Translabial Ultrasound in Midurethral Sling (Mesh) Visualization and Erosion Detection in Women With Stress Urinary Incontinence: A Retrospective Pilot Study.

Sling erosion is a significant complication of midurethral sling (mesh) placement for stress urinary incontinence, a common pelvic floor disorder. The goal of this retrospective case-control pilot study was to evaluate the performance of translabial ultrasound (TLUS) and magnetic resonance imaging in diagnosing mesh erosion. Therefore, women who underwent surgery in the setting of prior failed midurethral sling for stress urinary incontinence were identified from the hospital database. The case subcohort comprised all women with intraoperatively documented erosion, and the control subcohort comprised an equal number of randomly selected patients without erosion. The data consisted of selected clinical parameters, the presence of erosion at surgery (reference standard) and at cystourethroscopy, and dual-reader preoperative TLUS consensus interpretation for mesh location (intraluminal, mural, and extramural) and erosion (defined as intraluminal or mural mesh location). Odds ratios were calculated for the selected clinical parameters. Of the 198 women identified, 15 (8%) had mesh erosion at surgery into the lower urinary tract. The sensitivity, specificity, and accuracy of TLUS and cystourethroscopy in detecting erosion in the combined group of cases and controls (30 women) were 93%, 88%, and 90%, as well as 67%, 100%, and 83%, respectively (TLUS Cohen κ = 0.85). Thus, TLUS may be a good diagnostic tool in diagnosing mesh erosion. Only 7 of 30 women had pelvic magnetic resonance examination, and mesh fragments were not visualized. Case-control comparison of the selected clinical parameters was not statistically significant.

Stem cell-derived exosomes - an emerging tool for myocardial regeneration.

Cardiovascular diseases (CVDs) continue to represent the number one cause of death and disability in industrialized countries. The most severe form of CVD is acute myocardial infarction (AMI), a devastating disease associated with high mortality and disability. In a substantial proportion of patients who survive AMI, loss of functional cardiomyocytes as a result of ischaemic injury leads to ventricular failure, resulting in significant alteration to quality of life and increased mortality. Therefore, many attempts have been made in recent years to identify new tools for the regeneration of functional cardiomyocytes. Regenerative therapy currently represents the ultimate goal for restoring the function of damaged myocardium by stimulating the regeneration of the infarcted tissue or by providing cells that can generate new myocardial tissue to replace the damaged tissue. Stem cells (SCs) have been proposed as a viable therapy option in these cases. However, despite the great enthusiasm at the beginning of the SC era, justified by promising initial results, this therapy has failed to demonstrate a significant benefit in large clinical trials. One interesting finding of SC studies is that exosomes released by mesenchymal SCs (MSCs) are able to enhance the viability of cardiomyocytes after ischaemia/reperfusion injury, suggesting that the beneficial effects of MSCs in the recovery of functional myocardium could be related to their capacity to secrete exosomes. Ten years ago, it was discovered that exosomes have the unique property of transferring miRNA between cells, acting as miRNA nanocarriers. Therefore, exosome-based therapy has recently been proposed as an emerging tool for cardiac regeneration as an alternative to SC therapy in the post-infarction period. This review aims to discuss the emerging role of exosomes in developing innovative therapies for cardiac regeneration as well as their potential role as candidate biomarkers or for developing new diagnostic tools.