Central line-associated bloodstream infections (CLABSIs) remain a major source of hospital-related morbidity and mortality. Replacing central venous catheters (CVCs) with midline catheters (MLCs), when clinically appropriate, has been proposed as a strategy to reduce the incidence of CLABSI cases. We hypothesized that increased MLC utilization would correlate with decreased CLABSI incidence. Is increased use of midline catheters, in place of central venous catheters, associated with reduced CLABSI incidence over time? We conducted a retrospective analysis using the TriNetX database, which includes de-identified data from over 130 million patients across 94 healthcare organizations (2016–2024). Adults with ICD-10 procedure codes for CVC or MLC placement were included. Propensity score matching, logistic-binomial and Poisson regression (with log line-count offset), and time-series modeling were used to evaluate device utilization and CLABSI incidence. Matching covariates included demographics and clinical proxies of acuity and infection risk e.g., ICU admission, vasopressor use, mechanical ventilation, parenteral nutrition, chemotherapy, immunosuppression, transplant, CKD, diabetes. Post-match balance was assessed using standardized mean differences (SMDs); all covariates achieved SMD <0.1 (Supplementary Fig. S1). This study was reviewed and determined to be exempt from full review by an institutional review board, as it only utilized anonymized, retrospective data. As such, the requirement for informed consent from participants was waived. Among 268,401 adults, 58,205 (22%) received a midline catheter (MLC) and 168,098 (63%) received a central venous catheter (CVC); 7036 received both during the study period, yielding 42,098 CLABSI events. MLC use increased from 3200 in 2016 to 10,449 in 2024, while CVC use declined from 23,316 to 11,912. In propensity-matched CVC cohorts, the crude proportion of CLABSI remained stable (0.5–0.8% annually; p for trend = 0.55). Poisson regression adjusting for device exposure estimated each year a 14% increase in CLABSI incidence (IRR per year = 1.14, p < 0.001); midline share was not an independent predictor (IRR = 1.19, p = 0.66). After propensity score matching, odds of CLABSI decreased by ~0.8% per year although this effect was not statistically significant ( p = 0.745). Candidal sepsis was rare (<0.5% annually) without device-type differences; bacterial/unspecified sepsis was modestly higher among midline recipients in select years. Despite increased MLC use and reduced CVC utilization, CLABSI rates did not decline, suggesting that catheter type alone may not drive infection risk. A multifaceted infection prevention approach, including site selection, maintenance practices, and patient-specific considerations is needed when determining catheter choice. • Catheter insertion site and infection risk: Comparison of CLABSI rates by location including internal jugular, subclavian, and femoral access. • Catheter utilization trends: Yearly trends in the use of CVCs and MLCs from 2016 to 2024. • Central line days: Duration of catheter placement influencing CLABSI risk. • CLABSI definition and incidence: Operational definition and frequency of central line-associated bloodstream infections. • CLABSI prevention strategies: Institutional and national efforts to reduce infection rates, including guidelines. • Clinical outcomes comparison: Differences in outcomes and procedure types. • COVID-19 impact on CLABSI: Rise in line associated infection rates during the pandemic. • Data source and study design: Use of the TriNetX database and retrospective cohort study methodology. • Infection control practices: Role of sterile techniques, disinfection, and ultrasound guidance.
McGinnis et al. (Sun,) studied this question.