Naproxen, preparation

Considerable advances in asymmetric hydroformylation, a process which, among other things, provides a potential route to enantiomericaHy pure biologically active compounds, have occurred. Of particular interest are preparations of nonsteroidal antiinflammatory (NSAI) pharmaceuticals such as Naproxen (8) and Ibuprofen (9), where the represents a chiral center. 

Lipase-catalyzed kinetic resolutions are often practical for the preparation of optically active pharmaceuticals (61). For example, suprofen [40828-46-4] (45), which is a nonsteroidal antiinflamatory dmg, can be resolved by Candida glindracea]i 2Lse in >95% ee at 49% conversion (61). Moreover, hpase-based processes for the resolution of naproxen [22204-53-1] and ibuprofen [15687-27-1] (61) have also been developed. 

Although very efficient, the broad application of the direct preparation is restricted due to the limited number of pure starting enantiomers. The design of a multistep process that includes asymmetric synthesis is cumbersome and the development costs may be quite high. This approach is likely best suited for the multi-ton scale production of commodity enantiomers such as the drugs ibuprofen, naproxen, atenolol, and albuterol. However, even the best asymmetric syntheses do not lead to products in an enantiomerically pure state (100 % enantiomeric excess). Typically, the product is enriched to a certain degree with one enantiomer. Therefore, an additional purification step may be needed to achieve the required enantiopurity. 

These discoveries generated a lot of effort over the successive 25 years in the preparation of especially designed drug delivery systems for the controlled release of radioactive progesterone [654], colchicine [656], naproxen [657,673, 674], mitomycin C [675-677], inulin [678], trimethoprin [657], succinylsul-fathiazole [657], ethacrynic acid [653], and steroids [633], regardless of whether these drugs are physically trapped in polyphosphazene matrices, or chemically bonded to the polymer skeleton. 

The phase transformation relationships for the solvatomorphs of naproxen sodium have been reported [71], The dihydrate phase is obtained upon crystallization from water, and a monohydrate phase could be prepared by the dehydration of the dihydrate phase in a desiccator (RH = 0%) for two days. The anhydrate phase could be obtained from either the monohydrate or dihydrate by drying the substance in an oven at 120 °C for two hours. Thermal analysis data was used to demonstrate the existence of two types of water in the dihydrate phase, and that each could be removed at a characteristic temperature. 

In contrast, the opposite result was observed when these materials were used in the acylation of a bulky substrate (2-methoxynaphthalene, 2-MN). In this case, l-acetyl-2-metoxynaphthalene (1-A,2-MN) and 6-acetyl-2-metoxynaphthalene (6-A,2-MN) are the main reaction products (Scheme 2). The latter is an intermediate for the preparation of Naproxen (antiinflammatory drug) and, therefore, the most interesting product. Initially, 2-MN acylation leads to 1-A,2-MN (the kinetically controlled product). However, at long times, the selectivity to 6-A,2-MN usually increases due to two secondary reactions transacylation of 1-A,2-MN with a molecule of 2-MN and protodeacylation of 1-A,2-MN yielding 2-MN [7],... 

Celecoxib, a non-steroidal anti-inflammatory drug, is a cyclo-oxygenase-2 selective inhibitor that is as effective as diclofenac and naproxen. It should be used for the shortest period required to control symptoms. Use is associated v/ith an increased risk of thrombotic events and the cyclo-oxygenase-2 selective inhibitors are contraindicated in cerebrovascular disease. Mobic is the proprietary preparation of meloxicam. 

Co-codamol is a combination of paracetamol (nonnapioid analgesic) and codeine (opioid analgesic). One of the side-effects of opioids is constipation. Naprosyn is a proprietary (trade name) preparation of the non-steroidal antiinflammatory drug naproxen Adalat is a proprietary preparation of the calcium-channel blocker nifedipine Amoxil is a proprietary preparation of the beta-lactam amoxicillin and Dulco-lax is the brand name of the stimulant laxative bisacodyl. 

Chemical synthesis of racemates and subsequent resolution via crystallization of diastereomeric salts is employed in the preparation of rf-biotin and tocopherol (vitamins), dexchlorpheniramine (antihistaminic), levomepromazine (neuroleptic), levorphanol (analgesic), and naproxen (antiphlogistic), to note some examples4, threo-2-Amino-1 -(4-nitro-phenyl)-l,3-propanediol, an intermediate in the production of chloramphenicol, is resolved by crystallization with entrainment or via crystallization of the salt with camphorsulfonic acid4. Enzymatic resolutions are increasingly employed, normally via deacetylation of racemic acetates. This method has recently been used in the synthesis of carbacyclin derivatives5. 

The partially fluorinated vinylzinc reagent, reported by Shi and coworkers, has been utilized to prepare the fluoro analog of Naproxen and for the key intermediate for a novel synthetic pyrethroid (equations 67 and 68)44. 

Naproxen is a naphthylpropionic acid derivative. It is the only NSAID presently marketed as a single enantiomer. Naproxen s free fraction is significantly higher in women than in men, but half-life is similar in both sexes (Table 36-1). Naproxen is effective for the usual rheumatologic indications and is available in a slow-release formulation, as an oral suspension, and over the counter. A topical preparation and an ophthalmic solution are also available. 

Trifluoro-2-propenyl zinc reagent can undergo palladium-catalyzed cross-coupling reaction with aryl or vinyl halides [169,170], which provides a novel method for the introduction of the trifluoromethyl group into organic molecules (Scheme 59). The trifluoro analogue of Naproxen has been prepared by this method [169] (Scheme 60). 

Veronese, F.M., Marsilio, E, Caliceti, P, De Filiis, P, Giunchedi, P, and Lora, S. (1998). Polyorganophosphazene microspheres for drug release polymer synthesis, microsphere preparation, in vitro and in vivo naproxen release. J. Control. Release, 52, 221-237. 

Our group pursued another approach of combining the properties of nanoparticles with chiral nematic liquid crystal phases. The idea was to decorate gold nanoparticles with chiral molecules known to be strong inducers of chiral nematic phases. To realize the idea, we prepared a series of alkylthiol-capped gold nanoparticles, either pure monolayer or mixed monolayer, with all or about every second of the alkylthiols end-functionalized with (5)-naproxen (e.g., 6 in Fig. 11) [349]. 

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... 

C. Albrecht, R. Reichen, J. Visser, D. K. F. Meijer, and W. Thormann, Differentiation between naproxen, naproxen-protein-conjugates and naproxen-lysine in plasma via micellar electrokinetic capillary chromatography—A new approach in the bioanalysis of drug targeting preparations, Clin. Chem. 43 2083-2090 (1997). 

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). 

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