2026-04-17T14:33:33Zhttps://recercat.cat/oai/requestoai:recercat.cat:10230/721232025-12-06T17:15:08Zcom_2072_6col_2072_452952
2025-12-06T17:15:08Z
urn:hdl:10230/72123
The use of CUSUM chart method for surveillance of learning effects and quality of care in endovascular procedures
Calsina Juscafresa, Laura
Clará Velasco, Alberto
Vidal-Barraquer, Francesc
Endovascular procedures
CUSUM
Learning curve
Quality of care
Introduction: Quality of care and learning effect surveillance are two mandatory responsibilities within a changing therapeutical paradigm. We aimed to evaluate the feasibility and value of CUSUM chart method in assessing performance in consecutive endovascular procedures done by vascular surgeons of a single department on aorto-iliac, femoropopliteal and renal artery occlusive disease. Material and method: Data were collected in 405 consecutive patients, scheduled for endovascular intervention of aorto-iliac (n = 131, 32.3%), femoropopliteal (n = 142, 35%) and renal artery (n = 132, 32.7%) occlusive disease during a 6-year period. Quality indicators included inability to cross the lesion, peri- and post-procedural complications and significant residual stenosis or occlusion at 1 month. CUSUM curves were generated for each territory globally and according to each quality indicator. The relevance of curve upward inflections was evaluated with Fisher's Exact Test. Results: Failure to cross the lesion occurred in 6.9% (aorto-iliac), 10.6% (femoropopliteal) and 2.3% (renal) of patients. One-hundredth twenty aorto-iliac, 127 femoropopliteal and 132 renal angioplasties were finally performed. Peri- and post-procedural complications appeared in 14.5% (aorto-iliac), 9.2% (femoropopliteal) and 2.3% (renal), while significant residual stenosis or occlusion was seen in 0.8%, 4.9% and 2.3% of patients, respectively. Aorto-iliac CUSUM curve showed two upward inflections at the beginning and the end of the period, both associated with peri- and post-procedural complications (p = 0.002 and p = 0.0013) and the latter also with failure to cross the lesion (p = 0.009). Femoro-popliteal CUSUM curve moved progressively upward during all the period, initially related to peri- and post-procedural complications (p = 0.038) and later to failure to cross the lesion (p = 0.004). Renal CUSUM curve didn't show any upward inflection during the analysed period. Conclusion: CUSUM curves are an excellent tool for measuring learning effect and quality of care within a changing paradigm, such it is the case of endovascular interventions. Curve upward inflections can be further interpreted according to the type of "failure" thus helping to evaluate their underlying causes.
2025-12-06T17:15:08Z
2025-12-06T17:15:08Z
2025-12-03T16:12:43Z
2025-12-03T16:12:43Z
2011
2025-12-03T16:12:43Z
info:eu-repo/semantics/article
info:eu-repo/semantics/acceptedVersion
http://hdl.handle.net/10230/72123
European journal of vascular and endovascular surgery: the official journal of the European Society for Vascular Surgery. 2011;41(5):21333562
© Elsevier http://dx.doi.org/10.1016/j.ejvs.2011.01.003
info:eu-repo/semantics/openAccess
Elsevier