ABSTRACT
In present manuscript describes synthesis of silver nanoparticles using turmeric leaves extract, traditional turmeric is a common spice that comes from the root of Curcuma longa, chemical called curcumin. Turmeric has a warm, bitter taste and is frequently used to flavor or color curry powders, mustards, butters, and cheeses. People commonly use turmeric for osteoarthritis, hay fever, depression, high cholesterol, liver disease, itching. There is also no good evidence to support using turmeric for COVID-19. Synthesis of silver nanoparticles AgNO powder was dissolved in distilled water to prepare 10 mM AgNO stock 3 3 solution from which different composition prepared. The AgNO solutions were mixed with urmeric plants 3 t leaves extract in equal proportion in flask. The flask was wrapped with an aluminum foil and was then heated in a water bath at 50-60 C for 2 hours. The synthesis of nanoparticles, which was confirmed by UVSpectra and TEM. UV-Vis spectra and visual observation showed that the color of the fresh leaf extractsof Vinca rosea turned into brownish yellow, respectively, after treatment with silver. In addition, TEM analysis confirmed that AgNO solutions for all concentrations produced ilver nanoparticles and their average size 3 s was less than 20 nm. Turmeric plants extract of fresh leaves can be used as bioreducing agents, drug resistant strains, toxic nature towards microbial agents, play an important role in nanoscience and nanotechnology, particularly in nanomedicine and potential applications in cancer diagnosis and therapy.
ABSTRACT
SARS-CoV-2 genome encodes two large polyproteins (pp), pp1a and pp1ab which are cleaved and transformed into a mature form by a protease, non-structural protein 3 (NSP3). NSP3 is encoded by open reading frame (ORF) 1a/b. Curcuma longa (C. longa) or turmeric has been documented to have antiviral effects. The aim of this study was to assess the viral activities of C. longa against SARS-CoV-2 focusing on its potency to inhibit viral replication by targeting NSP3. PubChem databases were used to obtain the metabolic profile of C. longa. The compound's interaction with nucleocapsid was analyzed using molecular docking with Molegro Virtual Docker. Bioinformatics analysis based on rerank score presents all compounds of C. longa have higher binding affinity than the native ligand with cyclocurcumin as the lowest score (-128.38 kcal/mol). This anti-viral activity was hypothesized from the similarity of hydrogen bonds with amino acid residues Ser 128 and Asn 40 as key residues present in Ribavirin. This study reveals that C. longa is the potential to be developed as an antiviral agent through replication inhibition in SARS-CoV-2 targeting its replication mediated by NSP3.
ABSTRACT
Background: A novel coronavirus COVID-19 outbreak causing infectious respiratory disorders. COVID-19 disease has no specific treatment. In traditional medicinal system, different formulations are available for infectious diseases. Objective(s): This review discusses the significance and utilization of Siddha and Ayurvedic herbal formulations for COVID-19 treatment and provides scientific information regarding the phytochem-istry and pharmacological profiles of Indian medicinal plants used in the formulation. Method(s): The information on medicine and medicinal plants was collected from research papers, review papers, and books available in several electronic databases, including Google Scholar, SpringerLink, and PubMed was explored as information sources. Result(s): Traditional medicinal plants are potentially used in formulations due to their inevitable therapeutic properties. Phytochemistry and pharmacological properties of medicinal plants used in the formulations served as scientific proof for traditional medicine. Conclusion(s): The present study explored the great importance of Siddha and Ayurvedic formulations for COVID-19 treatment. Further scientific investigations are required to explore these formulations as widely acceptable.Copyright © 2023 Bentham Science Publishers.
ABSTRACT
COVID-19 has become a global pandemic since 2020. The search for promising drugs based on the abundant herbal ingredients in Indonesia is one of the breakthroughs. Curcumin is a chemical compound with various potentials such as antioxidant, anti-inflammatory and antiviral. We conducted a molecular docking analysis to determine the potential of curcumin against SARS-CoV-2 non-structural and structural proteins, such as the main protease and spike protein. This study used the compound of curcumin (PubChem CID: 969516) from Curcuma longa L. or turmeric and two Indonesian SARS-CoV-2 isolates that have been deposited in the GISAID database (hCoV-19/Indonesia/JI-PNF-217315/2021 - EPI_ ISL_12777089 or lineage B.1.617.2 and hCoV-19/Indonesia/JI-PNF-211373/2021 - EPI_ISL_6425649 or lineage B.1.470). In addition, we used molnupiravir (PubChem CID: 145996610) as a drug control. We performed molecular docking analysis with PyRx software 0.9.9 (academic license) and visualization of molecular docking results with PyMOL software 2.5.4 (academic license). The results of this study found that curcumin had good potential against main protease and spike protein compared to the drug (control). In summary, we suggested that curcumin is a potential drug candidate against SARS-CoV-2. However, there is a need for future wet laboratory-based pre-clinical research such as in vitro and in vivo.Copyright © 2023 Phcogj.Com.
ABSTRACT
The corona virus disease 2019 (COVID-19) pandemic has increased the interest in self-care strategies, including self-medication. Medical students, as future health practitioners, learn more about medications than other students. This study aimed to describe self-medication practices for preventing COVID-19 among medical students at Universitas Islam Indonesia. This observational study used a cross-sectional design and was undertaken in November- December 2020. The study sample included 336 undergraduate medical students determined using a consecutive sampling technique based on inclusion and exclusion criteria. Data were collected using an online questionnaire about self-medication practices in the preceding 3 months. Among a total of 336 students, 137 (41%) reported using self-medication intending to prevent COVID-19, and 126 (92%) of these 137 took preventive supplements, mainly vitamins C, D, and E, and omega-3. Seven students reported the use of zinc, mainly in combination with other vitamins. Students who practiced self-medication lived closer to people confirmed with COVID-19, washed their hands more often, and desinfected their belongings more frequently than their counterparts (p<0.05). The mean duration for consuming vitamins was 11-16 days. Forty students (29%) used herbal medicine to prevent COVID-19;ginger, turmeric, honey, black seed, cutcherry, and Curcuma were the most often consumed herbal remedies. Fourteen students (10%) reported taking over-the-counter medications to relieve symptoms related to COVID-19, including antipyretic, analgesic, antiseptic, antihistamine, decongestant, antitussive, and expectorant medications. Most respondents (82%) purchased their medications at pharmacies, and 11 (9%) obtained them from online shops. These findings show the high rate of self-medication using vitamins and herbal remedies for COVID-19 prevention among university medical students. Further studies are needed to explore students' knowledge about the risks of self-medication including the use of herbal medicines.Copyright © 2022 Marmara University Press.
ABSTRACT
Coronavirus was detected in Bangladesh first time on March 8, 2020 officially. But Coronavirus Disease (COVID-19), first reported in December 2019 from Wuhan in China, had reached the stage of a pandemic. This study was conducted to know the effects of spices against Covid-19 disease, impact of Covid-19 on agro-economy of spices crop and point out of mitigating of spices problem in Bangladesh. Major production of spices was severely affected, causing raw material shortages to the spice production of Bangladesh. Major for spices crop problem were shortages caused by the migration of the workforce due to lockdown. Continuing operation on the industry floor, in the midst of social distancing, and ensuring safety of the spices production, was also a major issue. Although the entire sectors were hit by the economic disruptions, the small-scale spice producers and processors most severely affected. The novel coronavirus disease (COVID-19) pandemic and the prolonged lockdown have made thousands of farmers, labours and traders feel the pinch of a falling spices yield and sale. Increased production cost of onion, chilli, garlic, ginger, turmeric, coriander and black cumin due to Covid-19 situation over normal situation were 10.33, 9.54, 9.04, 11.46, 9.58, 6.21 and 7.21%, respectively. Market price of onion, chilli, garlic, ginger, turmeric, coriander and black cumin were also increased 5.00, 3.90, 1.39, 3.13, 1.40, 1.25 and 2.67 times, respectively, due to the influence of Covid-19.
ABSTRACT
Plant derived biomolecules are said to possess various pharmacological actions. Curcumin obtained from rhizomes of Curcuma longa, is the primary bioactive molecule which exhibits antiviral, antinociceptive, anti-inflammatory, antipyretic and anti-fatigue effects. Recent studies reveal that curcumin also shows antiviral activity against many viruses such as dengue, hepatitis, zika, chikungunya, etc. Few research studies revealed that curcumin has binding potential to target a variety of SARSCov- 2 proteins. This chapter covers antiviral activity of curcumin with special focus on its role in inhibiting COVID-19 virus. These findings will be utilized to develop therapeutic lead using curcumin against COVID-19. © 2023 Nova Science Publishers, Inc.
ABSTRACT
The consumption of spices is growing in India with an increase in purchasing power. It is forecasted that everyone in the country would be consuming one spice or the other with a high per capita consumption. It is estimated that we may have a population of around 1.69 billion people during 2050 and approximately the per capita consumption of turmeric, ginger, black pepper and cardamom is expected to be about 1.6 kg, 1.2 kg, 148 g and 54 g, respectively. This may increase further owing to rapid urbanization which needs spices as natural food preservatives. Hence, the present study was conducted to analyze the growth trend in spices economy of India during the period 1990-91 to 2021-22 with reference to the selected growth indicators such as area, production, domestic market, export and export value. For estimating the acceleration in the growth rates, the paper uses semi-logarithmic specification of a non-linear (quadratic) equation. From the analysis, it is observed that there is a huge scope for output and export of spices. Despite the Covid pandemic, spices export from India has continued its upward trend during 2020-21 and has attained an all-time high of US $ 4.0 billion mark for the first time in the history of spices export. It also implies that there is strong domestic market for spices in India.
ABSTRACT
Background: Owing to the recent scenario on this ongoing Coronavirus pandemic outbreak around the world, the present study has been undertaken. Aim(s): In this study, we adopted two strategies, i.e., via computational method, a search for the novel plant secondary metabolites from the Indian Traditional Medicine to target and combat the enduring novel 2019 CoVs main protease that causes pneumonia, followed by the effect of these selected secondary metabolites on the host's immune system for their immunomodulatory potential on Interleukin-2. Method(s): A detailed literature review has been done to identify the assorted plant secondary metabolites from the natural sources, which have been extensively used traditionally for their immunomodulatory potential. Next, the resulting compounds have processed for the molecular docking study to predict whether the compounds have the potency to fight against 2019-CoVs protein or it could have the ten-dency to battle the cytokines, which are responsible for the immune response of the host, thereby pre-venting the CoVs caused infection in humans. Furthermore, to explore molecular mechanics, the in-silico docking study with COVID-19 Mpro and Interleukin-2 has been performed. Results & Discussion: Among the six secondary metabolites selected, five compounds showed its possible promising potency with COVID-19 and IL-2 proteins, which are compared with the standard drug Remdesivir, one of the anti-viral drugs for treating and managing the present coronavirus condition and an IL-2 inhibitor, which is the native IL-2 ligand protein (i.e., from PDB Id-1PW6) itself. Besides, based on the docking scores, the Curcumin (from Curcuma longa) showed the highest score towards these two targets taken for this study. The identified compounds have a promising binding affinity with the Mpro receptors, in the narrow range of binding energy for the protein PDB Id: 6LU7 and the score range between-10.9102 to-19.8790 kcal/mol: when compared to the standard-21.8600 kcal/mol. Whereas, the binding affinity with the Interleukin-2 receptor, for the protein PDB Id: 1PW6 the range between-11.3899 to-17.1366 kcal/mol: when compared to that of standard-16.9554 kcal/mol. Conclusion(s): Our result findings demonstrate that the integrated Indian traditional herbal treatment might be hopefully used for the viral respiratory infection due to either it may have acted directly on the viral protein or through regulating the immune response, which could lead to the rapid drug discovery of the drug leads with clinical potency towards the novel infectious disease, where there is no drug or vaccines are available.Copyright © 2021 Bentham Science Publishers.
ABSTRACT
December 2019 has become one of the most surprising days in the whole world in light of the flare-up of a most infectious sickness brought about by novel Covid or Severe Acute Respiratory Syndrome Corona virus 2 (SARS-CoV-2). This study is conducted to assess the benefits of the use of home remedies to prevent the cause of Covid-19 and evaluate the assessment of dietary changes and physical activity in the prevention of Covid-19. A questionnaire-based online survey is conducted using Google forms consisting of multiple-choice questions about home remedies, lifestyle and dietary changes made by the people during this pandemic. These home remedies included using different types of herbal preparations, steam inhalation, physical exercise and OTC medications for prophylaxis. Questions likewise included about being infected by Coronavirus-19(during first wave or second) and their recovery period, additionally collected their viewpoint for changes made, for example how much they are useful in the prevention of the attack and whenever encountered any undesirable impacts. Total responses were 210, among which 121(57.6%) responses were from females and 89(42.4%) from males. 65 people tested Covid positive (42 during the first wave and 23 during the second wave). 118(56.2%) of people think these changes are very beneficial. (Rated 4 and 5 out of 5 points). From our survey, we concluded that different herbal preparations of their composition, which they thought are helpful, and steam inhalations have been used. Rating regarding the use and effectiveness was also found to be average. Further studies are needed to prove and provide clear evidence about adverse and side effects associated with the use of herbal products.Copyright © 2022 Society of Pharmaceutical Sciences and Research. All rights reserved.
ABSTRACT
Background: The rapid spread of the Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) globally has created unprecedented health care and economic crisis. The ever-in-creasing death toll highlights an urgent need for the development of specific antiviral to combat Novel Coronavirus Disease 2019 (COVID-19). Objective(s): In the present study, we aimed to identify potential SARS-CoV-2 papain-like protease inhibitors from regularly used spices. Method(s): A structure-based virtual screening (VS) of our in-house databank of 1152 compounds was employed to identify small molecule inhibitors of SARS-CoV-2 papain-like protease (PLpro), which are important protease for virus replication. The databank was built of the compounds from ten spices and two medicinal plants. Result(s): The top three potential hits that resulted from VS were myricetin (1) available in Alium cepa and Mentha piperita;alpha-hydroxyhydrocaffeic acid (2) available in M. Piperita;and luteolin (3) available in M. Piperita, Curcuma longa, A. cepa, and Trigonella foenum-graecum, which showed fair binding affinity to PLpro of SARS-CoV-2 compared to known SARS-CoV PLpro in-hibitors. The predicted Absorption, Distribution, Metabolism, and Excretion (ADME) properties of the selected hits showed that all are drug-like. The compounds bind to biologically critical regions of the target protein, indicating their potential to inhibit the functionality of this component. Conclusion(s): There are only a few reports available in the literature on the in-silico identification of PLpro inhibitors and most of them used homology modeling of protein. Here, we used the recently uploaded X-ray crystal structure of PLpro (PDB ID: 6WX4) with a well-defined active site. Our computational approach has resulted in the identification of effective inhibitors of SARS-CoV-2PL-pro. The reported edible spices may be useful against COVID-19 as a home remedy after an in--vitro study.Copyright © 2021 Bentham Science Publishers.
ABSTRACT
Indian medicinal plants are referred to as the "nectar of life" owing to their phytochemicals and bioactive complexes that are beneficial in treating diseases. Coronavirus disease 2019 (COVID-19) is a global health issue without any proper medication. The indigenous plants of India can be exploited to control the precise signs of SARS-CoV-2. The Ministry of AYUSH (Ayurveda, Yoga and Naturopathy, Unani, Siddha, and Homeopathy) has advised routine usage of medicinal plants for COVID-19. Medicinal plants like Zingiber officinalis, Azadirachta indica, Ocimum sanctum, Nigella sativa, Withania somnifera, Curcuma longa, Piper nigrum, Allium sativum, Tinospora cordifolia, etc. have immunity-boosting, antiviral, antibacterial, antioxidant and anti-inflammatory actions that can suppress and treat symptoms of COVID-19. In vitro, in vivo as well as in silico validation, these phytochemicals can help us to manage and treat COVID-19 disease. This integration of traditional knowledge in the prophylaxis of corona infection and current skills validating it for the development of precise and powerful therapeutic approaches will more efficiently resolve different clinical aspects of COVID-19. The review focuses on both traditional and emergent methods to prevent and treat COVID-19 with various Indian medicinal plants along with their phytochemicals.Copyright © 2023 Authors. All rights reserved.
ABSTRACT
Curcumin is a phytochemical derived from the bulb of the plant Curcuma longa and is the major component of turmeric. The herb has been used for thousands of years in traditional Ayurvedic and Asian medicine, initially to heal wounds but also to treat diverse conditions. There is a definite need to develop effective, inexpensive, safe treatments for the millions of patients with chronic diseases, including cancer, autoimmune diseases, and degenerative conditions such as arthritis. From the current scenario and study of curcumin, it is believed that data from ongoing and future research will continuously boost researchers to enhance the use of natural, synthetic, and semi synthetic derivatives of the compound as both a primary and secondary therapeutic in a variety of disease states. It has also been reported that curcumin is capable of inhibiting the development of cancer cells and/or inducing many signaling pathways affecting chronic inflammation, including nuclear factor kappa beta (NF-κB) and cyclooxygenase-2 enzymes (COX-2). Curcumin has also shown antiviral and anti-inflammatory effects and to be helpful for both prevention and treatment of the new coronavirus. However, well-designed clinical trials are needed to demonstrate the potential efficacy of curcumin against SARS-CoV-2 infection and its ensuing complications. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2022.
ABSTRACT
Background: Infectious diseases have posed a major threat to human survival for centu-ries and can devastate entire populations. Recently, the global outbreak of COVID-19 has increased exponentially, affecting more than 200 countries and millions of lives since the fall of 2019, largely due to the ineffectiveness of existing antiviral therapies. WHO announced it a public health emer-gency of international concern. A significant waiting period in antiviral therapy hindered by the rapid evolution of severe acute respiratory syndrome-coronavirus-2 aggravated the situation ensuing imposition of strict laws (e.g., communal dissociation, international travel restrictions, and mainte-nance of hygiene) that would help in inhibiting further outspread of COVID-19. Ayurveda system of medicine offers a holistic approach to the COVID-19 pandemic. Objective(s): This review aims to highlight the potential of medicinal herbs and Ayurvedic drugs as the remedial approach for viral diseases, such as COVID-19. Method(s): We reviewed the literature from journal publication websites and electronic databases, such as Bentham, Science Direct, Pub Med, Scopus, USFDA, etc. Result(s): The drugs used in the traditional system of medicine have the potential to prevent and cure the infected patient. Ayurvedic therapies are known for regulating immunity and rejuvenation properties that behold much promise in the management of COVID-19 disease. Government of India, Ministry of AYUSH recommends some precautionary fitness measures and an increase in immunity with special reference to respiratory health. Conclusion(s): While there is no medication for COVID-19 as of now, taking preventive measures and boosting body immunity is highly recommended. A number of medicinal plants that play an im-portant role in revitalizing the immune system are easily accessible in home remedies.Copyright © 2023 Bentham Science Publishers.
ABSTRACT
nSARS-CoV2 causes pneumonia and acute respiratory distress syndrome that involves exacerbated pro-inflammatory cytokines hyperproduction. ZICURMA, zing-curcuma is a tonic developed from ginger, turmeric, and curcuma that may be adequate to remedy nSARS-CoV2 infections. Therefore, this study aims to predict the effectiveness and possible inhibition of potentially bioactive compounds in ZICURMA against pro-inflammatory cytokines through a molecular docking approach. Three bioactive compounds were identified and extracted from KnapSackFamily, namely bisacumol, curcumin and desmetoxycurcumin;then, the 3D structures were generated from PubChem. The protein targets were prepared using an open babel program integrated into PyRx 0.8;there were TN-α, IL-6 / IL-6R, and IL-1 / IL-1R, respectively. The results showed that the ligands had moderate to solid binding affinity with values ranging from –5.0 kcal/mol to –9.0 kcal/mol. However, it offers a mismatch of bonds, including between curcumin compounds and IL-6, IL-6R, IL-1R and IL-1ß. In silico simulation proves that the bioactive compound in ZICURMA does not allow binding to IL-6, IL-6R, IL-1R and IL-1ß proteins. However, it cannot be used as a standard reference to determine the feasibility of bisacumol, desmethoxycurcumin, and curcumin as an anti-viral candidate. Further in-vitro researches should be conducted to validate the potency of ZICURMA as an anti-viral infection. © 2023, Walailak University. All rights reserved.
ABSTRACT
The immune status of patients plays an essential role in COVID-19. Herbal medicine with immunomodulatory and anti-inflammatory effect could have potential as a complementary therapeutic along with modern medicine. This study aims to investigate the anti-inflammatory and immunomodulatory constituents of Curcuma longa (C. longa) and its possible mechanisms in COVID-19. We systematically sorted the biochemical of C. longa rhizome from literature and repository. Next, we investigated targets related to COVID-19 in the selected active phytochemical constituents and analyzed the possible mechanisms against COVID-19 and performed molecular docking with four essential target proteins in COVID-19 for further verification. Ten active phytochemical constituents of C. longa were predicted to interact with four protein targets. The epidermal growth factor was the most interacted protein targeted by Calebin A, curcumin, cyclocurcumin, demethoxycurcumin, turmeronol a, turmeronol b, caffeic acid, and quercetin. Interferon-gamma was performed as the most critical protein targeted by 4-hydroxycinnamic acid. Curcumin was also predicted to interact with toll-like receptor 4 and Ar-turmerone with angiotensin II receptor type 2. We also reported four signaling pathways associated with target proteins-active phytochemical constituents against COVID-19: cytokine-cytokine receptor interaction, tolllike receptor signaling pathway, Jak-STAT signaling pathway, and PI3K-Akt signaling pathway. In conclusion, multi compounds in C. longa might act synergistically against COVID-19 by affecting the inflammatory and immune responses, and other pathological processes through multiple targets and pathways. Copyright © Indradi RB et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC-BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
ABSTRACT
Background: Plant elements and extracts have been used for centuries to treat a wide range of diseases, from cancer to modern lifestyle ailments like viral infections. These plant-based miRNAs have the capacity to control physiological and pathological conditions in both humans and animals, and they might be helpful in the detection and treatment of a variety of diseases. The present study investigates the miRNA of the well-known spice Curcuma Longa and its prospective targets using a variety of bioinformatics techniques. Results: Using the integrative database of animal, plant, and viral microRNAs known as miRNEST 2.0, nine C. longa miRNAs were predicted. psRNA target service foretells the presence of 23 human target genes linked to a variety of disorders. By interacting with a variety of cellular and metabolic processes, miRNAs 167, 1525, and 756 have been found to be critical regulators of tumour microenvironment. SARS-cov2 and influenza A virus regulation have been connected to ZFP36L1 from miRNA 1525 and ETV5 from miRNA 756, respectively. Conclusions: The current cross-kingdom study offers fresh knowledge about how to increase the effectiveness of plant-based therapies for disease prevention and serves as a platform for in vitro and in vivo research development.
ABSTRACT
BACKGROUND: In early 2020, many scientists are rushing to discover novel drugs and vaccines against the coronavirus, and treatments for COVID-19, because coronavirus disease 2019 (COVID-19), a life-threatening viral disease, affected first in China and quickly spread throughout the world. In this article, in silico studies have been performed to explore the binding modes of chemical constituents for natural remedies like Curcuma longa (turmeric) and Andrographis paniculata against COVID-19 (PDB ID 5R82) targeting coronavirus using Schrodinger suit 2019-4. The molecular docking studies are performed by the Glide module, in silico ADMET screening was performed by the QikProp module, and binding energy of ligands was calculated using the Prime MM-GB/SA module. RESULTS: The chemical constituents from turmeric like cyclocurcumin and curcumin and from Andrographis paniculata like andrographolide and dihydroxy dimethoxy flavone are significantly binding with the active site of SARS CoV-2 main protease with Glide score more than - 6 when compared to the currently used drugs hydroxychloroquine (- 5.47) and nelfinavir (- 5.93). When compared to remdesivir (- 6.38), cyclocurcumin from turmeric is significantly more active. The docking results of the compounds exhibited similar mode of interactions with SARS CoV-2. Main protease and the residues THR24, THR25, THR26, LEU27, SER46, MET49, HIE41, GLN189, ARG188, ASP187, MET165, HIE164, PHE181, and THR54 play a crucial role in binding with ligands. CONCLUSION: Based on in silico investigations, the chemical constituents from turmeric like cyclocurcumin and curcumin and from Andrographis paniculata like andrographolide and dihydroxy dimethoxy flavone, significantly binding with the active site of SARS CoV-2 main protease, may produce significant activity and be useful for further development.
ABSTRACT
The plant Curcuma longa, a perennial herbaceous member of the Zingiberaceae (ginger family), produces turmeric. Protein, fat, minerals, carbs, and moisture are all included in turmeric. Curcumin (diferuloylmethane), a phenolic diketone that makes up 34 percent of curcumin and is made up of curcumin I, curcumin II, and curcumin III, is what gives turmeric its characteristic yellow colour. Curcumin have versatile pharmacotherapeutic potential and their biological functions have been thoroughly investigated in recent years. As the main bioactive component, curcumin has numerous pharmacological properties including antioxidant, anti-inflammatory, anti-hypertensive, anti-diabetic, hepatoprotective, anti-rheumatoid arthritis and anti-cancer properties. In persons who are active, it improves recuperation and performance. It helps with viral infections and dental issues such as dental pain, gingivitis. Covid also benefits from curcumin. ar-turmerone also possesses antiinflammatory properties. Ar-turmerone is a potentially effective treatment for a number of neurologic conditions like schizophrenia. Multiple health advantages are provided by curcumin when mixed with boosting agents. Copyright © 2022, Global Research Online. All rights reserved.
ABSTRACT
Curcumae Longae Rhizoma (CLR) is the rhizome of Curcuma longa L. Pharmacological studies show that CLR can be used to treat cervical cancer, lung cancer, lupus nephritis, and other conditions. In this paper, we review botany, traditional application, phytochemistry, pharmacological activity, and pharmacokinetics of CLR. The literature from 1981 to date was entirely collected from online databases, such as Web of Science, Google Scholar, China Academic Journals full-text database (CNKI), Wiley, Springer, PubMed, and ScienceDirect. The data were also obtained from ancient books, theses and dissertations, and Flora Reipublicae Popularis Sinicae. There are a total of 275 compounds that have been isolated from CLR, including phenolic compounds, volatile oils, and others. The therapeutic effect of turmeric has been expanded from breaking blood and activating qi in the traditional sense to antitumor, anti-inflammatory, antioxidation, neuroprotection, antibacterial, hypolipidemic effects, and other benefits. However, the active ingredients and mechanisms of action related to relieving disease remain ill defined, which requires more in-depth research and verification at a clinical level.