• 제목/요약/키워드: Habb-e-Azaraqi

검색결과 1건 처리시간 0.015초

TLC, HPTLC FINGERPRINTING AND ACUTE ORAL TOXICITY EVALUATION OF HABB-E-AZARAQI: A NUX-VOMICA-BASED TRADITIONAL UNANI FORMULATION

  • Ara, Shabnam Anjum;Viquar, Uzma;Zakir, Mohammed;Husain, Gulam Mohammed;Naikodi, Mohammed Abdul Rasheed;Urooj, Mohd;Kazmi, Munawwar Husain
    • 셀메드
    • /
    • 제11권3호
    • /
    • pp.13.1-13.9
    • /
    • 2021
  • Background and Objective: Nux-vomica based traditional Unani formulation, Habb-e-Azaraqi (HAZ) is an important drug used by Unani physicians since several decades. It possesses Muqawwi-i-A'sab (nervine tonic), Muharrik-i-A'sab (nervine stimulant) properties and is an effective treatment option for diseases like Laqwa (facial palsy), Falij (paralysis), Niqris (gout) and Waja'al-Mafasil (arthritis) etc. The aim of the study is to access and provide information of HAZ for its TLC, HPTLC Fingerprinting defining its clear qualitative perspective and acute oral toxicity evaluation for its safety assessment which was not done earlier, thus contributing in the field of research. Materials and Methods: The chief ingredient, nux-vomica was detoxified as per method mentioned in Unani Pharmacopeia before its use in formulation. TLC and HPTLC was developed under four detection system i.e., UV 366nm, UV 254nm, exposure to iodine vapours and after derivatization with anisaldehyde sulphuric acid. Acute toxicity studies were performed as per OECD Guidelines 425 at a limit dose of 2000 mg/kg. Observations were done for signs of toxicity, body weight, and feed consumption at regular intervals followed by haematological and biochemistry evaluation. Results: The generated data proved the authenticity and established the TLC and HPTLC profile of the formulation. Acute toxicity revealed no significant differences in HAZ-treated animals with respect to body weight gain, feed consumption, haematology, clinical biochemistry evaluation. No significant gross pathological observation was noticed in necropsy. Conclusion: Data of the present study is substantial and scientific proof of HAZ in terms of standardization and toxicity study that can be utilize in future research activities.