Angiogenesis, Inflammation & Therapeutics | Online ISSN  2207-872X
RESEARCH ARTICLE   (Open Access)

Embryotoxicity, Teratogenicity, and Chronic Toxicity of a Medicinal Balm with Adaptogenic Effects

Z.T. Fayzieva 1*, M. M. Rakhmatullayeva 1, G.O. Rakhimova 1, A.J.Rajapov 1, D. M. Hashirbaeva 1

+ Author Affiliations

Journal of Angiotherapy 8(5) 1-7 https://doi.org/10.25163/angiotherapy.859669

Submitted: 26 March 2024  Revised: 19 May 2024  Published: 21 May 2024 

Abstract

Background: The body's ability to adapt to changing internal and external environmental conditions is crucial for maintaining homeostasis. Disruptions in adaptive mechanisms can lead to pathological conditions such as chronic heart failure and cerebrovascular insufficiency. Adaptogenic drugs, which enhance the body's resistance to adverse factors, are utilized in various therapeutic contexts. This study investigates the teratogenic, embryotoxic effects, and chronic toxicity of a medicinal balm with adaptogenic properties. Methods: The medicinal balm was prepared by maceration in 70% ethyl alcohol, followed by filtration and blending with natural honey. Teratogenic and embryotoxic effects were studied using 50 pregnant white laboratory rats and approximately 200 newborn rat fetuses. Chronic toxicity was assessed with 30 rats and 12 rabbits, which received the balm at doses of 50 mg/kg and 100 mg/kg orally for a month. Control groups received saline. Parameters studied included peripheral blood, biochemical markers, organ histology, body weight, and temperature. Results: The balm at therapeutic doses led to a 6.8% increase in body weight of pregnant rats without affecting fetal development or causing pathological forms. Histological analysis showed normal development of internal organs in both control and experimental groups. Chronic toxicity tests revealed no significant changes in blood parameters, body weight, or body temperature. Histological examination of internal organs showed no signs of dystrophic or destructive changes. Conclusion: The medicinal balm does not exhibit teratogenic or embryotoxic effects and does not induce chronic toxicity. It maintains normal biochemical and hematological blood parameters and does not alter the histostructure of organs with prolonged administration. These findings support the safety of the balm for potential therapeutic use.

Keywords: Adaptogenic drugs, Chronic toxicity, Embryotoxicity, Teratogenicity, Medicinal balm

References

Anderson, B., & Smith, C. (2017). Blood parameters and morphological changes in erythrocytes. Journal of Hematology, 25(3), 167-175.

Ashok, R., Ganesh, A., & Deivanayagam, K. (2017). Bactericidal effect of different anti-microbial agents on Fusobacterium nucleatum biofilm. Cureus, 9(6).

Brown, M., & White, L. (2019). Biochemical effects on metabolic pathways. Journal of Biochemistry, 18(2), 88-95.

Crozier, A., Jensen, E., Lean, M. E. J., & McDonald, M. S. (1997). Quantitative analysis of flavonoids by reversed-phase high-performance liquid chromatography. Journal of Chromatography A, 761(1-2), 315–321. Doi: 10.1016/S0021-9673(96)00826-6.

Davydov, M., & Krikorian, A. D. (2000). Eleutherococcus senticosus (Rupr. & Maxim.) Maxim. (Araliaceae) as an adaptogen: a closer look. Journal of Ethnopharmacology, 72(3), 345-393.

Efremova, M. P. (2019). Study of the adaptogenic activity and toxicological safety of Nigella damask seed fatty oil extract. Research Results in Biomedicine, 5(3), 34-49. https://doi.org/10.18413/2658-6533-2019-5-3-0-5

Gilbert-Barness, E. (2010). Teratogenic causes of malformations. Annals of Clinical & Laboratory Science, 40(2), 99-114.

Haldi, M., Harden, M., D’Amico, L., DeLise, A., & Seng, W. L. (2011). Developmental toxicity assessment in zebrafish. In Zebrafish: Methods for Assessing Drug Safety and Toxicity (Vol. 15, pp. 15-25).

Halili, J., & Quilang, J. (2011). The zebrafish embryo toxicity and teratogenicity assay. The Philippine Biota, 63-71.

Hay, R. (2016). Glucose consumption during fetal growth. Journal of Developmental Biology, 28(3), 112-125.

Johnson, R., et al. (2020). Physiological norms in rectal temperatures of animals. Animal Physiology Review, 10(4), 201-209.

Jones, A., & Brown, K. (2018). Normal growth and mortality in fetal yellow bodies. Fetal Development Journal, 42(4), 201-215.

Kim, Y., You, Y., & Yoon, H. G. (2014). Hepatoprotective effects of fermented Curcuma longa L. On carbon tetrachloride-induced oxidative stress in rats. Food Chemistry, 151, 148–153.

Maes, J., Verlooy, L., Buenafe, O. E., de Witte, P. A. M., Esguerra, C. V., & Crawford, A. D. (2012). Evaluation of 14 organic solvents and carriers for screening applications in zebrafish embryos and Larvae. PloS ONE, 7(10).

Misbah, H., Aziz, A. A., & Aminudin, N. (2013). Antidiabetic and antioxidant properties of Ficus deltoidea fruit extracts and fractions. BMC Complementary and Alternative Medicine, 13.

Nwodo, U., Obiiyeke, G. E., Chigor, V. N., & Okoh, A. I. (2011). Assessment of Tamarindus indica extracts for antibacterial activity. International Journal of Molecular Sciences, 12(10), 6385-6396.

Panossian, A., & Efferth, T. (2022). Network Pharmacology of Adaptogens in the Assessment of their Pleiotropic therapeutic activity. Pharmaceuticals, 15, 1051. https://doi.org/10.3390/ph15091051

Panossian, A., & Wikman, G. (2010). Effects of Adaptogens on the Central Nervous System and the Molecular Mechanisms Associated with Their Stress—Protective Activity. Pharmaceuticals, 3(1), 188-224. https://doi.org/10.3390/ph3010188

Provino, R. (2010). The role of adaptogens in stress management. Aus J Med Herbalism, 22(2), 41-43.

Rajagopal, R., Balasubramanian, M., & Kalyanaraman, S. (2017). Raw Turmeric and Pure curcumin: A Comparison of Embryonic Cytotoxicity in Zebrafish. International Journal of Basic & Clinical Pharmacology, 6(8), 2020-2026.

Razumov, A. N. (2008). Zdorovye zdorovykh kak salvage doctrine of prophylactic medicine of the 11th century. Palliative Medicine and Rehabilitation, 4, 4-9.

Singh, N., Bhalla, M., de Jager, P., & Gilca, M. (2011). An overview on ashwagandha: a Rasayana (rejuvenator) of Ayurveda. African Journal of Traditional, Complementary and Alternative Medicines, 8(5S), 208-213.

Singleman, C., & Holtzman, N. G. (2014). Growth and maturation in the zebrafish, Danio rerio: a staging tool for teaching and research. Zebrafish, 11(4), 396-406.

Smagulova, T. B. (2013). Adaptogenic action of the herbal remedy "Phytoton". Abstract dis. … cand. honey. Sciences. Ulan-Ude.

Smith, J., et al. (2015). Substrates promoting carbohydrate metabolism in maternal body weight. Journal of Metabolic Research, 15(2), 78-86.

Souza Maria, N. C. V., Tangerina, M. M. P., Silva, V. C., Vilegas, W., & Sannomiya, M. (2013). Abortive medicinal plants used by women of Basic Health Units: ethnopharmacology and cromatographic analysis by TLC and HPLC. Revista Brasileira de Plantas Medicinais, 15, 763-773.

Wiegant, F. A., Surinova, S., Ytsma, E., Langelaar-Makkinje, M., Wikman, G., & Post, J. A. (2009). Plant adaptogens increase lifespan and stress resistance in C. elegans. Biogerontology, 10, 27–42. https://doi.org/10.1007/s10522-008-9151-9

Winston, D., & Maimes, S. (2007). Adaptogens: Herbs for strength, stamina and stress relief. Healing Arts Press.

 

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