An Evidence-Based Review on Selected Traditional Formulations against Pediculosis
Abstract
Pediculosis is a growing social problem in both developed and undeveloped countries. Resistance to chemical treatments and toxicity of insecticidal compounds are reasons why alternative medications should be proposed for this parasitic infestation. This study attempted to investigate traditional anti-lice treatments, and draw together scientific insights into lice management through the study of Persian Medicine manuscripts. Lice infestation formulations were searched in seven traditional textbooks (al-Manṣuri fi al-ṭibb, al-Qanun fi al-ṭibb, Kamil al-ṣina‘ah al-ṭibbiyah, Qarabadin Kabir, Qarabadin Salehi, Makhzan al-Adviyeh, Eksir Azam) pertaining to one millennium period, from the 9th to 19th century. Twenty multi-component medications were selected for the study of ingredients and their active compounds. PubMed, Google Scholar, and Scopus were searched to find pediculicidal or insecticidal evidence. In vitro studies and clinical trials reporting anti-lice and/or insecticidal activities were summarized. Formulations had four kinds of base (oil, vinegar, alcohol, or water). Oils act through occluding the respiratory spiracles of lice. Vinegar loosens the attachment between nits and hair shaft, improving the removal of nits from hair. Essential oil- and tannin-containing plants made up the majority of anti-lice components in the current study. Seventeen out of twenty-seven medicinal plants were reported to have pediculicidal and/or insecticidal activity. Considering the results, further investigation leads to the designing new treatments against pediculosis.
Sangaré AK, Doumbo OK, Raoult D. Management and treatment of human lice. Biomed Res Int 2016;2016:8962685.
Nazari M, Goudarztalejerdi R, Anvari PM. Pediculosis capitis among primary and middle school children in Asadabad, Iran: An epidemiological study. Asian Pac J Trop Biomed 2016;6:367-370.
Candy K, Nicolas P, Andriantsoanirina V, Izri A, Durand R. In vitro efficacy of five essential oils against Pediculus humanus capitis. Parasitol Res 2018;117:603-609.
Dagrosa AT, Elston DM. What's eating you? head lice (Pediculus humanus capitis). Cutis 2017;100:389-392.
Rezaee E, Heidari F, Nowrouzi M. Investigation of the prevalence of head lice and factors affecting them in infected people referring to Gerash County Health Center. Int J Epidemiol Res 2020;7:58-62.
Saghafipour A, Nejati J, Zahraei Ramazani A, Vatandoost H, Mozaffari E, et al. Prevalence and risk factors associated with head louse (Pediculus humanus capitis) in Central Iran. Int J Pediatr 2017;5:5245-5254.
Clark JM, Yoon KS, Lee SH, Pittendrigh BR. Human lice: Past, present and future control. Pestic Biochem Physiol 2013;106:162-171.
Abdolhosseini S, Mokaberinejad R, Alian Nezhadi V, Bozorgi M, Nazem E. Evaluation of treatment with squill vinegar in 10 patients with head pediculosis. Asian J Clin Case Rep Tradit Altern Med 2017;1:57-64.
Coscione S, Kositz C, Marks M. Head lice: an under-recognized tropical problem. Am J Trop Med Hyg 2017;97:1636-1637.
Gunning K, Pippitt K, Kiraly B, Sayler M. Pediculosis and scabies: a treatment update. Am Fam Physician 2012;86:535-541.
Mathison BA, Pritt BS. Laboratory identification of arthropod ectoparasites. Clin Microbiol Rev 2014;27:48-67.
Gupta RK, Gupta RC. Chapter 68 - Placental Toxicity. In: Reproductive and developmental toxicology. 2nd ed. Ed, RC Gupta. Academic Press, Cambridge, Massachusetts, USA, 2017; pp 1301-1325.
Greive KA, Barnes TM. The efficacy of Australian essential oils for the treatment of head lice infestation in children: A randomised controlled trial. Australas J Dermatol 2018;59:e99-e105.
Watcharawit R, Soonwera M. Pediculicidal effect of herbal shampoo against Pediculus humanus capitis in vitro. Trop Biomed 2013;30:315-324.
Jorjani E. Alaghrazotebie va Almabahesolalaiieh. Tehran University Publisher. Tehran 2005.
Abu al-Rayhan al-Biruni M. Al-Saydanah fi Al-Tibb. Academy of Persian Language and Literature Publisher. Tehran 2004.
Al-Rāzī M. Al-Manṣūrī fī al-ṭibb. Tehran University of Medical Sciences. Tehran 2008.
Nazam Jahan M. Eksir-e-Azam. Almaii. Tehran 2014.
Al-Majūsī A. Kāmil al-ṣinā‘ah al-ṭibbīyah. Jalaleddin Publisher. Qom 2007.
Ibn Sīna H. al-Qānūn fī al-ṭibb. Sorush Publisher. Tehran 1991.
Saleh Harawi M. Qarabadin-e Salehi. Chogan. Tehran 2012.
Aghili Alavi Khorasani Shirazi M. Qarabadin-e Kabir. Iran University of Medical Sciences Publisher. Tehran 2007.
Aghili Alavī Shīrāzi M. Makhzan al-adviyah. Iran University of Medical Sciences Publisher. Tehran 2008.
Momin RA, Nair MG. Mosquitocidal, nematicidal, and antifungal compounds from Apium graveolens L. seeds. J Agric Food Chem 2001;49:142-145.
Kumar S, Mishra M, Wahab N, Warikoo R. Larvicidal, repellent, and irritant potential of the seed-derived essential oil of Apium graveolens against Dengue vector, Aedes aegypti L. (Diptera: Culicidae). Front Public Health 2014;2:147.
Derwich E, Benziane Z, Boukir A. Chemical compositions and insectisidal activity of essential oils of three plants Artemisia sp: Artemisia herba-alba, Artemisia absinthium and Artemisia Pontica (Morocco). Elec J Env Agric Food Chem 2009;8.
Sharifian I, Hashemi SM, Darvishzadeh A. Fumigant toxicity of essential oil of Mugwort (Artemisia vulgaris L.) against three major stored product beetles. Arch Phytopathol Plant Prot 2013;46:445-450.
Jemberie W, Sintayehu A, Masresha G, Asmare Y, Zewodu Z, et al. Evaluation of mosquitocidal activities of Lepidium sativum L. and Millettia ferruginea (Hochst) Baker essential oils against the malaria vector, Anopheles gambiae sensu lato (Diptera: Culicidae). Int J Mosq Res 2019;6:32-38.
Rutkauskis JR, Jacomini D, Temponi LG, Sarragiotto MH, da Silva EA, et al. Pediculicidal treatment using ethanol and Melia azedarach L. Parasitol Res 2015;114:2085-2091.
Khani A, Basavand F. Chemical composition and insecticidal activity of Myrtle (Myrtus communis L.) essential oil against two stored-product pests. J Med Plants By-prod 2012;1:83-89.
Milhau G, Valentin A, Benoit F, Mallié M, Bastide J-M, et al. In vitro antimalarial activity of eight essential oils. J Essent Oil Res 1997;9:329-333.
El-Shazly M, El-Zayat E, Hermersdörfer H. Insecticidal activity, mammalian cytotoxicity and mutagenicity of an ethanolic extract from Nerium oleander (Apocynaceae). Ann Appl Biol 2000;136:153-157.
Yones DA, Bakir HY, Bayoumi SA. Chemical composition and efficacy of some selected plant oils against Pediculus humanus capitis in vitro. Parasitol Res 2016;115:3209-3218.
Ridzuan PM, Afrina A, Atika AR, Nazira CM, Alaina HY, et al. The role of piper species and other herbal preparations as mosquito larvicidal and repellent – Mini review. Int J Med Toxicol Leg Med 2019;22:154-159.
Pasquale R, Controneo A, Iauk L, Dugo G. Composition and biological activity of the fatty seed oil of Delphinium Staphisagria — Note I. Int J Crude Drug Res 2008;23:5-11.
González-Coloma A, Guadaño A, Gutiérrez C, Cabrera R, de la Peña E, et al. Antifeedant Delphinium diterpenoid alkaloids. Structure−activity aelationships. J Agric Food Chem 1998;46:286-290.
Bhinge SD, Bhutkar MA, Randive DS, Wadkar GH, Todkar SS, et al. Screening of hair growth promoting activity of Punica granatum L.(pomegranate) leaves extracts and its potential to exhibit antidandruff and anti-lice effect. Heliyon 2021;7:e06903.
Hamouda AB, Mechi A, Zarred K, Chaieb I, Laarif A. Insecticidal activities of fruit peel extracts of pomegranate (Punica granatum) against the red flour beetle Tribolium castaneum. Tunis J Plant Prot 2014;9:91-100.
Liu ZL, He Q, Chu SS, Wang CF, Du SS, et al. Essential oil composition and larvicidal activity of Saussurea lappa roots against the mosquito Aedes albopictus (Diptera: Culicidae). Parasitol Res 2012;110:2125-2130.
Paliya B, Bajpai R, Jadaun V, Kumar J, Kumar S, et al. The genus Usnea: a potent phytomedicine with multifarious ethnobotany, phytochemistry and pharmacology. RSC Adv 2016;6:21672-21696.
Aydin T, Cakir A, Kazaz C, Bayrak N, Bayir Y, et al. Insecticidal metabolites from the rhizomes of Veratrum album against adults of Colorado potato beetle, Leptinotarsa decemlineata. Chem Biodivers 2014;11:11192-11204.
Al-Zayyadi SW. Study of the effectiveness of some raw plants and materials in the treatment of pediculosis in Najaf province Iraq. Indian J Forensic Med Toxicol 2020;14:499-503.
Fereidoonfar H, Salehi-Arjmand H, Khadivi A, Akramian M, Safdari L. Chemical variation and antioxidant capacity of sumac (Rhus coriaria L.). Ind Crops Prod 2019;139:111518.
Kartal SN, Terzi E, Yoshimura T, Arango R, Clausen CA, et al. Preliminary evaluation of storax and its constituents: Fungal decay, mold and termite resistance. Int Biodeterior Biodegradation 2012;70:47-54.
Heukelbach J, Canyon D, Speare R. The effect of natural products on head lice: In vitro tests and clinical evidence. J Pediatr Infect Dis 2007;2:1-10.
Mumcuoglu K. Prevention and treatment of head lice in children. Paediatr Drugs 1999;1:211-218.
Rossini C, Castillo L, González Ritzel A. Plant extracts and their components as potential control agents against human head lice. Phytochem Rev 2008;7:51-63.
Mac-Mary S, Messikh R, Jeudy A, Lihoreau T, Sainthillier J-M, et al. Assessment of the efficacy and safety of a new treatment for head lice. Int Sch Res Dermatol 2012;2012:1-6.
Campli E, Bartolomeo S, Pizzi P, Di Giulio M, Grande R, et al. Activity of tea tree oil and nerolidol alone or in combination against Pediculus capitis (head lice) and its eggs. Parasitol Res 2012;111:1985-1992.
Saad H, Charrier-El F, Charrier - El Bouhtoury F, Pizzi AP, Rode K, et al. Characterization of pomegranate peels tannin extractives. Ind Crops Prod 2012;40:239-246.
Lutgen P. Tannins in Artemisia: the hidden treasure of prophylaxis. Pharm Pharmacol Int J 2018;6:176-181.
Ismail T, Sestili P, Akhtar S. Pomegranate peel and fruit extracts: a review of potential anti-inflammatory and anti-infective effects. J Ethnopharmacol 2012;143:397-405.
Sakhr K, El Khatib S. Physiochemical properties and medicinal, nutritional and industrial applications of Lebanese Sumac (Syrian Sumac-Rhus coriaria): A review. Heliyon 2020;6:e03207.
Files | ||
Issue | Vol 7, No 3, 2022 | |
Section | Review Article(s) | |
DOI | https://doi.org/10.18502/tim.v7i3.10775 | |
Keywords | ||
Pediculus humanus capitis Pediculosis Medicinal plants Persian medicine |
Rights and permissions | |
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |