2017
DOI: 10.1055/s-0043-103953
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Peritoneal Dialysis Catheter Position Evaluated by Ultrasound: Can it Replace Abdomen X-Ray in Patients Presenting Catheter Misplacement?

Abstract: Malfunction of the peritoneal dialysis catheter is frequently caused by dislocation. The diagnostic approach is classically based on abdomen X-ray together with detailed case history and physical examination. Despite being rarely applied in clinical practice to evaluate catheter misplacement, ultrasound is a noninvasive, radiation-free technique that is potentially useful also to explore reasons for catheter malfunction. Consequently, we aimed to evaluate the diagnostic accuracy of ultrasound to identify perit… Show more

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Cited by 6 publications
(12 citation statements)
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“…Many causes of catheter malfunction such as kinking, dislocation, adhesion of omentum, fibrin sheath formation and obstruction of the lumen can easily be ascertained by US, 2 4 but the diagnostic accuracy of US has never been verified against a diagnostic reference such as VLS. For the first time, a prospective study compares the diagnostic capabilities of US directly to VLS.…”
Section: Discussionmentioning
confidence: 99%
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“…Many causes of catheter malfunction such as kinking, dislocation, adhesion of omentum, fibrin sheath formation and obstruction of the lumen can easily be ascertained by US, 2 4 but the diagnostic accuracy of US has never been verified against a diagnostic reference such as VLS. For the first time, a prospective study compares the diagnostic capabilities of US directly to VLS.…”
Section: Discussionmentioning
confidence: 99%
“…The US examination was performed in supine position after having filled the abdomen with 1 L of dialysis fluid. 4 The catheter was followed, starting from the exit site up to the catheter tip, with sectorial or linear probes of 1–13 MHz. The US equipment used in this study consisted in a General Electric Logiq P7 (sectorial probe 4C-RS with 2–5.5 MHz, linear probe L6-12-RS with 6–13 MHz, GE Medical Systems Co. Ltd, Jiangsu, China), an Acuson S3000 Ultrasound System (sectorial probe 6C2 with 6–2.5 MHz, linear probe 9L4 with 9–4 MHz, Acuson-Siemens, Mountain View, California, USA) and a Esaote MyLab 25 (sectorial probe CA631 with 8–1 MHz, linear probe LA523 with 13–4 MHz, Esaote S.r.L.…”
Section: Methodsmentioning
confidence: 99%
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