Your search keyword '"MubarakAli Davoodbasha"' showing total 5 results

1. Recent Progress in Multifunctional Stimuli-Responsive Combinational Drug Delivery Systems for the Treatment of Biofilm-Forming Bacterial Infections.

Author

MubarakAli, Davoodbasha, Saravanakumar, Kandasamy, Ganeshalingam, Archchana, Santosh, Sugavaneswaran Siva, De Silva, Shanali, Park, Jung Up, Lee, Chang-Min, Cho, Su-Hyeon, Kim, Song-Rae, Cho, Namki, Thiripuranathar, Gobika, and Park, SeonJu

Subjects

*BIOLOGICAL evolution, *DRUG delivery systems, *TARGETED drug delivery, *COMBINATION drug therapy, *DRUG absorption

Abstract

Drug-resistant infectious diseases pose a substantial challenge and threat to medical regimens. While adaptive laboratory evolution provides foresight for encountering such situations, it has inherent limitations. Novel drug delivery systems (DDSs) have garnered attention for overcoming these hurdles. Multi-stimuli responsive DDSs are particularly effective due to their reduced background leakage and targeted drug delivery to specific host sites for pathogen elimination. Bacterial infections create an acidic state in the microenvironment (pH: 5.0–5.5), which differs from normal physiological conditions (pH: 7.4). Infected areas are characterized by the overexpression of hyaluronidase, gelatinase, phospholipase, and other virulence factors. Consequently, several effective stimuli-responsive DDSs have been developed to target bacterial pathogens. Additionally, biofilms, structured communities of bacteria encased in a self-produced polymeric matrix, pose a significant challenge by conferring resistance to conventional antimicrobial treatments. Recent advancements in nano-drug delivery systems (nDDSs) show promise in enhancing antimicrobial efficacy by improving drug absorption and targeting within the biofilm matrix. nDDSs can deliver antimicrobials directly to the biofilm, facilitating more effective eradication of these resilient bacterial communities. Herein, this review examines challenges in DDS development, focusing on enhancing antibacterial activity and eradicating biofilms without adverse effects. Furthermore, advances in immune system modulation and photothermal therapy are discussed as future directions for the treatment of bacterial diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthesis of Ag-Doped Tetrahedral Amorphous Carbon Coatings and Their Antibiofilm Efficacy for Medical Implant Application.

Author

MubarakAli, Davoodbasha, Kim, Sung-Min, Ko, Yu-Been, Kim, Jung-Wan, Jang, Young-Jun, and Lee, Sang-Yul

Subjects

*AMORPHOUS carbon, *MICROCYSTIS aeruginosa, *ELECTRON microscope techniques, *DOPING agents (Chemistry), *SURFACE coatings, *VACUUM arcs

Abstract

Tetrahedral amorphous carbon (taC) is a hydrogen-free carbon with extensive properties such as hardness, optical transparency, and chemical inertness. taC coatings have attracted much attention in recent times, as have coatings doped with a noble metal. A known antimicrobial metal agent, silver (Ag), has been used as a dopant in taC, with different Ag concentrations on the Ti64 coupons using a hybrid filtered cathodic vacuum arc (FCVA) and magnetron sputtering system. The physiochemical properties of the coated surface were investigated using spectroscopic and electron microscopy techniques. A doping effect of Ag-taC on biofilm formation was investigated and found to have a significant effect on the bacterial-biofilm-forming bacteria Staphylococcus aureus and Pseudomonas aeruginosa depending on the concentration of Ag. Further, the effect of coated and uncoated Ag-taC films on a pathogenic bacterium was examined using SEM. The result revealed that the Ag-taC coatings inhibited the biofilm formation of S. aureus. Therefore, this study demonstrated the possible use of Ag-taC coatings against biofilm-related complications on medical devices and infections from pathogenic bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

3. Unveiling the Anti-Biofilm Property of Hydroxyapatite on Pseudomonas aeruginosa : Synthesis and Strategy.

Author

MubarakAli, Davoodbasha, Arunachalam, Kannappan, Lakshmanan, Murugan, Badar, Bazigha, Kim, Jung-Wan, and Lee, Sang-Yul

Subjects

*HYDROXYAPATITE, *PSEUDOMONAS aeruginosa, *CERAMIC materials, *TRANSMISSION electron microscopy, *NOSOCOMIAL infections, *LASER microscopy, *INFECTION control

Abstract

Biofilm-related nosocomial infections may cause a wide range of life-threatening infections. In this regard, Pseudomonas aeruginosa biofilm is becoming a serious health burden due to its capability to develop resistance to natural and synthetic drugs. The utilization of nanoparticles that inhibit biofilm formation is one of the major strategies to control infections caused by biofilm-forming pathogens. Hydroxyapatite (HA) is a synthetic ceramic material having properties similar to natural bones. Herein, a co-precipitation method followed by microwave treatment was used to synthesize HA nanoparticles (HANPs). The resulting HANPs were characterized using X-ray diffraction and transmission electron microscopy. Then, their antibiofilm properties against P. aeruginosa ATCC 10145 were examined in vitro. The needle-shaped HANPs were 30 and 90 nm long in width and length, respectively. The synthesized HANPs inhibited the biofilm formation of P. aeruginosa ATCC 10145 in a concentration-dependent manner, which was validated by light and confocal laser scanning microscopy. Hence, this study demonstrated that HANPs could be used to control the biofilm-related infections of P. aeruginosa. [ABSTRACT FROM AUTHOR]

Published

2023

4. Exploring Possible Ways to Enhance the Potential and Use of Natural Products through Nanotechnology in the Battle against Biofilms of Foodborne Bacterial Pathogens.

Author

Arunachalam, Kannappan, Krishnan, Ganesh Prasath, Sethuraman, Sathya, Abraham, Sybiya Vasantha Packiavathy Issac, Krishnan, Swetha Thirukannamangai, Venkateswar, Aakanksha, Arunkumar, Jagadeesan, Shi, Chunlei, and MubarakAli, Davoodbasha

Subjects

FOOD pathogens, NATURAL products, NATURAL foods industry, BIOFILMS, NANOTECHNOLOGY, POLYMERSOMES, DRUG delivery devices, NANOMEDICINE

Abstract

Biofilms enable pathogenic bacteria to survive in unfavorable environments. As biofilm-forming pathogens can cause rapid food spoilage and recurrent infections in humans, especially their presence in the food industry is problematic. Using chemical disinfectants in the food industry to prevent biofilm formation raises serious health concerns. Further, the ability of biofilm-forming bacterial pathogens to tolerate disinfection procedures questions the traditional treatment methods. Thus, there is a dire need for alternative treatment options targeting bacterial pathogens, especially biofilms. As clean-label products without carcinogenic and hazardous potential, natural compounds with growth and biofilm-inhibiting and biofilm-eradicating potentials have gained popularity as natural preservatives in the food industry. However, the use of these natural preservatives in the food industry is restricted by their poor availability, stability during food processing and storage. Also there is a lack of standardization, and unattractive organoleptic qualities. Nanotechnology is one way to get around these limitations and as well as the use of underutilized bioactives. The use of nanotechnology has several advantages including traversing the biofilm matrix, targeted drug delivery, controlled release, and enhanced bioavailability, bioactivity, and stability. The nanoparticles used in fabricating or encapsulating natural products are considered as an appealing antibiofilm strategy since the nanoparticles enhance the activity of the natural products against biofilms of foodborne bacterial pathogens. Hence, this literature review is intended to provide a comprehensive analysis of the current methods in nanotechnology used for natural products delivery (biofabrication, encapsulation, and nanoemulsion) and also discuss the different promising strategies employed in the recent and past to enhance the inhibition and eradication of foodborne bacterial biofilms. [ABSTRACT FROM AUTHOR]

Published

2023

5. A Systemic Review on Microalgal Peptides: Bioprocess and Sustainable Applications.

Author

Sathya, Raghunathan, MubarakAli, Davoodbasha, MohamedSaalis, Jaulikar, Kim, Jung-Wan, and Ramasamy, Praveen Kumar

Abstract

Nowadays, microalgal research is predominantly centered on an industrial scale. In general, multipotent bioactive peptides are the advantages over focal points over utilitarian nourishment as well as nutraceuticals. Microalgal peptides are now profoundly connected with biological properties rather than nutritive. Numerous techniques are employed to purify active peptides from algal protein using enzymatic hydrolysis; it is broadly used for numerous favorable circumstances. There is a chance to utilize microalgal peptides for human well-being as nutritive enhancements. This exhaustive survey details the utilization of microalgal peptides as antioxidant, anti-cancerous, anti-hypersensitive, anti-atherosclerotic, and nutritional functional foods. It is also exploring the novel technologies for the production of active peptides, for instance, the use of algal peptides as food for human health discovered restrictions, where peptides are sensitive to hydrolysis protease degradation. This review emphasizes the issue of active peptides in gastrointestinal transit, which has to be solved in the future, and prompt impacts. [ABSTRACT FROM AUTHOR]

Published

2021