A: Asolution (1in 50)responds to the test for Calcium á191ñ.

B: Dissolve a quantity of it in water to obtain a test solution containing 10mg per mL,heating in a water bath at 60if necessary.Similarly,prepare a Standard solution of USP Potassium Gluconate RSin water containing 10mg per mL.Apply separate 5-µLportions of the test solution and the Standard solution to a suitable thin-layer chromatographic plate (see Chromatography á621ñ)coated with a 0.25-mm layer of chromatographic silica gel,and allow to dry.Develop the chromatogram in a solvent system consisting of a mixture of alcohol,water,ammonium hydroxide,and ethyl acetate (50:30:10:10)until the solvent front has moved about three-fourths of the length of the plate.Remove the plate from the chamber,and dry at 110for 20minutes.Allow to cool,spray with a spray reagent prepared as follows.Dissolve 2.5g of ammonium molybdate in about 50mLof 2Nsulfuric acid in a 100-mLvolumetric flask,add 1.0g of ceric sulfate,swirl to dissolve,dilute with 2Nsulfuric acid to volume,and mix.Heat the plate at 110for about 10minutes:the principal spot obtained from the test solution corresponds in color,size,and RFvalue to that obtained from the Standard solution.

Mobile phase— Prepare a solution in water that is 0.0017Mwith respect to sodium bicarbonate and 0.0018Mwith respect to sodium carbonate.Make adjustments if necessary (see System Suitabilityunder Chromatography á621ñ).

Suppressor regeneration solution— Prepare a solution in water that is 0.0125Mwith respect to sulfuric acid.

Dilute hydrochloric acid— Dilute 1mLof hydrochloric acid with water to obtain 1200mLof solution.

Standard preparation— Dissolve an accurately weighed quantity of sodium oxalate in Dilute hydrochloric acidto obtain a solution having a known concentration of about 1.5µg per mL.

Test preparation— Transfer 500mg of Calcium Gluconate to a 25-mLvolumetric flask,dissolve in Dilute hydrochloric acid,sonicating if necessary,dilute with Dilute hydrochloric acidto volume,and mix.

Chromatographic system (seeChromatography á621ñ)— The ion chromatograph is equipped with a conductance detector,a 4-mm ×5-cm guard column that contains 15-µm packing L12,a 4-mm ×25-cm analytical column that contains 15-µm packing L12,and a micromembrane anion suppressor column,connected in series with the guard and analytical columns.The anion suppressor column is equipped with a micromembrane that separates the Mobile phasefrom the Suppressor regeneration solutionflowing countercurrent to the Mobile phaseat a rate of about 7mLper minute.Condition the system for about 15minutes with Mobile phase,using a flow rate of about 2mLper minute.Chromatograph the Standard preparation,and record the peak responses as directed for Procedure:the column efficiency determined from the analyte peak is not less than 2500theoretical plates;the tailing factor is not more than 1.2;and the relative standard deviation for replicate injections is not more than 2.0%.

Procedure— Separately inject equal volumes (about 50µL)of the Standard preparationand the Test preparationinto the chromatograph,record the chromatograms,and measure the responses for the major peaks.Calculate the percentage of oxalate in the specimen taken by the formula: in which 88.03and 134.00are the molecular weights of oxalate and sodium oxalate,respectively;Cis the concentration,in µg per mL,of sodium oxalate in the Standard preparation;and rUand rSare the oxalate peak responses obtained from the Test preparationand the Standard preparation,respectively:not more than 0.01%is found.[NOTE—Calcium Gluconate labeled as not intended for use in the preparation of injectable dosage forms is exempt from this requirement.]

Standard preparations— Separately transfer 2.0,4.0,and 10.0mLof Standard Iron Solution,prepared as directed under Iron á241ñ,to 100-mLvolumetric flasks,each containing 1.37g of calcium chloride,previously tested and shown to contain less than 5ppm of iron,dilute with 2Nhydrochloric acid to volume,and mix.These solutions contain,respectively,0.2,0.4,and 1.0µg of iron per mL.

Test preparation— Transfer 1.0g of Calcium Gluconate to a 100-mLquartz glass flask,add 20mLof 12Nnitric acid,and heat to boiling until fumes are evolved.Add 0.5mLof 30%hydrogen peroxide,and heat again until fumes are evolved.Repeat this process until the volume is reduced to about 5mL.Cool,add 1.0mLof perchloric acid,and heat to boiling.[Caution—Do not heat above 190or evaporate to dryness because of danger of explosion. ]Transfer this solution to a 25-mLvolumetric flask,dilute with 2Nhydrochloric acid to volume,and mix.

Blank solution— Using 0.34g of calcium chloride,previously tested and shown to contain less than 5ppm of iron,instead of Calcium Gluconate,prepare as directed under Test preparation.

Procedure— Concomitantly determine the absorbances of the Standard preparationsand the Test preparationat the iron emission line of 248.3nm,with a suitable atomic absorption spectrophotometer (see Spectrophotometry and Light-Scattering á851ñ)equipped with an iron hollow-cathode lamp and an air–acetylene flame,using the Blank solutionas the blank and making deuterium background corrections.Plot the absorbances of the Standard preparationsversus concentration,in µg per mL,of iron,and draw the straight line best fitting the three plotted points.From the graph so obtained,determine the concentration,C,in µg per mL,of iron in the Test preparation.Calculate the concentration of iron,in ppm,in the specimen taken by the formula: The limit is 5ppm.[NOTE—Calcium Gluconate labeled as not intended for use in the preparation of injectable dosage forms is exempt from this requirement.]