Traditional medicinal plants and its contemporary impact on health-a review

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Traditional medicinal plants and its contemporary impact on health-a review

Author Affiliations

¹Govt. Arts and Science College, Ratlam, MP, India
²School of Studies in Chemistry & Biochemistry, Vikram University, Ujjain, MP, India

Res. J. Recent Sci., Volume 11, Issue (2), Pages 13-18, April,2 (2022)

Abstract

Divine gift in the universe is Nature, It is recycled and balanced with various biological and physical sources but any kind of disturbance through human being for a long time on Natural resources may lead to signal of diseases, that is unknowingly arise handicapped, Now in this pandemic era. Nature nourishes human healthcare as said healthy food maintains healthy mind and Human explore their traditional knowledge with using its natural repository in the research area of medicinal and pharmaceutical fields etc. since ancient. India is a developing country and their 70% populations live in villages have been used traditional medicines for their primary healthcare from different parts of plants and enhanced their immunity capacity. It is an important center of plant diversity and ranked 4th in Asia and 10th in the World. It has great many domesticated and medicinal plant species, including vari¬ous primary needs of animals and human welfare and manifest to balance each element in Ecosystem also. The natural bioactive constituents artimisinin, camptothecin, pacelitaxel are well known and have been used in diseases and their derivatives are also synthesized. Therefore, natural demand is increasing for nutraceutical as well as health purposes. This review includes uses, key role of phyto-constituents and their wide spectrum biological activities from medicinal plants and explores the knowledge to get bioactive path. It is also help to encourage and sharing the knowledge each and every person which helps easy to cure and get healthy in low cost demand, now a day.

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Google Scholar
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Google Scholar
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Google Scholar

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Google Scholar

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Google Scholar

[ref5] Wax J.W., Pyhtila R. N., Graf R., Nines C.W., Boone R.R. & Dasari M.S. et al. (2005)., Prospective grading of neoplastic change in rat esophagus epithelium using angle-resolved low-coherence interferometry., J. Biomed. Opt., 10(5), 051604.
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[ref7] Bairwa R., Sodha R. S. & Rajawat B. S. (2012)., Trachyspermum ammi., Pharmacogn. Rev., 6(11), 56–60.
Google Scholar

[ref8] Gohari A. R. and Saeidnia S. (2011)., A Review on phytochemistry of Cuminium cyminum seeds and its standard from field to market, . Pharmacognosy Journal, 3(25), 1-5.
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[ref9] Sanati S., Razavi B. M., & Hosseinzadeh H. (2018)., A review of the effects of Capsicum annum L. and its constituent’s capsaicin in metabolic syndrome., Iran J Basic Med Sci., 21(5), 439–448.
Google Scholar

[ref10] Ahmad N., Fazal H., Abbasi B. H. and Farooq S. (2012)., Biological role of Piper nigrum L. (Black pepper): A review., Asian Pacific Journal of Tropical Biomedicine, 2(3), S1945-S1953.
Google Scholar

[ref11] Semwal R. B., Semwal D. K., Combrinck S. and Viljeon A.M. (2015)., Gingerols and shogaols: Important nutraceutical principles from ginger., Phytochemistry, 117, 554-568.
Google Scholar

[ref12] Mandal S. & Manda M. (2015)., Coriander (Coriandrum sativum L.) essential oil: Chemistry and biological activity., Asian Pacific Journal of Tropical Medicine, 5(6), 421-428.
Google Scholar

[ref13] Marrelli M., Amodeo V., tatti. G. & Conforti F. (2019)., Biological properties and bioactive components of Allium cepa L.: Focus on potential benefits in the treatment of obesity comorbidities., Molecules, 24(1), 119.
Google Scholar

[ref14] Mathew B. C. & Biju R. S. (2008)., Neuroprotective effects of Garlic- A Review., Libyan J. Med., 3(1), 23–33.
Google Scholar

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Google Scholar

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Google Scholar

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Google Scholar

[ref19] Rao, P. V., & Gan, S. H. (2014)., Cinnamon: a multifaceted medicinal plant., Evidence-Based Complementary and Alternative Medicine, 2014.
Google Scholar

[ref20] Szczykutowicz M. K., Szopa A. and Ekiert H. (2020)., Citrus lemon (Lemon) phenomenon-A review of the chemistry, pharmacological properties, applications in the modern pharmaceutical, food and cosmetics industries and biotechnological studies., Plants, 9(1), 119.
Google Scholar

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Google Scholar

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Google Scholar

[ref23] Higdon J.V. & Frei B. (2010)., Coffee and health: A review of recent human research., Crit. Rev. Food. Sci. Nutr., 46(2), 101-23.
Google Scholar

[ref24] Rusconi M. & Conti A. (2009)., Theobroma cacao L., the Food of the Gods: A scientific approach beyond myths and claims., Pharmacological Research, 61(1), 5-13.
Google Scholar

[ref25] Yagi A., Kabash A., Mizuno K., Moustafa S. M., Khalifa T. I. & Tsuji H. (2003)., Radical Scavenging Glycoprotein Inhibiting Cyclooxygenase-2 and Thromboxane A2 Synthase from Aloe vera Gel., Planta Medica., 69(3), 26.
Google Scholar

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Google Scholar

[ref27] Shah G., Shri R., Panchal V., Sharma N., Singh B. & Mann A. S. (2011)., Scientific basis for the therapeutic use of Cymbopogon citratus stapf (Lemon grass)., J. Adv. Pharm. Technol. Res., 2(1), 3–8.
Google Scholar

[ref28] Cohen M M. (2014)., Tulsi-Ocimum sanctum A herb for all reasons., J. Ayurveda Integr. Med., 5(4), 251–259.
Google Scholar

[ref29] Babarykin, D., Smirnova, G., Pundinsh, I., Vasiljeva, S., Krumina, G., & Agejchenko, V. (2019)., Red beet (Beta vulgaris) impact on human health., Journal of biosciences and medicines, 7(3), 61-79.
Google Scholar

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Google Scholar

[ref31] Sabu M. C. & Kuttan R. (2002)., Anti-diabetic activity of medicinal plants and its relationship with their antioxidant property., J. Ethanopharmocol., 81(20), 155-160.
Google Scholar

[ref32] Manjunatha S., Jayral A. K., Bijlani R. L., Sachdeva V., & Gupta S K. (2001)., Effect of Chyawanprash and vitamin C on glucose tolerance and lipoprotein profile., Ind J Physiol Pharmacol., 45(1), 71.
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Google Scholar

[ref34] Khan, M. S., Qais, F. A., & Ahmad, I. (2019)., Indian berries and their active compounds: Therapeutic potential in cancer prevention., In New Look to Phytomedicine (pp. 179-201). Academic Press.
Google Scholar

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Google Scholar