In-Vitro Cytotoxic Evaluation of Titanium Dioxide Nanoparticle Using L929 Cell Lines.

Tooth movement in orthodontic therapy is connected to the frictional force that is created as the wire passes over the bracket. It is possible for teeth to move quickly when friction is at a minimum. Wires coated with nanoparticles have been found to reduce friction as a result of current developments in the orthodontics sector. Having an antimicrobial property is an added benefit. To reduce the friction generated by brackets, wires, and bands by lessening their cytotoxicity, this study examines the potential use of TiO2 nanoparticles in orthodontics. A monolayer of L929 was utilized in an indirect cytotoxicity test to evaluate the cytotoxicity of the coated orthodontic wire. The absence of reactive zones in our sample data demonstrates that TiO2 is not cytotoxic. Considering the results of our study, we conclude that TiO2 is secure for use as a coating for orthodontic devices.

Eco-friendly bio-nanocomposites: pioneering sustainable biomedical advancements in engineering.

Biomedical nanocomposites, which are an upcoming breed of mischievous materials, have ushered in a new dimension in the healthcare sector. Incorporating these materials tends to boost features this component already possesses and give might to things these components could not withstand alone. The biopolymer, which carries the nanoparticles, can simultaneously improve the composite's stiffness and biological characteristics, and vice versa. This increases the options of the composite and the number of times it can be used. The bio-nanocomposites and nanoparticles enable the ecocompatibility of the medicine in their biodegradability, and they, in this way, have ecological sustainability. The outcome is the improved properties of medicine and its associated positive impact on the environment. They have broad applications in antimicrobial agents, drug carriers, tissue regeneration, wound care, dentistry, bioimaging, and bone filler, among others. The dissertation on the elements of bio-nanocomposites emphasizes production techniques, their diverse applications in medicine, match-up issues, and future-boasting prospects in the bio-nanocomposites field. Through the utilization of such materials, scientists can develop more suitable for the environment and healthy biomedical solutions, and world healthcare in this way improves as well.

Antibacterial activity of herbal formulation against common oral pathogens.

The development of antibiotic resistance in microorganisms is a global challenge for the clinicians, pharmacist and research scientists leading to the development of new medicinal formulations that are effective and easily consumable. The plant yielding essential oil with chief constituent as eugenol has been identified as an important compound with strong inhibition of bacteria, and storage fungi. Ocimum gratissimum and Ocimum sanctum is an aromatic shrub occurring in warm tropical regions has been used in traditional medicine in India to cure various ailments in general and as an antimicrobial agent in particular. The aim of this present study is to assess the antimicrobial and cytoxic activity of the formulation against oral pathogens. The formulation of O. gratissimum and O. sanctum plant extract was prepared and filtered. Antimicrobial activity was done by agar well diffusion method, minimum inhibitory concentration assessment was determined by broth dilution method and cytotoxicity was assessed by brine shrimp lethality assay. Agar well diffusion method against S. mutans, Enterococcus faecalis, C. albicans, Lactobacillus sp, and S. aureus revealed no zone of inhibition but at 100µL concentration at every time interval, the study formulation showed more bacteriostatic activity than positive control and the standard used. The formulation showed very minimal cytotoxicity. The formulation of O. gratissimum and O. sanctum synergistically showed more antibacterial, antifungal and cytotoxic activity and more research has to be done in invivo environment.

Antimicrobial and Cytotoxic Activity of Ocimum tenuiflorum and Stevia rebaudiana-Mediated Silver Nanoparticles - An In vitro Study.

Background: Silver nanoparticles (AgNPs) are the nanoparticles of silver between 1 nm and 100 nm in size. In this study, AgNPs were extracted from Ocimum tenuiflorum and Stevia rebaudiana which is a medicinal plant of Indian origin, worshipped by the Hindus and used in Ayurvedic medicine since ancient times. Aim: The aim of the study was to assess the antimicrobial and cytotoxic effect of AgNPs reinforced with the herb O. tenuiflorum and S. rebaudiana against oral pathogens. Materials and Methods: In this in vitro study, the organisms used were Streptococcus mutans, Staphylococcus aureus, Lactobacillus sp., and Candida albicans. Agar well-diffusion method was used to assess the antimicrobial efficacy of the nanoparticles at 25 mL, 50 mL, and 100 mL. To assess the cytotoxic effect, brine shrimp lethality assay was used. Results: Zone of inhibition was found to be highest at 100 mL against S. mutans, S. aureus, Lactobacillus sp., and C. albicans. The cytotoxic activity at 5 mL and 10 mL was 0%. The maximum cytotoxicity was seen at 80 mL where 30% of the Nauplii's died. Conclusion: The findings from this study suggest that AgNPs reinforced with O. tenuiflorum and S. rebaudiana extracts has the potential as an antimicrobial agent and has less cytotoxic effect on brime shrimp and can be used as an alternative to commercially available antimicrobial agents.

Synergistic antibacterial and mosquitocidal effect of Passiflora foetida synthesized silver nanoparticles.

Silver nanoparticles are opted to have various applications in different fields ranging from traditional medicines to culinary items. It is toxic and most effective against bacteria, fungi viruses, parasites, parasite carrying vectors such as mosquitoes and their larvae and other eukaryotic microorganisms at low concentration without any side effects and toxicity to humans. In view of these data, the present research has been investigated by synthesizing silver nanoparticles using 1mM silver nitrate and aqueous extract of Passiflora foetida. The variation of nanoparticles in size and shape concerning the concentration of extract prepared were analysed. The formation of silver nanoparticles was confirmed by colour changing from yellowish green to reddish-brown implicating the surface plasmon resonance. Further, it was concluded by obtaining an absorbance peak at 420 nm using UV-Visible spectrophotometer analysis. FTIR analysis was used to identify the capping ligands, which included alkanes, aromatic groups and nitro compounds. The average grain size of ~12 nm to 14 nm with crystalline phase was revealed by X-ray Diffraction studies. The SEM images depicted the surface morphology with agglomeration; TEM studies showed the shape of nanoparticles as spherical and hexagonal with sizes ranging from 40 nm to 100 nm and EDAX analysis confirmed the presence of elemental silver as the principal constituent. The characterized silver nanoparticles were then tested for synergistic antibacterial effects with tetracycline, and the results show that they are more active against E. coli and S. aureus, but moderately effective against B. cereus and K. pneumoniae . It also had a strong larval and pupal toxic effects on the dengue vector, Aedes aegypti with the highest mortality. As a result, silver nanoparticles could be a viable alternative for a variety of applications.

Antimicrobial effects of copper nanoparticles with green tea and neem formulation.

Nanotechnology is the science which is about manipulating matter, atom by atom and is associated with particles smaller than 100 nm in size. Copper nanoparticles are used mainly due to its surplus amount, low cost, easy availability and biocompatible property. Green synthesis of copper nanoparticles is very simple, economical and eco-friendly method that does not involve any toxic chemicals. The aim of our study is green synthesis of copper nanoparticles using green tea and neem formulation and assessment of its antimicrobial effects. 20mM of copper sulphate solution is mixed with 40mL of plant extract and 60 mL of distilled water was added and made it into 100 ml solution. Once the copper nanoparticles are synthesized the solution is characterized using UV- vis-spectroscopy and was scanned in double beam UV-vis- spectrophotometer from 300 nm to 700nm wavelength. The antimicrobial property of copper nanoparticle is evaluated by agar well diffusion method. The colour change from green to brown and peak observed in UV-vis- spectrophotometer was associated with the synthesis of copper nanoparticles. Copper nanoparticle from green tea and tea extract has good antimicrobial activity against S.mutans, C.albicans, E.faecalis, & S.aureus. Copper nanoparticles can be efficiently synthesised from green and neem formulation. These copper nanoparticles showed good antibacterial properties and are effective against oral pathogens.

Strategies of Bioceramics, Bioactive Glasses in Endodontics: Future Perspectives of Restorative Dentistry.

Prevalently, there is a primary strategy to cure caries using restorative materials notably bioceramics. Existing synthetic materials stimulate natural tooth structure with acceptable interfacial bonding and esthetic and biomechanical qualities with better durability. Several bioceramics have been introduced and investigated for their potentialities as restorative materials. Biomineralization of tooth initiates repair and regeneration of natural dental tissue and reinstating the integrity of periodontium. In the evolution of bioceramics in the aspects of different essential composition for dental application, recent technology and modern strategies revolutionize the restorative dentistry. Bioglass is one among the important bioceramics as a restorative material, and by regulating the properties of the material, it is possible to construct improved formulation towards restoration. This article reviews the current revolution of endodontics, existing restorative materials, and technologies to be achieve for engineering materials with the better design.

Apoptotic and Antioxidant Activity of Gold Nanoparticles Synthesized Using Marine Brown Seaweed: An In Vitro Study.

A major paradigm shift in the field of nanobiotechnology is the invention of an eco-friendly, economical, and green approach for synthesis of metal nanoparticles. In the present study, we have synthesized gold nanoparticles (AuNPs) using aqueous extracts of marine brown seaweed Sargassum longifolium. The synthesized nanoparticle was subjected to characterization using different techniques such as UV-Vis spectroscopy, Fourier transform infrared spectroscopy, atomic force microscope, scanning electron microscope, transmission electron microscope, and elemental dispersive X-ray diffraction. Further, the seaweed extract and the synthesized AuNPs were evaluated for its anticancer effect using MG-63 human osteosarcoma cells besides in vitro antioxidant effect. The formation of S. longifolium-mediated synthesis of gold nanoparticles was demonstrated by UV-Vis spectroscopy. Presence of elemental gold was confirmed by EDX analysis. TEM analysis demonstrated spherical morphology of the synthesized AuNPs and SEM analysis revealed the particle size to be in the range of 10-60 nm. The FTIR showed the presence of hydroxyl functional groups. The toxicity of S. longifolium extract and the synthesized AuNPs was tested using brine shrimp lethality assay at different concentrations with results showing both seaweed extract and AuNPs to be nontoxic. Both S. longifolium and AuNPs exhibited significant antioxidant activity by scavenging DPPH free radicals and H2O2 radicals. Significant antiproliferative effect was observed against MG-63 osteosarcoma cells. It was also shown that the seaweed extract and the AuNPs induced cytotoxicity in cell lines by mechanism of apoptosis. In conclusion, this study provided insight on AuNPs synthesized from S. longifolium as a potent antioxidant and anticancer agent.

Antioxidant, anti-inflammatory activity of Thymus vulgaris-mediated selenium nanoparticles: An in vitro study.

Background: Nanotechnology is the specialty associated with material science and biology, rather than a particular field. It entails the method of particles at nanoscale called Nanoparticles, wherein they have control over bulk macroscopic properties of the identical material. The "drug nanocarrier," selenium possesses strong antibacterial, antioxidant and anti-cancer as well as anti-inflammatory properties. As the medicinal plant Thymus vulgaris possesses a lot of phytochemicals, this study was conducted to assess the anti-inflammatory and antioxidant activity of selenium nanoparticles (SeNps) reinforced with T. vulgaris. Materials and Methods: Anti-inflammatory activity, antioxidant activity of SeNps reinforced with T. vulgaris extract were assessed using bovine serum albumin and 2, 2-diphenyl-1-picrylhydrazyl assay, respectively, at 10, 20, 30, 40, and 50 µL. Results: The values for anti-inflammatory property of nanoparticles were higher than the standard values at 30, 40, and 50 µL concentrations. Percentage of inhibition was highest at 40 µL (87.7%) and 50 µL (92.6%). The values for antioxidant property of nanoparticles were found to be higher than the standard values at 10, 20, and 30 µL concentrations. Percentage of inhibition was highest at 30 µL (68.3%). Conclusion: SeNps reinforced with T. vulgaris extract have a potential as an anti-inflammatory and antioxidant agent and can be used as an alternative to commercially available products.

Cytotoxicity of lycopene-mediated silver nanoparticles in the embryonic development of zebrafish-An animal study.

Nano-silver (AgNP) has biological properties which are significant for consumer products, food technology, and medical applications (e.g., wound care products, implantable medical devices, in diagnosis, drug delivery, and imaging). Thus, the use of nano-silver is becoming more and more widespread in medicine. However, the effect of these AgNPs on zebrafish remains unclear. Whereas, lycopene, a fat-soluble carotenoid acts as a potent antioxidant has proved its major role in treating many oral health problems such as lichen planus, and periodontitis. Usage of these lycopene AgNPs would yield better results in wound healing. In this study, we investigated the cytotoxic effects of AgNPs on fibroblasts cells of humans. To investigate the toxic effects of the lycopene-mediated AgNPs on the zebrafish (Danio rerio) and to examine these effects on the embryonic development of the fetus of this species. In this study, zebrafish embryos were treated with AgNPs 0.5, 1, 2, 3, 4 or 5 L nanoparticles/ml for 24 to 96 h post fertilization. Our results showed that with the increasing concentration of nanoparticles, there was a very mild toxic effect. Less toxic effects were observed with 1µl. Our results show that exposure to silver nanoparticles is less toxic to embryonic zebrafish at lower concentrations. The results will contribute to the current understanding of the potential biotoxic effects of nanoparticles and will aid in the safety assessment and synthesis of silver oxide nanoparticles.

Evaluation of Zebrafish Toxicology and Biomedical Potential of Aeromonas hydrophila Mediated Copper Sulfide Nanoparticles.

The present study deals with extracellular synthesis and characterization of copper sulfide (CuS) nanoparticles using Aeromonas hydrophila, and the biological applications of the synthesized CuS like antibacterial, anti-inflammatory, and antioxidant activity were reported. Further, the toxicological effects of the CuS were evaluated using zebrafish as an animal model. The primary step of the synthesis was carried out by adding the precursor copper sulfates to the culture supernatant of Aeromonas hydrophila. The UV-visible spectrophotometer was used to characterize the synthesized nanoparticles, and the peak was obtained at 307 nm through the reduction process. Fourier transform infrared spectroscopy (FTIR) was involved to find out the functional groups (carboxylic acid, alcohols, alkanes, and nitro compounds) associated with copper sulfide nanoparticles (CuS-NPs). Atomic force microscopy (AFM) was used to characterize the CuS topographically, and a scanning electron microscope (SEM) revealed about 200 nm sized CuS nanoparticles with agglomerated structures. Overall, the characterized nanoparticles can be considered as a potential candidate with therapeutic proficiencies as antibacterial, antioxidant, and anti-inflammatory mediator/agents.

Antibacterial activity of cinnamon and clove oil against wound pathogens.

A wound is a complicated health issue, and it severely affects the injured area because of the growth of many pathogenic microorganisms. Cinnamon and clove oil exhibit antibacterial activity against wound pathogens like Pseudomonas aeruginosa, Escherichia coli, and Klebsiella pneumoniae were identified by the disc diffusion method. Cinnamon and clove oils are effective antibacterial agents because of their importance in reducing virulence and pathogenicity of drug-resistant bacteria in vivo. The increased frequency in clinically observed cases of antibiotic resistance has been attributed to many factors, such as the misuse and overuse of antibiotics. In some countries, antibiotics are sold over the counter without a prescription; hence, this study aimed to investigate the antimicrobial effect of clove and cinnamon on clinically isolated resistant strains of P. aeruginosa, E. coli, and K. pneumoniae.

Anti-inflammatory and antimicrobial effects of herbal formulation using karpooravalli, mint, and cinnamon on wound pathogens.

Wound damage must be shielded from inflammatory responses caused by the external environment, while also receiving adequate moisture and promoting wound healing. Cinnamomum verum, Coleus aromaticus/amboinicus, and Mentha have proven effects on anti-inflammatory and antimicrobial effects as separate in various studies, but no studies have observed the synergistic effects of one herb on the other. The aim of the present study is to assess the anti-inflammatory and antimicrobial properties of karpooravalli, mint, and cinnamon formulation against wound pathogens for better healing of mouth ulcers through an in vitro study for further mouth paint preparation. Herbal extract is prepared using herbal plants karpooravalli, mint, and cinnamon. We studied the antimicrobial effects on Escherichia coli, Staphylococcus aureus, and Pseudomonas with ampicillin antibiotic disks as positive control and anti-inflammatory with control of diclofenac sodium. The antimicrobial activity of zone of inhibition increased with higher concentration of 100 µL against E. coli, S. aureus, and Pseudomonas at 20 mm, 18 mm, and 15 mm, respectively. The anti-inflammatory activity showed the highest percentage of inhibition using 50 µL with 91.5%; this reveals good anti-inflammatory activity by the synergistic action of the herbal formulation. The synergistic effect of the herbal formulation had a comparable anti-inflammatory activity as that of the standard. Hence, it can be employed in large-scale production and may be used for fabricating a natural product based on mouthwashes and mouth paints.

Antimicrobial study of cast post and its surface modification with nanoparticle.

A cast post is a one-piece unit that is custom fabricated for the tooth at the dental laboratory. Traditional extracts such as neem and green tea have good antimicrobial and antioxidant activity against pathogens. The empty canal space may provide a suitable environment for promoting bacterial growth. The main aim of the study is to find the antimicrobial activity of the cast post coated with the nanoparticle. Prepared cast post was coated with prepared green tea and neem-mediated zinc oxide (ZnO) nanoparticles. Culture is done in agar media where control is noncoated post and another is nanoparticle coated post was implanted in the agar media. The zone of inhibition was noted and statistical analysis was done. The maximum zone of inhibition found on Candida albicans (19.333 2.081) followed by Enterococcus faecalis (14.000 3.605), and Streptococcus mutans (12.666 2.516). Green tea and neem-mediated ZnO nanoparticle showed good antimicrobial activity against the tester microorganism. Cast post coated with nanoparticles has been proved to be important as it is helpful in the prevention of origin and spread of infection around the canal and through the apical foramen.

Evaluation of compressive strength, color stability, and antimicrobial action of chitosan-modified temporary crowns.

This research was aimed at observing how antibacterial strength, colour stability, and compressive strength of chitosan modified PMMA compare to non modified PMMA [polymethyl methacrylate]. The study consisted of 2 groups - chitosan modified PMMA was the test group while unmodified PMMA was the control group. Twenty-four specimens were prepared for each group. Compressive strength was evaluated using the Universal testing machine. The antimicrobial action against streptococcus mutans and lactobacillus was evaluated using the disc diffusion method. A reflectance spectrophotometer was used to measure the baseline colour following the CIE L*a*b* scheme. Following these experiments, the specimens were submerged in coffee and distilled water solutions [n = 8] for 15 days each. Color stability was measured by comparing the coordinates obtained pre and post the ageing method. Independent t test used to examine data on colour change and compressive strength. [α = 0.05] It was observed that the incorporation of chitosan into polymethylmethacrylate increases its compressive strength. This was statistically significant [P = 0.00]. Improved colour stability was also observed [P = 0.000]. Antimicrobial action against streptococcus mutans and lactobacillus was seen in the chitosan modified group. Chitosan incorporation provides a promising improvement in the properties of the polymethylmethacrylate however further research with invivo studies are required to come to a conclusion.

Characterization and antimicrobial activity of cerium oxide nanoparticles synthesized using neem and ginger.

The aim of this study is to analyze and characterize the antimicrobial effect of cerium oxide nanoparticles (NP) synthesized using neem and ginger. Finely grounded neem and ginger powder were taken and mixed with distilled water. This mixture was then heated and filtered. Ammonium cerium nitrate dissolved in distilled water. Both the mixtures were mixed and stirred magnetically. A double-beam ultraviolet-visible spectrophotometer was used to monitor color changes. The extract was centrifuged at 8000 rpm for 15 min. The final pellet was powdered using a hot air oven at 70°C for 24 h. Visualization was done by transmission electron microscopy and spherical morphology was noted, with an average diameter of 5 nm, in aggregated form. The sample containing 100 mg of cerium oxide shows the most significant effect on the zone of inhibition of 11 mm of Staphylococcus aureus. The results obtained in the current study confirmed that CeO-NP possessed antioxidant and cytotoxic properties.

Biomedical Application of Chitosan and Piper Longum-assisted Nano Zinc Oxide-based Dental Varnish.

The aim of this study was to prepare zinc oxide nanoparticles from chitosan and Piper longum and to assess the antimicrobial activity. The chitosan is a biocompatible polymer and also used as a polymeric nanoparticle. P. longum is a flowering vine which is commonly used as a spice to season food. It is also being used as a traditional medicine that treats asthma, viral hepatitis, cough, and respiratory infections. Dental varnishes are usually applied on the tooth surface and are similar to fluoride varnishes that prevent tooth decay. The zinc oxide nanoparticles were prepared using the P. longum plant extract and color change was noted. The nanoparticle formation was confirmed using UV-Vis spectroscopy and the solution was centrifuged for 10 min and the nanoparticles were collected. The chitosan was prepared using 1% acetic acid with chemical reaction. In a centrifuge tube, 100 µL of prepared nanoparticles, with the addition of chemical ingredients the varnish, were prepared. The study showed Staphylococcus aureus to be very sensitive with a maximum zone of inhibition followed by Sterptococcus mutants, Enterococcus faecalis, and Candida albicans. P. longum- and chitosan-assisted nano zinc oxide-based dental varnishes will be a better choice for infections caused by S. aureus and S. mutans.

Degradation of Toxic Dye Using Phytomediated Copper Nanoparticles and Its Free-Radical Scavenging Potential and Antimicrobial Activity against Environmental Pathogens.

The present investigation deals with the green synthesis of copper nanoparticles in an ecofriendly manner using leaf extract of Andrographis paniculata. Green-synthesized copper nanoparticles were studied for their antibacterial, antioxidant, and catalytic activity. The leaves were powdered and extracted with water and added to copper sulphate solution. The reduction of copper ions to nanoparticles was preliminarily identified by the color change of the reaction mixture. The synthesized nanoparticle was characterized by using a UV-Vis Spectrophotometer at a different wavelength with different time intervals. Functional groups available on the surface of the nanoparticle were identified by Fourier transform infrared spectroscopy (FTIR). Surface roughness was characterized by atomic force microscopy (AFM). X-ray diffraction (XRD) analysis showed six distinct intense peaks indicating the crystalline nature of synthesized copper nanoparticles (CuNPs). A scanning electron microscope (SEM) demonstrated polydispersed nanoparticles formed in the reaction process. The antibacterial activity of the nanoparticles was evaluated by an agar well diffusion assay against pathogenic bacteria. The antioxidant activity showed the excellent reduction of DPPH free radicals by nanoparticles. These results confirmed that copper nanoparticles serve as an alternative therapeutic agent over conventional drugs. Moreover, copper nanoparticles were also used to study the effect on the dye degradation process of methyl red and eosin dyes. Copper nanoparticles effectively remove the dyes with high efficiency up to 92% and 95% of methyl red and eosin dye, respectively.

Phytosynthesis of Titanium Dioxide Nanoparticles Using King of Bitter Andrographis paniculata and Its Embryonic Toxicology Evaluation and Biomedical Potential.

Phytosynthesis particles are the efficient activity of biomedical and environmental. In this present study, the green synthesis of titanium dioxide (TiO2) nanoparticles using the king of bitter herbal plant Andrographis paniculata was synthesized and characterized using XRD, SEM, HRTEM, AFM, and antimicrobial, antioxidant, and antidiabetic activities. The size of the particles HRTEM shows 50 nm, and SEM shows the spherical shape, which reveals the synthesis of TiO2 nanoparticles. XRD spectrum shows crystallinity of nanoparticles, and an average size is calculated about 22.97 nm. The phytosynthesis TiO2 shows the antioxidant and antidiabetic activities. Similarly, toxicity studies have demonstrated the hatching and viability LD 50 value of TiO2 250 µg/L. The current study's findings suggested that phytosynthesis TiO2 using extract of Andrographis paniculata exposure to potential hazard factors to biomedical and environmental uses.

Anticancer, Enhanced Antibacterial, and Free Radical Scavenging Potential of Fucoidan- (Fucus vesiculosus Source) Mediated Silver Nanoparticles.

The present research displays the green synthesis of stable silver nanoparticles (AgNPs). The aqueous solution of Fucoidan from Fucus vesiculosus source (brown marine algae) is used as a reducing and capping agent. UV-Vis spectroscopy, XRD, FT-IR, SEM, EDX, and TEM with selected area electron diffraction are used to characterize the synthesized silver nanoparticles (AgNPs). The synthesized AgNPs exhibit a surface plasmon resonance at 430 nm after 24 h. The characterization results showed that AgNPs are crystalline in nature and exhibit mostly spherical shapes with an average diameter of 4-45 nm. Silver nanoparticles showed effective antibacterial activity against representative pathogens of bacteria. The activities of commercial antibiotics were enhanced by impregnation with the synthesized AgNPs. It also shows good fungicidal and anticancer activity against liver and lung cell lines and shows significant antioxidant efficacy (84%) at 10 µg/ml AgNP concentration against DPPH. The utilization of environmentally synthesized AgNPs offers numerous benefits of ecofriendliness and compatibility for biomedical applications.