Comparison of Transfer, Stability, and Persistence Between Touch and Bacterial DNA After Hand Washing and Sanitization

Martin, Kayla Ann

01 June 2022

No description available.

Biology

Microbiology

transfer

stability

persistence

forensic

microbiome

antibacterial

hand washing

touch DNA

Development of New Bacteria-Reducing Surfaces

Illergård, Josefin

January 2009

In recent years, antibacterial surfaces have been a subject of increased interest. Especiallyinteresting are non-leaching, contact-active surfaces that physically disrupts the bacterialcell using immobilised cationic polymers. Thus the risks of bacterial resistance and discharge of hazardous biocides is minimised. The assembly of such surfaces is elaborate andusually involves organic solvents. Here, polyelectrolyte multilayers (PEM) are proposed as an effective surface modification method, with an overall goal of producing antibacterial cellulose fibres. The PEM process is based on physical adsorption of oppositely charged polymers in aqueous solutions. Multilayers were formed with the bactericidal polymer polyvinylamine (PVAm) and polyacrylic acid. PVAm compounds with hydrophobic modificationswere applied as well, as they possess increased antibacterial activity in solution. In this work, the multilayer formation was studied on model surfaces of silicone oxide and glass in order to obtain fundamental knowledge of the polymer system. QCM-D and reflectometry, which detect total mass including bound water and polymer mass only, respectively, were used to analyse the layer formation. Salt-concentrations were varied at 1, 10 or 100 mM NaCl. A stepwise multilayer formation with exponential-like polymer adsorption but with decreasing water content for each layer was seen at all salt concentrations.A higher salt concentration resulted in an increased adsorbed mass. No significant differences in adsorption between the modified and unmodified PVAm could be detected. AFM imaging applied to multilayers having nine layers showed large surface aggregates under high salt conditions for the C6-modified PVAm. Dynamic light scattering showed that the polymer occurred as single molecules in solution; hence it was concluded that theaggregation is surface-associated. The multilayers were then tested for bacterial growth inhibition. The relative bacterial inhibition was time-dependent, as the surface was saturated with bacteria over time. After two hours, a maximal inhibition of 99 % could be observed for the multilayers. After eight hours, a moderate inhibition of less than 40 % was detected. Using multilayers affected the results positively compared to single layers. After three layers, though, no further reductionwas seen. Viability staining of the surface-adhered bacteria revealed that the adhered bacteria had intact membranes. Therefore, the microbiological properties of the multilayers can at this point be described more as growth-inhibiting by bacterial adhesion effectsthan as biocidal. However, this work has shown the importance of combining surface characterisation and microbial testing to understand the bacteria-surface interaction. / Biointeractive fibres

antibacterial

polyelectrolyte multilayers

polyvinylamine

Paper, Pulp and Fiber Technology

Pappers-, massa- och fiberteknik

Microwave Processing of Alkaline Earth Phosphate based Coatings and Composites for Orthopedic Applications

Sikder, Prabaha

January 2019

No description available.

Materials Science

Engineering

Biomedical Engineering

Isolation and characterisation of antifungal and antibacterial compounds from Combretum molle (Combretaceae) leaf extracts

Mogashoa, Motanti Mary

January 2017

The main aim of this study was to isolate and characterise antifungal and antibacterial compounds from leaf extracts of Combretum molle which belonging to the Combretaceae family. C. molle is one of the commonly used medicinal plants in southern Africa for numerous ailments. Three animal fungal pathogens, namely, Candida albicans, Cryptococcus neoformans, Aspergillus fumigatus and five plant fungal pathogens, namely, Aspergillus niger, Aspergillus parasiticus, Fusarium oxysporum, Penicillium janthinellum, Rhizoctonia solani and four nosocomial bacteria Staphylococcus aureus, Enterococcus faecalis, Escherichia coli and Pseudomonas aeruginosa were used as test microorganisms for bioactive compounds in leaf extracts of C.molle. Experiments for phytochemical analysis were done using different C. molle leaf extracts which were made using acetone, methanol, ethanol, ethyl acetate, chloroform, butanol and hexane as extractants. Thin Layer Chromatography (TLC) fingerprints of different leaf extracts were developed in three mobile phase systems, EMW, CEF and BEA and detected with vanillin-sulphuric acid spraying agent. The different extracts of C. molle showed the presence of many different compounds with distinct retardation factors (Rf), separated according to their polarities. Bioautography was carried out to determine the number of active compounds and their Rf values. The TLC plates were developed in three mobile systems, each sprayed with either fungal or bacterial strains. In BEA bioautograms of A. fumigatus, clear zones of inhibition were observed at Rf values of 0.12, 0.23, and 0.40. In EMW bioautogram of C. albicans, clear zones of inhibition were observed at Rf value of 0.73, 0.81, 0.87. C. neoformans had weak growth inhibition. Most of the fungal and bacterial strains tested in the bioautography displayed susceptibility to the active compounds, with P. janthinellum and P. aeruginosa showing exceptional sensitivity. The minimum inhibitory concentrations (MIC) values ranged from 0.02 to 2.5 mg/ml against the tested pathogens. The acetone and ethyl acetate extracts had the best inhibitory activity against P. janthinellum with an MIC value of 0.02 mg/ml. The acetone extract of C. molle gave the highest total activity (775 ml/g) against P. janthinellum. C. albicans was the most resistant pathogen with an average MIC value of 0.56 mg/ml compared with the other tested strains. Extracts were active against both Gram-positive and Gram-negative strains. P. aeruginosa extracts had the highest average MIC value (0.24 mg/ml) among the tested bacterial strains. In general, there was good overall inhibitory activity by different extracts of C. molle. Bioassay-guided fractionation of DCM extract of the leaves of C. molle yielded 32 fractions. Further fractionation led to the isolation of five compounds (C1, C2, C3, C4 and C5). Compound C1 was selected for structure elucidation due a larger quantity isolated and higher antimicrobial activity compared with the other isolated compounds. Nuclear magnetic resonance (NMR) spectroscopy and mass spectroscopy (MS) was used to show that compound C1 was taraxerol, belonging to the taraxerane group. Antimicrobial activity of the isolated compound against P. janthinellum had an MIC value of 0.08 ug/ml. Although the compound taraxerol have been discovered in other plant species, it is reported for the first time from C. molle in the study. The results illustrate that crude extracts and compound taraxerol from C. molle can be used as either an antibacterial or antifungal, and warrants further investigation. / Dissertation (MSc)--University of Pretoria, 2017. / Paraclinical Sciences / MSc / Unrestricted

UCTD

Combretum molle

Antibacterial activity

Antifungal activity

Taraxerol

Veterinary science theses SDG-3

Development of Synergistic Oxygenating Antibacterial Hydrogel Dressings for Reducing Infection in Diabetic Dermal Wounds

Abri, Shahrzad

14 May 2022

No description available.

Biomedical Engineering

Biomedical Research

Engineering

Wound healing

Hydrogels

Infection

Oxygen transport

Biomaterials

Immune cells

Antibacterial agents

The residual antibacterial effects of radiopaque double antibiotic paste after various treatment times

Biggerstaff, Ross

06 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Introduction: Regenerative endodontic procedures require adequate disinfection of immature teeth with necrotic pulps. Regeneration endodontic procedures have been shown to increase width and length of dentin after disinfection of the root canal system with various antibiotic pastes such as double antibiotic paste (DAP). DAP is composed of an equal ratio of metronidazole and ciprofloxacin. After the root canal system is disinfected with DAP, it is later flushed out with 17-percent EDTA. There is a need for a radiopaque component in the DAP to facilitate proper placement. Following disinfection with DAP, a residual antibacterial effect is formed in dentin. It is not known if this effect is modified by making DAP radiopaque. Objectives: The residual antibacterial effects of a radiopaque double antibiotic paste against a bacterial isolate obtained from an immature tooth with necrotic pulp on radicular dentin will be explored utilizing various strengths of DAP (1 mg/mL, 10 mg/mL, and 25 mg/mL) after 1 week and 4 weeks. Materials and Methods: Dentin samples of 4x4-mm will be prepared from previously extracted human posterior teeth. The samples will be assigned to seven treatment groups in a random fashion (G1 will be treated with 25-, G2-10, and G3-1 mg/mL of radiopaque DAP. G4 will be treated with the radiopaque filler without DAP. G5 will be treated with Ca(OH)2 and G6 sterile water with bacterial biofilm, and G7 will be sterile water). The groups will be treated for both 1 week 4 weeks. These samples will then be stored in a phosphate buffered saline (PBS) solution for 1 week and then inoculated with the cultured bacterial isolate from an immature tooth with necrotic pulp. The specimens will be incubated for three weeks to permit adequate formation of a biofilm. The biofilm will be detached, diluted and spirally plated onto blood agar plates and incubated for a total of 48 hours in 5-percent CO2 at 37°C. The number of CFUs/mL will be counted using an automated colony counter. A two way ANOVA and Fisher’s Protected Least Significant Differences test using 5-percent significance level will be used to evaluate the resulting data. Expected outcome: A residual antibacterial effect will be observed on radicular dentin samples when treated with radiopaque DAP. Conclusion: Using a radiopaque DAP that provides residual antibacterial effects, further awareness into regenerative endodontic procedures will be gained leading to alterations in treating such cases. / 2020-06-30

double antibiotic paste

regenerative endodontics

radiopaque

antibacterial effects

Anti-Bacterial Agents

Endodontics

Contrast Media

Synthesis and Characterization of Drug-Containing, Polysaccharide-Based Nanoparticles for Applications in Oral Drug Delivery

Mazumder, Sonal

08 August 2013

Amorphous solid dispersions of polysaccharide-drug nanoparticles were produced by a rapid precipitation process known as flash nanoprecipitation and the formulation process and properties of nanoparticles were investigated. In this thesis, several novel cellulose derivatives and a pullulan derivative were studied. Among these polymers, carboxymethyl cellulose acetate butyrate (CMCAB)-drug nanoparticles were investigated in detail. Previous work has shown that the presence of different chemical groups in CMCAB could aid in complexation with hydrophobic drugs with low solubility, forming an amorphous matrix which can increase the effective solubility and, hence, bioavailability of the drug in physiological conditions. An antibacterial drug and two less soluble anti-viral drugs were selected as model drugs for this study. A separate study was conducted with several other cellulose derivatives like cellulose acetate propionate adipates with two different degree of substitution 0.33 and 0.85 (CAP-Adp 0.33 and CAP-Adp 0.85), cellulose acetate sebacate (CA-320S Se) and butyl pullulan-6-carboxylate (BPC) polymers. The effect of polymer interaction with drug molecule on release of antiviral drugs was studied with these latter polymers. The purpose of this research was two-fold. First, the methodology for producing drug-polymer nanoparticles with well-defined particle size distributions was developed. Second, the factors affecting drug loading and release properties of these nanoparticles were investigated. The nanoparticles were processed using two methods of solvent removal and drying to investigate their effects on drug loading and particle size: (a) various combinations of rotary vacuum evaporation (rotavap) and acid-induced flocculation were used and (b), dialysis followed by freeze drying. Dynamic light scattering showed particle sizes were between 150-400 nm with polydispersity index values as low as 0.12. The antibiotic drug loading efficiencies ranged from 14-40%, whereas drug loading efficiency as high as 85 % was attained with the antiviral drug. The dissolution studies showed an increase in the solution concentration and release of the amorphous drug nanoparticles. The high glass transition temperature helped to stabilize the drug in an amorphous form, thus increasing the effective solution concentration of the drug in an aqueous medium. / Ph. D.

polysaccharides

mixing

nanoprecipitation

cellulose derivatives

antibacterial

antiviral

nanoparticle

self-assembly

parti

Redox-Active Silver N-Heterocyclic Carbene Complexes: A Dual Targeting Antibacterial Drug

Malek, Kotiba

28 August 2018

No description available.

Chemistry

Antibacterial drug

bacterial resistance

silver based drugs

N-Heterocyclic Carbene

NHC

The Synthesis & Characterization of an Antibacterial Bioactive Glass Suitable as a Bone Void Substitute

Sanders, Lawrence Matthew

January 2018

No description available.

Materials Science

Engineering

Biomedical Engineering

Biomedical Research

Live single cell fluorescence microscopy; from antibiotic resistance detection to mitochondrial dysfunction

Ray, Lucille Alexandria

26 August 2020

No description available.

Biochemistry

Chemistry

Microbiology

microscopy

single-cell

antibiotic resistance

fluorescence

mitochondria

cuprizone

antibacterial susceptibility testing

antimicrobial polymer