Wardburton2813

A major challenge in the ICU is optimization of antibiotic use. This review assesses current understanding of core best practices supporting and promoting astute antibiotic decision-making.

Limiting exposure to the shortest effective duration is the cornerstone of antibiotic decision-making. Manogepix cell line The decision to initiate antibiotics should include assessment of risk for resistance. This requires synthesis of patient-level data and environmental factors to determine whether delayed initiation could be considered in some patients with suspected sepsis until sensitivity data is available. Until improved stratification scores and clinically meaningful cut-off values to identify MDR are available and externally validated, decisions as to which empiric antibiotic is used should rely on syndromic antibiograms and institutional guidance. Optimization of initial and maintenance doses is another enabler of enhanced outcome. Stewardship practices must be streamlined by re-assessment to minimize negative effects, such as a potential increase in duration of therapy and increased risk of collateral damage from exposure to multiple, sequential antibiotics that may ensue from de-escalation.

Multiple challenges and research priorities for antibiotic optimization remain; however, the best stewardship practices should be identified and entrenched in daily practice. Reducing unnecessary exposure remains a vital strategy to limit resistance development.

Multiple challenges and research priorities for antibiotic optimization remain; however, the best stewardship practices should be identified and entrenched in daily practice. Reducing unnecessary exposure remains a vital strategy to limit resistance development.

The purpose of the review is to provide all the recent data focusing on the diagnostic and treatment of Clostridioides difficile infection in patients admitted in the ICU.

In the ICU, diagnosis remains complicated with a large number of alternative diagnosis. The treatment classically relies on vancomycin but fidaxomicin and fecal microbiota transplantation are now potential solutions in selected indications.

Data on ICU-related CDI remain limited and conflicting. To date, there is no unique and simple way to obtain a diagnosis for CDI, the combination of clinical signs and a two-step testing algorithm remains the recommended gold-standard. Two molecules can be proposed for first line treatment vancomycin and fidaxomicin. Although metronidazole may still be discussed as a treatment option for mild CDI in low-risk patients, its use for ICU-patients does not seem reasonable. Several reports suggest that fecal microbiota transplantation could be discussed, as it is well tolerated and associated with a high rate of clinical cure. CDI is a dynamic and active area of research with new diagnostic techniques, molecules, and management concepts likely changing our approach to this old disease in the near future.

Data on ICU-related CDI remain limited and conflicting. To date, there is no unique and simple way to obtain a diagnosis for CDI, the combination of clinical signs and a two-step testing algorithm remains the recommended gold-standard. Two molecules can be proposed for first line treatment vancomycin and fidaxomicin. Although metronidazole may still be discussed as a treatment option for mild CDI in low-risk patients, its use for ICU-patients does not seem reasonable. Several reports suggest that fecal microbiota transplantation could be discussed, as it is well tolerated and associated with a high rate of clinical cure. CDI is a dynamic and active area of research with new diagnostic techniques, molecules, and management concepts likely changing our approach to this old disease in the near future.

Melanomas of the female gynecological tract comprise approximately 18% of mucosal melanomas, a rare subtype of melanoma. Within the female genital tract, 70% of primary melanomas of the gynecological tract are from the vulva with the remainder occurring in the vagina and rarely, in the cervix. We investigate molecular alterations by next-generation sequencing-based molecular tests targeting 99 cancer genes and translocation/fusion assays in 4 and 3 vaginal melanomas, respectively. The ages of the 4 patients range from 65 to 90 years. Postmenopausal bleeding was the most common presenting symptom. Tumor size ranged from 0.5 to 6.6 cm. KIT L576P mutation was documented in case 1, whereas TP53 mutation was seen in cases 2 and 3 (L130F and Y163C). Case 2 also harbored NF2 E204Q and ATRX D1719H mutations. A number of gene copy alterations were noted in case 4, which included GNA11 loss, MYC gain, RET loss, SMO loss, SUFU loss, and TSC2 loss. No gene fusion was detected in any of the 3 tested cases. In conclusionn in cases 2 and 3 (L130F and Y163C). Case 2 also harbored NF2 E204Q and ATRX D1719H mutations. A number of gene copy alterations were noted in case 4, which included GNA11 loss, MYC gain, RET loss, SMO loss, SUFU loss, and TSC2 loss. No gene fusion was detected in any of the 3 tested cases. In conclusion, in addition to KIT, TP53, and ATRX mutations, which have been previously reported, our cases harbor NF2 mutation and multiple gene copy alterations that have not previously been documented in vaginal melanomas. These findings highlight the potential role of targeted therapy in this rare melanoma subtype.

Health care and outcome of critically ill patients are marked by gender-related differences. Several studies have shown that male patients in intensive care units (ICU) more often receive mechanical ventilation, dialysis, pulmonary arterial catheterization (PAC), and central venous catheterization (CVC). We investigated gender-related differences in ICU treatment and mortality.

This retrospective, single-center study analyzed adult ICU patients admitted to the University Medical Center Regensburg between January 2010 and December 2017. Illness severity was measured with the Simplified Acute Physiology Score II (SAPS II) at ICU admission. We evaluated the intensity of ICU treatment according to the implementation of tracheostomy and extracorporeal membrane oxygenation (ECMO). We then assessed gender-related differences in the duration of mechanical ventilation and other invasive monitoring (PAC) and treatment methods (CVC, endotracheal intubation rate, and dialysis). ICU treatment and mortality data were obtained from an electronic data capture system.