SK9892003A3 - An improved process for preparing pure ondansetron hydrochloride dihydrate - Google Patents
An improved process for preparing pure ondansetron hydrochloride dihydrate Download PDFInfo
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Abstract
Description
Oblasť techniky spôsobu prípravy sa ďalej týka Tento vynález saThe present invention relates to a method of preparation
Tento vynález sa týka zdokonaleného dimetylamino-metylkarbazolónu. Tento vynález zdokonaleného spôsobu prípravy bázy ondansetrónu tiež týka zdokonaleného spôsobu rekryštalizácie dihydrátu hydrochloridu ondansetrónu za vzniku čistého dihydrátu hydrochloridu ondansetrónu.The present invention relates to an improved dimethylaminomethylcarbazolone. This invention also provides an improved process for preparing ondansetron base also an improved process for recrystallizing ondansetron hydrochloride dihydrate to produce pure ondansetron hydrochloride dihydrate.
Doterajší stav technikyBACKGROUND OF THE INVENTION
Ondansetrón známy tiež ako 1,2,3,9-tetrahydro-9-metyl-3-[(2metyl-lH-imidazol-l-yl)metyl]-4H-karbazol-4-on je účinný a vysoko selektívny antagonista serotoninu (5-HT3, 5-hydroxytryptamín receptor 3) a má nasledujúci vzorec:Also known as 1,2,3,9-tetrahydro-9-methyl-3 - [(2-methyl-1H-imidazol-1-yl) methyl] -4H-carbazol-4-one, Ondansetron is a potent and highly selective serotonin antagonist ( 5-HT 3, 5-hydroxytryptamine receptor 3) and has the following formula:
Ondanset-rón je bežne k dispozícii ako antiemetikum, zvlášť na chemoterapiu rakoviny a pre niektoré ďalšie použitia ako antidepresívum, prostriedok proti migréne a antipsychotikum. Všeobecne sa používa na zmiernenie kognitívnych porúch, ako je Alzheimerova choroba, pri liečbe rinitídy, psychiatrických porúch, nespavosti a pri kontrole závislosti na narkotikách.Ondansethron is commonly available as an anti-emetic, especially for cancer chemotherapy and for some other uses as an antidepressant, anti-migraine agent and antipsychotic. It is generally used to alleviate cognitive disorders such as Alzheimer's disease, in the treatment of rhinitis, psychiatric disorders, insomnia, and in the control of addiction to narcotics.
Patentový dokument US 4 695 578 priradený Glaxo Group Limited opisuje spôsob prípravy ondansetrónu a jeho použitie. Ondansetrón pripravený podlá tohoto spôsobu však obsahuje nečistoty a vedlajšie produkty ako napr. 1,2,3,9-tetrahydro-9-metyl-3-metylén-4H-karbazol-4on.U.S. Pat. No. 4,695,578 assigned to Glaxo Group Limited describes a process for preparing ondansetron and its use. However, Ondansetron prepared according to this process contains impurities and by-products such as e.g. 1,2,3,9-tetrahydro-9-methyl-3-methylene-4H-carbazol-4-one.
Preto existuje stále potreba zdokonalenia spôsobu prípravy ondansetrónu s vysokou čistotou, ktorá by vyhovovala štandardom pre klinické využitie.Accordingly, there is still a need for an improved process for preparing ondansetron of high purity to meet standards for clinical use.
farmaceutický zu je vojsť čistoty (t.j.pharmaceutical zu is to enter purity (i.e.
Podstata vynálezuSUMMARY OF THE INVENTION
Známe spôsoby prípravy ondansetrónu nedosahujú stanovenú čistotu a farbu. Podstatou tohoto vynále v ústrety požiadavkám oboru, pokiaľ sa týka vysokej najmenej 99,0%) a zlepšenia farby.The known processes for the preparation of ondansetron do not reach the stated purity and color. The essence of the present invention meets the requirements of the art (at least 99.0% high) and color improvement.
Ďalším predmetom tohoto vynálezu je príprava čistého dihydrátu hydrochloridu ondansetrónu dôkladne zbaveného všetkých nečistôt a vedľajších produktov ako napr. 1,2,3,9-tetrahydro-9-metyl-3-metylén4H-karbazol-4-onu (t.j. exometylénových vedľajších produktov.Another object of the present invention is to prepare pure ondansetron hydrochloride dihydrate thoroughly free of all impurities and by-products such as e.g. 1,2,3,9-tetrahydro-9-methyl-3-methylene-4H-carbazol-4-one (i.e., exomethylene by-products).
Ďalším predmetom tohoto vynálezu je príprava dihydrátu hydrochloridu ondansetrónu, ktorý má čistotu aspoň 99,0%. Výhodnejšie má dihydrát hydrochloridu ondansetrónu čistotu najmenej 99, 5 %.Najvýhodnejšie má dihydrát hydrochloridu ondansetrónu čistotu najmenej 99,9% .It is a further object of the present invention to provide ondansetron hydrochloride dihydrate having a purity of at least 99.0%. More preferably, the ondansetron hydrochloride dihydrate has a purity of at least 99.5%. Most preferably, the ondansetron hydrochloride dihydrate has a purity of at least 99.9%.
Ďalším predmetom tohoto vynálezu je poskytnúť spôsob prípravy dimetylamino-metyl-karbazónu. Tento spôsob zahrnuje tieto kroky:It is another object of the present invention to provide a process for the preparation of dimethylamino-methyl-carbazone. This method includes the following steps:
a)a)
b)b)
c)c)
d)d)
e)e)
a)a)
b)b)
c)c)
d)d)
e)e)
a)a)
b) prípravu roztoku metyl-karbazolónu;b) preparing a methylcarbazolone solution;
zahrievanie roztoku v prítomnosti hydrochloridu dimetylamínu a paraformaldehydu;heating the solution in the presence of dimethylamine hydrochloride and paraformaldehyde;
alkalikáciu roztoku za tvorby precipitátu;alkalizing the solution to form a precipitate;
separáciu precipitátu z roztoku za vzniku dimetylamino-metylkarboazolónu a sušenie dimetylamínu-metyl-karbazolónu.separating the precipitate from solution to give dimethylamino-methylcarboazolone and drying dimethylamine-methylcarbazolone.
Ďalším predmetom tohoto vynálezu je spôsob prípravy bázy ondansetrónu. Tento spôsob zahrnuje tieto kroky:Another object of the present invention is a process for preparing ondansetron base. This method includes the following steps:
prípravu roztoku metyl-imidazolu a dimetylamino-metylkarbazolonu; zahrievanie roztoku;preparing a solution of methyl-imidazole and dimethylamino-methylcarbazolone; heating the solution;
odstránenie precipitátu obsahujúceho bázu ondansetrónu; premytie precipitátu a sušenie precipitátu za vzniku čistej bázy ondansetrónu.removing the precipitate containing ondansetron base; washing the precipitate and drying the precipitate to form a pure ondansetron base.
Ďalším predmetom tohoto vynálezu je spôsob prípravy dihydrátu hydrochloridu ondansetrónu. Tento spôsob zahrnuje kroky:Another object of the present invention is a process for the preparation of ondansetron hydrochloride dihydrate. This method includes the steps of:
prípravu roztoku bázy ondansetrónu okyslenie roztoku chlorovodíkom za tvorby precipitátu premytie precipitátu a kryštalizáciu dihydrátu hydrochloridu ondansetrónupreparing a solution of ondansetron base acidifying the solution with hydrogen chloride to form a precipitate, washing the precipitate and crystallizing ondansetron hydrochloride dihydrate
Podrobný opis vynálezuDETAILED DESCRIPTION OF THE INVENTION
C)C)
d)d)
V tomto dokumente používaný termín „exo-metylénový vedľajší produkt označuje 1,2,3,9-tetrahydro-9-metyl-3-metylén-4H-karbazol-4on. Ten predstavuje jednu z hlavných nečistôt pri príprave ondansetrónu. Ďalšou nečistotou pri príprave ondansetrónu je dimerný exometylénový vedlajší produkt.As used herein, the term "exo-methylene by-product" refers to 1,2,3,9-tetrahydro-9-methyl-3-methylene-4H-carbazol-4one. This is one of the major impurities in the preparation of ondansetron. Another impurity in the preparation of ondansetron is the dimeric exomethylene by-product.
Pokiaľ nie je uvedené inak „% označuje % hmotn.Unless otherwise indicated, "% refers to% wt.
V tomto dokumente používaný termín „čistý ondansetrón označuje ondansetrón dôkladne zbavený exo-metylénových vedľajších produktov a majúci čistotu aspoň okolo 99,0%.As used herein, the term "pure ondansetron" refers to ondansetron thoroughly devoid of exo-methylene by-products and having a purity of at least about 99.0%.
V tomto dokumente používaný termín „chlorovodík sa vzťahuje ako k plynnému chlorovodíka tak k roztoku plynného chlórovodíka vo vode.As used herein, the term "hydrogen chloride" refers to both hydrogen chloride gas and a solution of hydrogen chloride gas in water.
V tomto dokumente používaný termín „ekvivalent” označuje molárny ekvivalent.As used herein, the term "equivalent" refers to the molar equivalent.
V tomto dokumente používaný termín „vákuová destilácia” označuje separáciu pevných látok z kvapalín prechodom zmesi cez vákuový filter.As used herein, the term "vacuum distillation" refers to the separation of solids from liquids by passing the mixture through a vacuum filter.
V tomto dokumente používaný termín „reflux označuje chemický proces, keď sa časť toku produktu môže vrátiť do procesu tak, aby sa zvýšil stupeň konverzie, ako napr. Pri destilácii alebo extrakcii kvapalina-kvapalina.As used herein, the term "reflux" refers to a chemical process where part of the product flow can be returned to the process to increase the degree of conversion, such as e.g. For distillation or liquid-liquid extraction.
V tomto dokumente používaný termín „filtračný koláč označuje koncentrovaný pevný alebo polopevný materiál, ktorý sa oddelil od kvapaliny a zostáva na filtri po tlakovej filtrácii.As used herein, the term "filter cake" refers to a concentrated solid or semi-solid material that has separated from the liquid and remains on the filter after pressure filtration.
Tento vynález je zdokonaleným spôsobom prípravy čistého dihydrátu hydrochloridu ondanstrónu s čistotou najmenej 99,0%. Výhodnejšie má dihydrát hydrochloridu ondansetrónu čistotu najmenej 99,5%.The present invention is an improved process for preparing pure ondanstrone hydrochloride dihydrate having a purity of at least 99.0%. More preferably, ondansetron hydrochloride dihydrate has a purity of at least 99.5%.
Najvýhodnejšie má dihydrát hydrochloridu ondansetrónu čistotu najmenejMost preferably, ondansetron hydrochloride dihydrate has a purity of at least
99,9% .99.9%.
Tento vynález poskytuje zdokonalený spôsob prípravy dimetylaminometyl-karbazolónu. Tento vynález ďalej poskytuje zdokonalený spôsob prípravy bázy ondansetrónu. Tento vynález ďalej poskytuje zdokonalený spôsob prípravy čistého dihydrátu hydrochloridu ondansetrónu.The present invention provides an improved process for the preparation of dimethylaminomethyl-carbazolone. The present invention further provides an improved process for preparing ondansetron base. The present invention further provides an improved process for preparing pure ondansetron hydrochloride dihydrate.
Príprava dimetylamino-metyl-karbazolónuPreparation of dimethylamino-methyl-carbazolone
Tento vynález poskytuje spôsob prípravy dietyl-amino-metylkarbazolonu zahrnujúceho tieto kroky:The present invention provides a process for the preparation of diethylamino-methylcarbazolone comprising the steps of:
a) prípravu roztoku metyl-karbazolónu s vzorcoma) preparing a solution of methyl carbazolone of the formula
d) separáciu precipitátu z roztoku za vzniku dimetylamino-metylkarbazolónu ad) separating the precipitate from the solution to form dimethylaminomethylcarbazolone; and
e) sušenie dimetylamino-metyl-karbazolónu.e) drying the dimethylamino-methyl-carbazolone.
V priebehu kroku zahrievania sa roztok zahrieva v prítomnosti hydrochloridu dimetylamínu a paraformaldehydu v organickom rozpúšťadle. Týmto rozpúšťadlom je výhodne kyselina octová.During the heating step, the solution is heated in the presence of dimethylamine hydrochloride and paraformaldehyde in an organic solvent. The solvent is preferably acetic acid.
Výhodne sa refluxuje jeden ekvivalent metyl-karbazolónu s asi 1,1 až 1,5 ekvivalentmi hydrochloridu dimetylamínu a paraformaldehydu. Najvýhodnejšie sa refluxuje jeden ekvivalent metyl-karbazolónu s asi 1,2 ekvivalentu hydrochloridu dimetylamínu a paraformaldehydu. Počas kroku zahrievania sa môže pri refluxe nahradiť paraformaldehyd formaldehydom.Preferably, one equivalent of methyl carbazolone is refluxed with about 1.1 to 1.5 equivalents of dimethylamine hydrochloride and paraformaldehyde. Most preferably, one equivalent of methyl carbazolone is refluxed with about 1.2 equivalents of dimethylamine hydrochloride and paraformaldehyde. During the heating step, paraformaldehyde can be replaced by formaldehyde at reflux.
Výhodne sa refluxuje jeden ekvivalent metyl-karbazolónu s asi 4 až 16 objemovými dielmi kyseliny octovej. Najvýhodnejšie sa refluxuje jeden ekvivalent metyl-karbazolónu s asi 4 objemovými dielmi kyseliny octovej.Preferably, one equivalent of methyl carbazolone is refluxed with about 4 to 16 parts by volume of acetic acid. Most preferably, one equivalent of methyl carbazolone is refluxed with about 4 volumes of acetic acid.
Krok zahrievania sa uskutočňuje výhodne pri teplote asi 70 °C až 100°C. Najvýhodnejšie sa krok zahrievania uskutočňuje pri teplote asi 80 až 90 ’C.The heating step is preferably carried out at a temperature of about 70 ° C to 100 ° C. Most preferably, the heating step is performed at a temperature of about 80 to 90 ° C.
destilácie alebo extakcie. Krok zahrievania uskutočňovaný bez použitia vákuovej destilácie alebo extrakcie dôsledne produkuje čistejší dimetylamino-metyl-karbazolón.distillation or extraction. The heating step carried out without the use of vacuum distillation or extraction consistently produces a purer dimethylamino-methyl-carbazolone.
Tento vynález tiež poskytuje spôsob prípravy čistého dimetylaminometyl-karbazolónu zahrnujúci ďalej rozpustenie filtračného koláča v acetóne a spracovanie aktívnym uhlím a chlorovodíkom.The present invention also provides a process for preparing pure dimethylaminomethyl-carbazolone further comprising dissolving the filter cake in acetone and treating with activated carbon and hydrogen chloride.
Voda sa pridáva výhodne v priebeh u kroku aktualizácie po dodaní základného bázického roztoku približne 45% hydroxidu sodného (NaOH) do rozmedzí pH od približne 13 do približne 14. Výhodne sa krok alkalizácie uskutočňuje v prítomnosti celitu (10%), precipitát sa filtruje a suší sa.The water is preferably added during the update step after the addition of a basic basic solution of about 45% sodium hydroxide (NaOH) to a pH of about 13 to about 14. Preferably, the alkalization step is carried out in the presence of celite (10%). is.
Suchý koláč sa výhodne rozpúšťa v acetóne. Rozpustený koláč sa spracováva aktívnym uhlím a chlórovodíkom, aby sa vyzrážal dimetylamino-métyl-karbazolón.The dry cake is preferably dissolved in acetone. The dissolved cake is treated with activated carbon and hydrogen chloride to precipitate dimethylamino-methyl-carbazolone.
Prípravy bázy ondansetrónuPreparation of ondansetron base
a)a)
b)b)
c)c)
Tento vynález poskytuje spôsob syntézy bázy ondansetrónu zahrnujúci tieto kroky:The present invention provides a process for synthesizing ondansetron base comprising the steps of:
prípravu roztoku metyl-imidazolu a dimetylaminometylkarbazolónu s vzorcompreparing a solution of methyl imidazole and dimethylaminomethylcarbazolone of the formula
OABOUT
N(Me)2.HCl (kdeN (Me) 2. HCl (where
Cm,alkyl) zahrievanie roztoku odstránenie precipitátu obsahujúceho bázu ondansetrónu z roztokuRemoving the precipitate containing ondansetron base from the solution
d) premytie precipitátu e) sušenie precipitátu za vzniku čistej bázy ondansetrónu.d) washing the precipitate e ) drying the precipitate to form pure ondansetron base.
Tento vynález ďalej poskytuje spôsob syntézy dôsledne čistej bázy ondansetrónu tieto ďalšie kroky:rekryštalizáciu v prítomnosti aktívneho uhlia a metanolu.The present invention further provides a process for the synthesis of consistently pure ondansetron base by the following additional steps: recrystallization in the presence of activated carbon and methanol.
V priebehu kroku prípravy roztoku metyl-imidazolu a dimetylaminometyl-karbazolonu sa výhodne pridáva k jednému ekvivalentu dimetylamino-mety1-karbazolónu asi 4 až 6 ekvivalentov metylimidazolu a najvýhodnejšie sa pridáva k jednému ekvivalentu diemtylamino-metylkarbazolónu asi 5 ekvivalentov metylimidazolu.During the step of preparing a solution of methyl-imidazole and dimethylaminomethyl-carbazolone, preferably about 4 to 6 equivalents of methylimidazole is added to one equivalent of dimethylamino-methyl-carbazolone, and most preferably about 5 equivalents of methylimidazole is added to one equivalent.
Výhodne sa tento krok uskutočňuje v prítomnosti 10% celitu.Preferably, this step is carried out in the presence of 10% celite.
Výhodne tento vynález poskytuje spôsob prípravy bázy ondansetrónu zahrnujúci (po kroku e) ďalší krok rekryštalizácie bázy ondansetrónu v prítomnosti aktívneho uhlia a metanolu.Preferably, the present invention provides a process for preparing ondansetron base comprising (after step e) another step of recrystallizing ondansetron base in the presence of activated carbon and methanol.
Kryštalizácia k príprave čistého dihydrátu hydrochloridu ondansetrónuCrystallization to prepare pure ondansetron hydrochloride dihydrate
Tento vynález poskytuje zdokonalený spôsob prípravy čistého dihydrátu hydrochloridu ondansetrónu. Príprava zahrnuje zvlášť kryštalizáciu dihydrátu hydrochloridu ondansetrónu zo zmesi bázy ondansetrónu, vody a aktívneho uhlia bez prítomnosti organického rozpúšťadla.The present invention provides an improved process for preparing pure ondansetron hydrochloride dihydrate. In particular, the preparation comprises crystallizing ondansetron hydrochloride dihydrate from a mixture of ondansetron base, water and activated carbon in the absence of an organic solvent.
Proces kryštalizácie pódia tohoto vynálezu velmi zvyšuje čistotu dihydrátu hydrochloridu ondansetrónu a dramaticky znižuje obsah nečistôt predstavovaných exometylénovými vedlajšimi produktmi. Výhodne sa krok kryštalizácie uskutočňje 1-3 krát. Najvýhodnejšie sa krok kryštalizácie uskutočňuje dvakrát.The crystallization process of the present invention greatly increases the purity of ondansetron hydrochloride dihydrate and dramatically reduces the content of impurities represented by exomethylene by-products. Preferably, the crystallization step is performed 1-3 times. Most preferably, the crystallization step is performed twice.
Tento vynález poskytuje spôsob kryštalizácie dihydrátu hydrochloridu ondansetrónu zahrnujúci tieto kroky:The present invention provides a process for crystallizing ondansetron hydrochloride dihydrate comprising the steps of:
a) prípravu roztoku bázy ondansetrónu(a) preparing a solution of ondansetron base
b) okyslenie roztku chlorovodíkom za tvorby precipitátub) acidifying the solution with hydrogen chloride to form a precipitate
c) premytie precipitátu ac) washing the precipitate; and
d) kryštalizáciu čistého dihydrátu hydrochloridu ondansetrónu.d) crystallizing pure ondansetron hydrochloride dihydrate.
Výhodne sa krok prípravy roztoku uskutočňje pridaním asi 3 až 7 objemových dielov vody k bázi ondansetrónu. Najvýhodnejšie sa krok prípravy roztoku uskutočňuje pridaním asi 5 objemových dielov vody k bázi ondansetrónu.Preferably, the solution preparation step is carried out by adding about 3 to 7 parts by volume of water to the ondansetron base. Most preferably, the solution preparation step is performed by adding about 5 volumes of water to the ondansetron base.
Krok okyslenia sa výodne uskutočňuje pridaním kyseliny chlorovodíkovej. Výhodne sa pridáva asi 1,0 až 1,4 ekvivalentov asi 32% (v:v) kyseliny chlorovodíkovej tak, aby sa vyvolala precipitácia. Najvýhodnejšie sa pridáva asi 1,1 ekvivalentu asi 32% (v:v) kyseliny chlorovodíkovej tak, aby sa vyvolala precipitácia. Výhodnejšie sa krok okyslenia uskutočňuje pri pH asi 1 až asi 4. Najvýhodnejšie sa krok okyslenia uskutočňuje pri pH približne 3.The acidification step is preferably carried out by the addition of hydrochloric acid. Preferably, about 1.0 to 1.4 equivalents of about 32% (v: v) of hydrochloric acid is added to induce precipitation. Most preferably, about 1.1 equivalents of about 32% (v: v) of hydrochloric acid is added to induce precipitation. More preferably, the acidification step is performed at a pH of about 1 to about 4. Most preferably, the acidification step is performed at a pH of about 3.
Krok premývania sa výhodne uskutočňuje s použitím izopropanolu. Na premytie precipitátu sa výhodne používa asi 5 až asi 15 ml izopropanolu. Najvýhodnejšie sa na premytie precipitátu používa asi 10 ml izopropanolu.The washing step is preferably performed using isopropanol. Preferably, about 5 to about 15 mL of isopropanol is used to wash the precipitate. Most preferably, about 10 mL of isopropanol is used to wash the precipitate.
Kryštalizačný krok sa výhodne uskutočňuje pridaním asi 3 až asi 5 objemových dielov vody tak, aby sa vyvolala kryštalizácia. Najvýhodnejšie sa používajú na vyvolanie kryštalizácie asi 4 objemové diely vody.The crystallization step is preferably performed by adding about 3 to about 5 parts by volume of water to induce crystallization. Most preferably about 4 volumes of water are used to induce crystallization.
Výhodne sa krok kryštalizácie uskutočňuje za prítomnosti aktívneho uhlia. Aktívne uhlie sa výhodne volí zo skupiny spočívajúcej v SX-2, CA-1, CXV a SX-l·.Preferably, the crystallization step is carried out in the presence of activated carbon. The activated carbon is preferably selected from the group consisting of SX-2, CA-1, CXV and SX-1 ·.
Výhodne sa krok kryštalizácie uskutočňuje v prítomnosti asi 5 až asi 15% aktívneho uhlia SX-l. Najvýhodnejšie sa krok kryštalizácie uskutočňuje v prítomnosti asi 10 % aktívneho uhlia SX-l.Preferably, the crystallization step is carried out in the presence of about 5 to about 15% SX-1 activated carbon. Most preferably, the crystallization step is carried out in the presence of about 10% SX-1 activated carbon.
Tento vynález je ďalej vysvetlený na nasledujúcich príkladoch. Tento vynález nie je týmito príkladmi v žiadnom prípade obmedzený. Aj bežný pracovník v obore porozumie, ako zmeniť prípravy v príkladoch, aby získal požadované výsledky.The present invention is further illustrated by the following examples. The present invention is by no means limited to these examples. Even a person skilled in the art will understand how to change the preparations in the examples to obtain the desired results.
PríkladyExamples
Príklad 1: príprava čistej soli dimetylamino-metyl-karbazolónuExample 1: Preparation of pure dimethylamino-methyl-carbazolone salt
K 180 ml ladovej kyseliny octovej sa pridalo 45 g (0,226 mol, 1,0 ekv.) metylkarbazolónu, 22,4 g (0,275 mol, 1,22 ekv.) hydrochloridu dimetylamínu a 9 g (0,3 mol, 1,33 ekv.) paraformaldehydu.To 180 mL of glacial acetic acid was added 45 g (0.226 mol, 1.0 eq) of methylcarbazolone, 22.4 g (0.275 mol, 1.22 eq) of dimethylamine hydrochloride and 9 g (0.3 mol, 1.33) equiv) paraformaldehyde.
Reakcia sa udržiavala pri asi 80 + 2 °C po 12 hodín, potom sa do reaktora vložilo 540 ml vody a 4,5 g „hichflcw, dávka sa ochladila na asi 10 °C a alkalizovala sa približne 45% NaOH na pH asi 13 až asi 14, zatial čo teplota dávka neprekročila asi 25°C.The reaction was maintained at about 80 + 2 ° C for 12 hours, then 540 ml of water and 4.5 g of hichloride were charged to the reactor, the batch was cooled to about 10 ° C and basified with about 45% NaOH to a pH of about 13 to 20 ° C. about 14 while the batch temperature did not exceed about 25 ° C.
Potom sa dávka miešala pri asi 5 až asi 10°C ďalšiu 1 hodinu, vytvorený precipitát spolu s „highflow sa odobral a vysušil sa vo vákuovej piecke pri asi 60 °C do konštantnej váhy za vzniku surového produktu obsahujúceho „highflow.Thereafter, the batch was stirred at about 5 to about 10 ° C for an additional 1 hour, the precipitate formed along with the "highflow" was collected and dried in a vacuum oven at about 60 ° C to constant weight to give a crude product containing the "highflow".
Surový produkt sa spracoval 3,3 g aktívneho uhlia SX-1 (NORIŤ) v 990 ml acetónu, sfiltroval sa, ochladil sa na asi 25 °C a prebublával sa chlorovodíkom dokiaľ pH nedosiahlo 3.The crude product was treated with 3.3 g of SX-1 activated carbon (NORI) in 990 mL of acetone, filtered, cooled to about 25 ° C and bubbled with hydrogen chloride until the pH reached 3.
Dávka sa ochladila na asi 0 až asi 5 °C, udržiavala sa pri tejto teplote pol hodiny, sfiltrovala sa, premyla sa asi 20 ml acetónu a vysušila sa v piecke pri asi 50 °C do konštantnej váhy za vzniku 49,6 g dimetylamino-metyl-karbazolónu-HCl.The batch was cooled to about 0 to about 5 ° C, held at this temperature for half an hour, filtered, washed with about 20 mL acetone and dried in an oven at about 50 ° C to constant weight to give 49.6 g of dimethylamino- methyl-carbazolone HCl.
Príklad 2: príprava čistej bázy ondansetrónuExample 2: Preparation of pure ondansetron base
K 330 ml vody sa pridalo 33 g (0,112 mol, 1 ekv.) dimetylaminometyl-karbazolonu-HCl, 3,3 g „highflow a 46,3 g (0,563 mol, 5 ekv.) metyl-imidazolu. Reakčná zmes sa zahrievala pod spätným chladičom (pri refluxe) 12 hodín a potom sa ochladila na asi 10 °C, precipitát sa sfiltroval, premyl sa 3x 300 ml vody a vysušil sa vo vákuovej piecke pri asi 60 °C do konštantnej váhy za vzniku surovej zlúčeniny obsahujúcej „highflow.To 330 mL of water was added 33 g (0.112 mol, 1 eq.) Of dimethylaminomethyl-carbazolone-HCl, 3.3 g highflow and 46.3 g (0.563 mol, 5 eq.) Of methyl imidazole. The reaction mixture was heated at reflux (reflux) for 12 hours and then cooled to about 10 ° C, the precipitate was filtered, washed 3x with 300 ml of water and dried in a vacuum oven at about 60 ° C to constant weight to give a crude highflow containing compounds.
Surová zlúčenina sa spracovala 1,5 g aktívneho uhlia typu SX-1 (NORIŤ) v 930 ml metanole, odfiltrovala sa (filtácia za horúca) od „hihgflow a aktívneho uhlia a kryštalizovala jednu hodinu pri teplote asi 0 až asi 5 °C. Filtrácia za horúca prebiehala pri asi 60 °C a metanol bol blízky svojmu bodu varu (t.j. asi 65 °C) . Precipitát sa oddelil filtráciou, premyl sa 2x 20 ml studeného metanolu a vysušil sa vo vákuovej piecke pri asi 60 °C do konštantnej váhy za vzniku 21,3 g ondansetrónu .The crude compound was treated with 1.5 g of SX-1 activated carbon (NORIT) in 930 mL of methanol, filtered (hot filtration) from hihgflow and activated carbon and crystallized for one hour at about 0 to about 5 ° C. The hot filtration was at about 60 ° C and the methanol was near its boiling point (i.e. about 65 ° C). The precipitate was collected by filtration, washed with 2 x 20 mL cold methanol and dried in a vacuum oven at about 60 ° C to constant weight to give 21.3 g of ondansetron.
Príklad 3: rekryštalizácia dihydrátu hydrochloridu ondansetrónuExample 3: recrystallization of ondansetron hydrochloride dihydrate
Ondansetrón-HCl-2H2O kryštalizoval dvakrát z 1:4 hmotn./v vody a asi 10 % hmotn./hmotn. aktívneho uhlia typu SX-1 (NORIŤ) pri asi 95 °C pol hodiny, sfiltroval sa (filtrácia za horúca), premyl sa 1 objemovým dielom vody, ochladil sa na asi 5 °C a udržiaval sa pri tejto teplote asi 1 hodinu. Kryštály sa oddelili, premyli sa asi 10 ml studeného izopropanolu a vysušili sa za vzniku čistého ondansetrónu -HC1-2H2O. Získaný čistý dihydrát hydrochloridu ondansetrínu sa testoval HPLC tak, aby jeho čistota bola najmenej 99,0 %. Získaný čistý dihydrát hydrochloridu ondansetrónu obsahoval menej ako 0,01 % exometylénových vedľajších produktov alebo nezistiteľných nečistôt.Ondansetron-HCl-2H 2 O crystallized twice from 1: 4 w / v water and about 10% w / w. SX-1 activated carbon (NORI) at about 95 ° C for half an hour, filtered (hot filtration), washed with 1 volume water, cooled to about 5 ° C, and held at this temperature for about 1 hour. The crystals were separated, washed with about 10 mL of cold isopropanol and dried to give pure ondansetron-HCl-2H 2 O. The obtained pure ondansetrin hydrochloride dihydrate was tested by HPLC to a purity of at least 99.0%. The obtained pure ondansetron hydrochloride dihydrate contained less than 0.01% exomethylene by-products or undetectable impurities.
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