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DOI: 10.1055/s-0031-1274932
© Georg Thieme Verlag Stuttgart · New York
Ultraschall in der Anästhesie und Intensivmedizin – Ultraschall bei Gefäßpunktionen
Real-time ultrasound guided vascular accessPublication History
Publication Date:
11 March 2011 (online)
Zusammenfassung
In der perioperativen Patientenversorgung sind Punktionen venöser und arterieller Gefäße Alltag. Viele Punktionen werden nach anatomischen Landmarken durchgeführt. Mitentscheidend für den Punktionserfolg sind dabei gute anatomische Kenntnisse, die optimale Identifikation der Landmarken und die Erfahrung des durchführenden Arztes. Liegen anatomische Varianten oder pathologische Gefäßveränderungen vor, kann das landmarkengestützte Vorgehen schwierig oder unmöglich sein. Die Ultraschallunterstützung bei arteriellen, zentral- und periphervenösen Gefäßpunktionen kann die Patientensicherheit bei Erwachsenen und Kindern verbessern. Umgebende anatomische Strukturen und die Nadelposition können während des Punktionsvorgangs kontinuierlich dargestellt werden. Komplikationen können reduziert und der Punktions-erfolg erhöht werden. Voraussetzung für den sicheren Einsatz einer ultraschall-gesteuerten Punktionstechnik ist eine entsprechende Ausbildung. Dieser Artikel gibt einen Überblick über die aktuelle Literatur und beschreibt die Praxis ultraschallgesteuerter Gefäßzugänge.
Abstract
Central venous catheterization and arterial catheterization are common procedures performed perioperatively by anesthetists. The traditional technique of locating surface landmarks was used to assist in vascular access. In patients with anatomical variants or pathological vessel changes it could be difficult or impossible to succeed with this traditional approach. Ultrasound-guided vascular access can improve patient safety in adults and children. Surrounding anatomical structures are visualized and the needle is advanced under continuous observation. Complications can be reduced and success improved. It is mandatory to offer an appropriate ultrasound training programs for physicians using this technique. This article summarizes the literature and describes a practical method of ultrasound-guided vascular access.
Schlüsselwörter:
perioperative Versorgung - Ultraschall - intravaskuläre Katheter - Anästhesie
Keywords:
perioperative care - ultrasonography - interventional catheterization - anesthesiology - physician's practice patterns
Kernaussagen
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Kenntnisse des Ultraschallgeräts, Organisation der Aufstellung und Bedienung sowie Wissen um die relevante Sonoanatomie sind notwendig, bevor eine ultraschallgesteuerte Gefäßpunktion durchgeführt wird.
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Gefäße sind im Ultraschall gut erkennbar: Blut erscheint als echoarmes Medium im Ultraschallbild schwarz.
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Anatomische Normvarianten von Gefäßen können in relevanter Anzahl auftreten und eine Punktion schwierig bis unmöglich machen.
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Die 2D-Ultraschalltechnik bietet aufgrund der Echtzeitdarstellung der individuellen Patientenanatomie eindeutige Vorteile und ist das überlegene Verfahren.
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Mehrfachpunktionen erhöhen das Risiko für Komplikationen. Eine „Ein-Stich“-Technik ist ideal.
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Die beste Evidenz existiert im Rahmen der zentralvenösen Zugangswege für die V. jugularis interna bei Erwachsenen.
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Auch für andere Gefäßpunktionen ist ein Vorteil der sonografisch gesteuerten Technik denkbar, weitere Untersuchungen zur Effektivität und Sicherheit wären aber wünschenswert.
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Die ultraschallgestützte Punktion ist ein Verfahren mit eigenen Risiken. Sie schließt Komplikationen keinesfalls aus.
Literatur
- 1 Kumar A, Chuan A. Ultrasound guided vascular access: efficacy and safety. Best Pract Res Clin Anaesthesiol. 2009; 23 299-311
- 2 Hind D, Calvert N, McWilliams R, Davidson A, Paisley S, Beverley C et al.. Ultrasonic locating devices for central venous cannulation: meta-analysis. BMJ. 2003; 327 361
- 3 NICE, N.I.f.C.E (Hrsg).. Guidance on the use of ultrasound locating devices for placing central venous catheters. Technoloy Appraisal Guidance. 2002; 49
- 4 Scheiermann P, Seeger FH, Breitkreutz R. Ultrasound-guided central venous access in adults and children : procedure and pathological findings. Anaesthesist. 2010; 59 53-61
- 5 Maecken T, Grau T. Ultrasound imaging in vascular access. Crit Care Med. 2007; 35 (S 05) 178-185
- 6 Blaivas M, Adhikari S. An unseen danger: frequency of posterior vessel wall penetration by needles during attempts to place internal jugular vein central catheters using ultrasound guidance. Crit Care Med. quiz 2359 2009; 37
- 7 Rothschild J. Ultrasound guidance of central vein catheterization. In: Making healthcare safer: a critical care analysis of patient safety practices. Evidence Report/Technology Assessment no 43. Rockville: Agency for Healthcare Research and Quality; 2001
- 8 Bailey PL, Glance LG, Eaton MP et al.. A survey of the use of ultrasound during central venous catheterization. Anesth Analg. 2007; 104 491-497
- 9 Leung J, Duffy M, Finckh A. Real-time ultrasonographically-guided internal jugular vein catheterization in the emergency department increases success rates and reduces complications: a randomized, prospective study. Ann Emerg Med. 2006; 48 540-547
- 10 National Institute for Clinical Excellence (NICE) (Hrsg).. Guidance on the use of ultrasound locating devices for placing central venous catheters. Technoloy Appraisal Guidance. 2002; 49
- 11 Schummer W, Schummer C, Rose N, Niesen WD, Sakka SG. Mechanical complications and malpositions of central venous cannulations by experienced operators – a prospective study of 1794 catheterizations in critically ill patients. Intensive Care Med. 2007; 33 1055-1059
- 12 Mansfield PF, Hohn DC, Fornage BD, Gregurich MA, Ota DM. Complications and failures of subclavian-vein catheterization. N Engl J Med. 1994; 331 1735-1738
- 13 McGee, Gould DC, Gould MK. Preventing complications of central venous catheterization. N Engl J Med. 2003; 348 1123-1133
- 14 Feller-Kopman D. Ultrasound-guided internal jugular access: a proposed standardized approach and implications for training and practice. Chest. 2007; 132 302-309
- 15 Schiebler TH, Korf H-W. Kopf und Hals. In: Anatomie. Aufl. Darmstadt: Steinkopff; 2007. 10: 581-679
- 16 English IC, Frew RM, Pigott JF et al.. Percutaneous catheterisation of the internal jugular vein. Anaesthesia. 1969; 24 521-531
- 17 Legler D, Nugent M. Doppler localization of the internal jugular vein facilitates central venous cannulation. Anesthesiology. 1984; 60 481-482
- 18 Muralidhar K. Left internal versus right internal jugular vein access to central venous circulation using the Seldinger technique. J Cardiothorac Vasc Anesth. 1995; 9 115-116
- 19 Denys BG, Uretsky BF. Anatomical variations of internal jugular vein location: impact on central venous access. Crit Care Med. 1991; 19 1516-1519
- 20 Karakitsos D, Labropoulos N, De E Groot, Patrianakos AP, Kouraklis G, Poularas J, Samonis G, Tsoutsos DA, Konstadoulakis MM, Karabinis A. Real-time ultrasound-guided catheterisation of the internal jugular vein: a prospective comparison with the landmark technique in critical care patients. Crit Care. 2006; 10
- 21 Troianos CA, Kuwik RJ, Pasqual JR, Lim AJ, Odasso DP. Internal jugular vein and carotid artery anatomic relation as determined by ultrasonography. Anesthesiology. 1996; 85 43-48
- 22 Verghese ST, McGill WA, Patel RI, Sell JE, Midgley FM, Ruttimann UE. Ultrasound-guided internal jugular venous cannulation in infants: a prospective comparison with the traditional palpation method. Anesthesiology. 1999; 91 71-77
- 23 Takeyama K, Kobayashi H, Suzuki T. Optimal puncture site of the right internal jugular vein after laryngeal mask airway placement. Anesthesiology. 2005; 103 1136-1141
- 24 Trautner H, Greim CA, Arzet H, Schwemmer U, Roewer N. Ultrasound-guided central venous cannulation in neuropaediatric patients to avoid measures causing potential increase in brain pressure. Anaesthesist. 2003; 52 115-119
- 25 Lichtenstein D, Saifi R, Augarde R, Prin S, Schmitt JM, Page B, Pipien I, Jardin F. The Internal jugular veins are asymmetric – usefulness of ultrasound before catheterization. Intensive Care Med. 2001; 27 301-305
- 26 Schiebler TH, Korf H-W. Extremitäten. In: Anatomie. Aufl. Darmstadt: Steinkopff; 2007. 10: 449-580
- 27 Pirotte T, Veyckemans F. Ultrasound-guided subclavian vein cannulation in infants and children: a novel approach. Br J Anaesth. 2007; 98 509-514
- 28 Sharma A, Bodenham AR, Mallick A. Ultrasound-guided infraclavicular axillary vein cannulation for central venous access. Br J Anaesth. 2004; 93 188-192
- 29 Iwashima S, Ishikawa T, Ohzeki T. Ultrasound-guided versus landmark-guided femoral vein access in pediatric cardiac catheterization. Pediatr Cardiol. 2008; 29 339-342
- 30 Shiloh AL, Eisen LA. Ultrasound-guided arterial catheterization: a narrative review. Intensive Care Med. 2010; 36 214-221
- 31 Scheer B, Perel A, Pfeiffer UJ. Clinical review: complications and risk factors of peripheral arterial catheters used for haemodynamic monitoring in anaesthesia and intensive care medicine. Crit Care. 2002; 6 199-204
- 32 Levin PD, Sheinin O, Gozal Y. Use of ultrasound guidance in the insertion of radial artery catheters. Crit Care Med. 2003; 31 481-484
- 33 Shiver S, Blaivas M, Lyon M. A prospective comparison of ultrasound-guided and blindly placed radial arterial catheters. Acad Emerg Med. 2006; 13 1275-1279
- 34 Nagai S, Abe S, Sato T, Hozawa K, Yuki K, Hanashima K et al.. Ultrasonic assessment of vascular complications in coronary angiography and angioplasty after transradial approach. Am J Cardiol. 1999; 83 180-186
- 35 Yokoyama N, Takeshita S, Ochiai M, Koyama Y, Hoshino S, Isshiki T et al.. Anatomic variations of the radial artery in patients undergoing transradial coronary intervention. Catheter Cardiovasc Interv. 2000; 49 357-362
- 36 Schwemmer U, Arzet HA, Trautner H, Rauch S, Roewer N, Greim CA. Ultrasound-guided arterial cannulation in infants improves success rate. Eur J Anaesthesiol. 2006; 23 476-480
- 37 Sandhu NS, Patel B. Use of ultrasonography as a rescue technique for failed radial artery cannulation. J Clin Anesth. 2006; 18 138-141
- 38 Sandhu NS. The use of ultrasound for axillary artery catheterization through pectoral muscles: a new anterior approach. Anesth Analg. table of contents 2004; 99
- 39 Dudeck O, Teichgraeber U, Podrabsky P, Lopez HE, Soerensen R, Ricke J. A randomized trial assessing the value of ultrasound-guided puncture of the femoral artery for interventional investigations. Int J Cardiovasc Imaging. 2004; 20 363-368
- 40 Keyes LE, Frazee BW, Snoey ER, Simon BC, Christy D. Ultrasound-guided brachial and basilic vein cannulation in emergency department patients with difficult intravenous access. Ann Emerg Med. 1999; 34 711-714
- 41 Gregg SC, Murthi SB, Sisley AC, Stein DM, Scalea TM. Ultrasound-guided peripheral intravenous access in the intensive care unit. J Crit Care. 2010; 25 514-519
- 42 Mallinson C, Bennett J, Hodgson P, Petros AJ. Position of the internal jugular vein in children. A study of the anatomy using ultrasonography. Paediatr Anaesth. 1999; 9 111-114
- 43 Vilela R, Jacomo AD, Tresoldi AT. Risk factors for central venous catheter-related infections in pediatric intensive care. Clinics (Sao Paulo). 2007; 62 537-544
- 44 Sigaut S, Skhiri A, Stany I, Golmar J, Nivoche Y, Constant I, Murati I, Dahmani S. Ultrasound guided internal jugular vein access in children and infant: a meta-analysis of published studies. Paediatr Anaesth. 2009; 19 1199-1206
- 45 Machotta A, Kerner S, Höhne C, Kerner T. Ultrasound-guided central venous cannulation in a very small preterm neonate. Paediatr Anaesth. 2005; 15 325-327
- 46 Troianos CA, Jobes DR, Ellison N. Ultrasound-guided cannulation of the internal jugular vein: a prospective, randomized study. Anesth Analg. 1991; 72 823-826
- 47 Randolph AG, Cook DJ, Gonzales CA, Pribble CG. Ultrasound guidance for placement of central venous catheters: a meta-analysis of the literature. Crit Care Med. 1996; 24 2053-2058
- 48 Keenan SP. Use of ultrasound to place central lines. J Crit Care. 2002; 17 126-137
- 49 Schummer W, Sakka SG, Huttemann E, Reinhart K, Schummer C. Ultrasound guidance for placement control of central venous catheterization: survey of 802 anesthesia departments for 2007 in Germany. Anaesthesist. 2009; 58 677-685
- 50 Wigmore TJ, Smythe JF, Hacking MB, Raobaikady R, McCallum NS. Effect of the implementation of NICE-guidelines for ultrasound guidance on the complication rates associated with central venous catheter placement in patients presenting for routine surgery in a tertiary referral centre. Br J Anaesth. 2007; 99 662-665
- 51 Martin MJ, Husain FA, Piesman M et al.. Is routine ultrasound guidance for central line placement beneficial? A prospective analysis. Curr Surg. 2004; 61 71-74
- 52 Calvert N, Hind D, McWilliams RG, Thomas SM, Beverley C, Davidson A. The effectiveness and cost-effectiveness of ultrasound locating devices for central venous access: a systematic review and economic evaluation. Health Technol Assess. 2003; 7 1-84
- 53 Gordon AC, Saliken JC, Johns D, Owen R, Gray RR. US-guided puncture of the internal jugular vein: complications and anatomic considerations. J Vasc Interv Radiol. 1998; 9 333-338
- 54 Turba UC, Uflacker R, Hannegan C, Selby JB. Anatomic relationship of the internal jugular vein and the common carotid artery applied to percutaneous transjugular procedures. Cardiovasc Intervent Radiol. 2005; 28 303-306
- 55 Caridi JG, Hawkins IF, Wiechmann BN, Pevarski DJ, Tonkin JC. Sonographic guidance when using the right internal jugular vein for central vein access. AJR Am J Roentgenol. 1998; 171 1259-1263
- 56 Forauer AR, Glockner JF. Importance of US findings in access planning during jugular vein hemodialysis catheter placements. J Vasc Interv Radiol. 2000; 11 233-238
- 57 Brederlau J, Greim C, Schwemmer U, Haunschmid B, Markus C, Roewer N. Ultrasound-guided cannulation of the internal jugular vein in critically ill patients positioned in 30 degrees dorsal elevation. Eur J Anaesthesiol. 2004; 21 684-687
Dr. med. Matthias Georg Boschin
Email: Matthias.Boschin@UkMuenster.de