African Journal of
Biotechnology

  • Abbreviation: Afr. J. Biotechnol.
  • Language: English
  • ISSN: 1684-5315
  • DOI: 10.5897/AJB
  • Start Year: 2002
  • Published Articles: 12421

Full Length Research Paper

Studies of Salvia officinalis leaf extract on some biochemical parameters in rats induced with overdosed-tramadol

Mokogwu A. T. H.
  • Mokogwu A. T. H.
  • Department of Medical Laboratory Science, Faculty of Sciences, Delta State University, Abraka, Nigeria.
  • Google Scholar
Adjekuko C. O.
  • Adjekuko C. O.
  • Department of Biological Sciences, University of Delta, Agbor, Nigeria.
  • Google Scholar
Oshilonyah H. U.
  • Oshilonyah H. U.
  • Department of Biological Sciences, University of Delta, Agbor, Nigeria.
  • Google Scholar
Avwioro O. G.
  • Avwioro O. G.
  • Department of Medical Laboratory Science, Faculty of Sciences, Delta State University, Abraka, Nigeria.
  • Google Scholar


  •  Received: 21 April 2022
  •  Accepted: 05 July 2022
  •  Published: 31 August 2022

References

Abdelkader M, Ahcen B, Rachid D, Hakim H (2014). Phytochemical study and biological activity of Sage (Salvia officinalis L.). International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering 8(11):1231-1235.

 

Abu-Darwish MS, Abu-Dieyeh ZH, Al-Fraihat AH, Al-dalain SY, Afifi FU, Al-Tabbal JA (2010). Determination of essential oils and heavy metals accumulation in Salvia officinalis scultivated in three intra-raw spacing in ash-shoubak, Jordan. International Journal of Agriculture & Biology 13(6):981-985.

 

Al-Barazanjy RK, Dizaye K, Al-Asadye AA (2013). Cytotoxic and cytogenetic effects of salvia officinalis on different tumor cell lines. Middle East Journal of Internal Medicine 63(902):1-11.

 

Alimpi A, Kne A, Milutinovi M, Stevi T, Katarina S, Staji M, Marin PD, Matevski V, Duleti S (2017). Biological activities and chemical composition of Salvia amplexicaulis Lam. extracts. Industrial crops and products105:1-9.
Crossref

 

Alimpic A, Kotur N, Stankovic B, Marin PD, Matevski V, Sheef NBAl, Duletic-Lauševic S (2015). The in vitro anti-oxidative and cytotoxic effects of selected Salvia species water extracts. Journal of Applied Botany and Food Quality 88(1):115-119.

 

Atici S, Cinel I, Cinel L, Doruk N, Eskandari HG, Oral U (2005). Liver and kidney toxicity in chronic use of opioids: An experimental long term treatment model. Journal of Biosciences 30(2):245-252.
Crossref

 

Avato P, Fortunato I, Ruta C, D' Elia R (2005). Glandular hairs and essential oils in micro propagated plants of Salvia officinalis L. Plant Science 169(1):29-36.
Crossref

 

Baranauskiene R, Dambrauskiene E, Venskutonis P (2011). Influence of harvesting time on the yield and chemical composition of Sage (Salvia officinalis L.). Foodbalt pp. 104-109.

 

Bommer S, Klein P, Suter A (2011). First time proof of sage's tolerability and efficacy in menopausal women with hot flushes. Advances in Therapy 28(6):490-500.
Crossref

 

Buzanovskii V (2018). Determination of Sodium in Blood. Review Journal of Chemistry 8:197-222.
Crossref

 

Carroll CP, Walsh SL, Bigelow GE, Strain EC, Preston KL (2006). Assessment of agonist and antagonist effects of tramadol in opioid-dependent humans. Experimental and Clinical Psychopharmacology 14(2):109-120.
Crossref

 

Dacie JV, Lewis SM (2001). Practical haematology 9th edition. Edited by Lewis SM, Bain BJ, Bates I. Churchill Living-stone, Edinburgh London. Chapter on Basic Haematological Techniques pp. 19-46.

 

Darwish MSA (2014). Essential oil variation and trace metals content in Garden sage (Salvia officinalis) grown at different environmental condition. Journal of Agricultural Science 6(3):209-214.
Crossref

 

DePriest AZ, Puet BL, Holt AC, Roberts A, Cone EJ (2015). Metabolism and disposition of prescription Opioids: A Review. Forensic Science Review 27(2):115-145.

 

Devin SR, Devin KR, Tamizgran M (2021). Sage and treatment of diseases: A mini review. American Journal of Biomedical Science & Research 15(1):108-109.
Crossref

 

Dogan Y (2004). A source of healing from past to today: Salvia officinalis. Journal of Nature Environmental Culture, No.3, Izmir.

 

El-Feky AM, Aboulthana WM (2016). Phytochemical and Biochemical Studies of Sage (Salvia officinalis L.). Pharmaceutical and Biosciences Journal 4(5):56-62.
Crossref

 

El-Gaafarawi II (2006). Biochemical toxicity induced by tramadol administration in male rats. Egyptian Journal of Hospital Medicine 23(1):353-362.
Crossref

 

Elkhateeb AEl, Khishin I, Megaheb O, Mazem F (2015). Effect of Nigella sativa enantiomers or metabolites in mice. Journal of Pharmacology and Experimental Therapeutics 325(2):500-506.

 

Garcia C, Menti CF, Lambert A, Thiago, Barcellos, Moura S (2016). Pharmacological perspectives from Brazilian Salvia officinalis (Lamiaceae): antioxidant, and antitumor in mammalian cells. Anais da Academia Brasileira de Ciências 88:281-292.
Crossref

 

Ghorbani A, Esmaeilizadeh M (2017). Pharmacological properties of Salvia officinalis and its components. Journal of Traditional and Complementary Medicine 7(4):433-440.
Crossref

 

Gjerde H, Marland J (1985). Determination of gamma glutamyltransferase in completely haemolysed blood samples. Scandinavian Journal of Clinical and Laboratory Investigation 45(7):661-664.
Crossref

 

Hamidpour M, Hamidpour R, Hamidpour S, Shahlar M (2014). Chemistry, pharmacology, and medicinal property of sage (Salvia) to prevent and cure illnesses such as obesity, diabetes, depression, dementia, lupus, autism, heart disease, and cancer. Journal of Traditional and Complementary Medicine 4(2):82-88.
Crossref

 

Hassanian-Moghaddam H, Farajidana H, Sarjami S, Owliaey H (2013). Tramadol-induced apnea. American Journal of Emergency Medicine 31(1):26-31.
Crossref

 

Henry RJ (1964). Clinical Chemistry, Principles and Techniques. Hoeber Medical Division pp. 403-408.

 

Jensen-Ortho, Inc. Tramacet: A Product Monograph (2005). Pp. 1-36.

View

 

Kadhim SU, Mohammed MT, Ahmed OM, Jassim AMN (2016). Study of some Salvia officinalis L. (Sage) components and effect of their aqueous extract on antioxidant. International Journal of Chemical Sciences 14(2):711-719.

 

Keshavarz M, Bidmeshkipour A, Mostafael A, Monsouri K, Mohamadi MH (2011). Anti-tumor activity of Salvia officinalis is due to its anti-angiogenic, anti-migratory and anti-proliferative effects. Cell Journal 12(4):477-482.

 

Khalil K, Li ZG (2011). Antimicrobial activity of essential oil of Salvia officinalis L. collected in Syria. African Journal of Biotechnology 10(42):8397-8402.
Crossref

 

Khan A, Ur RN, Alkharty KM, Gilani AH (2011). Antidiarrheal and antispasmodic activities of Salvia officinalis are mediated through activation of K+ channels. Bangladesh Journal of Pharmacology 6(2):111-116.
Crossref

 

Khiya Z, Hayani M, Gamar A, Kharchouf S, Amine S, Berrekhis F, Bouzoubae A, Zair T, Hilali FE (2019). Valorization of the Salvia officinalis L. of the Morocco bioactive extracts: Phyto-chemistry, antioxidant activity and corrosion inhibition. Journal of King Saud University-Science 31(3):322-335.
Crossref

 

Kind PRN, King EJ (1954). Estimation of plasma phosphatase by determination of hydrolysed phenol with 4-amino-antipyrine. Journal of Clinical Pathology 7(4):322-326.
Crossref

 

Kontogianni VG, Tomic G, Nikolic I, Nerantzaki AA, Sayyad N, Stosic-Grujicic S, Stojanovic I, Gerothanassis IP, Tzakos AG (2013). Phytochemical profile of Rosmarinus officinalis and Salvia officinalis extracts and correlation to their antioxidant and anti-proliferative activity. Food Chemistry 136(1):120-129.
Crossref

 

Lamari Z, Larbi R, Yagoubi B (2011).Trace element content of ginger and sage medicinal plants from Algeria. Health 3(9):542-544.
Crossref

 

Lima CF, Andrade PB, Rosa MS, Fermandes MF, Wilson CP (2005). The drinking of a Salvia officinalis infusion improves liver antioxidant status in mice and rats. Journal of Ethnopharmacology 97(2):383-389.
Crossref

 

Lipscombe T, Lipscombe CB (2021). Ideal body weight formulas in relation to body mass index and reference heights Medicina Internacia Revuo 29(2):93-98.

 

Malloy HT, Evelyn KA (1937). The determination of bilirubin with photoelectric photometer. Journal of Biological Chemistry 119(2):481-483.
Crossref

 

March WH, Fuigerhut B, Millea H (1965). Authomated and manual direct methods for the determination of blood urea. Clinical chemistry 11(6):624-627.
Crossref

 

Marcono L, Hasenaira D (1991). Analysis of phytochemicals in leaves and seeds. Agronomy Journal 83:445-452.

 

Matthiesen T, Wohrmann T, Coogan TP, Uragg H (1998). The experimental toxicology of tramadol: an overview. Toxicology Letters 95(1):63-71.
Crossref

 

Miotto K, Cho AK, Khalil MA, Blanco K, Sasaki JD, Rawson R (2017). Trends in tramadol: pharmacology, metabolism, and misuse. Anesthesia & Analgesia 124(1):44-51.
Crossref

 

Mohamed HM, Mahmoud AM (2019). Chronic exposure to the opioid tramadol induces oxidative damage, inflammation and apoptosis, and alters cerebral monoamine neurotransmitters in rats. Biomedicine & Pharmacotherapy 110:239-247.
Crossref

 

Mokogwu ATH, Okorie UP, Digban KA, Abubakar A, Mokogwu EE (2014). Phytochemical and trace element analysis of Vernonia amygdalina (Bitter Leaf) in different locations in Nigeria. African Journal of Cellular Pathology 3(12):44-50.
Crossref

 

Moss S, Henderson AR (1999). Clinical Enzymology. In: Burtis CA, and Ashwood ER, Eds., Tietz Textbook of Clinical Chemistry, 3rd Edition, Saunders, Philadephia pp. 617-677.

 

Nehu B, Anand P (2005). Oxidative damage following chronic aluminium exposure in adult and pup rat brains. Journal of Trace Elements in Medicine and Biology 19(2-3):203-208.
Crossref

 

Ninomiya K, Matsuda H, Shimoda H, Nishida N, Kasajima N, Youshino T, Morikawa T, Yoshikawa M (2004). Canosic acid, a new class of lipid absorption inhibitior from sage. Bioorganic & Medicinal Chemistry Letters 14(8):1943-1946.
Crossref

 

Noori S, Mahboobe T (2010). Antioxidant effect of carnosine pretreatment on cisplatin-induced renal oxidative stress in rats. Indian Journal of Clinical Biochemistry 25(1):86-91.
Crossref

 

Owoade AO, Adetutu A, Olorunmisola OS (2019). Hematological and biochemical changes in blood, liver and kidney tissues under the effect of tramadol treatment. Journal of Alcoholism & Drug Dependence 7(5):327-341.
Crossref

 

Padhye S, Banargee S, Amad A, Mohammad R, Sarker FH (2008). From here to eternity-the secret of Pharaohs: Therapeutic potential of black cumin seeds and beyond. Cancer Therapy 6:495-510.

 

Raal A, Orav A, Arak E (2007). Composition of the essential oil of Salvia officinalis L. from various European countries. Natural Product Research 21(5):406-411.
Crossref

 

Raffa RB, Stone DJ Jr (2008). Unexceptional seizure potential of tramadol or its enantiomers or metabolites in mice. Journal of Pharmacology and Experimental Therapeutics 325(2):500-506.
Crossref

 

Reinhold JG (1953). Total proteins, albumin and globulin. In: Reiner, M. (ed.). Standard Methods of Clinical Chemistry, New York Academic Press 71:88.
Crossref

 

Reitman S, Frankel S (1957). A colorimetric method for the determination of serum glutamic oxalacetic and glutamic pyruvic transaminases American Journal of Clinical Pathology 28(1):56-63.
Crossref

 

Robinson LG, Pugh ER (1958). The determination of serum cholesterol; use of Liebermann-burchard reagent. US Armed Forces Medical Journal 9(4):501-506

 

Rodrigues MRA, Kanazawa LKS, Neves TLM, Das H, Silva C, Da F, Horst H, Pizzolatti MG, Santos ARS, Baggio CH, Werner MFDP (2012). Antinociceptive and anti-inflammatory potential of extract and isolated compounds from the leaves of Salvia officinalis in mice. Journal of Ethnopharmacology 139(2):519-526.
Crossref

 

Rowlands M (2013). Animals' rights. edn. Wiley Online Library, New Jersey.
Crossref

 

Sarhan MA, Selim K, Ibrihem K, Roby M (2013). Evaluation of antioxidant activity, total phenols and phenolic compounds in thyme (Thymus vulgaris L.), sage (Salvia officinalis L.), and marjoram (Origanum majorana L.) extracts. Industrial Crops and Products 43(1):827-831.
Crossref

 

Shahidi F, Chavan UD, Bal AK, McKenzie DB (1999). Chemical composition of beach pea (Lathyrus maritimus L) plant parts. Food chemistry 64(1):39-44.
Crossref

 

Slamenova D, Masterova I, Labaj J, Horvathova H, Kubala P, Jakubikova J, Wsolova L (2004). Cytotoxic and DNA-damaging effects of diterpenoid quinones from the root of Salvia officinalis L on colonic and hepatic human cells cultured in vitro. Basic & clinical pharmacology & toxicology 94(6):282-290.
Crossref

 

Sobel AE, Eichen S (1952). Direct Titrimetric Method for Determination of Carbonates in Small Amounts of Serum. Proceedings of the Society for Experimental Biology and Medicine 79(4):629-633.
Crossref

 

Stagos D, Portesis N, Spanou C, Mossialos D, Aligiannis N, Chaita E, Panagoulis C, Reri E, Skaltsounis L, Tsatsakis AM, Kouretas D (2012). Correlation of total polyphenolic content with antioxidant and antibacterial activity of 24 extracts from Greek domestic Lamiaceae species Food and Chemical Toxicology 50(11):4115-4124.
Crossref

 

?tef DS, Gergen I, Tra?ca TI, H?rm?nescu M, ?tef L, Drug? M, Heghedu?-Mîndru G (2010). Screening of 33 medicinal plants for the microelements content. Animal Science and Biotechnologies 43(1):127-132.

 

United Nation Office of Drug and Crime (UNODC) (2017). United Nation word drug report.

 

Vazarova B, Stefan N, Lindsay SR, Serani A, Pratley ER, Bogardus C, Tatarnni AP (2002). High alanine aminotransferase is associated with decreased hepatic insulin sensitivity and predicts the development of type 2 diabetes. Diabetes 51(6):1889-1895.
Crossref

 

Watson W, Litovitz TI, Klein-Schwarze W, Rogers GC, Youniss J, Reid N (2004). Annual report of the American Association of Poison Control Centres Toxic Exposure Surveillance System (Ultran). American Journal of Emergency Medicine 23(5)335-404.
Crossref

 

Wong ST, Spoo J, Kerst KC, Spring TG (1985). Colorimetric determination of potassium in whole blood, serum, and plasma. Clinical Chemistry 31(9):1464-1467.
Crossref

 

Wu WN, McKown LA, Liao S (2002). Metabolism of the analgesic drug ULTRAM®(tramadol hydrochloride) in humans: API-MS and MS/MS characterization of metabolites. Xenobiotica 32(5):411-425.
Crossref