Product Details
| Product Name: Granisetron EP Impurity C(Hydrochloride) | Min. Order: 10mg |
| Purity: 99%+ HPLC | Supply Ability: 1000 |
| Release date: 2025/07/31 | |
| Molecular formula: C17H22N4O.HCl |
Granisetron EP Impurity C(Hydrochloride)
WhatsAPP: +86 17386083646
E-mail: anna@molcoo.com.
Product Information
Product Number: G006010A
English Name: Granisetron EP Impurity C(Hydrochloride)
English Alias: N-((1R,3r,5S)-9-azabicyclo[3.3.1]nonan-3-yl)-1-methyl-1H-indazole-3-carboxamide hydrochloride
CAS Number: None
Molecular Formula: C₁₇H₂₂N₄O·HCl
Molecular Weight: 334.84(298.38 + 36.46)
Advantages
Well-defined structure and stable salt form: Precise indazole amide and bicyclic amine structure, combined with the stability of hydrochloride, enabling analysis of by-product formation mechanisms during granisetron synthesis, such as indazole ring construction, amination, and salification reactions, to optimize processes for impurity control;
Polycyclic structure standard substance: Complex structure with indazole ring, azabicyclononane, and amide group provides an accurate standard for HPLC, LC-MS, and other detection methods to improve separation and quantification accuracy of granisetron-related impurities;
Water solubility advantage: The hydrochloride form enhances the compound's water solubility, facilitating simulation of impurity behavior in physiological environments during formulation stability studies and impurity detection.
Applications
Drug Development: Used as an impurity reference standard to identify and quantify Impurity C in granisetron and its formulations, evaluating the purity of APIs and formulations;
Quality Control: Acting as a standard substance to validate the sensitivity and specificity of detection methods (e.g., HPLC, LC-MS), ensuring impurity content meets European Pharmacopoeia (EP) requirements during production;
Stability Studies: Investigating the degradation behavior of this impurity under light, high temperature, and high humidity conditions to evaluate its impact on granisetron formulation stability and assist in determining storage conditions.
Background Description
Research Status
Detection method optimization: Establishing trace detection methods (detection limits reach ppb level) using UPLC-MS/MS technology, enhancing mass spectrometry response by leveraging the ionization characteristics of hydrochloride;
Synthesis process improvement: Reducing by-product generation by optimizing the nitration temperature of the indazole ring and the catalyst (such as triethylamine) for the amination reaction;
Salt form stability: Studying the hygroscopicity and degradation pathways of hydrochloride under high humidity conditions to provide data for storage conditions;
Toxicological evaluation: Evaluating the potential affinity and safety of this impurity for 5-hydroxytryptamine receptors through in vitro cytotoxicity experiments
Product Information
Product Number: G006010A
English Name: Granisetron EP Impurity C(Hydrochloride)
English Alias: N-((1R,3r,5S)-9-azabicyclo[3.3.1]nonan-3-yl)-1-methyl-1H-indazole-3-carboxamide hydrochloride
CAS Number: None
Molecular Formula: C₁₇H₂₂N₄O·HCl
Molecular Weight: 334.84(298.38 + 36.46)
Advantages
Well-defined structure and stable salt form: Precise indazole amide and bicyclic amine structure, combined with the stability of hydrochloride, enabling analysis of by-product formation mechanisms during granisetron synthesis, such as indazole ring construction, amination, and salification reactions, to optimize processes for impurity control;
Polycyclic structure standard substance: Complex structure with indazole ring, azabicyclononane, and amide group provides an accurate standard for HPLC, LC-MS, and other detection methods to improve separation and quantification accuracy of granisetron-related impurities;
Water solubility advantage: The hydrochloride form enhances the compound's water solubility, facilitating simulation of impurity behavior in physiological environments during formulation stability studies and impurity detection.
Applications
Drug Development: Used as an impurity reference standard to identify and quantify Impurity C in granisetron and its formulations, evaluating the purity of APIs and formulations;
Quality Control: Acting as a standard substance to validate the sensitivity and specificity of detection methods (e.g., HPLC, LC-MS), ensuring impurity content meets European Pharmacopoeia (EP) requirements during production;
Stability Studies: Investigating the degradation behavior of this impurity under light, high temperature, and high humidity conditions to evaluate its impact on granisetron formulation stability and assist in determining storage conditions.
Background Description
Research Status
Detection method optimization: Establishing trace detection methods (detection limits reach ppb level) using UPLC-MS/MS technology, enhancing mass spectrometry response by leveraging the ionization characteristics of hydrochloride;
Synthesis process improvement: Reducing by-product generation by optimizing the nitration temperature of the indazole ring and the catalyst (such as triethylamine) for the amination reaction;
Salt form stability: Studying the hygroscopicity and degradation pathways of hydrochloride under high humidity conditions to provide data for storage conditions;
Toxicological evaluation: Evaluating the potential affinity and safety of this impurity for 5-hydroxytryptamine receptors through in vitro cytotoxicity experiments
This product is intended for laboratory use only!
WhatsAPP: +86 17386083646
E-mail: anna@molcoo.com
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