Psychosomatic state and laboratory parameters of COVID-19 convalescent patients.

Objective. To evaluate some parameters of the psychosomatic state, cytokine levels (IL-6, IL-8, IL-17A), and free radical status (levels of nitrates and nitrites, antioxidant plasma activity) in convalescent patients after severe COVID-19. Patients and methods. We examined 64 patients who had severe COVID-19 and underwent either a 30-35-day course of inpatient rehabilitation after their discharge from a hospital for infectious diseases or a 60-65-day course of outpatient rehabilitation at the Ambulatory Center of Nalchik, Clinical Hospital No 1. Results. We surveyed patients after severe COVID-19 and found that they required a long rehabilitation. Many of them reported asthenic syndrome, psycho-emotional disorders, and other complaints upon discharge from the hospital. Serum levels of proinflammatory cytokines remained high in patients after severe COVID-19 even 30-35 days following their discharge (p < 0.05). Serum levels of IL-6, IL-8, nitrites, and nitrates remained elevated on days 60-65 following discharge (p < 0.05), despite comprehensive therapy in a rehabilitation department. Plasma antioxidant activity was reduced, whereas IL-17A level normalized by this time. Conclusion. Our findings suggest that currently used rehabilitation measures for COVID-19 are insufficient. Adequate rehabilitation of convalescent COVID-19 patients requires proper monitoring of their immune system condition, as well as new effective methods for immune correction and restoration of their psychoemotional status after the acute phase of the disease.Copyright © 2022, Dynasty Publishing House. All rights reserved.

Recent advances in the effect of ultrasound on the binding of protein−polyphenol complexes in foodstuff

Foodstuff is a complex system that consists of a variety of nutrients. Protein is the basis of human life and health, which is made up of amino acids combined in different proportional orders. Polyphenols are a class of small molecule active substances with strong pro-life health effects. It has been found that protein and polyphenols can be combined by covalent and non-covalent interactions to form complex delivery carriers. The interaction between the two can effectively improve the physiological activities of proteins and enhance the bio-accessibility of polyphenols. With the maturation of ultrasound technology, several studies have shown that ultrasound can promote the production of protein−polyphenol complexes. To promote the study of protein–polyphenol interactions in foodstuff by ultrasound technology, the preparation methods of protein−polyphenol complexes, the effects of ultrasound on complex generation, and analytical methods were systematically summarized based on an extensive literature review, and further research directions were proposed. It provides the reference for the ultrasound study of protein−polyphenol complexes.

Spirulina platensis from Nomayos: a potential health food for the management of COVID-19 infection

The proteins (37%), carbohydrates (24.4%) and lipids (30.1%) contents of S. platensis from Nomayos provide the body with its structural and energy needs for about 518.8 Kcal per 100g of spirulina. Polyphenols (56.4 mEq. QE / g ES.), flavanols (13.2 mEq. QE / g ES.) flavonoids (21.2 mEq. QE / g ES.), carotenoids (3, 8%) and phycocyanin (16.15%) is responsible of its antioxidant capacities (7.5 + 0.33 mg eq. Vit C/g ES) and for a significant decrease in malondialdehyde MDA (< 0.001) concentration. Zinc (25 mG/Kg), Iron (256 mG/Kg), Selenium (1.24 mG/Kg), Manganese (23mG/Kg) and Copper (28.95 mG/Kg) reinforce this antioxidant power because they are cofactors of enzymes (Superoxide dismutase, Peroxidase, Catalase) which ensure the fight against free radicals. The presence of phycocyanin is an asset for the anti-inflammatory action. The significant decrease in IL-8 (p < 0.001) and TNF alpha (p < 0.04) levels confirms this property. On the other hand, the nonsignificant increase in Il-6 (1.56 to 2.18 pg/m;p > 0.05) would be partly responsible for the rise in CD4 levels (p < 0.001) and the reduction in viral load in immune deficiency patients (p = 0.000) supplemented with spirulina. In conclusion, S. platensis from Nomayos by its antioxidant, anti-inflammatory and immuno-stimulatory properties would be a good supplement food for subjects at risk of developing severe forms of COVID-19.

Evaluation of berberine pellet effect on clinical recovery time in COVID-19 outpatients: a pilot clinical trial

Objective: Severe disease onset of COVID-19 may result in alveolar injury and respiratory failure. Apoptosis and inflammation are the main causes of respiratory distress syndrome. Berberine is used in medicine as an analgesic, anti-asthmatic, anti-inflammatory, and antiviral. In the current investigation, the effect of berberine on COVID-19 outpatients was studied. Materials and Methods: The present clinical trial was performed on 40 outpatients who were randomly assigned to berberine (300 mg, TID, 2 weeks) (n=19) or placebo groups (n=21). Both groups received standard therapy and they were monitored on days 3, 7, and 14 after the beginning of the therapy for clinical symptoms' improvement, quantitative CRP, lymphopenia, CBC, and SpO2. The severity and frequency of these symptoms and the level of the parameters were statistically compared between the two groups. Results: On days 0, 3, 7, and 14, there was no significant difference between the berberine and placebo groups in the improvement of clinical symptoms (cough, shortness of breath, nausea, loss of smell and taste, diarrhea, dizziness, sore throat, stomachache, body aches, and body temperature), quantitative CRP, lymphopenia, WBC, neutrophils, platelets, or SpO2. Conclusion: Berberine (300 mg, TID, two weeks) is ineffective in treating COVID-19. More research with a larger sample size is needed to investigate different berberine dosages in other pharmaceutical formulations.

Psychosomatic state and laboratory parameters of COVID-19 convalescent patients.

Objective. To evaluate some parameters of the psychosomatic state, cytokine levels (IL-6, IL-8, IL-17A), and free radical status (levels of nitrates and nitrites, antioxidant plasma activity) in convalescent patients after severe COVID-19. Patients and methods. We examined 64 patients who had severe COVID-19 and underwent either a 30-35-day course of inpatient rehabilitation after their discharge from a hospital for infectious diseases or a 60-65-day course of outpatient rehabilitation at the Ambulatory Center of Nalchik, Clinical Hospital No 1. Results. We surveyed patients after severe COVID-19 and found that they required a long rehabilitation. Many of them reported asthenic syndrome, psycho-emotional disorders, and other complaints upon discharge from the hospital. Serum levels of proinflammatory cytokines remained high in patients after severe COVID-19 even 30-35 days following their discharge (p < 0.05). Serum levels of IL-6, IL-8, nitrites, and nitrates remained elevated on days 60-65 following discharge (p < 0.05), despite comprehensive therapy in a rehabilitation department. Plasma antioxidant activity was reduced, whereas IL-17A level normalized by this time. Conclusion. Our findings suggest that currently used rehabilitation measures for COVID-19 are insufficient. Adequate rehabilitation of convalescent COVID-19 patients requires proper monitoring of their immune system condition, as well as new effective methods for immune correction and restoration of their psychoemotional status after the acute phase of the disease.Copyright © 2022, Dynasty Publishing House. All rights reserved.

Antioxidant and Anti-Breast Cancer Properties of Hyaluronidase from Marine Staphylococcus aureus (CASMTK1)

This work studied the antioxidant and anti-breast cancer properties of hyaluronidase, extracted from a potential marine strain, Staphylococcus aureus (CASMTK1), isolated from Parangipettai coastal waters in southeast coast of India. The Staphylococcal enzyme production was tested under different carbon and nitrogen sources;and recorded the maximum production when the microbial strain was cultured with starch as the carbon source and ammonium sulphate as the inorganic nitrogen source with the enzyme production of 92.5 U/mL and 95.0 U/mL, respectively. The hyaluronidase enzyme production was also tested in different pH and temperature;and recorded the maximum yield of 102.5 U/mL in pH 5 and that of 95.5 U/mL in 45 °C. The partially purified enzyme was subjected to FTIR and FT Raman technique and found the presence of the amide- I and II, Carboxyl, N-H bending, C-H stretching and α-helices and β-sheet proteins between wave number 1500–1700 cm−1. The partially purified enzyme also exhibited strong antioxidant and in-vitro breast cancer properties. The enzyme showed the highest hydroxyl radical scavenging activity of 79% at the 50 µg/mL concentration, and this activity increased in a dose-dependent manner. The enzyme inhibited proliferation of the breast cancer cell line of MCF-7, and it caused 100% cell death at the concentration of 80 µg/mL. The enzyme generated capacity of producing free radicles that damage the cancer cells, and this effect was very nearer to the standard drug, paclitaxel. The enzyme damaged the cancer cells and induced apoptosis in 78% of cancer cells as evident by condensed or fragmented chromatin at 40 µg/mL. Further purification of the enzyme, analysis of its molecular aspects, and elucidation of exact mechanisms of its biological activities will throw new light on the utility of staphylococcal hyaluronidase in anticancer chemotherapy.

Tillandsia-Inspired Composite Materials for Atmospheric Water Harvesting

Atmospheric water harvesting (AWH) is a potentially promising small-scale approach to alleviate the water crisis in arid or semiarid regions. Inspired by the asymmetric structure of tillandsia leaves, a plant species native to semiarid regions, we report the development of a bioinspired composite (BiC) to draw moisture for AWH applications. With the advent of the post-COVID era, the nonwoven materials in used masks are discarded, landfilled, or incinerated along with the masks as medical waste, and the negative impact on the environment is inevitable. The nonwoven sheet has porosity, softness, and certain mechanical strength. We innovatively developed BiCs, immobilizing hygroscopic salt with a nonwoven mask for fast vapor liquefaction and using a polymer network to store water. The resulting BiC material manages to achieve a high-water adsorption capacity of 1.24 g g-1 under a low-moderate humidity environment and a high-water release ratio of ca. 90% without the use of photothermal materials, while maintaining high structural integrity in cyclic testing. © 2023 American Chemical Society.

A study of antioxidant and physicochemical stability in antipyretic decoction of traditional Lanna recipe

During the current COVID-19 outbreak, Thai traditional antipyretic recipes and antipyretic herbs have been widely studied. Antipyretic Thai/Lanna herbal decoction for relieving fever in the North consists of Tinospora crispa, Rhinacanthus nasutus, Sauropus androgynus and Alstonia scholaris. This research aimed to study the physical stability, pH, sedimentation, and color of the Lanna antipyretic decoction at 4 degrees C 25 degrees C and 40 degrees C with 75 +or- 5% RH for 7 days. The testing included the Folin Ciocalteu method for quantifying total phenolic content, the aluminium chloride colorimetry for flavonoid content, and the DPPH radical scavenging and ABTS methods for antioxidant activities. The results demonstrated that, for the decoction, the pH values at various temperatures dropped with storage time, the sediment amounts increased with storage time, but its color did not change at 4 degrees C. Its total phenolic and flavonoid contents rose with storage time. The total phenolic contents in mg GAE/g extract at Days 0 and 7 were 161.13 +or- 5.62 and 15.34 +or- 6.21 at 4 degrees C, 160.53 +or- 11.78 and 14.32 +or- 1.13 at 25 degrees C, and 160.09 +or- 7.39 and 12.82 +or- 6.91 at 40 degrees C, respectively;while the flavonoid contents in mgQE/g extract at Days 0 and 7 were 20.32 +or- 0.43 and 7.80 +or- 0.34 at 4 degrees C, 20.10 +or- 0.47 and 7.27 +or- 0.20 at 25 degrees C, and 20.06 +or- 0.55 and 6.63 +or- 0.43 at 40 degrees C, respectively. The decoction's free radical inhibition (IC50) values at 4 degrees C, 25 degrees C and 40 degrees C by DPPH ranged from 14.74 +or- 0.04 to 23.18 +or- 0.72%w/w;and by ABTS the values ranged from 2.63 +or- 0.12 to 3.95 +or- 0.05%w/w. At the storage temperature of 4 degrees C, the decoction showed the best physical stability. Thus, the results can be used in setting up storage guidelines for Thai traditional and folk decoctions to ensue the best stability.

Environmentally persistent free radicals in PM2.5 from a typical Chinese industrial city during COVID-19 lockdown: The unexpected contamination level variation

The outbreak of COVID-19 has caused concerns globally. To reduce the rapid transmission of the virus, strict city lockdown measures were conducted in different regions. China is the country that takes the earliest home-based quarantine for people. Although normal industrial and social activities were suspended, the spread of virus was efficiently controlled. Simultaneously, another merit of the city lockdown measure was noticed, which is the improvement of the air quality. Contamination levels of multiple atmospheric pollutants were decreased. However, in this work, 24 and 14 air fine particulate matter (PM2.5) samples were continuously collected before and during COVID-19 city lockdown in Linfen (a typical heavy industrial city in China), and intriguingly, the unreduced concentration was found for environmentally persistent free radicals (EPFRs) in PM2.5 after normal life suspension. The primary non-stopped coal combustion source and secondary Cu-related atmospheric reaction may have impacts on this phenomenon. The cigarette-based assessment model also indicated possible exposure risks of PM2.5-bound EPFRs during lockdown of Linfen. This study revealed not all the contaminants in the atmosphere had an apparent concentration decrease during city lockdown, suggesting the pollutants with complicated sources and formation mechanisms, like EPFRs in PM2.5, still should not be ignored. © 2022

Immunology of Aging: the Birth of Inflammaging.

The inflammaging concept was introduced in 2000 by Prof. Franceschi. This was an evolutionary or rather a revolutionary conceptualization of the immune changes in response to a lifelong stress. This conceptualization permitted to consider the lifelong proinflammatory process as an adaptation which could eventually lead to either beneficial or detrimental consequences. This dichotomy is influenced by both the genetics and the environment. Depending on which way prevails in an individual, the outcome may be healthy longevity or pathological aging burdened with aging-related diseases. The concept of inflammaging has also revealed the complex, systemic nature of aging. Thus, this conceptualization opens the way to consider age-related processes in their complexity, meaning that not only the process but also all counter-processes should be considered. It has also opened the way to add new concepts to the original one, leading to better understanding of the nature of inflammaging and of aging itself. Finally, it showed the way towards potential multimodal interventions involving a holistic approach to optimize the aging process towards a healthy longevity.

Chemical Composition of Honeysuckle (Lonicerae japonicae) Extracts and Their Potential in Inhibiting the SARS-CoV-2 Spike Protein and ACE2 Binding, Suppressing ACE2, and Scavenging Radicals.

Honeysuckle (Lonicerae japonicae) has been used in functional tea products. The chemical compositions of the water and ethanol extracts of honeysuckle were examined in the present study, along with their potential in inhibiting SARS-CoV-2 spike protein binding to ACE2, suppressing ACE2 activity, and scavenging reactive free radicals. Thirty-six compounds were tentatively identified from the honeysuckle extracts using HPLC-MS/MS, with ten reported for the first time in honeysuckle. Both honeysuckle extracts inhibited the binding of SARS-CoV-2 spike protein to ACE2, as well as ACE2 activity. The ethanol extract exhibited a 100% inhibition on binding of the SARS-CoV-2 spike protein to ACE2 at 100 mg botanical equivalent/mL, whereas the water extract had a 65% binding inhibition at the same concentration. Furthermore, the water extract exhibited 90% ACE2 activity inhibition, which was stronger than that of the ethanol extract (62% inhibition) at the same botanical weight concentration. In addition, higher total phenolic contents and greater scavenging activities against hydroxyl (HO•), DPPH•, and ABTS•+ radicals were observed in the water extract than the ethanol extract counterpart on a dry botanical weight concentration basis. These findings suggest honeysuckle has the potential to reduce the risk of SARS-CoV-2 infection and the development of severe COVID-19 symptoms.

Model Evaluation of Secondary Chemistry due to Disinfection of Indoor Air with Germicidal Ultraviolet Lamps

Air disinfection using germicidal ultraviolet light (GUV) has received increasing attention during the COVID-19 pandemic. GUV uses UVC lamps to inactivate microorganisms, but it also initiates photochemistry in air. However, GUV's indoor-air-quality impact has not been investigated in detail. Here, we model the chemistry initiated by GUV at 254 ("GUV254”) or 222 nm ("GUV222”) in a typical indoor setting for different ventilation levels. Our analysis shows that GUV254, usually installed in the upper room, can significantly photolyze O3, generating OH radicals that oxidize indoor volatile organic compounds (VOCs) into more oxidized VOCs. Secondary organic aerosol (SOA) is also formed as a VOC-oxidation product. GUV254-induced SOA formation is of the order of 0.1-1 μg/m3 for the cases studied here. GUV222 (described by some as harmless to humans and thus applicable for the whole room) with the same effective virus-removal rate makes a smaller indoor-air-quality impact at mid-to-high ventilation rates. This is mainly because of the lower UV irradiance needed and also less efficient OH-generating O3 photolysis than GUV254. GUV222 has a higher impact than GUV254 under poor ventilation due to a small but significant photochemical production of O3 at 222 nm, which does not occur with GUV254. © 2022 American Chemical Society.

Can melatonin reduce the severity of post-COVID-19 syndrome?

This short review aimed at (i) providing an update on the health benefits associated with melatonin supplementation, while (ii) considering future potential research directions concerning melatonin supplementation use relative to Coronavirus disease of 2019 (COVID-19). A narrative review of the literature was undertaken to ascertain the effect of exogenous melatonin administration on humans. Night-time melatonin administration has a positive impact on human physiology and mental health. Indeed, melatonin (i) modulates the circadian components of the sleep-wake cycle; (ii) improves sleep efficiency and mood status; (iii) improves insulin sensitivity; and (iv) reduces inflammatory markers and oxidative stress. Melatonin has also remarkable neuroprotective and cardioprotective effects and may therefore prevent deterioration caused by COVID-19. We suggest that melatonin could be used as a potential therapy in the post-COVID-19 syndrome, and therefore call for action the research community to investigate on the potential use of exogenous melatonin to enhance the quality of life in patients with post-COVID-19 syndrome. See also Figure 1(Fig. 1).

Free radical induced degradation and computational studies of hydroxychloroquine in aqueous solution.

Hydroxychloroquine (HCQ) is a potential drug molecule for treating malaria. Recently it has also been tried as adjustment in Covid 19 therapy. Interaction of HCQ with free radicals is very important, which controls its stability in the environment where free radicals are generated unintentionally. In this report, we present detailed investigation on the reactions of hydrated electrons (eaq -) and hydroxyl radical (•OH) with HCQ in aqueous solution through electron pulse radiolysis technique and computational studies. The degradation of HCQ was found to be faster in the case of reaction with •OH radicals. However, the degradation could be substantially slowed down in the presence of antioxidants like ascorbic acid and gallic acid. This revealed that the stability of HCQ could be enhanced in an oxidative environment in the presence of these two compounds, which are easily available through food supplements. Various global and local reactivity parameters are also determined to understand the reactivity trend using Hard-Soft Acid-Base (HSAB) principle in the realm of the DFT methods. Computational studies were performed to elucidate the site-specific reactivity trend towards the electrophilic and nucleophilic attack by calculating the condensed Fukui index for various species of HCQ.

Environmentally persistent free radicals enhance SARS-CoV-2 replication in respiratory epithelium.

Epidemiological evidence links lower air quality with increased incidence and severity of COVID-19; however, mechanistic data have yet to be published. We hypothesized air pollution-induced oxidative stress in the nasal epithelium increased viral replication and inflammation. Nasal epithelial cells (NECs), collected from healthy adults, were grown into a fully differentiated epithelium. NECs were infected with the ancestral strain of SARS-CoV-2. An oxidant combustion by-product found in air pollution, the environmentally persistent free radical (EPFR) DCB230, was used to mimic pollution exposure four hours prior to infection. Some wells were pretreated with antioxidant, astaxanthin, for 24 hours prior to EPFR-DCB230 exposure and/or SARS-CoV-2 infection. Outcomes included viral replication, epithelial integrity, surface receptor expression (ACE2, TMPRSS2), cytokine mRNA expression (TNF-α, IFN-ß), intracellular signaling pathways, and oxidative defense enzymes. SARS-CoV-2 infection induced a mild phenotype in NECs, with some cell death, upregulation of the antiviral cytokine IFN-ß, but had little effect on intracellular pathways or oxidative defense enzymes. Prior exposure to EPFR-DCB230 increased SARS-CoV-2 replication, upregulated TMPRSS2 expression, increased secretion of the proinflammatory cytokine TNF-α, inhibited expression of the mucus producing MUC5AC gene, upregulated expression of p21 (apoptosis pathway), PINK1 (mitophagy pathway), and reduced levels of antioxidant enzymes. Pretreatment with astaxanthin reduced SARS-CoV-2 replication, downregulated ACE2 expression, and prevented most, but not all EPFR-DCB230 effects. Our data suggest that oxidant damage to the respiratory epithelium may underly the link between poor air quality and increased COVID-19. The apparent protection by antioxidants warrants further research.

Redox Status, Estrogen and Progesterone Production by Swine Granulosa Cells Are Impaired by Triclosan.

Triclosan is a chlorinated biphenolic with a broad spectrum of antiseptic activities used in cosmetics and hygiene products. Continuous exposure can lead to absorption and bioaccumulation of this substance with harmful health effects. In fact, previous studies have shown that Triclosan acts as an endocrine-disrupting chemical on reproductive organs, with consequent negative effects on reproductive physiology. Therefore, to assess potential adverse impacts on fertility, we tested Triclosan on swine granulosa cells, a model of endocrine reproductive cells. We examined its effects on the main features of granulosa cell functions such as cell growth (BrdU incorporation and ATP production) and steroidogenesis (17-ß estradiol and progesterone secretion). Moreover, since oxidant−antioxidant balance plays a pivotal role in follicular function, redox status markers (superoxide, hydrogen peroxide and nitric oxide production, enzymatic and non-enzymatic scavenging activity) were studied. Our results show that Triclosan significantly inhibits cell growth (p < 0.001), steroidogenesis (p < 0.001), superoxide and nitric oxide production (p < 0.001), while it increases (p < 0.05) enzymatic defense systems. Collectively, these data suggest a disruption of the main granulosa cell functions, i.e., proliferation and hormone production, as well as an imbalance in redox status. On these bases, we can speculate that Triclosan would impair granulosa cell functions, thus exerting negative effects on reproductive function. Further studies are needed to explore lower Triclosan concentrations and to unravel its mechanisms of action at gene level.

Oxi-inflammatory stress and vascular cell adhesion molecule-1 in post-COVID active rheumatoid arthritis patients

Background: Coronavirus disease-19 (COVID-19) has sparked the deterioration of human health at an unprecedented scale globally and affected the patient's musculoskeletal health also. It is conceivable that active rheumatoid arthritis (ARA) patients recovered from COVID-19 after second wave are at enhanced risk of cardiovascular complications. Aim and Objectives: In this context, the present study was intended to estimate the soluble vascular cell adhesion molecule-1 (sVCAM-1), serum paraoxonase (PON), and markers of oxi-inflammatory stress in ARA patients diagnosed reverse transcriptase-polymerase chain reaction negative after second wave of COVID-19 and to determine their role in predicting cardiovascular disease (CVD) risk. Materials and Methods: Sixty ARA patients (30-45 years) of Delhi-NCR region were recruited and categorized into two groups (n=30 in each group;on the basis of their history of COVID infection). Using standard methods, study group parameters were estimated in ARA patients and statistically compared it with that of 30 healthy controls by using student's t-test. Results: Serum sVCAM-1, malondialdehyde (MDA), and C-reactive protein (CRP) levels were significantly high (P<0.001) in Group II and Group III subjects as compared to healthy controls. Conversely, serum PON activity was found to be significantly low (P<0.001) in Group III as compared healthy controls. However, PON activity was altered insignificantly (P<0.1) with respect to Group II subjects. sVCAM-1 levels were positively correlated with MDA, CRP, and atherogenic index;and negatively correlated with PON activity (P<0.001) in post-COVID ARA patients. Conclusion: Thus, enhanced sVCAM-1 and reduced PON activity along with enhanced oxi-inflammatory stress status are more efficient molecular signatures of CVD risk among post-COVID ARA patients. Therefore, the present study emphasizes the dire need of special attention to provide cardiovascular rehabilitation strategy among post-COVID ARA patients along with reduction of oxi-inflammatory stress to reduce the CVD mortality in ARA population. [ FROM AUTHOR]

New Aspects of the Antioxidant Activity of Glycyrrhizin Revealed by the CIDNP Technique.

Electron transfer plays a crucial role in ROS generation in living systems. Molecular oxygen acts as the terminal electron acceptor in the respiratory chains of aerobic organisms. Two main mechanisms of antioxidant defense by exogenous antioxidants are usually considered. The first is the inhibition of ROS generation, and the second is the trapping of free radicals. In the present study, we have elucidated both these mechanisms of antioxidant activity of glycyrrhizin (GL), the main active component of licorice root, using the chemically induced dynamic nuclear polarization (CIDNP) technique. First, it was shown that GL is capable of capturing a solvated electron, thereby preventing its capture by molecular oxygen. Second, we studied the effect of glycyrrhizin on the behavior of free radicals generated by UV irradiation of xenobiotic, NSAID-naproxen in solution. The structure of the glycyrrhizin paramagnetic intermediates formed after the capture of a solvated electron was established from a photo-CIDNP study of the model system-the dianion of 5-sulfosalicylic acid and DFT calculations.

Chemistry and Biomedical Applications of Cumin and Turmeric: A Review, Challenge and Perspective

Since time immemorial, natural products have found applications for the treatment of many maladies and ailments. This review attempts to portray the chemistry, bio-medical activities and efficacy in the therapy of COVID-19 of one age-old famous spice cumin and an eminent herb turmeric. Both of them have found significant applications in the disciplines of Ayurveda for their physiological and nutraceutical benefits. It is worth mentioning that the versatility of cumin and turmeric in terms of treating a variety of ailments, as well as their antioxidant properties, has always piqued the curiosity of the scientific community. Even in recent times, both of them are being scrutinised for their response to the global pandemic, COVID-19. Thymoquinone, the most abundant constituent of black cumin has shown immense therapeutic potential. On the other hand, curcumin, an important bio-active component of turmeric owns a wide array of pharmacologic effects. The utilisation of curcumin-derived carbon quantum dots and nanoparticle bound curcumin, on the other hand, is a new field in nanomedicine. Having said all these things, a few challenges have been encountered regarding their uses as drug candidates. Several research papers for the past fifteen years have been consulted using online databases like Google Scholar, Scopus and PubMed to compose this article in the viewpoint of the promises and challenges of the active constituents of cumin and turmeric as potential drug candidates.