Ion Exchange Method for Phenylpropanolamine Hydrochloride in an Elixir

1970 ◽  
Vol 53 (1) ◽  
pp. 116-117
Author(s):  
Donald J Smith
Keyword(s):  
Ion Exchange ◽  
Cation Exchange ◽  
Positive Charge ◽  
Exchange Resin ◽  
Collaborative Study ◽  
Cation Exchange Resin ◽  
Sulfonated Polystyrene ◽  
Exchange Method ◽  
Phenylpropanolamine Hydrochloride ◽  
Ion Exchange Method

Abstract Phenylpropanolamine is retained on a sulfonated polystyrene cation exchange resin by the positive charge located in the cationic center of the molecule. Phenylpropanolamine hydrochloride is eluted from the column with 0.27N HCl and determined by UV absorption. Duplicate recoveries were 101 and 101%. The method is recommended for collaborative study.

Collaborative Study of an Ion Exchange Method for Ephedrine in Ephedrine Sulfate Sirup NF

1969 ◽  
Vol 52 (4) ◽  
pp. 854-857
Author(s):  
Donald J Smith
Keyword(s):  
Hydrochloric Acid ◽  
Ion Exchange ◽  
Positive Charge ◽  
Exchange Resin ◽  
Collaborative Study ◽  
Cation Exchange Resin ◽  
Polystyrene Sulfonate ◽  
Resin Column ◽  
Exchange Method ◽  
Ion Exchange Method

Abstract An ion exchange procedure for Ephedrine Sulfate Sirup NF, based on the ability of ephedrine to be retained on a polystyrene sulfonate cation exchange resin column, was studied collaboratively by eight laboratories. The compound is held on the column by a positive charge located in the cationic center of the molecule, it is then eluted with hydrochloric acid, and its ultraviolet absorption is measured. The addition of 57.88 mg ephedrine sulfate to Ephedrine Sulfate Sirup NF resulted in recoveries of 58.39 and 57.72 mg, or 101 and 100%, respectively. Recoveries for collaborative samples, each containing 19.22 and 19.33 mg/5 ml, were 99.8 ± 1.83 and 101 ± 4.09%, respectively.

Ion Exchange Method for Rapid Determination of Alkalinity of Water-Soluble Tea Ash Containing High Levels of Manganese

1980 ◽  
Vol 63 (3) ◽  
pp. 460-461
Author(s):  
Saidul Z Qureshi ◽  
Fadhil M Najib ◽  
Fahmi A Mohammed
Keyword(s):  
Ion Exchange ◽  
Cation Exchange ◽  
Exchange Resin ◽  
Rapid Determination ◽  
Cation Exchange Resin ◽  
Water Soluble ◽  
Exchange Method ◽  
Strong Cation Exchange ◽  
Ion Exchange Method

Abstract An ion exchange method to determine the alkalinity of water-soluble tea ash containing high levels of manganese is described. A chromatographic column containing a strong cation exchange resin (20–50 mesh) in Na+ form, with a bed volume of 5 mL is used. The present ion exchange method is compared to pH titrations and also to the official AOAC methods (31.012, 31.015, 31.016). Results with the new method are accurate and precise.

Collaborative Study and Ion Exchange Method for the Determination of Methyldopa, Chlorothiazide, and Hydrochlorothiazide in Drug Mixtures

1971 ◽  
Vol 54 (3) ◽  
pp. 603-608
Author(s):  
Rod Chu
Keyword(s):  
Standard Deviation ◽  
Ion Exchange ◽  
Exchange Resin ◽  
Collaborative Study ◽  
Cation Exchange Resin ◽  
Resin Column ◽  
Exchange Method ◽  
Average Recovery ◽  
Ion Exchange Method

Abstract A method for the assay of methyldopa with either chlorothiazide or hydrochlorothiazide was studied collaboratively by 8 laboratories. The method involves the use of AG50-4X, 100-200 mesh H+ cation exchange resin to resolve the compounds. The thiazides pass freely through the resin column, while methyldopa is retained and subsequently eluted with 1N methanolic HCl. The components are quantitatively measured by spectrophotometry at 280 (methyldopa), 277 (chlorothiazide), and 270 nm (hydrochlorothiazide). For the methyldopa-chlorothiazide combination, the overall average recovery for methyldopa was 98.5% with a standard deviation of 2.50; and for the methyldopa-hydrochlorothiazide combination, 96.4% with a standard deviation of 2.30. The average recoveries for chlorothiazide and hydrochlorothiazide were 99.6 (standard deviation of 1.14) and 98.8% (standard deviation of 2.92), respectively. The method has been adopted as official first action for the determination of methyldopa and chlorothiazide in combination.

Methods for Some Alkaloids, Barbiturates, and Combinations. II. Collaborative Study of an Ion Exchange Method for Ephedrine Sulfate or Amphetamine Sulfate Alone or Combined with Barbiturates and Antihistamines

1970 ◽  
Vol 53 (4) ◽  
pp. 847-855
Author(s):  
Donald J Smith
Keyword(s):  
Positive Charge ◽  
Collaborative Study ◽  
Cation Exchange Resin ◽  
Uv Absorption ◽  
Sulfonated Polystyrene ◽  
Exchange Method ◽  
Anion Exchange Column ◽  
Pass Through ◽  
Amphetamine Sulfate ◽  
Colored Matter

Abstract Sympathomimetic amines and antihistamines are retained on a column of sulfonated polystyrene cation exchange resin by the positive charge located in the cationic center of the molecule. These basic compounds are eluted from the column with appropriate concentrations of HCl and determined by UV absorption. An anion exchange column assists in removing interfering colored matter. The barbiturates pass through both columns with the original solvent and are measured by UV absorption in a buffered solution. Recoveries for the 8 drug ingredients in 3 combinations range from 98.9±1.7% for ephedrine sulfate to 95.4±3.8% for amphetamine sulfate on 3 practice samples per collaborator, and 99.5±2.0% for ephedrine sulfate to 96.7 ±3.3% for amphetamine sulfate on 6 unknown samples per collaborator. The method is recommended for adoption as official first action.

Simplified radioimmunoassay of urinary drugs of abuse adsorbed on ion-exchange papers.

1977 ◽  
Vol 23 (10) ◽  
pp. 1921-1924 ◽  
Author(s):  
G J Alexander ◽  
S Machiz
Keyword(s):  
Ion Exchange ◽  
Cation Exchange ◽  
Drugs Of Abuse ◽  
Exchange Resin ◽  
Cation Exchange Resin ◽  
Screening Procedure ◽  
Central Laboratory ◽  
Small Disc

Abstract A convenient screening procedure for presence of drugs of abuse in urine consists of two steps: adsorption of the drugs from urine onto a paper loaded with cation-exchange resin and detection of the adsorbed drugs by direct radioimmunoassay. The first step can be performed in the field, the second in a central laboratory. Storage and transport to the laboratory are simplified because specimens adsorbed on dried paper are stable and can be sent in letter-mail. In the laboratory, a small disc of the ion-exchange paper is exposed to antigen and antibody, rinsed, and tested for radioactivity. Discs treated with positive urines are more radioactive than discs from negative urines.

Collaborative Study of a Zincon Ion Exchange Method for the Quantitative Determination of Zinc in Fertilizers

1971 ◽  
Vol 54 (4) ◽  
pp. 790-795
Author(s):  
C E Jones ◽  
L E Pracht
Keyword(s):  
Ion Exchange ◽  
Quantitative Determination ◽  
Atomic Absorption ◽  
Reference Data ◽  
Collaborative Study ◽  
Present Form ◽  
Exchange Method ◽  
Ion Exchange Method ◽  
Absorption Measurements

Abstract This collaborative study represents an attempt to validate the ion exchange zincon method for the quantitative determination of zinc in fertilizers. The values of the standard deviations Sd, Sr, and Sb and the results of the F- and t-tests are presented as an estimate of the precision, accuracy, and dependability. Atomic absorption measurements were also made and provided reference data for evaluation purposes. In its present form, the method falls short of expectations as an alternative wet approach to the dithizone method. It is recommended that the methods for determining zinc in fertilizers be studied further.

Ion Exchange Method for the Separation and Spectrophotometric Determination of Some Sympathomimetic Amines, Antihistamines, and Phenothiazines in Pharmaceuticals

1972 ◽  
Vol 55 (3) ◽  
pp. 596-609
Author(s):  
Donald J Smith
Keyword(s):  
Ion Exchange ◽  
Collaborative Study ◽  
Atropine Sulfate ◽  
Codeine Phosphate ◽  
Chlorpheniramine Maleate ◽  
Sulfonated Polystyrene ◽  
Exchange Method ◽  
Polystyrene Resin ◽  
Acidic Compounds

Abstract An ion exchange procedure has been developed for the separation and quantitative analysis of 32 drugs in various combinations: (a) promethazine HCl with codeine phosphate and potassium guaiacolsulfonate; (b) phenylephrine or phenylpropanolamine HCl with (1) dextromethorphan HBr, potassium guaiacolsulfonate, chlorpheniramine maleate, and/or pyrilamine maleate; (2) dextromethorphan HBr, glyceryl guaiacolate, chlorpheniramine maleate, and/or pyrilamine maleate; (3) dextromethorphan HBr and potassium guaiacolsulfonate; (4) dextromethorphan HBr and glyceryl guaiacolate; (5) dextromethorphan HBr and antihistamine; (6) antihistamine and glyceryl guaiacolsulfonate; (7) antihistamine and potassium guaiacolsulfonate; (8) dextromethorphan HBr; (9) glyceryl guaiacolate; (10) potassium guaiacolsulfonate; (c) promethazine HCl with (1) codeine phosphate or (2) phenylephrine HCl; (d) codeine phosphate and potassium guaiacolsulfonate; (e) chlorpromazine HCl, promazine HCl, or promethazine HCl; (f) phenylephrine HCl; (g) codeine phosphate; (h) perphenazine HCl alone or with amitriptyline HCl; (i) ephedrine sulfate with phenobarbital, theophylline, and glyceryl guaiacolate; (j) l-epinephrine bitartrate alone or with antihistamine; (k) procaine HCl, procainamide HCl, procaine isobutyrate, or tetracaine HCl; (l) quinine sulfate with aminophylline; (m) dextromethorphan HBr with (1) terpin hydrate; (2) antihistamine; (3) potassium guaiacolsulfonate; (4) glyceryl guaiacolate; and (n) atropine sulfate or honiatropine methylbromide. The nitrogenous bases are separated from the excipients by retention on a sulfonated polystyrene resin column. These basic compounds are eluted from the column with the appropriate concentration of HCl and are determined by UV; absorption. The organic acids are retained on the quaternary ammonium anion resin. The acidic compounds are eluted from the columns with the appropriate concentration of HCl and determined by I’V absorption. Average recoveries ranged from 98.6 to 101% in the absence of excipients and 95.8 to 102% with excipients present. The method is recommended for collaborative study.

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