Hawthorn Leaf with Flower
»Hawthorn Leaf with Flower consists of the dried tips of the flower-bearing branches up to 7cm in length of Crataegus monogynaJacq.emend Lindman.or Crataegus laevigata(Poir.)DC.,also known as Crataegus oxycanthaLinné(Fam.Rosaceae).It contains not less than 0.6percent of C-glycosylated flavones,expressed as vitexin (C21H20O10),and not less than 0.45%of O-glycosylated flavones,expressed as hyperoside (C21H20O12),calculated on the dried basis.
Packaging and storage— Store in a well-closed container,protected from light.
Labeling— The label states the Latin binomial and,following the official name,the parts of the plant contained in the article.The label also states the following cautionary statement:“Cardiotonic Herb.Not recommended for use without the advice of a health care practitioner.”
Botanic characteristics—
Macroscopic— It shows fragments of dark brown,lignified branches,usually from 1mm to not more than 2.5mm in diameter,bearing alternate petiolate leaves,with small,often deciduous styles,and bearing numerous white flowers in a corymbose arrangement.The leaves are more or less strongly lobate,and their margins are slightly or very slightly serrate.C.laevigatahas pinnatilobate to pinnatifid leaves,divided into three,five,or seven obtuse lobes;the leaves of C.monogynaare almost pinnatisect with three to five acute lobes.The adaxial surface of the leaf is dark green to brownish green;the abaxial surface is lighter,greyish green,and shows a dense network of clearly visible veinlets and slightly prominent principal veins.The leaves of C.laevigataand C.monogynaare glabrous or bear isolated trichomes.The flowers consist of a brownish-green tubulous calyx,ending in its upper part in five triangular segments,and of five yellowish white to brownish free petals,rounded to widely oval,shortly unguiculate,and with numerous stamens.The ovary,fused to the tubulous calyx,bears one to three long styles and consists of the same number of carpels,each containing one fertile ovule.C.monogynahas one style and one carpel,and C.laevigatahas two or three styles and carpels.
Microscopic— When reduced to a fine powder and examined under a microscope,the yellowish-green powder shows the following characteristics:unicellular covering trichomes,usually with thick walls and wide lumens,almost straight to somewhat curved,pitted at the base;fragments of leaf epidermis with cells that have sinuous to polygonal walls and large anomocytic stomata surrounded by four to seven subsidiary cells;clusters of parenchymatous cells containing calcium oxalate crystals,usually from 10to 20µm in length;fragments of petals showing rounded polygonal epidermal cells,strongly papillose,with thick walls,the cuticle of which clearly shows wavy striations;fragments of anthers whose endothecium has an arched and regularly thickened margin;fragments of stems containing collenchymatous cells,vessels and fibers of lignified sclerenchyma,with narrow lumens;numerous rounded to elliptical triangular pollen grains up to 45µm in diameter,with free exines and three germinal pores.
Identification—
A: Thin-Layer Chromatographic Identification Test á201ñ
Adsorbent: 0.50-mm layer of chromatographic silica gel mixture.
Test solution: 0.1g per mL,prepared as follows.Weigh and finely powder about 10g of Hawthorn Leaf with Flower.Transfer 1g of the powder to a suitable flask,and add 10mLof methanol.Heat the flask on a water bath maintained at 65for 5minutes,cool,filter,and use the filtrate.
Standard solution: 0.1mg each of chlorogenic acid,rutin,USP Hyperoside RS,and USP Vitexin RSper mL,in methanol.[NOTE—Reserve a portion of this solution for use in Identificationtest B.]
Developing solvent system: a mixture of ethyl acetate,water,glacial acetic acid,and formic acid (10:2.6:1.1:1.1).
Procedure— Proceed as directed in the chapter,except to dry the plate at 105,and spray the plate while still hot with 10mLof a solution of 2-aminoethyl diphenylborinate in methanol (1in 100)and then with 10mLof a solution of polyethylene glycol 4000in methanol (5in 100).Allow the plate to air-dry for about 30minutes,and examine the plate under long-wavelength UVlight:the chromatogram of the Standard solutionexhibits an intense orange zone (at RFvalue of about 0.3)due to rutin;a light blue fluorescent zone (at RFvalue of about 0.4)due to chlorogenic acid;a yellowish-orange zone (at RFvalue of about 0.55)due to hyperoside;and a yellowish green zone (at RFvalue of about 0.65)due to vitexin.The chromatogram of the Test solution,in addition to the zones due to rutin,chlorogenic acid,hyperoside,and vitexin,exhibits a yellowish-green zone (at RFvalue of about 0.35)due to vitexin-2-rhamnoside;a light blue fluorescent zone (at RFvalue of about 0.6)due to spiraeoside;and a light blue fluorescent zone near the solvent front (at RFvalue of about 0.9)due to caffeic acid.The chromatogram of the Test solutionalso exhibits other zones with weaker fluorescence.
B: Solution A—Prepare a filtered and degassed mixture of tetrahydrofuran,methanol,and acetonitrile,(92.4:4.2:3.4).
Solution B— Prepare a filtered and degassed solution of 0.5%phosphoric acid in water.
Mobile phase— Use variable mixtures of Solution Aand Solution Bas directed for Chromatographic system.Make adjustments if necessary (see System Suitabilityunder Chromatography á621ñ).
Standard solution— Use the Standard solutionreserved from Identificationtest A.
Test solution— Transfer about 3g of finely powdered Hawthorn Leaf with Flower to a 100-mLround-bottom flask,add 60mLof a mixture of methanol and water (80:20),and heat on a hot water bath under reflux for 1hour.Cool,filter,and collect the filtrate in a separate flask.Transfer the residue from the filter back to the flask,add 40mLof a mixture of methanol and water (80:20),and heat on a hot water bath under reflux for 10minutes.Cool,filter,and combine the filtrate with the filtrate obtained from the first extraction.Evaporate the solvent from the combined filtrates under vacuum to a volume of about 20mL.Dilute the resulting solution with a mixture of methanol and water (80:20)to 25.0mL.Filter 5.0mLof this solution through a freshly conditioned solid-phase extraction column containing 360mg of packing L1,collect the filtrate in a 10-mLvolumetric flask,dilute with a mixture of methanol and water (80:20)to volume,and mix.
Chromatographic system (see Chromatography á621ñ)— The liquid chromatograph is equipped with a 336-nm detector and a 4.0-mm ×10-cm column that contains 5-µm packing L1.The flow rate is about 1.0mLper minute.The column temperature is maintained at 25.The chromatograph is programmed as follows.
Time
(minutes)
Solution A
(%)
Solution B
(%)
Elution
0–12 12 88 isocratic
12–25 12®18 88®82 linear gradient
25–30 18 82 isocratic
Chromatograph the Standard solution,and record the peak responses as directed for Procedure:the relative retention times are about 0.26for chlorogenic acid,1.0for vitexin,1.16for rutin,and 1.4for hyperoside;and the relative standard deviation for replicate injections is not more than 2.0%.
Procedure— Separately inject equal volumes (about 5µL)of the Standard solutionand the Test solutioninto the chromatograph,record the chromatograms,and measure the retention times for the major peaks:the relative retention times in the chromatogram of the Test solutionare about 1.53for acetyl vitexin-2¢¢-O-rhamnoside,1.0for vitexin,0.73for isovitexin,and 0.67for vitexin-2¢¢-O-rhamnoside;and the retention times of the peaks for chlorogenic acid,vitexin,rutin,and hyperoside in the chromatogram of the Test solutioncorrespond to those in the chromatogram of the Standard solution.
Microbial enumeration á2021ñ The total bacterial count does not exceed 104cfu per g,the total combined molds and yeasts count does not exceed 100cfu per g,and it meets the requirements of the tests for absence of Salmonellaspecies,Escherichia coli,and Staphylococcus aureus.
Loss on drying á731ñ Dry 1.0g of finely powdered Hawthorn Leaf with Flower at 105for 2hours:it loses not more than 10.0%of its weight.
Foreign organic matter á561ñ: not more than 8.0%of lignified matter.
Total ash á561ñ: not more than 9.0%.
Pesticide residues á561ñ :meets the requirements.
Content of C-glycosylated flavones
Solution A— Prepare a 0.5%solution of phosphoric acid in water.
Solution B— Prepare a mixture of tetrahydrofuran,isopropyl alcohol,and acetonitrile (10:8:3).
Mobile phase— Prepare a filtered and degassed mixture of Solution Aand Solution B(88:12).Make adjustments if necessary (see System Suitabilityunder Chromatography á621ñ).
Standard solution— Dissolve an accurately weighed quantity of USP Vitexin RSin Solution B,with heating if necessary,to obtain a solution having a known concentration of about 0.3mg per mL.
Test solution— Weigh and finely powder about 100g of Hawthorn Leaf with Flower.Transfer about 4g of the powder,accurately weighed,to a continuous-extraction apparatus fitted with a flask containing about 80mLof methanol,and extract the test specimen for 5hours.Cool,remove the flask,and evaporate the solvent from the extract under vacuum to about 40mL.Transfer this solution to a 50-mLvolumetric flask,dilute with methanol to volume,and mix.Transfer 10.0mLof the solution to a suitable flask fitted with a reflux condenser,add 4mLof 25%hydrochloric acid,and heat the flask under reflux on a water bath at 65for 90minutes.Cool,transfer the contents of the flask to a 50-mLvolumetric flask,dilute with methanol to volume,and mix.
Chromatographic system (see Chromatography á621ñ)— The liquid chromatograph is equipped with a 336-nm detector and a 4-mm ×10-cm column that contains packing L1.The flow rate is about 1.0mLper minute.Chromatograph the Standard solution,and record the peak responses as directed for Procedure:the column efficiency is not less than 3000theoretical plates;the tailing factor is between 0.8and 2;and the relative standard deviation for replicate injections is not more than 2.0%.
Procedure— Separately inject equal volumes (about 5µL)of the Standard solutionand the Test solutioninto the chromatograph,record the chromatograms,and measure the areas of the major peaks.Calculate the percentage of C-glycosylated flavones,expressed as vitexin (C21H20O10),in the portion of Hawthorn Leaf with Flower taken by the formula:
25(C/W)(SrU/rS),
in which Cis the concentration,in mg per mL,of USP Vitexin RSin the Standard solution;Wis the weight,in g,of Hawthorn Leaf with Flower taken to prepare the Test solution;SrUis the sum of the peak areas of vitexin and isovitexin,with a relative retention time of about 1.0and 0.85,respectively,in the chromatogram of the Test solution;and rSis the vitexin peak area obtained from the Standard solution.
Content of O-glycosylated flavones
Mobile phase— Prepare a mixture of methanol,water,and phosphoric acid (100:100:1).Make adjustments if necessary (see System Suitabilityunder Chromatography á621ñ).
Standard solution— Dissolve an accurately weighed quantity of USP Quercetin RSin methanol,and dilute quantitatively,and stepwise if necessary,to obtain a solution having a known concentration of about 0.05mg per mL.
Test solution— Proceed as directed for Test solutionunder Content of C-glycosylated flavones,except to use 1mLof 25%hydrochloric acid for 60minutes instead of 4mLof 25%hydrochloric acid for 90minutes.
Chromatographic system (see Chromatography á621ñ)— The liquid chromatograph is equipped with a 370-nm detector and a 4.6-mm ×25-cm column that contains packing L1.The flow rate is about 1.5mLper minute.Chromatograph the Standard solution,and record the peak responses as directed for Procedure:the column efficiency is not less than 3000theoretical plates;the tailing factor is between 0.8and 2;and the relative standard deviation for replicate injections is not more than 2.0%.
Procedure— Separately inject equal volumes (about 10µL)of the Standard solutionand the Test solutioninto the chromatograph,record the chromatograms,and measure the areas of the major peaks.Calculate the percentage of O-glycosylated flavones,expressed as hyperoside (C21H20O12),in the portion of Hawthorn Leaf with Flower taken by the formula:
(464.38/302.24)25(C/W)(rU/rS),
in which 464.38and 302.24are the molecular weights of hyperoside and quercetin,respectively;Cis the concentration,in mg per mL,of USP Quercetin RSin the Standard solution;and rUand rSare the quercetin peak areas in the chromatograms obtained from the Test solutionand Standard solution,respectively.
Auxiliary Information— Staff Liaison:Gabriel I.Giancaspro,Ph.D.,Senior Scientist and Latin American Specialist
Expert Committee:(DSB)Dietary Supplements:Botanicals
USP28–NF23Page 2105
Phone Number:1-301-816-8343