Nanomedicine for the eradication of Helicobacter pylori: recent advances, challenges and future perspective.

Helicobacter pylori infection is linked to gastritis, ulcers and gastric cancer. Nanomedicine offers a promising solution by utilizing nanoparticles for precise drug delivery, countering antibiotic resistance and delivery issues. Nanocarriers such as liposomes and nanoparticles enhance drug stability and circulation, targeting infection sites through gastric mucosa characteristics. Challenges include biocompatibility, stability, scalability and personalized therapies. Despite obstacles, nanomedicine's potential for reshaping H. pylori eradication is significant and showcased in this review focusing on benefits, limitations and future prospects of nanomedicine-based strategies.

Helicobacter pylori is associated with stomach problems like gastritis, ulcers and cancer. The use of tiny particles, called nanomedicine, may help to precisely deliver drugs to treat these bacterial infections. Using nanomedicine can help to combat drug resistance and drug-delivery issues by making drugs more stable and specifically targeting the infection site. However, there are challenges such as making sure it is safe, stable and can be scaled up for many people. This review discusses the potential of nanomedicine to fight H. pylori infection, its advantages and disadvantages, and how it could be used in the future.

Nanostructured, Fluid-Bicontinuous Gels for Continuous-Flow Liquid-Liquid Extraction.

Fluid-bicontinuous gels are unique materials that allow two distinct fluids to interact through a percolating, rigid scaffold. Current restrictions for their use are the large fluid-channel sizes (>5 µm), limiting the fluid-fluid interaction surface-area, and the inability to flow liquids through the channels. In this work a scalable synthesis route of nanoparticle stabilized fluid-bicontinuous gels with channels sizes below 500 nm and specific surface areas of 2 m2 cm-3 is introduced. Moreover, it is demonstrated that liquids can be pumped through the fluid-bicontinuous gels via electroosmosis. The fast liquid flow in the fluid-bicontinuous gel facilitates their use for molecular separations in continuous-flow liquid-liquid extraction. Together with the high surface areas, liquid flow through fluid-bicontinuous gels enhances their potential as highly permeable porous materials with possible uses as microreaction media, fuel-cell components, and separation membranes.

Stabilizing liquid drops in nonequilibrium shapes by the interfacial crosslinking of nanoparticles.

Droplets are spherical due to the principle of interfacial energy minimization. Here, we show that nonequilibrium droplet shapes can be stabilized via the interfacial self-assembly and crosslinking of nanoparticles. This principle allows for the stability of practically infinitely long liquid tubules and monodisperse cylindrical droplets. Droplets of oil-in-water are elongated via gravitational or hydrodynamic forces at a reduced interfacial tension. Silica nanoparticles self-assemble and cross-link on the interface triggered by the synergistic surface modification with hexyltrimethylammonium- and trivalent lanthanum-cations. The droplet length dependence is described by a scaling relationship and the rate of nanoparticle deposition on the droplets is estimated. Our approach potentially enables the 3D-printing of Newtonian Fluids, broadening the array of material options for additive manufacturing techniques.

A Stable Integrated Photoelectrochemical Reactor for H2 Production from Water Attains a Solar-to-Hydrogen Efficiency of 18 % at 15 Suns and 13 % at 207 Suns.

The major challenge in solar water splitting to H2 and O2 is in making a stable and affordable system for large-scale applications. We have designed, fabricated, and tested a photoelectrochemical reactor characterized as follows: 1) it comprises an integrated device to reduce the balance of the system cost, 2) it utilizes concentrated sunlight to reduce the photoabsorber cost, and 3) it employs and alkaline electrolyte to reduce catalyst cost and eliminate external thermal management needs. The system consists of an III-V-based photovoltaic cell integrated with Ni foil as an O2 evolution catalyst that also protects the cell from corrosion. At low light concentration, without the use of optical lenses, the solar-to-hydrogen (STH) efficiency was 18.3 %, while at high light concentration (up to 207 suns) with the use of optical lenses, the STH efficiency was 13 %. Catalytic tests conducted for over 100 hours at 100-200 suns showed no sign of degradation nor deviation from product stoichiometry (H2 /O2 =2). Further tests projected a system stability of years.

Metal-free, single-polymer device exhibits resistive memory effect.

All-polymer, write-once-read-many times resistive memory devices have been fabricated on flexible substrates using a single polymer, poly(3,4-ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS). Spin-cast or inkjet-printed films of solvent-modified PEDOT:PSS are used as electrodes, while the unmodified or as-is PEDOT:PSS is used as the semiconducting active layer. The all-polymer devices exhibit an irreversible but stable transition from a low resistance state (ON) to a high resistance state (OFF) at low voltages caused by an electric-field-induced morphological rearrangement of PEDOT and PSS at the electrode interface. However, in the metal-PEDOT:PSS-metal devices, we have shown a metal filament formation switching the device from an initial high resistance state (OFF) to the low resistance state (ON). The all-PEDOT:PSS memory device has low write voltages (<3 V), high ON/OFF ratio (>10(3)), good retention characteristics (>10,000 s), and stability in ambient storage (>3 months).

Molecular characterisation of methicillin-resistant Staphylococcus aureus (MRSA) from keratitis patients: a microbiological analysis.

BACKGROUND: In order to diagnose and characterise a major corneal infection, 'keratitis,' which can lead to blindness, molecular studies were conducted to assess the prevalence of methicillin-resistant Staphylococcus aureus (MRSA) strains in patients suffering from keratitis. METHODS: The selected culture positive for strains of S aureus were subjected to 18 antimicrobial drugs for their sensitivity behaviour, and the minimum inhibitory concentration (MIC) of oxacillin was determined by the microdilution method as recommended by the National Committee for Clinical Laboratory Standards. Further, S strains were characterised using molecular tools. RESULTS: Among the 202 cases included in the present study, 64 (31.2%) cases were found to be S aureus-positive, of which only six strains were MRSA. The highest resistance was observed for penicillin (65.6%) which was followed by a significant number of bacterial isolates showing resistance to methicillin (9.3%), while all organisms were susceptible to vancomycin. The minimum inhibitory concentrations of oxacillin for MRSA strains ranged between 16 and 128 microg/ml. A multiplex PCR assay for Staphylococcal Cassette Chromosome mec complex (SCCmec) of MRSA strains (N=6) showed that five MRSA strains had a Type III cassette, and one had a Type II cassette. The pulsed field gel electrophoresis of three MRSA strains showed closely related band patterns. CONCLUSION: The close relatedness among bacterial strains as observed by employing different typing techniques suggests that the clonal characteristics of multiresistant MRSA isolates could be deciphered. The presence of Type II SCCmec in keratitis subjects is probably the first report from India, as it has not been reported earlier.

Mammary tuberculosis: analysis of thirty-eight patients.

Thirty-eight patients with mammary gland tuberculosis were evaluated over a 5-year period presenting to the surgical unit of our institution. Unilateral involvement of the breast in a woman presenting at an average age of 29 years was the commonest observation. A lump in the breast with or without discharging sinuses was the most common clinical presentation. Ten (26%) of these patients had breast pain with or without increased breast nodularity. Axillary lymph nodal involvement was evident in 14 (36%) of our patients. Only five patients had associated pulmonary tuberculosis, the rest having an isolated involvement of the breast. Fine-needle aspiration cytology was the most reliable diagnostic modality. Medical therapy with antitubercular drugs ranging from 6 to 9 months was the mainstay of treatment. Surgical intervention was reserved for selected refractory cases.