ورود
مقالات فارسیISIکنفرانسهاژورنالها

The Classification of Medicinal Plants used in Traditional Persian Medicine for the Treatment of Liver Disease based on Phytochemical Properties

محل انتشار: مجله گیاهان دارویی و محصولات فرعی، دوره: 13، شماره: 2
سال انتشار: 1403
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 21

فایل این مقاله در 28 صفحه با فرمت PDF قابل دریافت می باشد

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این مقاله:
https://civilica.com/doc/1977794

شناسه ملی سند علمی:

JR_JJMPB-13-2_002

تاریخ نمایه سازی: 29 اردیبهشت 1403

چکیده مقاله:

Chronic and acute liver diseases are considered a global issue and their medical treatments are commonly challenging to manage. Traditional medicines have used natural products for thousands of years to prevent and treat various diseases. Recent studies have revealed that the pharmacological impacts of herbs are primarily determined by their phytochemical constituents. Therefore, understanding plant chemistry is crucial for the therapeutic use of medicinal plants. In this review, we first introduced some medicinal plants that have the potential to be beneficial for treating liver diseases and disorders, based on Traditional Persian Medicine (TPM) textbooks. Subsequently, we investigated the secondary metabolites of these medicinal plants by analyzing pharmacological research collected from electronic databases. We also discussed their scientific and family names. According to TPM textbooks, ۷۷ medical plants have been identified for the treatment of liver defects, belonging to ۴۳ different families. Their secondary metabolites were studied through data obtained from electronic databases such as Google Scholar, PubMed, Science Direct, and Web of Science. These findings suggest that natural plant extracts hold promise for the prevention and treatment of liver diseases.

کلیدواژه ها:

liver ، Medicinal plants ، Phytochemicals ، Secondary metabolites ، Traditional Persian medicine

نویسندگان

Fatemeh Rabizadeh

Farzanegan Campus, Semnan University, Semnan, Iran

Maryam Sadat Mirian

Department of Plant and Animal Biology, Faculty of Biological Science and Technology, University of Isfahan, Isfahan, Iran

مراجع و منابع این مقاله:

لیست زیر مراجع و منابع استفاده شده در این مقاله را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود مقاله لینک شده اند :
  • Yuan H., Ma Q., Ye L., Piao G. The Traditional ...
  • Rabizadeh, F., Mirian, M.S., Doosti, R., Kiani-Anbouhi, R. and Eftekhari, ...
  • Hamedi A., Zarshenas M.M., Sohrabpour M., Zargaran A. Herbal medicinal ...
  • Mollica A., Zengin G., Locatelli M., Stefanucci A., et al. ...
  • Muria‐Gonzalez M.J., Chooi Y.H., Breen S., Solomon P.S. The past, ...
  • Pang Z., Chen J., Wang T., Gao C., et al. ...
  • Lee C.-H., Park S.-W., Kim Y.S., Kang S.S., et al. ...
  • Gao X., Wang Y., Li Y., Wang Y., et al. ...
  • Zhang L., Su S., Zhu Y., Guo J., et al. ...
  • Nimrouzi M., Mahbodi A., Jaladat A.-M., Sadeghfard A., et al. ...
  • Yilmaz B. Chemical constituents of Ajuga chamaepitys (L.) Schreb growing ...
  • Khemkham A., Belhadj S., Meddour R., Kenmoku H., et al. ...
  • Lakshmi P., Rajalakshmi P. Identification of phyto components and its ...
  • Valiei M., Shafaghat A., Salimi F. Chemical composition and antimicrobial ...
  • Canlı K., Yetgin A., Akata I., Altuner E.M. Antimicrobial activity ...
  • Awad H., Awda J.M., Abd-Alssirag M., Allaalfalahi D. GC-mass analysis ...
  • Bylka W., Szaufer‐Hajdrych M., Matławska I., Goślińska O. Antimicrobial activity ...
  • Dhouioui M., Boulila A., Chaabane H., Zina M.S., et al. ...
  • Shah A.J., Gilani A.-H., Abbas K., Rasheed M., et al. ...
  • Zhigzhitzhapova S., Popov D., Pintaeva E.T., Radnaeva L., et al. ...
  • Gibernau M., Favre C., Talou T., Raynaud C. Floral odor ...
  • Kochmarov V., Marinov L., Kozuharova E., Hristova-Avakumova N., et al. ...
  • Wilczewska A.Z., Ulman M., Chilmończyk Z., Maj J., et al. ...
  • Jadhav A., Bhutani K. Steroidal saponins from the roots of ...
  • Zhang H., Birch J., Pei J., Mohamed Ahmed I.A., et ...
  • SR J S.K. Screening of phytochemical and GC-MS analysis of ...
  • Sharma A., Rai P., Prasad S. GC–MS detection and determination ...
  • Popović-Djordjević J., Cengiz M., Ozer M.S., Sarikurkcu C. Calamintha incana: ...
  • Devki G.S., Sisodia R. Screening of the potential phytochemicals from ...
  • Altameme H.J.M. GC-MS and FTIR analysis Phytocomponents on different parts ...
  • Lieb V.M., Esquivel P., Castillo E.C., Carle R., et al. ...
  • Kapoor I.P.S., Singh B., Singh G., De Heluani C.S., et ...
  • Fang R., Jiang C.H., Wang X.Y., Zhang H.M., et al. ...
  • Kazemi M. GC/MS analyses for detection and identification of antioxidant ...
  • Sahaf B.Z., Moharramipour S., Meshkatalsadat M.H. Chemical constituents and fumigant ...
  • Sahu L., Joshi P., Rout O., Sahu A. Phytochemical evaluation ...
  • Singh R., Chahal K.K. Cichorium intybus from India: GC-MS profiling, ...
  • Al-Akhras M.-A.H., Aljarrah K., Al-Khateeb H., Jaradat A., et al. ...
  • Baruah A., Nath S.C., Hazarika A.K., Sarma T.C. Essential Oils ...
  • Bakirtzi C., Tsatalas P., Spanakis M., Kokkalou E. GC-MS analysis ...
  • Singh S., Devi B. Estimation of phytoconstituents from Citrullus colocynthis ...
  • Najjaa H., Neffati M., Zouari S., Ammar E. Essential oil ...
  • Boeing T., Tafarelo Moreno K.G., Gasparotto Junior A., Mota da ...
  • Sharma R.J., Gupta R.C., Bansal A.K., Singh I.P. Metabolite Fingerprinting ...
  • Judzentiene A. Chemical composition of leaf and inflorescence essential oils ...
  • Muthulakshmi A., Mohan V. GC-MS analysis of bioactive components of ...
  • Afifi S.M., El-Mahis A., Heiss A.G., Farag M.A. Gas chromatography–mass ...
  • Păltinean R., Mocan A., Vlase L., Gheldiu A.M., et al. ...
  • Jameel M., Ali A., Ali M. New phytoconstituents from the ...
  • Mustafa A.M., Caprioli G., Maggi F., Vittori S., et al. ...
  • Akhtar R., Shahzad A. Alginate encapsulation in Glycyrrhiza glabra L. ...
  • Singh S., Sharma P.C. Gas chromatography–mass spectrometry (GC–MS) profiling reveals ...
  • Hosokawa K., Fukunaga Y. Production of essential oils by flowers ...
  • Smelcerovic A., Spiteller M., Ligon A.P., Smelcerovic Z., et al. ...
  • Schwob I., Bessiere J., Dherbomez M., Viano J. Composition and ...
  • Morshedloo M.R., Ebadi A., Maggi F., Fattahi R., et al. ...
  • Kara N., Baydar H. Scent components in essential oil, resinoids ...
  • Peris I., Blázquez M.A. Comparative GC-MS analysis of bay leaf ...
  • Hussein H.M. DETERMINATION OF PHYTOCHEMICAL COMPOSITION AND TEN ELEMENTS CONTENT ...
  • Cheriet T., Mancini I., Seghiri R., Benayache F., et al. ...
  • Rehman R.N.U., You Y., Yang C., Khan A.R., et al. ...
  • Al-Qarawi K.K., Al-Obaidi H.M.R. Detection of the active compounds in ...
  • Jabbari H., Shendabadizad R. GC-MS analysis of essential oils of ...
  • Mou K.M., Parvin M.N., Dash P.R. International Journal of Pharmacognosy ...
  • Cudalbeanu M., Furdui B., Cârâc G., Barbu V., et al. ...
  • Intirach J., Junkum A., Lumjuan N., Chaithong U., et al. ...
  • Apetrei L.C., Spac A., Brebu M., Tuchilus C., et al. ...
  • Aloui F., Baraket M., Jedidi S., Hosni K., et al. ...
  • Tumen I., Hafizoglu H., Kilic A., Dönmez I.E., et al. ...
  • Andriana Y., Xuan T.D., Quy T.N., Tran H.-D., et al. ...
  • Assimopoulou A., Papageorgiou V. GC‐MS analysis of penta‐and tetra‐cyclic triterpenes ...
  • Assimopoulou A., Papageorgiou V. GC‐MS analysis of penta‐and tetra‐cyclic triterpenes ...
  • Piccolella S., Nocera P., Carillo P., Woodrow P., et al. ...
  • Saitta M., La Torre G.L., Potortì A.G., Di Bella G., ...
  • Durgawale, T.P., Khanwelkar, C.C. and Pratik, P.D., ۲۰۱۸. Phytochemical analysis ...
  • Tsao R., Zhou T. Interaction of monoterpenoids, methyl jasmonate, and ...
  • Feduraev P., Skrypnik L., Nebreeva S., Dzhobadze G., et al. ...
  • Allaway Z., Sosa A. Chemical study in leaf and fruit ...
  • Shamspur T., Sheikhshoaie I., Afzali D., Mostafavi A., et al. ...
  • Javidnia K., Shokrollahi A., Kazemi M., Shahabipour S. Volatile composition ...
  • Affes S., Ben Younes A., Frikha D., Allouche N., et ...
  • Cabral C., Lemos M., Cavaleiro C., Cruz M., et al. ...
  • Hanifah A., Maharijaya A., Putri S.P., Laviña W.A., et al. ...
  • Giuliani C., Pellegrino R.M., Selvaggi R., Tani C., et al. ...
  • Teles A.M., Silva-Silva J.V., Fernandes J.M.P., Abreu-Silva A.L., et al. ...
  • Jasim S.F., Baqer N.N., Alraheem E. Detection of phytochemical constituent ...
  • Petretto G.L., Mercenaro L., Urgeghe P.P., Fadda C., et al. ...
  • Chinonye I., Oze R., Lynda O., Nkwoada A., et al. ...
  • Song L., Zheng J., Zhang L., Yan S., et al. ...
  • Huang K., Zhang P., Zhang Z., Youn J.Y., et al. ...
  • Ren J.L., Zhang A.H., Wang X.J. Traditional Chinese medicine for ...
  • Fettach S., Mrabti H.N., Sayah K., Bouyahya A., et al. ...
  • Abubakar A.M., Dibal N.I., Attah M.O.O., Chiroma S.M. Exploring the ...
  • Bai L., Cui X., Cheng N., Cao W., et al. ...
  • Shen X., Tang Y., Yang R., Yu L., et al. ...
  • AlSaid M., Mothana R., Raish M., Al-Sohaibani M., et al. ...
  • Ali S., Prasad R., Mahmood A., Routray I., et al. ...
  • Selles C., Medjdoub H., Dib M.E.A., Zerriouh M., et al. ...
  • Shabbir U., Anjum I., Naveed Mushtaq M., Nasir Hayat Malik ...
  • Sukketsiri W., Chonpathompikunlert P., Tanasawet S., Choosri N., et al. ...
  • Amat N., Upur H., Blažeković B. In vivo hepatoprotective activity ...
  • Sunday R.M., Obuotor E.M., Kumar A. Antidiabetic Effect of Asparagus ...
  • Shaban N.Z., El-Kot S.M., Awad O.M., Hafez A.M., et al. ...
  • Sangsefidi Z.S., Yarhosseini F., Hosseinzadeh M., Ranjbar A., et al. ...
  • Vakiloddin S., Fuloria N., Fuloria S., Dhanaraj S.A., et al. ...
  • Sharma P., Bodhankar S.L., Thakurdesai P.A. Protective effect of aqueous ...
  • Fatima S., Akhtar M.F., Ashraf K.M., Sharif A., et al. ...
  • Mihailović V., Katanić J., Mišić D., Stanković V., et al. ...
  • Abd-Al-Sattar Sadiq Layl L. Hepatoprotective effect of Glycyrrhiza glabra L. ...
  • Al-Razzuqi R., Al-Jawad F., Al-Hussaini J., Al-Jeboori A. Hepatoprotective effect ...
  • Geetha S., Jayamurthy P., Pal K., Pandey S., et al. ...
  • Nawaz M.A., Aleem A., Hussain S.A., Manzoor M., et al. ...
  • Gasparyan G., Tiratsuyan S., Kazaryan S., Vardapetyan H. Effect of ...
  • Feng J., Gao H., Yang L., Xie Y., et al. ...
  • Mohammed D.M., Elsayed N., Abou Baker D.H., Ahmed K.A., et ...
  • Mallhi T.H., Abbas K., Ali M., Qadir M.I., et al. ...
  • Ali S., Ansari K.A., Jafry M., Kabeer H., et al. ...
  • Bakr R.O., El-Naa M.M., Zaghloul S.S., Omar M.M. Profile of ...
  • Janakat S., Al-Merie H. Evaluation of hepatoprotective effect of Pistacia ...
  • Asadian S., Moallem S.A., Moshiri M., Mansouri M., et al. ...
  • Mavridis S., Gortzi O., Lalas S., Paraschos S., et al. ...
  • Qiao J.-Y., Li H.-W., Liu F.-G., Li Y.-C., et al. ...
  • Sedaghat R., Roghani M., Ahmadi M., Ahmadi F. Antihyperglycemic and ...
  • Khan S.W., Tahir M., Lone K.P., Munir B., et al. ...
  • Patel B., Patel J., Raval B. Hepatoprotective activity of Saccharum ...
  • Qadir M.I., Ali M., Saleem M., Hanif M. Hepatoprotective activity ...
  • Azari Z., Kherullahi Z., Mohammadghasemi F., Aghajany Nasab M., et ...
  • Liu T., Zhao J., Ma L., Ding Y., et al. ...
    • نمایش کامل مراجع