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This article is part of the series Perioperative monitoring.

Highly Accessed Editorial

Can surgical outcomes be prevented by postoperative admission to critical care?

Andrew Rhodes* and Maurizio Cecconi

Author Affiliations

Department of Intensive Care Medicine, St George's Healthcare NHS Trust and St George's University of London, London SW19 0QT, UK

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Critical Care 2013, 17:110  doi:10.1186/cc11687


The electronic version of this article is the complete one and can be found online at: http://ccforum.com/content/17/1/110


Published:28 January 2013

© 2013 BioMed Central Ltd

Editorial

Postoperative complications are hugely important for both the patient involved and also the health-care system that they develop within. Potentially disastrous for the patient, they cause prolonged lengths of stay and can be an expensive problem to resolve. Indeed, recent data suggest that these costs may not just be relevant to the short-term hospital stay but may result in significant increased costs for the longer term following repeated hospital admissions and chronic ill health [1-4]. The prevention of these complications is thus of the utmost importance for anyone caring for this group of patients. This involves developing systems that can avoid the complications occurring in the first place and then to identify and rapidly treat the complications when they arise [5].

It has been estimated that up to 230 million surgical procedures are performed each year in the world [6]. If we consider patients undergoing non-cardiac surgery, up to 4% may die [7], and a significant portion more will develop postoperative complications [8] with a prolonged duration of hospital stay and a reduced longer-term survival [3]. Although for the majority of surgical patients, the risks of complications are low, for a significant number this is not the case [9,10]. In major surgery, even in groups with a low mortality rate, the incidence of post-operative complications is disproportionately high. The identification of risk for these patients is not straight-forward. Important factors can be grouped into one of a number of main categories: first, those that are present prior to surgery that include the co-morbid status and age of the patient and the type and urgency of the surgery performed and, second, the physiological derangement of the patient at the end of the surgical procedure [10]. Many other strategies and markers of physiological status are currently being examined in order to identify the risks involved and to better prioritize available resources to individual patients [11].

It has been estimated that in the UK 12% of all patients undergoing surgery account for almost 80% of all complications and deaths [12]. These figures from 2006 were recently confirmed within the UK together with the suggestion that this pattern is also prominent in many other European countries [7]. Clearly, better identification of this group of patients would enable evidence-based, resource-rich strategies to be directed toward this needy group who would be most likely to benefit. Patients are not receiving homogenous standards of care to identify and minimize the perioperative risk; even more, when complications occur, data suggest that different health-care systems react in different ways, leading to very different outcomes [5].

One strategy would be to admit all postoperative patients to an intensive care environment following surgery to enable them to have any of a number of evidence-based interventions in order to improve their outcome [8,13,14]. The problem with this approach is that these beds are often unavailable and that this course mandates an expensive strategy that may not be affordable in all health-care environments. The most appropriate use of this limited bed stock is thus very important. Clearly, it is neither possible nor desirable for every surgical patient to be admitted to critical care following surgery. Even if this were thought to be necessary, the capacity to deliver on this process is often not present. In 2006, it was estimated that 75% of surgical patients developing postoperative complications were neither cared for in a critical care environment nor referred back into the service [12]. These numbers do not seem to have improved significantly since then [7]. If these patients are now expected to be admitted to intensive care as a routine measure postoperatively, then the numbers of patients would quickly overwhelm most hospitals' critical care services.

Across Europe, there is a marked heterogeneity in the numbers of critical care beds within each country, even when the numbers are corrected for population size [15,16]. Estimates suggest that Germany has almost five times the number of critical care beds as the UK [15,16]. Even if these numbers are exaggerated, there is still a marked discrepancy in the numbers of beds present between the two countries and this must reflect differences in practice patterns and seems also to reflect differences in outcomes [7]. Although these inferences are anecdotal and most likely reflect an association rather than causation, they should make us ask the questions of how, where, and why health care should be delivered in a particular way. Wunsch [17] recently gave an eloquent description of the 'Starling curve for intensive care', in which the benefits and harms of simply creating more beds are delineated. Clearly, we are faced with some interesting dilemmas. Which patients following surgery should be admitted to a higher level of care and what should we then do for them? In addition, if the answer is that more patients need treating in this fashion, how are we to deliver the increased capacity that this would necessitate? The solution to these problems involves a series of evidence-based, ethical, resource, and economic arguments. By openly discussing and debating these issues, we should begin to understand who should be treating these patients - and why and how - following their surgical insult.

Competing interests

The authors received lecture and consulting fees from LiDCO (London, UK) and Edwards (Irvine, CA, USA).

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