Histopathological Changes of Testes and Testosterone Level of Mice that are Exposed to Permot Leaf Mosquito Mat (Passiflora foetida)
Abstract
In this study, mice testicular degeneration was influenced by exposure to the mosquito mat made from transfluthrin 3000 ppm and permot leaf mosquito mat which were evaluated based on observations on testicular histopathological changes and testosterone level. Fifteen Balb C male mice aged 2-3 months with a body weight of 25-30 g were divided into five groups, namely A, B, C, D, and E, with each group consisting of 3 replications. Group A was the negative control group (without exposure), group B was the exposure group for the mosquito mat made from transfluthrin 3000 ppm, group C, D, and E were the exposure groups of mosquito mat with permot leaves doses of 1000 ppm, 2000 ppm and 3000 ppm. Each exposure group was given treatment 8 hours per day from 18.00 - 04.00 for 3 months. The results showed a significant decrease in testicular weight between the control group and the treatment group. There were also significant differences in the testosterone level observed in the treatment group, as well as observations on the spermatogenic index (IS). For histopathological observation of testicular mice, there was a reduction in epithelial cell spermatogenic and diameter of seminiferous tubule. The results of the Kruskall Wallis test showed a significant difference between the control group and the treatment group of the mosquito mat made from transflutrin 3000 ppm. The conclusion is that exposure to mosquito mat made of permot peaves up to a 3000 ppm dose is safe to use and can kill the Aedes aegypti mosquito effectively.
References
Elpiana. 2011. Pengaruh Monosodium Glutamat terhadap Kadar Hormon Testosteron dan Berat Testis pada Tikus Putih Jantan (Rattus norvegicus). Tesis. Padang: Universitas Andalas.
Garba SH, Shehu MM, Adelaiye AB. 2007. Toxicological Effects of Inhaled Mosquito Coil Smoke on the Rat Spleen: a Haematological and Histological Study. J Med Sci. 7: 94 – 99.
Hadinegoro SRH, Satari HI. 2002. Demam Berdarah Dengue. Jakarta: Balai Penerbit FKUI.
Handayani, Hasanuddin, I., Anwar. 2012. Efektivitas Ekstrak Daun Sirih (Piper battle L.) sebagai Bioinsektisida terhadap Kematian Nyamuk Aedes aegypti. Laporan Penelitian. Makassar: Fakultas Kesehatan Masyarakat, Universitas Hasanuddin.
Metcalf RL, Luckmann WH. 1982. Introduction to Insect Pest Management. New York: John Wiley and Sons.
Nurliani A, Rusmiati R, Santoso HB. 2005. Perkembangan Sel Spermatogenik Mencit (Mus musculus L.) Setelah Pemberian Ekstrak Kulit Kayu Durian (Durio zibethinus). Jurnal Penelitian Hayati, 11: 77 – 79.
Pinto MR, Filipe AR. 1973. Arbovirus Studies in Luanda, Angola. 1. Virological and Serological Studies During a Yellow Fever Epidemic. Bulletin World Health Organization, 49: 31-35.
Rozendaal JA. 1997. Vector Control, Method for Use by Individuals and Communities. Geneva: World Health Organization.
Susilowati RP. 2014. Daya Bunuh Obat Nyamuk Bakar Berbahan Ekstrak Daun Permot (Passiflora foetida) terhadap Nyamuk Aedes aegypti. Laporan Penelitian. Jakarta: Fakultas Kedokteran, Universitas Kristen Krida Wacana.
Syahputra E. 2001. Hutan Kalbar Sumber Pestisida Botani: Dulu, Kini dan Kelak. [Internet] [sitasi 02 Februari 2014]. Didapat dari http://rudyct.tripod.com.
Walker WH, Cheng J. 2015. FSH and Testosterone signaling in Sertoli Cells. Reproduction, 130(1): 15 – 28.
Weissbach L, Ibach B. 2006. Quantitative Parameters for Light Microscopic Asessment of Tubulus Seminiferi. Fertil Steril. 27(7): 837 – 874.
Wigati RA. 2006. Inkriminasi Nyamuk Anopheles vagus donitz 1902 (Diptera: Culicidae) Sebagai Vektor Malaria di Kecamatan Kokap Kabupaten Kulon Progo Provinsi Daerah Istimewa Yogyakarta. Yogyakarta: Penelitian Pascasarjana Ilmu-Ilmu Kesehatan, Universitas Gadjah Mada
Wijayakusuma HMH. 1995. Tanaman Berkhasiat Obat di Indonesia. Jakarta: Penerbit Pustaka Kartini.
Wolfman C, Viola H, Paladini AC, Dajas D, Medina JH. 1994. Possible Anxiolytic Effects of Chrysin, a Central Benzodiazepine Receptor Ligand Isolated from Passiflora coeruiea. Pharmacology Biochemistry and Behavior, 47: 1-4.
Yahaya MA, Ajuogu PK. 2014. Response of Rabbit’s Testosterone and Estrogen Status to Graded Levels of White Mangrove Plant (Laguncularia racemose). International Journal of Science and Nature, 5(2): 196 – 198.
Zhang FP, Pakarainen T, Poutanen M, Toppari J, Huhtaniemi I. 2003. The Low Gonadotropin-Independent Constitutive Production of Testicular Testosterone is Sufficient to Maintain Spermatogenesis. PNAS. 100(23): 13692 – 13697.
DOI: https://doi.org/10.24036/0201931103791-0-00
Refbacks
- There are currently no refbacks.
Copyright (c) 2019 Rina Priastini Susilowati
This work is licensed under a Creative Commons Attribution 4.0 International License.
Bioscience is Indexed By: