Saturday, September 21, 2019

Outcome of Vascular Complications After Arterial Punctures

Outcome of Vascular Complications After Arterial Punctures Introduction :- Arterial catheterizations are used routinely for continuous haemodynamic monitoring in the operating room and also in critically ill patients (1). It provides easy and appropriate access for several blood samplings and blood gas analysis (2) and has frequently been found to be a safe procedure, with a few severe complications (3,4). Percutaneous arterial cannulation is used widely in the clinical management of critically ill adults second in frequency to intravenous cannulation(5). Common sites of percutaneous needle puncture include the radial, femoral, brachial, dorsalispedis, or axillary artery. There is no evidence that any site is superior to the others. However, the radial artery is used most frequently due to its easy palpability, low complication rates, location and patients comfortability than the other sites. Patients undergoing radial or dorsalispedis artery puncture should have the collateral flow to those vessels evaluated prior to puncture, to avoid the risk of ischemic complications (6, 7). Each arterial catheterization site is associated with a unique set of potential complications. Radial artery insertion is associated with peripheral neuropathy, femoral artery insertion with retroperitoneal hematoma, axillary artery insertion with brachial plexopathy, and brachial artery insertion with injury to the median nerve(8). Although many sites share the same possible complications (eg, bleeding), the frequency of these complications varies among the different insertion sites. The most common complications associated with radial artery catheterization are occlusion (2 to 35 percent) and hematoma (up to 15 percent) (9). Permanent injury usually results from either complication. Frequent temporary occlusion of artery has been identified as one of the main complications of radial arterial cannulation(10, 11).Arterial complications have serious ischemic damage to the hand after radial artery cannulation which lead to necrosis and amputation of fingers or t he whole hand. (12). Femoral artery is the another commonest site of arterial cannulation in intensive care units (13). The femoral artery is usually preferred than the radial artery because the it is usually palpable even in hypotensive shock patients and is the only available route for haemodynamic monitoring(14). The incidence of related complications in the femoral artery is much lower than that in the radial artery and can be recognized easily because of the larger vessel diameter (15). Chances of sepsis is more in femoral artery cannulation because of the proximality of perianal region(16). The most common complication associated with femoral artery catheterization is hematoma (6%), which can be larger and difficult to detect if extends to the retroperitoneum(17). The third most dangerous site of arterial cannulation is axillary artery and it is preferred to be uncannulated because of its close proximity to carotid artery and may compromise cerebral circulation (18). Axillary artery cannulation is technically difficult, although pulsation and pressure are maintained even with peripheral vascular collapse where as femoral artery cannulation is less difficult, can be cannulated, even during profound hypotension (24). Arterial catheter infectionsof 10 -20% are complicated by local (eg, insertion site) infection, and 5 % by bacteremia or sepsis (11). It is generally known that arterial puncture related complications are common in ICU. The purpose of this prospective analysis was to evaluate the nature and outcome of vascular complications following arterial punctures in intensive care units of King Abdulaziz Medical City. Wendt M, Hachenberg Th, Lawin P, Vietor G. Electronic monitoring and data interpretation [in German]. In: Larwin P, Bruessel T, Prien T, editor.In Praxis der Intensivbehandlung. Stuttgart, New York: Thieme; 1993. pp. 155–186. Gauer PK, Downs JB. Complications of arterial catheterization. Respir Care. 1982;27:435–444. Hartung HJ. Monitoring [in German]. In: List WF, editor. In Komplikationen in der Anà ¤sthesie. Berlin: Springer; 1990. pp. 248–260. Gardner RM. Direct arterial pressure monitoring. Curr Anaesth Crit Care.1990;1:239–246. Durbin CG Jr. Radial arterial lines and sticks: what are the risks? Respir Care. 2001;46:229-230. Kohonen M, Teerenhovi O, Terho T, et al. Is the Allen test reliable enough? Eur J CardiothoracSurg 2007; 32:902. Jarvis MA, Jarvis CL, Jones PR, Spyt TJ. Reliability of Allens test in selection of patients for radial artery harvest. Ann ThoracSurg 2000; 70:1362. OMalley MK, Rhame FS, Cerra FB, McComb RC. Value of routine pressure monitoring system changes after 72 hours of continuous use. Crit Care Med 1994; 22:1424. Russell JA, Joel M, Hudson RJ, et al. Prospective evaluation of radial and femoral artery catheterization sites in critically ill adults. Crit Care Med 1983; 11:936. Wilkins RG: Radial artery cannulation and ischaemic damage: a review. Anaesthesia 1985, 40:896-899. Slogoff S, Keats AS, Arlund C: On the safety of radial artery cannulation. Anesthesiology 1983, 59:42-47. Bedford RF: Long-term radial artery cannulation: effects on subsequent vessel function. Crit Care Med 1978, 6:64-67. Frezza EE, Mezghebe H: Indications and complications of arterial catheter use in surgical or medical intensive care units: analysis of 4932 patients. Am Surg 1998, 64:127-131. Kaye W: Invasive monitoring techniques: arterial cannulation, bedside pulmonary artery catherization, and arterial puncture. Heart Lung 1983, 12:395-427. Riker AI, Gamelli RL: Vascular complications and femoral artery catheterization in burn patients. J Trauma 1996, 41:904-905. Thomas F, Burke JP, Parker J, Orme JF, Gardner RM, Clemmer TP, Hill GA, Macfarlane P:The risk of infection related to radial vs femoral sites for arterial catherization.Crit Care Med 1983, 11:807-812. Norwood SH, Cormier B, McMahon NG, et al. Prospective study of catheter-related infection during prolonged arterial catheterization. Crit Care Med 1988; 16:836. Czepizak CA, OCallaghan JM, Venus B, Gravenstein N: Vascular access. In In Clinical anesthesia practice.. Edited by Kirby RR, Gravenstein N. Philadelphia: W.B. Saunders Company; 1994::542-550. Johnstone R, Greenhow D. Catheterization of the dorsalis pedis artery. Anesthesiology 1973; 39:654–655 Bedford RF. Long-term radial artery cannulation: effects on subsequent vessel formation. Crit Care Med. 1978;6:64-67. Groell R, Schaffler GJ, Rienmueller R. The peripheral intravenous cannula: a cause of venous air embolism. Am J Med Sci 1997; 314:300 Soderstrom CA, Wasserman DH, Dunham MC, Caplan ES, Cowley RA. Superiority of the femoral artery for monitoring: a prospective study. Am J Surg. 1982:144:309-312 Russell JA, Joel M, Hudson RJ, Mangano DT, Schlobohm RM. Prospective evaluation of radial and femoral artery catheterization sites in critically ill patients. Crit Care Med. 1983;11:936-939. Teresa R. Cousins, John M. O’Donnell, Arterial cannulation: A critical review 2004:267,271. Complications and risk factors of peripheral arterial catheters used for haemodynamic monitoring in anaesthesia and intensive care medicine Bernd Volker Scheer1, Azriel Perel2 and Ulrich J Pfeiffer3

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