Cannulation of the Internal Mammary Vein With a Single-Lumen Infusion Catheter in a Patient With Portal Hypertension: A Case Report.

We present a central venous catheter misplacement case. A left internal jugular vein percutaneous introducer was inserted for fluid resuscitation with a single-lumen infusion catheter placed through the lumen for medication infusions. Placement was performed under ultrasound guidance, with confirmation of the wire within the venous lumen. Radiographs suggested that the introducer had perforated the innominate vein. Contrast was injected through the single-lumen infusion catheter and showed cannulation of the left internal mammary vein. The link between portal hypertension and increased risk of central line misplacement as well as diagnosis and potential methods to avoid this rare complication are discussed.

Spatial and temporal variation in indicator microbe sampling is influential in beach management decisions.

Fecal indicator microbes, such as enterococci, are often used to assess potential health risks caused by pathogens at recreational beaches. Microbe levels often vary based on collection time and sampling location. The primary goal of this study was to assess how spatial and temporal variations in sample collection, which are driven by environmental parameters, impact enterococci measurements and beach management decisions. A secondary goal was to assess whether enterococci levels can be predictive of the presence of Staphylococcus aureus, a skin pathogen. Over a ten-day period, hydrometeorologic data, hydrodynamic data, bather densities, enterococci levels, and S. aureus levels including methicillin-resistant S. aureus (MRSA) were measured in both water and sand. Samples were collected hourly for both water and sediment at knee-depth, and every 6 h for water at waist-depth, supratidal sand, intertidal sand, and waterline sand. Results showed that solar radiation, tides, and rainfall events were major environmental factors that impacted enterococci levels. S. aureus levels were associated with bathing load, but did not correlate with enterococci levels or any other measured parameters. The results imply that frequencies of advisories depend heavily upon sample collection policies due to spatial and temporal variation of enterococci levels in response to environmental parameters. Thus, sampling at different times of the day and at different depths can significantly impact beach management decisions. Additionally, the lack of correlation between S. aureus and enterococci suggests that use of fecal indicators may not accurately assess risk for some pathogens.