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Bioimpacts. 2014;4(3): 113-116. doi: 10.15171/bi.2014.003
PMID: 25337463        PMCID: PMC4204035

Short Communication

Anti-hyperglycemic activity of Caralluma umbellata Haw.

Pavan Kumar Bellamakondi 1 * , Ashok Godavarthi 1, Mohammed Ibrahim 2

Cited by CrossRef: 11


1- Ngobeni B, Manduna I, Malebo N, Mashele S. Potential therapeutic effects of Hermannia depressa N.E.Br. root extracts. Journal of Medicinal Plants for Economic Development. 2024;8(1) [Crossref]
2- Ali A, Mashwani Z, Raja N, Mohammad S, Ahmad M, Luna-Arias J. Antioxidant and Hypoglycemic Potential of Phytogenic Selenium Nanoparticle- and Light Regime-MediatedIn Vitro Caralluma tuberculataCallus Culture Extract. ACS Omega. 2024;9(18):20101 [Crossref]
3- Okoduwa S, Mhya D, Abdulwaliyu I, Igiri B, Okoduwa U, Arthur D, Laleye A, Osang G, Onaleye O, Nathyns-Pepple E. Phytomedicine approach for management of diabetes mellitus: an overview of scientifically confirmed medicinal plants with hypoglycaemic properties and their probable mechanism of action. Phytochem Rev. 2024; [Crossref]
4- Shalabi A, El Halawany A, Choucry M, El-Sakhawy F, Morita H, Ki D, Abdel-Sattar E. New pregnane glycosides from Caralluma hexagona Lavranos and their in vitro α-glucosidase and pancreatic lipase inhibitory effects. Phytochemistry Letters. 2020;36:49 [Crossref]
5- Sattar S, Ali F, Iftikhar M, Saleem A, Maha M, Wajid M, Nisar M. Biological Components in Cucumbers (Cucumis Sativus L.): Implications for Pickle Manufacturing and Health Benefits in Fresh and Processed Varieties. Qeios. 2024; [Crossref]
6- B, Ibrar M, Rauf A, Ben Hadda T, Mubarak M, Patel S. Quantitative ethnobotanical survey of medicinal flora thriving in Malakand Pass Hills, Khyber Pakhtunkhwa, Pakistan. Journal of Ethnopharmacology. 2015;169:335 [Crossref]
7- Ouassou H, Zahidi T, Bouknana S, Bouhrim M, Mekhfi H, Ziyyat A, Legssyer A, Aziz M, Bnouham M, Harris C. Inhibition of α‐Glucosidase, Intestinal Glucose Absorption, and Antidiabetic Properties by Caralluma europaea. Evidence-Based Complementary and Alternative Medicine. 2018;2018(1) [Crossref]
8- Salehi B, Ata A, V. Anil Kumar N, Sharopov F, Ramírez-Alarcón K, Ruiz-Ortega A, Abdulmajid Ayatollahi S, Valere Tsouh Fokou P, Kobarfard F, Amiruddin Zakaria Z, Iriti M, Taheri Y, Martorell M, Sureda A, N. Setzer W, Durazzo A, Lucarini M, Santini A, Capasso R, Adrian Ostrander E, -ur-Rahman A, Iqbal Choudhary M, C. Cho W, Sharifi-Rad J. Antidiabetic Potential of Medicinal Plants and Their Active Components. Biomolecules. 2019;9(10):551 [Crossref]
9- El-shiekh R, Al-Mahdy D, Hifnawy M, Abdel-Sattar E. In-vitro screening of selected traditional medicinal plants for their anti-obesity and anti-oxidant activities. South African Journal of Botany. 2019;123:43 [Crossref]
10- Heidari H, Kamalinejad M, Noubarani M, Rahmati M, Jafarian I, Adiban H, Eskandari M. Protective mechanisms of Cucumis sativus in diabetes-related models of oxidative stress and carbonyl stress. Bioimpacts. 2016;6(1):33 [Crossref]


As a peer-reviewed international open-access journal, BioImpacts publishes articles on basic and translational aspects of pharmaceutical and biomedical sciences. 
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