WO2023248240A1 - Polymorphic forms of bictegravir sodium - Google Patents

Polymorphic forms of bictegravir sodium Download PDF

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Publication number
WO2023248240A1
WO2023248240A1 PCT/IN2023/050585 IN2023050585W WO2023248240A1 WO 2023248240 A1 WO2023248240 A1 WO 2023248240A1 IN 2023050585 W IN2023050585 W IN 2023050585W WO 2023248240 A1 WO2023248240 A1 WO 2023248240A1
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Prior art keywords
sodium
bictegravir
crystalline form
reaction mass
bictegravir sodium
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PCT/IN2023/050585
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French (fr)
Inventor
Sureshbabu JAYACHANDRA
Ramakoteswara Rao Jetti
Aggi Ramireddy Bommareddy
Subramanyam Dandala
Narasimha Murty PILLI
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Mylan Laboratories Limited
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Publication of WO2023248240A1 publication Critical patent/WO2023248240A1/en

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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D498/00Heterocyclic compounds containing in the condensed system at least one hetero ring having nitrogen and oxygen atoms as the only ring hetero atoms
    • C07D498/12Heterocyclic compounds containing in the condensed system at least one hetero ring having nitrogen and oxygen atoms as the only ring hetero atoms in which the condensed system contains three hetero rings
    • C07D498/18Bridged systems
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P31/00Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
    • A61P31/12Antivirals
    • A61P31/14Antivirals for RNA viruses
    • A61P31/18Antivirals for RNA viruses for HIV

Definitions

  • the present disclosure relates to novel crystalline forms of bictegravir sodium and processes for their preparation.
  • Bictegravir sodium is approved as part of a single tablet regimen in combination with tenofovir alafenamide (TAF) and emtricitabine (FTC) for the treatment of HIV-1 infection under the brand name of BIKTARVY®, marketed by Gilead Sciences.
  • Bictegravir sodium is chemically known as (2R,5S,13aR)- 2,5- Methanopyrido[r,2’:4,5]pyrazino[2,l-b][l,3]oxazepine-10-carboxamide,
  • polymorphs may provide different advantages in a variety of capacities, for example, in ease of formulation, stability of the polymorphic form, stability of the formulation, and in pharmacokinetic profiles. These advantages may arise from the different properties present in each polymorph.
  • the present invention provides novel polymorphic forms of bictegravir sodium and process for the preparation thereof.
  • a first aspect of the present invention is to provide crystalline Form Ml of bictegravir sodium.
  • One aspect of the present invention is to provide crystalline Form Ml of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 1.
  • Another aspect of the present invention is to provide a process for the preparation of crystalline Form Ml of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) cooling the reaction mass to 20-35 °C; and d) isolating crystalline Form Ml of bictegravir sodium.
  • a second aspect of the present invention is to provide crystalline Form M2 of bictegravir sodium.
  • the present invention is to provide crystalline Form M2 of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 2.
  • Other aspect of the present invention is to provide a process for the preparation of crystalline Form M2 of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) optionally cooling the reaction mass to 0-5 °C; and d) isolating crystalline Form M2 of bictegravir sodium.
  • a third aspect of the present invention is to provide crystalline Form M3 of bictegravir sodium.
  • the present invention is to provide crystalline Form M3 of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 3.
  • Another aspect of the present invention is to provide a process for the preparation of crystalline Form M3 of bictegravir sodium comprising drying the crystalline Form Ml or crystalline Form M2 of bictegravir sodium at 100-150 °C.
  • Figure. 1 is an X-ray powder diffractogram of crystalline Form Ml of bictegravir sodium.
  • Figure. 2 is an X-ray powder diffractogram of crystalline Form M2 of bictegravir sodium.
  • Figure. 3 is an X-ray powder diffractogram of crystalline Form M3 of bictegravir sodium. DETAILED DESCRIPTION OF THE DISCLOSURE
  • the polymorph of the present disclosure is characterized by its X-ray powder diffraction pattern.
  • the X-ray diffraction patterns of the polymorphs of the disclosure were measured on BRUKER D-8 Discover powder diffractometer equipped with goniometer of 9/29 configuration and Lynx Eye detector.
  • the Cu- anode X-ray tube was operated at 40kV and 30mA. The experiments were conducted over the 29 range of 2.0°-50.0°, 0.030° step size and 0.4 seconds step time.
  • the present disclosure relates to crystalline forms of bictegravir sodium.
  • the present disclosure also relates to process for the preparation of crystalline forms of bictegravir sodium.
  • the present disclosure is to provide crystalline Form Ml of bictegravir sodium.
  • the present disclosure is to provide crystalline Form Ml of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 19.78, 20.97, 23.64, 25.20, and 26.10 ⁇ 0.2° degrees two-theta.
  • crystalline Form Ml of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 11.93, 12.38, 13.59, 17.06, 20.97, 22.30, 23.64, 25.20, 26.09 and 31.67 ⁇ 0.2° degrees two-theta.
  • crystalline Form Ml of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 6.13, 7.09, 11.92, 12.38, 12.76, 13.59, 14.24, 15.11, 16.48, 16.89, 17.06, 17.73, 17.95, 18.68, 19.34, 19.78, 20.54, 20.97, 21.30, 21.43, 21.75, 22.30, 23.28, 23.64, 24.17, 25.20, 26.10, 26.33, 27.16, 27.43, 28.01, 28.32, 28.67,, 29.63, 29.86, 30.12, 31.67, 32.37, 34.52, 39.05 and 45.39 ⁇ 0.2° degrees two-theta.
  • the present invention is to provide a process for the preparation of crystalline Form Ml of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) cooling the reaction mass to 20-35 °C; and d) isolating crystalline Form Ml of bictegravir sodium.
  • organic solvent employed may include chloroethanol solvent.
  • organic solvent is 2- chloroethanol.
  • sodium source employed may include sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium alkoxide.
  • Sodium source may be dissolved in water and added to the reaction mass.
  • sodium source is sodium hydroxide.
  • isolation can be done using any techniques in the art such as, decantation, filtration by gravity or suction, centrifugation.
  • the solid is isolated by filtration followed by drying under vacuum.
  • bictegravir sodium is suspended in an organic solvent and heated to elevated temperature of about 40-70 °C and stirred for about 16-20 hours.
  • the reaction mass is cooled to 20-30 °C, filtered and then dried under vacuum.
  • the obtained solid is crystalline Form Ml of bictegravir sodium.
  • bictegravir is dissolved in an organic solvent and heated to elevated temperature of about 40-70 °C.
  • sodium source is added and stirred for about 12-16 hours.
  • the reaction mass is cooled to 20-30 °C, filtered and then dried under vacuum.
  • the obtained solid is crystalline Form Ml of bictegravir sodium.
  • the present disclosure is to provide crystalline Form M2 of bictegravir sodium.
  • the present disclosure is to provide crystalline Form M2 of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.90, 12.30, 19.78, 23.71 and 25.19 ⁇ 0.2° degrees two- theta.
  • crystalline Form M2 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.90, 6.56, 10.67, 11.97, 12.30, 12.71, 13.33, 15.59, 16.09, 16.70, 17.79, 18.26, 18.67, 18.97, 19.40, 19.80, 20.18, 20.55, 21.39, 21.66, 22.29, 22.81 23.70, 25.19, 26.02, 26.36, 26.70, 28.36, 28.63, 29.08, 29.64, 30.31, 31.03, 31.63, 33.66, 41.14, 43.47 and 45.32 ⁇ 0.2° degrees two-theta.
  • the present invention is to provide a process for the preparation of crystalline Form M2 of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) optionally cooling the reaction mass to 0-5 °C; and d) isolating crystalline Form M2 of bictegravir sodium.
  • organic solvent employed may include chloroethanol solvent.
  • organic solvent is 2- chloroethanol.
  • sodium source employed may include sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium alkoxide.
  • Sodium source may be dissolved in water and added to the reaction mass.
  • sodium source is sodium hydroxide.
  • isolation can be done using any techniques in the art such as, decantation, filtration by gravity or suction, centrifugation.
  • the solid is isolated by filtration followed by drying under vacuum.
  • bictegravir sodium is suspended in 2- chloroethanol and heated to elevated temperature of about 40-70 °C and stirred for about 16-20 hours.
  • the reaction mass is filtered at the same temperature and then dried under vacuum.
  • the obtained solid is crystalline Form M2 of bictegravir sodium.
  • bictegravir is dissolved in 2-chloroethanol and heated to elevated temperature of about 60-70 °C.
  • sodium source is added to the reaction mass.
  • the reaction mass is cooled to 0-5 °C, filtered, and then dried under vacuum at 40-70 °C.
  • the obtained solid is crystalline Form M2 of bictegravir sodium.
  • the present disclosure is to provide crystalline Form M3 of bictegravir sodium.
  • Another embodiment, the present disclosure is to provide crystalline Form M3 of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 7.14, 13.95, 19.33, 20.92 and 31.70 ⁇ 0.2° degrees two- theta.
  • crystalline Form M3 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about
  • crystalline Form M3 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about
  • the present invention is to provide a process for the preparation of crystalline Form M3 of bictegravir sodium comprising drying the crystalline Form Ml or crystalline Form M2 of bictegravir sodium at 110-140 °C.
  • drying is performed under atmospheric pressure or under reduced pressure.
  • drying is performed under reduced pressure.
  • the input bictegravir or bictegravir sodium is prepared by any prior-art process for example PCT publication No. WO2015196116A1.
  • the physical and chemical stability of the crystalline bictegravir sodium Form M3 was determined by storing the samples at 25 °C and 60% RH and 40°C and 75% RH conditions for three months, followed by analysis of the samples by PXRD and HPLC purity. The results of the study are summarized in the below table.
  • the novel Bictegravir sodium Form M3 was found to be physically and chemically stable at 25°C and 60% RH and at 40°C and 75% RH conditions stable up to 3months.
  • Bictegravir (3g) was dissolved in 2 -chloroethanol (24 mL) at 25+2 °C.
  • the reaction mass was heated to 50-55 °C and added slowly drop-wise aqueous sodium hydroxide solution (Dissolved 534mg sodium hydroxide in 6 mL water at 25+2 °C) at 50-55 °C for 5 minutes.
  • the resulting clear solution was further maintained under stirring at 50-55°C for 14 hours.
  • the reaction mass was then cooled to 25-30 °C, maintained for 1 hour, filtered and suck-dried under vacuum for 30 minutes.
  • the solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form Ml.
  • the Bictegravir sodium Form Ml or Form M2 obtained as per above example 1-4 was dried under vacuum at 130 °C for 10-15 hours.
  • the solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form M3.
  • Bictegravir (2g) was dissolved in 2-chloroethanol (12 mL) at 25-30 °C and the obtained clear solution was heated to 35-40 °C.
  • Added aqueous sodium hydroxide solution (dissolved 267 mg NaOH in 2 mL water) at 35-40 °C for 5-10minutes.
  • the thick reaction mass was then maintained under stirring at 35-40 °C for 6-8 hours.
  • the thick reaction mass was then cooled to 25-30 °C, added water (6 mL) slowly for 5-10 minutes at 25-30 °C and stirred the reaction mass at 25-30 °C for 60 minutes.
  • the resulting reaction mass was filtered, washed with mixture of 3 mL 2-chloroethanol and 1 mL water and suck dried for Ihour under vacuum.
  • the PXRD of the wet material was identified by PXRD as crystalline form of bictegravir sodium Form ML
  • the wet material was further dried under vacuum at 130°C for 8-12 hours.
  • the solid obtained was identified by PXRD as novel crystalline form of Bictegravir sodium Form M3.

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Abstract

The present disclosure relates to novel crystalline forms of bictegravir sodium and processes for their preparation.

Description

POLYMORPHIC FORMS OF BICTEGRAVIR SODIUM
CROSS-REFERENCE TO RELATED APPLICATIONS
This application claims the benefit of the earlier filing date of Indian Provisional Patent Application No. IN202241035593 filed on June 21, 2022.
FIELD OF THE DISCLOUSRE
The present disclosure relates to novel crystalline forms of bictegravir sodium and processes for their preparation.
DESCRIPTION OF THE RELATED ART
Bictegravir sodium is approved as part of a single tablet regimen in combination with tenofovir alafenamide (TAF) and emtricitabine (FTC) for the treatment of HIV-1 infection under the brand name of BIKTARVY®, marketed by Gilead Sciences. Bictegravir sodium is chemically known as (2R,5S,13aR)- 2,5- Methanopyrido[r,2’:4,5]pyrazino[2,l-b][l,3]oxazepine-10-carboxamide,
2, 3, 4, 5, 7, 9, 13,13a-octahydro-8-hydroxy-7,9-dioxo-N-[(2,4,6- trifluorophenyl)methyl]-, sodium salt (1:1), having the structure below:
Figure imgf000002_0001
Bictegravir is disclosed in U.S Patent No. 9,216,996 B2, which is hereby incorporated by reference.
Bictegravir sodium salt and crystalline Form I of bictegravir sodium disclosed in U.S Patent No. 9,708,342B2.
Different polymorphs may provide different advantages in a variety of capacities, for example, in ease of formulation, stability of the polymorphic form, stability of the formulation, and in pharmacokinetic profiles. These advantages may arise from the different properties present in each polymorph. The present invention provides novel polymorphic forms of bictegravir sodium and process for the preparation thereof.
SUMMARY OF THE DISCLOSURE
A first aspect of the present invention is to provide crystalline Form Ml of bictegravir sodium.
One aspect of the present invention is to provide crystalline Form Ml of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 1.
Another aspect of the present invention is to provide a process for the preparation of crystalline Form Ml of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) cooling the reaction mass to 20-35 °C; and d) isolating crystalline Form Ml of bictegravir sodium.
A second aspect of the present invention is to provide crystalline Form M2 of bictegravir sodium.
In another aspect, the present invention is to provide crystalline Form M2 of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 2.
Other aspect of the present invention is to provide a process for the preparation of crystalline Form M2 of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) optionally cooling the reaction mass to 0-5 °C; and d) isolating crystalline Form M2 of bictegravir sodium.
A third aspect of the present invention is to provide crystalline Form M3 of bictegravir sodium.
In another aspect, the present invention is to provide crystalline Form M3 of bictegravir sodium, which is characterized by powdered X-ray diffraction pattern as shown in Fig 3.
Other aspect of the present invention is to provide a process for the preparation of crystalline Form M3 of bictegravir sodium comprising drying the crystalline Form Ml or crystalline Form M2 of bictegravir sodium at 100-150 °C.
BRIEF DESCRIPTION OF THE FIGURES
Further aspects of the present disclosure together with additional features contributing thereto and advantages accruing there from will be apparent from the following description of embodiments of the disclosure which are shown in the accompanying drawing figures wherein:
Figure. 1 is an X-ray powder diffractogram of crystalline Form Ml of bictegravir sodium.
Figure. 2 is an X-ray powder diffractogram of crystalline Form M2 of bictegravir sodium.
Figure. 3 is an X-ray powder diffractogram of crystalline Form M3 of bictegravir sodium. DETAILED DESCRIPTION OF THE DISCLOSURE
It is to be understood that the description of the present invention has been simplified to illustrate elements that are relevant for a clear understanding of the invention, while eliminating, for purposes of clarity, other elements that may be well known.
The polymorph of the present disclosure is characterized by its X-ray powder diffraction pattern. Thus, the X-ray diffraction patterns of the polymorphs of the disclosure were measured on BRUKER D-8 Discover powder diffractometer equipped with goniometer of 9/29 configuration and Lynx Eye detector. The Cu- anode X-ray tube was operated at 40kV and 30mA. The experiments were conducted over the 29 range of 2.0°-50.0°, 0.030° step size and 0.4 seconds step time.
The present disclosure relates to crystalline forms of bictegravir sodium. The present disclosure also relates to process for the preparation of crystalline forms of bictegravir sodium.
In one embodiment, the present disclosure is to provide crystalline Form Ml of bictegravir sodium.
In another embodiment, the present disclosure is to provide crystalline Form Ml of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 19.78, 20.97, 23.64, 25.20, and 26.10 ±0.2° degrees two-theta.
In yet another embodiment, crystalline Form Ml of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 11.93, 12.38, 13.59, 17.06, 20.97, 22.30, 23.64, 25.20, 26.09 and 31.67 ±0.2° degrees two-theta. In yet another embodiment, crystalline Form Ml of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.94, 6.13, 7.09, 11.92, 12.38, 12.76, 13.59, 14.24, 15.11, 16.48, 16.89, 17.06, 17.73, 17.95, 18.68, 19.34, 19.78, 20.54, 20.97, 21.30, 21.43, 21.75, 22.30, 23.28, 23.64, 24.17, 25.20, 26.10, 26.33, 27.16, 27.43, 28.01, 28.32, 28.67,, 29.63, 29.86, 30.12, 31.67, 32.37, 34.52, 39.05 and 45.39 ±0.2° degrees two-theta.
In still another embodiment the present invention is to provide a process for the preparation of crystalline Form Ml of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) cooling the reaction mass to 20-35 °C; and d) isolating crystalline Form Ml of bictegravir sodium.
Within the context of this embodiment, the organic solvent employed may include chloroethanol solvent. In particular useful embodiments organic solvent is 2- chloroethanol.
Within the context of this embodiment, sodium source employed may include sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium alkoxide. Sodium source may be dissolved in water and added to the reaction mass. In particular useful embodiments sodium source is sodium hydroxide.
Within the context of this embodiment, isolation can be done using any techniques in the art such as, decantation, filtration by gravity or suction, centrifugation. In particular useful embodiments the solid is isolated by filtration followed by drying under vacuum.
According to the present disclosure, bictegravir sodium is suspended in an organic solvent and heated to elevated temperature of about 40-70 °C and stirred for about 16-20 hours. The reaction mass is cooled to 20-30 °C, filtered and then dried under vacuum. The obtained solid is crystalline Form Ml of bictegravir sodium.
According to the present disclosure, bictegravir is dissolved in an organic solvent and heated to elevated temperature of about 40-70 °C. To the reaction mass sodium source is added and stirred for about 12-16 hours. The reaction mass is cooled to 20-30 °C, filtered and then dried under vacuum. The obtained solid is crystalline Form Ml of bictegravir sodium.
In another embodiment, the present disclosure is to provide crystalline Form M2 of bictegravir sodium.
Another embodiment, the present disclosure is to provide crystalline Form M2 of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.90, 12.30, 19.78, 23.71 and 25.19 ±0.2° degrees two- theta.
In yet another embodiment, crystalline Form M2 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about 5.90, 6.56, 10.67, 11.97, 12.30, 12.71, 13.33, 15.59, 16.09, 16.70, 17.79, 18.26, 18.67, 18.97, 19.40, 19.80, 20.18, 20.55, 21.39, 21.66, 22.29, 22.81 23.70, 25.19, 26.02, 26.36, 26.70, 28.36, 28.63, 29.08, 29.64, 30.31, 31.03, 31.63, 33.66, 41.14, 43.47 and 45.32 ±0.2° degrees two-theta.
In still another embodiment the present invention is to provide a process for the preparation of crystalline Form M2 of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) optionally cooling the reaction mass to 0-5 °C; and d) isolating crystalline Form M2 of bictegravir sodium.
Within the context of this embodiment, the organic solvent employed may include chloroethanol solvent. In particular useful embodiments organic solvent is 2- chloroethanol.
Within the context of this embodiment, sodium source employed may include sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium alkoxide. Sodium source may be dissolved in water and added to the reaction mass. In particular useful embodiments sodium source is sodium hydroxide.
Within the context of this embodiment, isolation can be done using any techniques in the art such as, decantation, filtration by gravity or suction, centrifugation. In particular useful embodiments the solid is isolated by filtration followed by drying under vacuum.
According to the present disclosure, bictegravir sodium is suspended in 2- chloroethanol and heated to elevated temperature of about 40-70 °C and stirred for about 16-20 hours. The reaction mass is filtered at the same temperature and then dried under vacuum. The obtained solid is crystalline Form M2 of bictegravir sodium.
According to the present disclosure, bictegravir is dissolved in 2-chloroethanol and heated to elevated temperature of about 60-70 °C. To the reaction mass sodium source is added. The reaction mass is cooled to 0-5 °C, filtered, and then dried under vacuum at 40-70 °C. The obtained solid is crystalline Form M2 of bictegravir sodium.
In another embodiment, the present disclosure is to provide crystalline Form M3 of bictegravir sodium. Another embodiment, the present disclosure is to provide crystalline Form M3 of bictegravir sodium, characterized by Powder X-ray diffraction pattern having 29 angle positions at about 7.14, 13.95, 19.33, 20.92 and 31.70 ±0.2° degrees two- theta.
In yet another embodiment, crystalline Form M3 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about
7.14, 12.45, 13.95, 15.54, 18.71, 18.92, 19.34, 19.77, 20.15, 20.92, 21.95, 26.47 and 31.70 ±0.2° degrees two-theta.
In yet another embodiment, crystalline Form M3 of bictegravir sodium is further characterized by Powder X-ray diffraction pattern having 29 angle positions at about
7.14, 12.45, 13.95, 14.33, 15.54, 16.93, 18.35, 18.71, 18.92, 19.34, 19.77, 20.15, 20.92, 21.95, 22.55, 23.57, 24.14, 24.52, 25.44, 26.47, 27.33, 31.70 and 45.44 ±0.2° degrees two-theta.
In still another embodiment the present invention is to provide a process for the preparation of crystalline Form M3 of bictegravir sodium comprising drying the crystalline Form Ml or crystalline Form M2 of bictegravir sodium at 110-140 °C.
Within the context of this embodiment, drying is performed under atmospheric pressure or under reduced pressure. In particular useful embodiments drying is performed under reduced pressure.
According to the present invention, the input bictegravir or bictegravir sodium is prepared by any prior-art process for example PCT publication No. WO2015196116A1. In yet another embodiment, the physical and chemical stability of the crystalline bictegravir sodium Form M3 was determined by storing the samples at 25 °C and 60% RH and 40°C and 75% RH conditions for three months, followed by analysis of the samples by PXRD and HPLC purity. The results of the study are summarized in the below table. The novel Bictegravir sodium Form M3 was found to be physically and chemically stable at 25°C and 60% RH and at 40°C and 75% RH conditions stable up to 3months.
Figure imgf000010_0001
In view of the above description and the examples below, one of ordinary skill in the art will be able to practice the invention as claimed without undue experimentation. The foregoing will be better understood with reference to the following examples that detail certain procedures for the preparation of molecules, compositions and Formulations according to the present invention. All references made to these examples are for the purposes of illustration. The following examples should not be considered exhaustive, but merely illustrative of only a few of the many aspects and embodiments contemplated by the present disclosure.
EXAMPLES
Example 1: Preparation of crystalline Form Ml of Bictegravir sodium:
Bictegravir Sodium (7g) was suspended in 2-chloroethanol (56 mL) at 25+2 °C. The reaction mass was heated to 50-55 °C and the resulting suspension was stirred at 50-55 °C for 18 hours. The reaction mass was cooled to 25-30 °C, filtered and suck-dried under vacuum for 30 minutes. The solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form Ml.
Yield: 8.5g
Example 2: Preparation of crystalline Form Ml of Bictegravir sodium:
Bictegravir (3g) was dissolved in 2 -chloroethanol (24 mL) at 25+2 °C. The reaction mass was heated to 50-55 °C and added slowly drop-wise aqueous sodium hydroxide solution (Dissolved 534mg sodium hydroxide in 6 mL water at 25+2 °C) at 50-55 °C for 5 minutes. The resulting clear solution was further maintained under stirring at 50-55°C for 14 hours. The reaction mass was then cooled to 25-30 °C, maintained for 1 hour, filtered and suck-dried under vacuum for 30 minutes. The solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form Ml.
Yield: 2.0g
Example 3: Preparation of crystalline Form M2 of Bictegravir sodium:
Bictegravir Sodium (7 g) was suspended in 2 -chloroethanol (56 mL) at 25+2 °C. The reaction mass was heated to 50-55 °C and the resulting suspension was stirred at 50-55 °C for 17 hours. The reaction mass was filtered at 50-55 °C and suck- dried for 30 minutes. The solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form M2.
Yield: 6.5g
Example 4: Preparation of crystalline Form M2 of Bictegravir sodium:
Bictegravir (5 g) dissolved in 2-chloroethanol (50 mL) at 25+2 °C. The reaction mass was heated to 65+2 °C and added slowly drop-wise aqueous sodium hydroxide solution (Dissolved 445 mg sodium hydroxide in l lmL water at 25+2 °C) at 65+2 °C for 15 minutes. The clear solution was then cooled to 0-5 °C in 30 minutes and maintained under stirring at 0-5 °C for 3 hours. The resulting reaction mass was filtered, suck-dried for 30 minutes and dried under vacuum at 60 °C for 21 hours. The solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form M2.
Yield: 3.0g
Example 5: Preparation of crystalline Form M3 of Bictegravir sodium:
The Bictegravir sodium Form Ml or Form M2 obtained as per above example 1-4 was dried under vacuum at 130 °C for 10-15 hours. The solid obtained was identified by PXRD as novel crystalline bictegravir sodium Form M3.
Example 6: Preparation of crystalline Form M3 of Bictegravir sodium:
Bictegravir (2g) was dissolved in 2-chloroethanol (12 mL) at 25-30 °C and the obtained clear solution was heated to 35-40 °C. Added aqueous sodium hydroxide solution (dissolved 267 mg NaOH in 2 mL water) at 35-40 °C for 5-10minutes. The thick reaction mass was then maintained under stirring at 35-40 °C for 6-8 hours. The thick reaction mass was then cooled to 25-30 °C, added water (6 mL) slowly for 5-10 minutes at 25-30 °C and stirred the reaction mass at 25-30 °C for 60 minutes. The resulting reaction mass was filtered, washed with mixture of 3 mL 2-chloroethanol and 1 mL water and suck dried for Ihour under vacuum. The PXRD of the wet material was identified by PXRD as crystalline form of bictegravir sodium Form ML The wet material was further dried under vacuum at 130°C for 8-12 hours. The solid obtained was identified by PXRD as novel crystalline form of Bictegravir sodium Form M3.
Yield: 1.56g

Claims

We claim:
1. A crystalline Form M3 of bictegravir sodium, characterized by Powder X- ray diffraction pattern having 29 angle positions at about 7.14, 13.95, 19.33, 20.92 and 31.70 ±0.2° degrees two-theta.
2. A crystalline Form M3 of bictegravir sodium, characterized by Powder X- ray diffraction pattern as depicted in FIG. 3.
3. A process for the preparation of crystalline Form M3 of bictegravir sodium comprising drying the crystalline Form Ml or crystalline Form M2 of bictegravir sodium at 110-140 °C.
4. A crystalline Form Ml of bictegravir sodium, characterized by Powder X- ray diffraction pattern having 29 angle positions at about 5.94, 19.78, 20.97, 23.64, 25.20, and 26.10 ±0.2° degrees two-theta.
5. A process for the preparation of crystalline Form Ml of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) cooling the reaction mass to 20-35 °C; and d) isolating crystalline Form Ml of bictegravir sodium.
6. A crystalline Form-M2 of bictegravir sodium, characterized by Powder X- ray diffraction pattern having 29 angle positions at about 5.90, 12.30, 19.78, 23.71 and 25.19 ±0.2° degrees two-theta. A process for the preparation of crystalline Form M2 of bictegravir sodium comprising the steps of: a) providing bictegravir or its sodium salt in organic solvent at elevated temperature; b) optionally adding sodium source and stirring the reaction mass at the same temperature; c) optionally cooling the reaction mass to 0-5 °C; and d) isolating crystalline Form M2 of bictegravir sodium. The process as claimed in claim 5 and claim 7 wherein organic solvent is selected from 2-chloroethanol. The process as claimed in claim 5 and claim 7, wherein sodium source is selected from sodium hydroxide, sodium carbonate, sodium bicarbonate or sodium alkoxide.
PCT/IN2023/050585 2022-06-21 2023-06-19 Polymorphic forms of bictegravir sodium WO2023248240A1 (en)

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