Separation theophylline

To separate theophylline from 1,7-dimethylxanthine, Rodriguez et al.177 used methanol -formamide - potassium dihydrogen phosphate (0.05 M)(22 11.5 66.6)(pH 5.8) in combination with an octadecyl type of column. 

This experiment describes the quantitative analysis of the asthma medication Quadrinal for the active ingredients theophylline, salicylic acid, phenobarbital, ephedrine HGl, and potassium iodide. Separations are carried out using a Gi8 column with a mobile phase of 19% v/v acetonitrile, 80% v/v water, and 1% acetic acid. A small amount of triethylamine (0.03% v/v) is included to ensure the elution of ephedrine HGl. A UV detector set to 254 nm is used to record the chromatogram. 

This experiment describes a quantitative analysis for caffeine, theobromine, and theophylline in tea, pain killers, and cocoa. Separations are accomplished by MEKC using a pH 8.25 borate-phosphate buffer with added SDS. A UV detector set to 214 nm is used to record the electropherogram. An internal standard of phenobarbital is included for quantitative work. 

For many years oral xanthines, shown in Table 2, were the preferred first-line treatment for asthma in the United States, and if the aerosol and oral formulations of P2" go sts are considered separately, as they are in Table 1, this was still the case in 1989. Within this class of compounds theophylline (8), or one of its various salt forms, such as aminophylline [317-34-0] (theophylline ethylenediamine 2 l), have been the predominant agents. Theophylline, 1,3-dimethylxanthine [58-55-9], is but one member of a class of naturally occurring alkaloids. Two more common alkaloids are theobromine (9), isomeric with theophylline and the principal alkaloid in cacao beans, and caffeine, (10), 1,3,7-Trimethylxanthine [58-08-2], found in coffee and tea. 

The pur pose of work is to develop the technique of separ ation of purine bases (caffeine, theophylline, theobromine) and the technique of detection of purine bases in biological fluid by TLC using micellar mobile phases containing of different surfactants. 

The effect of concentration of cationic (cetylpyridinium chloride, CPC), anionic (sodium dodecylsulfate, SDS) and nonionic (Twin-80) surfactants as well as effect of pH value on the characteristics of TLC separ ation has been investigated. The best separ ation of three components has been achieved with 210 M CPC and LIO M Twin-80 solutions, at pH 7 (phosphate buffer). Individual solution of SDS didn t provide effective separation of caffeine, theophylline, theobromine, the rate of separ ation was low. The separ ation factor and rate of separ ation was increase by adding of modifiers - alcohol 1- propanol (6 % vol.) or 1-butanol (0.1 % vol.) in SDS solution. The optimal concentration of SDS is 210 M. 

It has a water solubility of about 55%. It may ba compounded in the form of tablets, for oral administration, or may be prepared in solution for distribution in ampoules. For tha manufacture of solutions for packaging in ampoules. It is more convenient to simply dissolve tha theophylline and tha butanol amine in water, without going through the intermediate step of separating the crystalline salt. 

Another example of the use of small particle silica is in the analysis of theophylline in plasma, as shown in Figure 5 (40). The clean-up procedure is simply a single extraction of the plasma with an organic solvent. This analysis has also been achieved by reverse phase chromatography (41), and this points out the fact that in some separations (e.g. with components of moderate polarity) either the adsorption or reverse phase mode can be used. 

Although low levels of methylxanthines have been detected in the leaves and flowers of T. cacao, the primary storage location is within the seed or bean.16 The cocoa bean is the major natural source of the methylxanthine theobromine, but contains only small amounts of caffeine. Theophylline has been detected in cacao beans, but at such low concentrations that its presence generally is ignored. Together, theobromine and caffeine account for up to 99% of the alkaloid content of T. cacao beans. Alkaloid content is affected by genetic makeup, maturity of beans at harvest, and fermentation process. Analytical methodology also is partially responsible for some of the disparity in methylxanthine values since many early methods were unable to separate theobromine and caffeine. 

Drug Release from PHEMA-l-PIB Networks. Amphiphilic networks due to their distinct microphase separated hydrophobic-hydrophilic domain structure posses potential for biomedical applications. Similar microphase separated materials such as poly(HEMA- -styrene-6-HEMA), poly(HEMA-6-dimethylsiloxane- -HEMA), and poly(HEMA-6-butadiene- -HEMA) triblock copolymers have demonstrated better antithromogenic properties to any of the respective homopolymers (5-S). Amphiphilic networks are speculated to demonstrate better biocompatibility than either PIB or PHEMA because of their hydrophilic-hydrophobic microdomain structure. These unique structures may also be useful as swellable drug delivery matrices for both hydrophilic and lipophilic drugs due to their amphiphilic nature. Preliminary experiments with theophylline as a model for a water soluble drug were conducted to determine the release characteristics of the system. Experiments with lipophilic drugs are the subject of ongoing research. 

In a further application of MI-SPE, theophylline could be separated from the structurally related caffeine by combining the specific extraction with pulsed elution, resulting in sharp baseline-separated peaks, which on the other hand was not possible when a theophylline imprinted polymer was used as stationary phase for HPLC. A detection limit of 120 ng mb1 was obtained, corresponding to a mass detection limit of only 2.4 ng [45]. This combination of techniques was also used for the determination of nicotine in tobacco. Nicotine is the main alkaloid in tobacco and is the focus of intensive HPLC or GC analyses due to its health risk to active and passive consumers. However, HPLC- and GC-techniques are time-consuming as well as expensive, due to the necessary pre-purification steps required because the sample matrices typically contain many other organic compounds besides nicotine. However, a simple pre-concentration step based on MI-SPE did allow faster determination of nicotine in tobacco samples. Mullett et al. obtained a detection limit of 1.8 jig ml 1 and a mass detection limit of 8.45 ng [95]. All these examples demonstrate the high potential of MI-SPE to become a broadly applicable sample pre-purification tool. 

Vinyl alcohol copolymer gel is hydrophilic and has been developed for aqueous-phase size-exclusion liquid chromatography however, it is less polar than the polysaccharides. Its specificity permits the direct injection of a biological sample without deproteinization. For example, blood serum from a patient suffering from chronic nephritis has been injected directly as a measure of the degree of dialysis (Figure 3.17). Adenosine triphosphate, adenosine diphosphate, and adenosine monophosphate in red blood cells have also been separated directly (Figure 3.18). Theophylline in blood serum has been... 

FIGURE IS Electrochromatograms obtained for the separation of basic drugs spiked in a human serum compared with a blank in a hydrophobic interaction CEC. Column 5 pm 300 A polysulfoethyl A particles, 20 cm packed length, 50 pm ID mobile phase ACN/TEAP buffer (80 20) applied voltage, 10 kV detection at 214 nm. Drugs (I) amobarbital (2) phenobarbital (3) barbital (4) caffeine (5) sulfanilamide (6) theophylline (7) 2,4-dimethylquinoline (8) propranolol. (Reproduced with permission from reference 76.)... 

In this section a variety of analytical separations reported in the literature are reviewed to show the wide structural diversity of eluite which can be separated by RPC and to assist the reader in becoming similar with the use of this fluid chromatographic technique. The descriptions are ar-ranged according to the matrix in which an analyte is found or the area of - h istry in which the samples are generally encountered. Thus theophylline, for example, is regarded as a nucleotide and, for the most part, its analysis in food samples is found with appropriate cross references. On the other hand, the separations of pharmaceuticals found in serum, urine, and pharmaceutical samples are cited separately. It is hoped that this method of classification may serve the purposes of those wh e analytical interests are incidental to their primary research pursuits. 

Anhydrous theophylline (100 mesh) was incorporated into a homogenous 5% w/w solution of the corresponding Eudragit in its solvent (Table 1) containing 2-7% w/w of polyisobutadiene. The phase separation and subsequent deposition of the polymer was effected by desolvating the polymer (Table 1) under stirred conditions. Hardening of the microcapsules was effected by dropwise addition of the chilled non-solvent. After the formation of embryonic microcapsules, they were separated, washed with chilled non-solvent and air dried at ambient temperature. 

Among the unsaturated ketonucleosides may be classified the disaccharide derivative 74, which is an analog of the biologically active compound 68c. The key intermediate for the synthesis of this unsaturated ketodisaccharide nucleoside was the partially protected, disaccharide nucleoside 73, which was prepared by two separate routes,56 Treatment of 73 with the Me2SO-acetic anhydride reagent for two days at room temperature afforded 7-[2,3-di-0-benzoyl-4-0-(3-0-benzoyl-2,6-di-deoxy - / - d - glycero - hex - 2 - enopyranosyl - 4 - ulose) - 6 - deoxy - / - d -glycopyranosyl]theophylline (74), isolated crystalline.56... 

Separation of theophylline and caffeine by column containing polymer imprinted with theophylline. Caffeine washed right through with CHCI3 solvent. Addition of 20 id. of CH3OH to the solvent breaks hydrogen bonds between theophylline and the polymer and elutes theophylline in a volume of t mL [From W. M. Mulleti and P C. Lai. Anal. Chem. 1998, 70.3636.]... 

Metaproterenol (Alupent, Metaprel) [Bronchodilator/ Beta-Adrenergic Agonist] Uses Asthma reversible bronchospasm Action Sympathomimetic bronchodilator Dose Adults. Neb 0.2-0.3 mL in 2.5-3.0 mL of NS Peds. Neb 0.1-0.2 mL/kg of a 5% soln in 2.5 mL NS Caution [C, /-] Contra Tach, other arrhythmias Disp Aerosol 0.65 mg/inhal soln for inhal 0.4, 0.6% tabs 10, 20 mg syrup 10 mg/5 mL SE Nervousness, tremors (common), tach, HTN Interactions T Effects W/ sympathomimetic drugs, xanthines T risk of arrhythmias W/ cardiac glycosides, halothane, levodopa, theophylline, thyroid hormones T HTN W/ MAOIs effects W/ BBs EMS Separate additional aerosol use by 5 min fewer 3i effects than isoproterenol longer-acting monitor lung sounds before/after administration... 

Composite MIP membranes can also be obtained by incorporation of MIP particles into the membrane polymer matrix by mixing the particles in an appropriate solvent with the membrane-forming polymer that is then solidified by the phase inversion process. Membranes thus prepared were used for separation, with targets such as tetracycline [257], theophylline [255], methylphosphonic acid [258], bisphenol [259], indole derivatives [260], propanolol [261], luteolin [262] and norfloxacin... 

The separation of cimetidine and its metabolites is usually carried out by extraction of the biological medium with 1-octanol fran an aqueous alkaline pH solution followed by mixing, addition of an internal standard and centrifugation. The extraction with octanol is repeated and the combined extracts are re-extracted with dilute hydrochloric acid. The aqueous acid solution is then separated, ethanol is added and mixed. This is then followed by saturating the mixture with a large amount of potassium or sodium carbonate to "salt out" the ethanol layer which contains the cimetidine and its metabolite, the sulfoxide. Several different internal standards have been used Metiamide, 1-methyl-3-[2-[[(5-methyl-imidazole-4-yl) -methyl] thio]ethyl]-2-thiourea,19 31 39 (N-cyano-N1-methy1-N"-(3-(4-imidazolyl)-propyl)guanidine32, and 13-hydroxy-theophylline. 0 After extraction the samples are either evaporated to dryness and reconstituted with a known amount of ethanol, injected directly or dissolved in the mobile phase for the HPLC analysis. 

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