, and E. G. Lovering, Liquid chromatography determination of naproxen and related compounds in raw materials, JAOAC, 73 902 (1990). 

A stereoselective GC method for determination of etodolac enantiomers in human plasma and urine was first reported as a preliminary method [35], and then as a validated method [36]. Sample preparation involved addition of (S)-(+)-naproxen (internal standard) and sodium hydroxide to diluted plasma or urine. The samples were washed with diethyl ether, acidified with hydrochloric acid, and extracted with toluene. ( )-(+)-naproxen was used as a derivatizing agent to form diastereomeric derivatives of etodolac. The gas chromatograph system used in this work was equipped with fused-silica capillary column (12 m x 0.2 mm i.d.) coated with high-performance cross-linked methylsilicone film (thickness 0.33 pm) and a nitrogen-phosphorous detector. The operating conditions were injector 250°C detector 300°C column 100-260°C (32 °C/min). 

Ahrer et al. [69] developed methods for the determination of drug residues in water based on the combination of liquid chromatography (LC) or capillary electrophoresis (CE) with mass spectrometry (MS). A 2 mM ammonium acetate at pH 5.5 and a methanol gradient was used for the HPLC-MS allowing the separation of a number of drugs such as paracetamol, clofibric acid, penicillin V, naproxen, bezafibrate, carba-mazepin, diclofenac, ibuprofen, and mefenamic acid. Apart from the analytical separation technique, water samples have to be pretreated in order to get rid of the matrix components and to enrich the analytes the usual way to accomplish this aim is to perform a solid-phase extraction... 

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