A Clinical Study on Microbiological Profile in Tracheostomy Wounds.

Tracheostomy is a surgical procedure in an emergency setting to relieve the upper airway obstruction by creating an opening in the anterior part of trachea. It can also be done electively to wean off from a ventilator, during an elective surgery and clearance of pulmonary secretions. This study was a retrospective analysis of microbiological profile, antibiotic sensitivity & resistance pattern in patients with a tracheostomized wound. A retrospective review of the microbiological profiles of all adult patients who underwent a tracheostomy was conducted between May 2022 and May 2023 at our hospital. Based on the tracheostomy indications, patients were allocated under obstructed and non-obstructed group. Any patient with at least one positive sample was followed up quarterly for a year. The first culture result obtained was recorded at least one month following the last antibiotic dose in each quarter. Out of the 65 tracheal aspirate results obtained from 58 patients (mean age, 57.5 ± 16.48 years), the most common procedure and indications were surgical tracheostomy (72.4%) and non-obstructed causes (74.1%), respectively. Moreover, 47.7% of the culture results indicated Pseudomonas aeruginosa, which showed significantly different proportions across the quarters (p = 0.006). Among obstructed patients, P. aeruginosa was the most common (35%), followed by methicillin-resistant Staphylococcus aureus (MRSA; 23.5%). The colonization was predominantly by gram negative bacteria Acinetobacter species, P. aeruginosa & Klebsiella pneumoniae and fungal species like Candida albicans followed by Aspergillus niger and non-Albicans candida.

Arsenic efflux in Enterobacter cloacae RSN3 isolated from arsenic-rich soil.

In the present study, bacterial isolates were screened for arsenic resistance efficiency. Environmental isolates were isolated from arsenic-rich soil samples (i.e., from Rajnandgaon district of Chhattisgarh state, India). Amplification and sequencing of 16S rRNA gene revealed that the isolates were of Bacillus firmus RSN1, Brevibacterium senegalense RSN2, Enterobacter cloacae RSN3, Stenotrophomonas pavanii RSN6, Achromobacter mucicolens RSN7, and Ochrobactrum intermedium RSN10. Arsenite efflux gene (arsB) was successfully amplified in E. cloacae RSN3. Atomic absorption spectroscopy (AAS) analysis showed an absorption of 32.22% arsenic by the RSN3 strain. Furthermore, results of scanning electron microscopy (SEM) for morphological variations revealed an initial increase in the cell size at 1 mM sodium arsenate; however, it was decreased at 10 mM concentration in comparison to control. This change of the cell size in different metal concentrations was due to the uptake and expulsion of the metal from the cell, which also confirmed the arsenite efflux system.

Gibberellins - a multifaceted hormone in plant growth regulatory network.

Plants tend to acclimatize to unfavourable environs by integrating growth and development to environmentally activated signals. Phytohormones strongly regulate convergent developmental and stress adaptive procedures and synchronize cellular reaction to the exogenous and endogenous conditions within the adaptive signaling networks. Gibberellins (GA), a group of tetracyclic diterpenoids, being vital regulators of plant growth, are accountable for regulating several aspects of growth and development of higher plants. If the element of reproduction is considered as an absolute requisite then for a majority of the higher plants GA signaling is simply indispensable. Latest reports have revealed unique conflicting roles of GA and other phytohormones in amalgamating growth and development in plants through environmental signaling. Numerous physiological researches have detailed substantial crosstalk between GA and other hormones like abscisic acid, auxin, cytokinin, and jasmonic acid. In this review, a number of explanations and clarifications for this discrepancy are explored based on the crosstalk among GA and other phytohormones.