Facile fabrication and antibacterial properties of chitosan/acrylamide/gold nanocomposite hydrogel incorporated with Chaetomium globosium extracts from Gingko biloba leaves.

Microorganisms are a unique part of our ecosystem because they affect the survival of living organisms. Although pathogenic microorganisms could be detrimental to the plants, animals, and humans, beneficial microbes have provided significant improvement in the growth and development of living organisms. In this study, the fungus Chaetomium globosium was isolated from the medicinal tree Gingko biloba, and then incorporated into a polymerization system to fabricate chitosan/acrylamide/gold (CS/Am/Au) nanocomposite hydrogels. The as-prepared hydrogel displayed increased mechanical strength due to the reinforcement of Au (gold) nanocomposites within the hydrogel matrix. Also, the equilibrium pH responsive swelling rates of the hydrogels gradually increased as the pH increases due to partial acid and basic hydrolysis occurring in the hydrogel as well as formation of hydrogen bond. In addition, the hydrogel demonstrated promising antibacterial activities against selected gram-positive (Staphylococcus epidermidis and Staphylococcus aureus) and gram-negative (Pseudomonas aeruginosa) bacterial strains with an average MIC90 of 0.125 mg/mL at a dosage of 1.0 mg/L. The obtained results are quite promising towards resolving several health challenges and advancing the pharmaceutical industries.

Compressed Hydrogen-Induced Synthesis of Quaternary Trimethyl Chitosan-Silver Nanoparticles with Dual Antibacterial and Antifungal Activities.

Quaternary Trimethyl Chitosan (QTMC) and QTMC-Silver Nanoparticles (QTMC-AgNPs) have been synthesized, characterized, and tested as antibacterial agents against Staphylococcus aureus, Escherichia coli, and two plant fungi (Sclerotium rolfsil and Fusarium oxysporum). The as-prepared water-soluble QTMC was in situ reacted with silver nitrate in the presence of clean compressed hydrogen gas (3 bar) as a reducing agent to produce QTMC-AgNPs. UV-vis, ATR-FTIR, HR-TEM/SEM, XPS, DLS, XRD, and TGA/DTG were employed to assess the optical response, morphology/size, surface chemistry, particle size distribution, crystal nature, and thermal stability of the synthesized QTMC-AgNPs, respectively. The as-prepared QTMC-AgNPs were quasi-spherical in shape with an average particle size of 12.5 nm, as determined by ImageJ software utilizing HR-TEM images and further validated by DLS analysis. The development of crystalline nanoparticles was confirmed by the presence of distinct and consistent lattice fringes with an approximate interplanar d-spacing of 2.04 nm in QTMC-AgNPs. The QTMC-AgNPs exhibited significant antibacterial activity with a clear zone of inhibition of 30 mm and 26 mm around the disks against E. coli and S. aureus, respectively. In addition, QTMC-AgNPs showed highly efficient antifungal activity with 100% and 76.67% growth inhibition against two plant pathogens, S. rolfsii and F. oxysporum, respectively, whereas QTMC revealed no impact. Overall, QTMC-AgNPs showed a promising therapeutic potential and,thus, can be considered for drug design rationale.

Antibiotic resistance in aquaculture and aquatic organisms: a review of current nanotechnology applications for sustainable management.

Aquaculture has emerged as one of the world's fastest-growing food industries in recent years, helping food security and boosting global economic status. The indiscriminate disposal of untreated or improperly managed waste and effluents from different sources including production plants, food processing sectors, and healthcare sectors release various contaminants such as bioactive compounds and unmetabolized antibiotics, and antibiotic-resistant organisms into the environment. These emerging contaminants (ECs), especially antibiotics, have the potential to pollute the environment, particularly the aquatic ecosystem due to their widespread use in aquaculture, leading to various toxicological effects on aquatic organisms as well as long-term persistence in the environment. However, various forms of nanotechnology-based technologies are now being explored to assist other remediation technologies to boost productivity, efficiency, and sustainability. In this review, we critically highlighted several ecofriendly nanotechnological methods including nanodrug and vaccine delivery, nanoformulations, and nanosensor for their antimicrobial effects in aquaculture and aquatic organisms, potential public health risks associated with nanoparticles, and their mitigation measures for sustainable management.

Production and Functionalities of Specialized Metabolites from Different Organic Sources.

Medicinal plants are rich sources of specialized metabolites that are of great importance to plants, animals, and humans. The usefulness of active biological compounds cuts across different fields, such as agriculture, forestry, food processing and packaging, biofuels, biocatalysts, and environmental remediation. In recent years, research has shifted toward the use of microbes, especially endophytes (bacteria, fungi, and viruses), and the combination of these organisms with other alternatives to optimize the production and regulation of these compounds. This review reinforces the production of specialized metabolites, especially by plants and microorganisms, and the effectiveness of microorganisms in increasing the production/concentration of these compounds in plants. The study also highlights the functions of these compounds in plants and their applications in various fields. New research areas that should be explored to produce and regulate these compounds, especially in plants and microbes, have been identified. Methods involving molecular studies are yet to be fully explored, and next-generation sequencing possesses an interesting and reliable approach.

Cervical cytology of recurrent psammoma bodies with atypical cells in a postmenopausal woman: a case report.

BACKGROUND: Psammoma bodies (PBs) are an unusual finding in cervical cytology preparations. They have been identified in association with a wide range of benign and malignant conditions within the female genital tract. Portents of a significant underlying pathology include their occurrence in postmenopausal patients, the presence of unexplained vaginal bleeding and their occurrence in association with atypical cells. CASE: PBs associated with atypical cells were detected in repeated cervical cytology smears of an asymptomatic, 55-year-old postmenopausal woman over a 4-year period. She was extensively investigated, and, in the absence of a bleeding) have definitive cause, she underwent total abdominal hysterectomy and bilateral salpingo-oophorectomy. Histologic examination of the specimen demonstrated the presence of bilateral benign ovarian serous cystadenofibromas with large numbers of PBs. Focally the PBs were closely apposed to the serosal surface and invested in a blanket of mesothelial cells. CONCLUSION: Caution is required when assessing the significance of PBs associated with atypical cells in a cervical cytology specimen. Our case demonstrates the presence of ovarian mesothelial cells mimicking atypical glandular cells.

Cervicitis decidualis: a rare cause of antepartum hemorrhage.

This report describes the case of a patient with clinically antepartum hemorrhage and a colposcopic lesion resembling invasive cervical cancer. A 28-year-old patient sought treatment at 28 weeks of pregnancy with significant antepartum hemorrhage, clinically thought to be a result of placenta previa or abruptio placenta. Colposcopy showed a lesion resembling an invasive cervical cancer for which a biopsy was taken. Abnormal placentation was ruled out by ultrasound examination of the uterus. Histologic analysis showed a cervical decidual reaction with focal surface ulceration accounting for the cervical growth and hemorrhage. We describe an unusual cause of significant intrapartum hemorrhage attributable to cervical decidual reaction, mimicking abnormal placentation clinically and invasive cervical cancer colposcopically.