Myrtle (Myrtus communis L.) and potential health effects

Year 2020, Volume: 3 Issue: 3, 205 - 214, 31.12.2020

Seliz Bagcilar , Ceren Gezer

Abstract

Myrtus communis L., the common myrtle, is a plant which can be found in the Mediterranean and Middle East regions. The aim of the study is to evaluate the effects of myrtle on the human health. The fruit of myrtle has a unique flavour and can be in two different colours as black or white. Since ancient times, myrtle has been reported to be used in traditional medicine as a food and spice in the treatment of diarrhoea, peptic ulcer, bleeding, headache, palpitations, urethritis, conjunctivitis, pulmonary and skin diseases. In several studies, it has shown that different parts of the myrtle plant contain various bioactive compounds. The leaves of the plant contain quercetin, catechin and myricetin; its fruit contains phenolic compounds and anthocyanin. In the studies investigating the health effects of the myrtle plant, essential fatty acids obtained mostly from various parts of the plant, such as leaves, roots and fruits, were used. Essential fatty acids obtained from the plant are used in scientific and commercial fields such as cosmetics, medicine, food industry, aromatherapy and phytotherapy. It has been thought that positive effects on health due to the bioactive compounds contained in different parts of the myrtle plant. In previous studies, it has been found that the plant has antioxidant, antimicrobial, antidiabetic, antiinflammatory, anti-ulcerative and antidiarrheal activities. However, it has been observed that most of these studies are animal studies and thus more human studies are needed.

Keywords

antimicrobial, antioxidant, myrtus communis Linn, myrtle

References

• Akin M, Aktumsek A, Nostro A (2010). Antibacterial activity and composition of the essential oils of Eucalyptus camaldulensis Dehn. and Myrtus communis L. growing in Northern Cyprus. Afr J Biotechnol 9(4): 531-535.
• Aksay S (2016). Total phenolic content and antioxidant properties of various extracts of myrtle (Myrtus communis L.) berries. Cukurova Tarim Gida Bil Der 31(2): 43-50.
• Aleksic V, Knezevic P (2014). Antimicrobial and antioxidative activity of extracts and essential oils of Myrtus communis L. Microbiol Res 169(4): 240-254.
• Alipour G, Dashti S, Hosseinzadeh H (2014). Review of pharmacological effects of Myrtus communis L. and its active constituents. PHYRE 28(8): 1125-1136.
• American Diabetes Association (2014). Diagnosis and classification of diabetes mellitus. Diabetes Care 37(1): 81-S90.
• Asgarpanah J, Ariamanesh A (2015). Phytochemistry and pharmacological properties of Myrtus communis L. IJTK 1(1): 82-87.
• Aydin C, Ozcan MM (2007). Determination of nutritional and physical properties of myrtle (Myrtus communis L.) fruits growing wild in Turkey. J Food Eng 79: 453-458.
• Boeckxstaens GE, Annese V, Varannes SB, Chaussade S, Costantini M, et al. (2011). Pneumatic dilation versus laparoscopic heller’s myotomy for idiopathic achalasia. N Engl J Med 364(19): 1807-1816.
• Cherrat L, Espina L, Bakkali M, Garcia-Gonzalo D, Pagan R, et al. (2014). Chemical composition and antioxidant properties of Laurus nobilis L. and Myrtus communis L. essential oils from Morocco and evaluation of their antimicrobial activity acting alone or in combined processes for food preservation. J Sci Food Agric 94: 1197-1204.
• Correddu F, Maldini M, Addis R, Petretto GL, Palomba M, et al. (2019). Myrtus communis Liquor Byproduct as a Source of Bioactive Compounds. Foods 8(7): 237.
• Costa SF, Alexander BD (2009). Epidemiology of fungal infections: what, where, and when. In: Ghannoum, MA, Perfect, JR, editors. Antifungal therapy. 1st ed. New York: Taylor & Francis Group, LLC 11-49.
• Dahmoune R, Nayak B, Moussi K, Remini H, Madani K (2015). Optimization of microwave-assisted extraction of polyphenols from Myrtus communis L. leaves. Food Chem 166: 585-595.
• Demir GM, Gulaboglu M, Aggul AG, Baygutalp NK, Canayakin D, et al. (2016). Antioxidant and antidiabetic activity of aqueous extract of Myrtus communis L. Berries on streptozotocin-induced diabetic rats. Int J Pharm Biol Sci 11(5): 183-190.
• Donmez LE, Salman H (2017). Volatile compounds of myrtle (Myrtus communis L.) leaves and berries. Turk J Agric For 18(4): 328-332.
• Douhri H, Raissouni I, Amajoud N, Belmehdi O, Benchakhtir M, et al. (2017). Antibacterial effect of ethanolic extracts of Moroccan plant against Escherichia coli. J Mater Environ Sci 8(12): 4408-4414.
• European Food Safety Authority and European Centre for Disease Prevention and Control (EFSA and ECDC). (2018). The European Union summary report on trends and sources of zoonoses, zoonotic agents and food‐borne outbreaks in 2017. EFSa Journal 16(12): e05500.
• Fock KM, Poh CH (2010). Gastroesophageal reflux disease. J Gastroenterol 45: 808-815.
• Ghasemi E, Raofie F, Najafi NM (2011). Application of response surface methodology and central composite design for the optimisation of supercritical fluid extraction of essential oils from Myrtus communis L. leaves. Food Chem 126: 1449-1453.
• Hashemipour MA, Lotfi S, Torabi M, Sharifi F, Ansari M, et al. (2017). Evaluation of the effects of three plant species (Myrtus communis L., Camellia sinensis L., Zataria multiflora Boiss.) on the healing process of intraoral ulcers in rats. J Dent Shiraz Univ Med Sci 18(2):127-135.
• Hayder N, Bouhlel I, Skandrani I, Kadri M, Steiman R, et al. (2008). In vitro antioxidant and antigenotoxic potentials of myricetin-3-o-galactoside and myricetin-3-o-rhamnoside from Myrtus communis: Modulation of expression of genes involved in cell defence system using cDNA microarray. Toxicology In Vitro 22(3): 567-581.
• Hsouna AB, Hamdib N, Miladi R, Abdelkafi S (2014). Myrtus communis essential oil: Chemical composition and antimicrobialactivities against food spoilage pathogens. Chem Biodivers 11(4): 571-80.
• Kahn MA, Hall JM (2014). The American dental association practical guide to soft tissue oral disease. 1st ed. p. 5-6 Chichester: John Wiley & Sons, Incorporated.
• Kordali S, Usanmaz A, Cakir A, Komaki A, Ercisli S (2016). Antifungal and herbicidal effects of fruit essential oils of four Myrtus communis Genotypes. Chem Biodivers 13(1): 77-84.
• Lobo V, Patil A, Phatak A, Chandra N (2010). Free radicals, antioxidants and functional foods: Impact on human health. Pharmacogn Rev 4(8): 118-126.
• Mahmoudvand H, Ezzatkhah F, Sharififar F, Sharifi I, Dezaki ES (2015). Antileishmanial and cytotoxic effects of essential oil and methanolic extract of Myrtus communis L. Korean J Parasitol 53(1): 21-27.
• McErlean L (2016). The digestive system. In: Peate I, Nair M, editors. Fundamentals of anatomy and physiology: for nursing and healthcare students. 2nd ed. p. 412-414 Chicester, England: John Wiley & Sons, Incorporated.
• Messaoud C, Béjaoui A, Boussaid M (2011). Fruit color, chemical and genetic diversity and structure of Myrtus communis L. var. italica Mill. morph populations. Biochem Syst Eco 39: 570-580.
• Messaoud C, Laabidi A, Boussaid M (2012). Myrtus communis L. infusions: The effect of infusion time on phytochemical composition, antioxidant, and antimicrobial activities. J Food Sci 77(9): C941-7.
• Mimica-Dukić N, Bugarin D, Grbović S, Mitić-Ćulafić D, Vuković-Gačić B, et al. (2010). Essential oil of Myrtus communis L. as a potential antioxidant and antimutagenic agents. Molecules 15(4): 2759-2770.
• Percário S, da Silva Barbosa A, Varela E, Gomes A, Ferreira M, et al. (2020). Oxidative Stress in Parkinson's Disease: Potential Benefits of Antioxidant Supplementation. Oxid Med Cell Longev 2360872.
• Salehi M, Azizkhani M, Mobli M, Shakeri R, Saberi-Firoozi M, et al. (2017). The effect of Myrtus communis L. Syrup in reducing the recurrence of gastroesophageal reflux disease: A double-blind randomized controlled trial. Iran Red Crescent Med J 19(7).
• Scorrano S, Lazzoi MR, Mergola L, Di Bello MP, Del Sole R et al. (2017). Anthocyanins profile by Q-TOF LC/MS in Myrtus communis berries from Salento Area. Food Anal Methods 10(7): 2404-2411.
• Serreli G, Jerković I, Gil KA, Marijanović Z, Pacini V et al. (2017). Phenolic compounds, volatiles and antioxidant capacity of white myrtle berry liqueurs. Plant Foods Hum Nutr 72: 205-210.
• Sisay M, Engidawork E, Shibeshi W (2017). Evaluation of the antidiarrheal activity of the leaf extracts of Myrtus communis L. (Myrtaceae) in mice model. BMC Compl Alternative Med 17(1):103.
• Skrovankova S, Sumczynski D, Mlcek J, Jurikova T, Sochor J (2015). Bioactive compounds and antioxidant activity in different types of berries. Int J Mol Sci. 16(10): 24673-24706.
• Soke P, Elmaci Y (2015). Processing of candies from black and white myrtle (Myrtus communis L.) Akademik Gıda 13(1): 35-41.
• Sumbul S, Ahmad M A, Asif M, Akhtar M (2011). Myrtus communis L. A review. IJNPR 2(4): 395-402.
• Touaibia M (2017). Composition and anti-inflammatory effect of the common myrtle (Myrtus communis L.) essential oil growing wild in Algeria. Phytothérapie 1-6.
• World Health Organization (2020). Diarrhoea. Retrieved 26 November 2020, from https://www.who.int/topics/diarrhoea/en/
• Yadegarinia D, Gachkar L, Rezaei MB, Taghizadeh M, Astaneh SA, et al. (2006). Biochemical activities of Iranian Mentha piperita L. and Myrtus communis L. essential oils. Phytochem 67: 1249-1255.
• Yangui I, Boutiti MZ, Boussaid M, Messaoud C (2017). Essential oils of Myrtaceae species growing wild in Tunisia: Chemical variability and antifungal activity against Biscogniauxiamediterranea, the causative agent of Charcoal Canker. Chem Biodiversity 14(7): 1-13.