HOME HELP FEEDBACK SUBSCRIPTIONS ARCHIVE SEARCH TABLE OF CONTENTS		QUICK SEARCH:   [advanced] Author: Keyword(s): Year:  Vol:  Page:

This Article Abstract Full Text (PDF) Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Sungurtekin, H. Articles by Erdem, E. Search for Related Content PubMed PubMed Citation Articles by Sungurtekin, H. Articles by Erdem, E.

The Influence of Nutritional Status on Complications after Major Intraabdominal Surgery

Hülya Sungurtekin, MD, Uur Sungurtekin, MD, Canan Balci, MD, Mehmet Zencir, MD and Ergün Erdem, MD

Pamukkale University School of Medicine, Denizli, TURKEY

Address reprint requests to: Hülya Sungurtekin, MD, Associate Professor, Tokat Cad No 41-8 Özkan Apt. Denizli TURKEY. E-mail: hsungurtekin{at}yahoo.com

	ABSTRACT

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 
Objective: Currently most nutritional assessment techniques are based on their ability to predict clinical outcomes. However, the validity of any of these techniques to truly measure "nutritional risk" has not been proved. We have therefore prospectively assessed the prognostic value of two nutritional assessment techniques and nonnutritional factors in determining outcome after major abdominal surgery.

Methods: At admission and discharge, 100 patients undergoing major abdominal surgery were assessed on the following items: Subjective Global Assessment, Nutritional Risk Index, anthropometric measurements, serum total protein, serum albumin, lymphocyte count, total serum cholesterol. Patients were monitored for postoperative complications until death or discharge.

Results: At admission, 44% of the patients were malnourished according to the Subjective Global Assessment, while 61% of the patients were malnourished according to the Nutritional Risk Index. At discharge, these numbers were 67% and 82%, respectively. Higher death rates were found in the malnourished groups. The risk of complication was increased in malnourished patients with both assessment techniques. The odds ratios for the association between malnutrition and complications varied between 1.926 and 9.854 with both assessments. The presence of cancer in the patient was predictive for complication.

Conclusions: Malnutrition is a marker of bad outcomes. Both Subjective Global Assessment and Nutritional Risk Index nutrition tests are predictive for malnutrition and postoperative complications in patients undergoing major abdominal surgery.

Key words: nutritional assessment, surgery, subjective global assessment, nutritional risk index

	INTRODUCTION

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 
Pre-existing malnutrition has been shown to be a major clinical problem in surgical patients [1]. Malnutrition has been correlated with longer hospital stays, nutrition-related complications during and after hospitalization, and other adverse outcomes [2–6]. The ability to use nutrition assessment to predict clinical outcome can be problematic, because the interaction between malnutrition and other factors that influence outcome makes it difficult to isolate any putative contribution from malnutrition alone. For example, illness and injury can affect tissue metabolism and accelerate loss of tissue function and mass. Inadequate protein and energy intake can also lead to alterations in intermediary metabolism, tissue function and body composition. Therefore the presence of "malnutrition" can contribute to a poor clinical outcome or may simply be associated with poor outcome, if the disease itself affects markers of nutritional status [7].

Recognition of specific prognostic factors might lead to interventions or increased postoperative surveillance that would improve outcome. Most current nutritional assessment techniques are based on their ability to predict clinical outcome. However, the validity of any of these techniques to truly measure nutritional risk has not been proven [8]. We have therefore prospectively assessed the prognostic value of two nutritional assessment techniques and nonnutritional factors in determining outcome after major abdominal surgery.

	MATERIALS AND METHODS

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 
After obtaining institutional approval, 100 consenting patients who were scheduled for major intra-abdominal surgery were enrolled in this study. We assessed nutritional status and laboratory parameters of nutrition in patients at admission and discharge. No nutrition support team was active in the wards. The decision to initiate nutritional support was made by the primary surgeon on clinical grounds alone.

Nutritional Measurements
Two methods were applied for nutritional assessment. The first method Subjective Global Assessment (SGA), is a clinical score. It was performed by a trained independent physician using a standard form including food intake and complaints such as vomiting, diarrhea, and loss of weight. This information is used to classify patients into one of three categories of nutritional status: A: well nourished, B: moderately malnourished or C: severely malnourished [9]. The second method, Nutritional Risk Index (NRI), is a simple equation that uses serum albumin and recent weight loss. NRI = (1.489 x serum albumin, g/L) + 41.7 x (present weight/usual weight). A NRI > 100 indicates that the patient is not malnourished, 97.5–100 indicates mild malnourishment, 83.5–<97.5 indicates moderate malnourishment and <83.5 indicates severe malnourishment [10].

Height was recorded from case notes where available or measured with a stadiometer. Weight was measured with either mechanical scales or bathroom scales. Height and weight were used to determine body mass index (BMI) (weight (kg)/height (m²)). Weight change over the six months before hospital admission was estimated by patients and expressed as a percentage of previous weight. Triceps and other skin-fold thicknesses measure subcutaneous fat and are an indication of body fat stores. Triceps skin-fold thickness (TSF) is measured with a skin caliper on the posterior upper arm midway between the acromion and olecranon process. A skin-fold of 4 to 8 mm suggests borderline fat stores, and a thickness of 3 mm or less indicates severe depletion. Midarm circumference (MAC) was measured using a non-stretch plastic tape, midway between the acromion and olecranon of the non-dominant arm. A measurement of 15 cm or less indicates severe depletion of muscle mass. Both MAC and TSF were used to calculate midarm muscle circumference (MAMC) according to the following formula: MAMC (cm) = MAC (cm) – (TSF (mm) x 0.3142). Midarm muscle circumference estimates muscle mass or lean tissue stores [11]. A fasting blood sample was obtained to measure complete blood count, albumin, total protein, alanine amino transferase (ALT), aspartate amino transferase (AST), total cholesterol and C-reactive protein (CRP). The lymphocyte count was calculated from the total, and the differential white count was obtained by an automated analyzer.

Postoperative Complications
Physicians and nurses were instructed to record all new complications in the patients’ files. The presence, type and severity of the complications that occurred after admissions were derived from the patients’ files after discharge. Rigid objective criteria were established defining each complication to avoid subjective observer bias. The presence or absence of cancer was recorded. For multiple diagnoses, the diagnosis that was the reason for admission was chosen.

Statistical Methods
The data was analyzed using the Statistical Program for Social Science (SPSS) for Windows (release 10.0). One-way analysis of variance, followed by the Bonferroni correction, was used to compare means, while the ² test was used to compare proportions. Spearman rank correlation coefficients were calculated for association between change in nutritional status and complication. The odds ratio (OR) was used to measure for the development of complications. Multivariate logistic regression analysis of complications used variables with p less than 0.05 in univariate analysis. A backwards stepwise method was used with variables retained in the model if their logistic likelihood ratio p value was less than 0.05.

	RESULTS

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 
One hundred patients were enrolled in the study. Diagnoses of the patients are displayed in Table 1. Most of the patients had been admitted for gastrointestinal surgery. Twenty patients were hospitalized for acute conditions. At admission, 44% of the patients were malnourished according to the SGA, 61% of the patients according to the NRI. Weight loss and ALT were significantly higher in the severe malnourished group than in the well nourished group according to the SGA. TSF, BMI and albumin level were lower in the severely malnourished group with same method. Hospital stay was longer in the malnourished groups, but this was not statistically significant (Table 2). According to the NRI, most of the anthropometric data and the albumin level were lower in the severe malnourished group (Table 3). At discharge, malnutrition rates were 67% and 82% according to the SGA and NRI, respectively. Both tests showed significant increase in malnutrition rate at discharge (p < 0.01). According to the SGA, 47% of the patients were moderately malnourished, 20% of the patients were severely malnourished at discharge. Thirty-seven of the patients’ nutritional status was recategorised: 33 patients’ status being deteriorated and four patients’ status being well according to the SGA at discharge. On the other hand, malnutrition rates were found 6% (mild), 31% (moderate) and 45% (severe) with NRI at discharge. Twenty-seven patients moved from the well nourished group to the malnourished groups with NRI at discharge. Nineteen patients were more malnourished at discharge than at admission with NRI. No correlation was found between change in nutritional status and complication with both nutritional tests.

	DISCUSSION

Surgical complications occur frequently. One large study documented at least one complication in 17% of surgical patients [12]. Because of the increased risk of morbidity and mortality in malnourished surgical patients, there has been much research to define the clinical and laboratory parameters for evaluating a patient’s nutritional status. How to identify the patients at risk? Many indices and scoring systems have been developed to predict a patient’s nutritional risk, but no single scoring system is used as a standard. A weight loss of more than five percent in one month or of 10 percent or more over six months, a serum albumin of less than 3.2 g/dL and a total lymphocyte of less than 3.000/mm³ (3 x 10⁹/L) can signify an increased risk of postoperative complications [13,14].

In 1936, Studley documented that, in patients operated on for chronic peptic ulcers, if preoperative weight loss was 20% or more the complications including mortality were 33.5%, compared with 3.5% in those who had lost less weight [15]. In another prospective study of patients undergoing elective surgery involving resection of a portion of the upper GI tract, patients with weight loss alone >10% fared no worse than control subjects without weight loss. However those patients with >10% weight loss with some evidence of physiologic impairment (defined by abnormal serum protein levels, maximal inspiratory pressure, hand grip dynamometry or body composition) sustained a significantly higher incidence of major complications [16]. In our study, as in Windsor’s study, weight loss alone wasn’t a specific predictor, but when used in the scoring systems (SGA and NRI), the scoring systems were predictive for postoperative complications.

Albumin is commonly thought of as a good indicator of nutritional status and visceral proteins. In 54,215 patients undergoing major noncardiac operations, a serum albumin less than 21 g/L was associated with a morbidity rate of 65% and a mortality rate of 29%. Albumin level was a better predictor of some type of morbidity, particularly sepsis and major infections, than many other preoperative patient characteristics [17]. A more recent study has shown that serum albumin (OR: 1.9, CI: 1.2–2.9) and cholesterol (OR: 2.0, CI: 1.3–3.0) levels have an inverse and highly significant relationship with nosocomial infection in general surgery patients [18]. In this study albumin didn’t reach statistical significance for the risk of complication (OR: 0.919, CI: 0.845–1.000, p = 0.05). It was thought that the reason for this was that the sample size was not large enough for significance.

Subjective Global Assessment is used primarily by clinicians to assess nutritional status in hospitalized patients. It uses physical findings and four areas of medical history: change in weight over the previous two weeks and six months, change in dietary intake, gastrointestinal symptoms and functional capacity [9]. This technique has good interrater agreement [9], good sensitivity and specificity [19] and predicts nutrition-related complications in certain populations, including surgical patients [3,7]. Combining SGA with some of the traditional markers of nutritional status increased the ability to identify patients who developed complications from 82% to 90%. This also increased the percentage of patients identified as malnourished, but who did not develop a postoperative complication, from 25% to 30% [7]. The NRI is derived from the serum albumin concentration and the ratio of actual to usual weight with the equation. This index was used in the Veterans Administration Cooperative Study that evaluated the effect of perioperative nutritional support [10]. The odds ratios for the risk of complications in malnourished compared with well nourished patients were reported as 1.7 for SGA and 1.6 for NRI [7]. In this study, we found that the odds ratios for the incidence of any complication in malnourished patients compared with well nourished patients during hospitalization were 3.308–4.410 (moderate and severe malnourished) for the SGA and 1.926–9.854 (from mild to severe) for NRI.

The presence of cancer was reported as an independent risk factor for malnutrition [20]. Studies reported that all the nutritional parameters reflected a significant deterioration as the stages of cancer progressed; also, the frequency of postoperative complications was the highest in high stage cancer patients [21]. In our study, there was an increased postoperative complication rate with the presence of cancer.

Nutritional status also worsens during the course of hospitalization in multiple patient populations [1,22]. There are many reasons for this, e.g., having to fast for investigations, unpalatable foods, nausea, depression or feeding difficulties. Consistent with previous studies, in our study patients’ malnutrition rates were higher at discharge than at admission.

Several criticisms of this study should be addressed. First, the group of patients was very heterogeneous, and it might have been preferable to study patients with one disease in detail. We deliberately studied this heterogeneous population because our aim was to study the relationship between nutritional status and complications in surgical patients. If a correlation could be shown in this population, it would have strengthened the need for treatment of malnutrition. Second, one might say malnutrition is not the cause of complication, but that both malnutrition and complications are the result of the underlying disease or other factors. Malnutrition and underlying disease are inextricably interwoven, and only in unusual circumstances, such as self-imposed malnutrition like anorexia nervosa, is malnutrition clearly separable from other disease. In fact, in a recent consensus report on nutrition support in clinical practice, it was concluded that all current nutrition assessment techniques are affected by illness and injury and that their validity independently to measure nutritional risk has not been proven [8]. We used NRI and SGA for assessment. The Nutritional Risk Index uses serum albumin concentrations, which are influenced by nutritional status but also by inflammatory stress due to a disease. However, SGA is not influenced by serum proteins. On the other hand, NRI uses some laboratory examination; it needs laboratory charge also, but SGA uses only clinical examination which can easily be done in several minutes. One might say SGA is a more cost effective means of assessing nutritional risk than NRI.

	CONCLUSION

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 
In conclusion, our study demonstrates malnutrition is a marker of bad outcomes. Both the SGA and NRI nutrition tests are predictive for malnutrition and postoperative complications in patients undergoing major abdominal surgery. The presence of cancer also was predictive for postoperative complications. Anthropometrics and other laboratory variables weren’t predictive for complications. Nutritional assessment of the critically ill patient anticipating a major operation is crucial, as the deterioration of nutritional status is a key factor in surgical outcome.

Received April 28, 2003. Accepted October 15, 2003.

	REFERENCES

TOP ABSTRACT INTRODUCTION MATERIALS AND METHODS RESULTS CONCLUSION REFERENCES

 

1. Hill GL, Blackett RL, Pickford I, Burkinshaw L, Young GA, Warren JV, Schorah CJ, Morgan DB: Malnutrition in surgical patients. An unrecognised problem. Lancet26 :1(8013):689 –692,1977 .
2. Cederholm T, Jagren C, Hellstrom K: Outcome of protein-energy malnutrition in elderly medical patients. Am J Med98 :67 –74,1995 .[Medline]
3. Detsky AS, Baker JP, O’Rourke K, Johnston N, Whitwell J, Mendelson RA, Jeejeebhoy KN: Predicting nutrition-associated complications for patients undergoing gastrointestinal surgery. J Parenter Enteral Nutr11 :440 –446,1987 .[Abstract]
4. Sullivan DH, Walls RC: The risk of life-threatening complications in a select population of geriatric patients: the impact of nutritional status. J Am Coll Nutr14 :29 –36,1995 .[Abstract]
5. Sullivan DH, Walls RC: Protein-energy undernutrition and the risk of mortality within six years of hospital discharge. J Am Coll Nutr17 :571 –578,1998 .[Abstract/Free Full Text]
6. Warnold I, Lundholm K: Clinical significance of preoperative nutritional status in 215 noncancer patients. Ann Surg199 :299 –305,1984 .[Medline]
7. Naber TH, Schermer T, de Bree A, Nusteling K, Eggink L, Kruimel JW, Bakkeren J, van Heereveld H, Katan MB: Prevalence of malnutrition in nonsurgical hospitalized patients and its association with disease complications. Am J Clin Nutr66 :1232 –1239,1997 .[Abstract/Free Full Text]
8. Klein S, Kinney J, Jeejeebhoy K, Alpers D, Hellerstein M, Murray M, Twomey P: Nutrition support in clinical practice: review of published data and recommendations for future research directions. Summary of a conference sponsored by the National Institutes of Health, American Society for Parenteral and Enteral Nutrition, and American Society for Clinical Nutrition. Am J Clin Nutr66 :683 –706,1997 .[Abstract/Free Full Text]
9. Detsky AS, McLaughlin JR, Baker JP, Johnston N, Whittaker S, Mendelson RA, Jeejeebhoy KN: What is subjective global assessment of nutritional status? J Parenter Enteral Nutr11 :8 –13,1987 .[Abstract]
10. The Veterans Affairs Total Parenteral Nutrition Cooperative Study Group: Perioperative total parenteral nutrition in surgical patients. N Engl J Med325 :525 –532,1991 .[Abstract]
11. Frisancho AR: New norms of upper limb fat and muscle areas for assessment of nutritional status. Am J Clin Nutr34 :2540 –2545,1981 .[Abstract/Free Full Text]
12. Khuri SF, Daley J, Henderson W, Barbour G, Lowry P, Irvin G, Gibbs J, Grover F, Hammermeister K, Stremple JF: The National Veterans Administration Surgical Risk Study: risk adjustment for the comparative assessment of the quality of surgical care. J Am Coll Surg180 :519 –531,1995 .[Medline]
13. Meguid MM, Campos AC, Hammond WG: Nutritional support in surgical practice: Part I. Am J Surg159 :345 –358,1990 .[Medline]
14. Leite JF, Antunes CF, Monteiro JC, Pereira BT: Value of nutritional parameters in the prediction of postoperative complications in elective gastrointestinal surgery. Br J Surg74 :426 –429,1987 .[Medline]
15. Studley HO: Percentage of weight loss, a basic indicator of surgical risk in patients with chronic peptic ulcer. JAMA106 :458 –460,1936 .
16. Windsor JA, Hill GL: Weight loss with physiologic impairment. A basic indicator of surgical risk. Ann Surg207 :290 –296,1988 .[Medline]
17. Gibbs J, Cull W, Henderson W, Daley J, Hur K, Khuri SF: Preoperative serum albumin level as a predictor of operative mortality and morbidity: results from the National VA Surgical Risk Study. Arch Surg134 :36 –42,1999 .[Abstract/Free Full Text]
18. Delgado-Rodriquez M, Medina-Cuadros M, Gomez-Ortega A, Martinez-Gallego G, Mariscal-Ortiz M, Martinez-Gonzalez MA, Sillero-Arenas M: Cholesterol and serum albumin levels as predictors of cross infection, death, and length of hospital stay. Arch Surg137 :805 –812,2002 .[Abstract/Free Full Text]
19. Detsky AS, Baker JP, Mendelson RA, Wolman SL, Wesson DE, Jeejeebhoy KN: Evaluating the accuracy of nutritional assessment techniques applied to hospitalized patients: methodology and comparisons. J Parenter Enteral Nutr8 :153 –159,1984 .[Abstract]
20. Waitzberg DL, Caiaffa WT, Correia ITD: Hospital malnutrition: The Brazilian National Survey (IBRANUTRI): A study of 4000 patients. Nutrition17 :573 –580,2001 .[Medline]
21. Yamanaka H, Nishi M, Kanemaki T, Hosoda N, Hioki K, Yamamoto M: Preoperative nutritional assessment to predict postoperative complication in gastric cancer patients. J Parenter Enteral Nutr13 :286 –291,1989 .[Abstract]
22. Weinsier RL, Hunker EM, Krumdieck CL, Butterworth Jr CE: Hospital malnutrition. A prospective evaluation of general medical patients during the course of hospitalization. Am J Clin Nutr32 :418 –426,1979 .[Abstract]

This article has been cited by other articles:

				H. Sungurtekin, U. Sungurtekin, O. Oner, and D. Okke Nutrition Assessment in Critically Ill Patients Nutr Clin Pract, December 1, 2008; 23(6): 635 - 641. [Abstract] [Full Text] [PDF]

				M. B. Huhmann and D. A. August Review of American Society for Parenteral and Enteral Nutrition (A.S.P.E.N.) Clinical Guidelines for Nutrition Support in Cancer Patients: Nutrition Screening and Assessment Nutr Clin Pract, April 1, 2008; 23(2): 182 - 188. [Abstract] [Full Text] [PDF]

				E. Paillaud, S. Herbaud, P. Caillet, J.-L. Lejonc, B. Campillo, and P.-N. Bories Relations between undernutrition and nosocomial infections in elderly patients Age Ageing, November 1, 2005; 34(6): 619 - 625. [Abstract] [Full Text] [PDF]

				C. W. Compher, C. Spencer, and B. P. Kinosian Perioperative Parenteral Nutrition: Impact on Morbidity and Mortality in Surgical Patients Nutr Clin Pract, August 1, 2005; 20(4): 460 - 467. [Full Text] [PDF]

This Article Abstract Full Text (PDF) Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Sungurtekin, H. Articles by Erdem, E. Search for Related Content PubMed PubMed Citation Articles by Sungurtekin, H. Articles by Erdem, E.