Solanum torvum Swartz. fruit attenuates cadmium-induced liver and kidney damage through modulation of oxidative stress and glycosylation.

Increased levels of environmental pollutants are linked to almost all human disorders; the efficient method to manage the human health is through naturally available dietary molecule. Solanum torvum (ST) Swartz (Solanaceae) commonly called Turkey Berry is found in Africa, Asia, and South America. Its fruit, part of traditional Indian cuisine, is a widely consumed nutritious herb, acclaimed for its medicinal value. ST aqueous extract (STAe) (250, 500, and 1000 mg/kg b.w., 6 days; oral) against acute Cadmium (Cd) (6.3 mg/kg b.w., single dose; oral) toxicity was evaluated in rats. Protective effect was assessed using serum markers, tissue antioxidants, oxidant derivatives, glycoprotein, and histopathological studies. The activities of serum marker enzymes were increased (40-60 %); antioxidant enzymes such as SOD and CAT, GSH, and its metabolic enzyme activities were decreased (50-80 %) in the liver and kidney upon Cd intoxication. During STAe pre-treatment, at doses of 250 and 500 mg/kg b.w., the above changes were brought to near normal (25-63 %). Tissue 4-hydroxynonenal, 3-nitrotyrosine, and protein carbonyls were increased (8-15 fold) in Cd-alone-treated rats, whereas pre-supplementation of STAe significantly decreased their levels and inhibited the protein glycosylation effectively. The pharmacological effect of STAe was confirmed by histopathological observations. Based on previous literature and present investigation, we conclude that ST may serve as a potential functional food against environmental contaminant such as heavy metal-induced oxidative stress.

Probing the interaction of troxerutin with transfer RNA by spectroscopic and molecular modeling.

The studies on the interaction between tRNA (transfer RNA) and small molecules are an area of remarkable recent attention. For this notion a fundamental knowledge of the molecular features involving the interaction of small molecules with tRNA is crucial. Hence, in the present study we have investigated the interaction of TXER (troxerutin), natural bioflavonoid rutin derivative with yeast tRNA by using various spectroscopic techniques and molecular docking studies. The UV absorption and fluorescence emission studies demonstrated external binding of TXER on tRNA with low binding constant values as compared to strong binders. Circular dichroism (CD) spectroscopy study revealed that TXER did not show any significant modification on native conformation of tRNA. Furthermore in electrochemical study, the complex of TXER-tRNA did not expose any noticeable positive potential peak shift which indicated an interaction of TXER with tRNA by electrostatic or external binding mode. The docking study showed that the hydrogen and hydrophobic interactions were involved in binding of TXER-tRNA with docking score -7.0 kcal/mol. These findings led us to confirm the interaction of TXER on tRNA through external binding with low binding affinity, indicating its potential bioapplication in the future.

Spectroscopic and molecular docking studies on the interaction of troxerutin with DNA.

Troxerutin (TXER) is a derivative of naturally occurring bioflavonoid rutin. It possesses different biological activities in rising clinical world. The biological activity possessed by most of the drugs mainly targets on macromolecules. Hence, in the current study we have examined the interaction mechanism of TXER with calf thymus DNA (CT-DNA) by using various spectroscopic methods, isothermal titration calorimetry (ITC) and molecular docking studies. Further, DNA cleavage study was carried out to find the DNA protection activity of TXER. UV-absorption and emission spectroscopy showed low binding constant values via groove binding. Circular dichroism study indicates that TXER does not modify native B-form of DNA, and it retains the native B-conformation. Furthermore, no effective positive potential peak shift was observed in TXER-DNA complex during electrochemical analysis by which it represents an interaction of TXER with DNA through groove binding. Molecular docking study showed thymine guanine based interaction with docking score -7.09 kcal/mol. This result was compared to experimental ITC value. The DNA cleavage study illustrates that TXER does not cause any DNA damage as well as TXER showed DNA protection against hydroxyl radical induced DNA damage. From this study, we conclude that TXER interacts with DNA by fashion of groove binding.

The extra cellular synthesis of gold and silver nanoparticles and their free radical scavenging and antibacterial properties.

The bio reduction of chloro auric acid (HAuCl(4)) and silver nitrate (AgNO(3)) is achieved extracellularly by using the aqueous extract of Solanum torvum (S. torvum) fruit. The nanoparticle formation was screened by UV-visible spectroscopy through color conversion due to surface plasma resonance bands at 560 nm and 430 nm for gold and silver nanoparticles respectively. The spherical shapes with smooth surface of gold and silver nanoparticles were analyzed through scanning electron microscope and its presence was confirmed by energy dispersive X-ray spectroscopy (SEM/EDX). The functional groups in the gold and silver salts and the bio interactive functional groups present in the S. torvum extract were characterized by employing Fourier transform infra-red spectroscopy (FTIR). The biomedical properties of gold and silver nanoparticles were premeditated as free radical scavenging activity and antibacterial static agents. Gold and silver nanoparticles serve as strong hydroxyl, superoxide, nitric oxide and DPPH radical scavengers in contrast to their corresponding metal oxides. The radical quenching properties of gold and silver nanoparticles were found to correlate with in vitro DNA protective effect. The silver nanoparticles show strong zone of inhibition against Escherichia coli, Pseudomonas and Bacillus whereas, gold nanoparticles exhibit fair zone of inhibition. To our knowledge this is the first report that S. torvum extract can reduce metal acids to nano materials.

Brassica nigra plays a remedy role in hepatic and renal damage.

CONTEXT: Black mustard [Brassica nigra (L.) Koch] of the Brassicaceae (Cruciferae) family is commonly used as a spice and a cheap source of antimicrobial agents for bacterial infections. OBJECTIVES: The present investigation was to demonstrate the protective effect of the methanol extract of B. nigra leaves against D-galactosamine (D-GalN)-induced hepatic and nephrotoxicity in Wistar rats. METHODS: Activity of the methanol extract of B. nigra at doses of 200 and 400 mg/kg b.wt. against D-GalN (500 mg/kg b.wt.) induced toxicity, with silymarin used as the standard. Histological damage, activities of serum marker enzyme, hematological changes, metabolites such as bilirubin, urea, uric acid, and creatinine levels, tissue thiobarbutric acid reactive substance, enzymic and non-enzymic antioxidants and inflammatory marker enzymes such as myeloperoxidase, cathepsin D, and acid phosphatase were assessed. RESULTS: The D-GalN-induced toxicity was evident from a significant increase (p < 0.001) in the serum and tissue inflammatory markers in toxic rats, when compared with the control (saline alone treated animals). The B. nigra pretreated groups (200 and 400 mg/kg b.wt.) showed significant (p < 0.001) reduction in the D-GalN-induced toxicity as obvious from biochemical parameters. Histopathological observations confirm the protective effect of B. nigra leaf extract by reduction in hepatic and renal tissue damage. Experimentals extract showed a similar effect as the standard. CONCLUSIONS: The crude methanol extract of B. nigra leaf lacks inherent toxicity and exhibits hepatic and nephroprotective effects against D-GalN-induced toxicity in Wistar rats.

Evaluation of antioxidant, radical scavenging activity and polyphenolics profile in Solanum torvum L. fruits.

UNLABELLED: Solanum torvum fruit widely used in traditional medicine of India and also in food preparation. Three different extracts such as water (WE), methanol (ME), and ethanol (EE) were used to evaluate their antioxidant and radical scavenging activity by different methods. All the assays results were compared with well-known standard antioxidants. The IC(50) values of assays were determined. The total phenolic and flavonoids content were found to be maximum in water and ethanol extracts, respectively. The electron quenching ability of fruit extract was assayed by DPPH and reducing power assays succeeding order were ME > EE > WE, respectively. Inhibition of membrane damage, was assayed interns of oxidative hemolysis and lipid peroxidation assays, among all WE extract shows 58.00% and 68.55 5% percentage of inhibition with 0.9 and 0.8 correlations (r(2)), respectively. Antioxidant and radical quenching efficiency were assayed by ß-carotene bleaching and hydroxyl radical scavenging method and results were compared with vitamin C and catechin. The in vitro free radical quenching and antioxidant results were well correlated with in vitro DNA protection assay. As analyzed by HPTLC gallic acid content is high in WE (1394 ± 25.0) and ME (598 ± 54.0) whereas ferulic acid is high in EE (32 ± 5.94) µg/g, respectively. This study indicate that S. torvum fruit is an excellent source of natural antioxidant and could be an effective nutritional food supplement, which interns will have therapeutic applications. PRACTICAL APPLICATION: In siddha medicine on the traditional systems of India the, ripened fruits are used in the preparation of tonic named as a "sundaivattaral choornam" is used to improve the health and prevent several diseases. This study has given an experimental evidence that S. torvum fruit is an excellent source of natural antioxidants.

The factors affecting outcome after non-vascular bone grafting and internal fixation for nonunion of the scaphoid.

This study identified variables which influence the outcome of surgical management on 126 ununited scaphoid fractures managed by internal fixation and non-vascular bone grafting. The site of fracture was defined by a new method: the ratio of the length of the proximal fragment to the sum of the lengths of both fragments, calculated using specific views in the plain radiographs. Bone healing occurred in 71% (89) of cases. Only the site of nonunion (p = 1 x 10(-6)) and the delay to surgery (p = 0.001) remained significant on multivariate analysis. The effect of surgical delay on the probability of union increased as the fracture site moved proximally. A prediction model was produced by stepwise logistic regression analysis, enabling the surgeon to predict the success of surgery where the site of the nonunion and delay to surgery is known.

Radial head fracture in the medial collateral ligament deficient elbow; biomechanical comparison of fixation, replacement and excision in human cadavers.

A widely used clinical recommendation is that in the presence of medial collateral ligament injuries, two-part radial head fractures should be fixed rather than excising or replacing the radial head. Direct biomechanical data comparing fracture fixation, radial head replacement and excision in a human cadaveric elbow model, have not been previously described. Such comparison is clinically important as with the increasing availability of radial head implants and promising follow up results, the role of radial head replacement in fracture management may have to be redefined. In this study, five fresh cadaveric elbows had radial head fracture creation and medial collateral ligament division, fracture fixation, radial head replacement and excision. Valgus and varus laxity were determined using an electromagnetic tracking system. Radial head replacement leads to a similar valgus (P=0.80) [corrected] laxity as compared to radial head fixation. Radial head excision resulted in a significantly greater valgus laxity as compared to radial head fixation (P=0.02) or replacement (P=0.03). Both radial head excision and replacement led to a greater varus laxity as compared to fixation. Our results suggest that in the elbow with medial collateral ligament injury and two-part radial head fracture, fixation is overall biomechanically superior as compared to replacement and excision.

Spectrophotometric determination of the oxygen to uranium ratio in uranium oxides based on dissolution in sulphuric acid.

The oxygen to uranium ratio in uranium oxides such as U(3)O(8), UO(2+x) powders and UO(2) fuel pellets has been determined by a new spectrophotometric method. The method can be used for determination of O/U ratio in UO(2) pellets and powders on a routine basis. In the described method, uranium oxides in the powder form are dissolved in 2M sulphuric acid containing a few drops of HF. The concentrations of U(IV) and U(VI) are directly determined by means of the absorbances of these species at different wavelengths. For determination of the O/U ratio in U(3)O(8) powder samples, 630 and 310 nm are the wavelengths chosen for U(IV) and U(VI), respectively. For UO(2+x) powder, where the O/U ratio lies between 2.04 to 2.15, U(IV) and U(VI) are determined at 630 and 300 nm respectively, whereas for UO(2) fuel pellets, where the O/U ratio is less than 2.01, 535 and 285 nm are used. The molar absorptivity of U(IV) at 630 and 535 nm is 21.4 and 6.8 l.mole(-1).cm(-1) and that of U(VI) at 310, 300 and 285 nm is 178.1, 278.6 and 585 l.mole(-1).cm(-1), respectively. Standard deviations of +/-0.002 O/U ratio units for pellets and +/-0.004 O/U ratio units for powders have been achieved.