- Research article
- Open Access
Impact of perioperative nutritional status on the outcome of abdominal surgery in a sub-Saharan Africa setting
BMC Research Notes volume 10, Article number: 484 (2017)
Malnutrition is a clinical condition of multifactorial etiologies and it is associated with several adverse outcomes. In high-income countries, malnutrition has been described as a determinant of delayed wound healing, surgical site infections and mortality in the postoperative period. There is limited information available regarding the outcome of surgery in malnourished patients in sub-Saharan Africa.
A cross-sectional analytic study was carried out between March and August 2014 in the visceral surgery and the emergency departments of the Yaounde Central Hospital in Cameroon. All consecutive consenting preoperative and postoperative patients of abdominal surgical procedures were enrolled. Variables studied were: socio-demographic characteristics, medical and surgical past histories, nutritional survey, anthropometric parameters and serum albumin level in order to determine the nutritional risk index (or Buzby score).
A total of 85 patients aged from 19 to 50 years with mean age of 34.4 ± 8 years were included. The most performed abdominal surgical procedure was appendectomy (30.6%). The prevalence of preoperative malnutrition according to the Buzby score was 39.1%. Mean postoperative weight lost was 2.9 ± 1.2 kg and mean decrease in postoperative serum albumin was 4.2 ± 0.2 g. A normal postoperative serum albumin was associated with a favorable outcome [OR (95% CI) = 55 (13.4–224.3), p < 0.001].
The prevalence of malnutrition is high in our visceral surgery and emergency departments; this is associated with an increased risk of adverse early postoperative outcomes. Overall, our results emphasize the need of optimizing perioperative care through routine nutritional assessment and management of surgical patients in Cameroon.
Malnutrition is due to an imbalance between food intakes and needs, resulting in several disorders like immunosuppression, increased susceptibility to infections, delay wound healing, increased drug intolerance and death . In low and middle-income countries, malnutrition has mainly been described as a significant determinant of the under-five mortality . On the other hand, in high-income countries the emphasis of its complications have been laid more on the adult population with a reported malnutrition prevalence of 20–40% in hospital setting . In surgery, malnutrition has been found to be an independent predictor of morbidity and mortality in postoperative patients . Current recommendations stipulate screening of malnutrition and risk stratification for all patients in the preoperative period, in a bid to prevent related complications . Much more, nutritional support following surgery has been well codified in several universally validated programs including the “clinical pathway”, “fast track” or “accelerate recovery programs” . The postoperative mortality of abdominal surgery in the sub-Saharan African setting is still high . However, data on the effect of malnutrition on postoperative outcomes of abdominal surgery are scarce in sub-Saharan African populations. This study aimed to assess the perioperative nutritional status of patients undergoing abdominal surgery and to determine the relationship between perioperative nutritional status and postoperative outcomes in a tertiary hospital in Cameroon.
This was a cross sectional analytic study conducted between March and August 2014, in the Visceral Surgery and the Emergency Surgery Units of the Central Hospital of Yaounde, Cameroon. We systematically included all consecutive consenting patients aged between 19 and 59 years, either in the preoperative and postoperative period of abdominal surgery.
For each participant, using a structured questionnaire, we collected data on sociodemographic characteristics, medical and surgical past history, nutritional survey, weight change in the last 6 months and gastrointestinal symptoms lasting for at least 2 months. All the participants underwent a complete physical examination. We measured weight in light clothes with a Seca Scale balance to the nearest 0.1 kg, and height using a calibrated stadiometer. Weight was measured on the admission time and everyday of hospitalization until discharge. The weight used to appreciate postoperative nutritional status was that measured on the day of discharge.
Blood samples were collected for the measurement of pre-and postoperative serum albumin levels by the bromocresol green colorimetric method. Serum albumin was measured at the time of admission and discharge. All participants were followed during hospitalization until discharge in the visceral surgery department.
Patients were classified according to the body mass index (BMI) (kg/m2) WHO classification 2007  as follows: underweight (<18.5), normal range (18.5–24.9), overweight (25–29.9) and obesity (≥30). The nutritional risk index also called the Buzby index was calculated as follows:
By this index, all patients were classified into three categories of malnutrition namely; mild (>97.5), moderate (83.5–97.5) and severe (<83.5) .
Minor abdominal procedure was defined as any abdominal surgery which is generally not associated with long postoperative fasting period.
A favorable evolution was a condition when we had: good wound healing observed after 2 days, normal resumption of oral feeding, normal ambulation, and stable hemodynamic parameters persistent for more than 48 h prior to discharge, and absence of death.
Data analysis was done using the SPSS version 20 software. Chi square and Fisher exact tests were used to compare qualitative variables. Quantitative variables were studied by the Student test. The association between nutritional status and postoperative outcomes was expressed by odds ratio with their 95 percent confidence intervals. Linear regression was used to establish the relationship between weight loss and length of hospitalization. The correlation coefficient r was used to express this relationship. A p value <0.05 was considered statistically significant (Additional file 1).
A total of 121 participants were approached, we excluded 36 patients because of insufficient data, and finally 85 subjects were retained. Because of emergencies conditions, complete data on nutritional status was available only for 23 patients in preoperative setting. Female represented 55.3% (n = 47) (sex ratio = 0.80). The mean age was 34.9 ± 8.2 (range 19–50) years. The mean length of hospitalization was 9.88 ± 3.64 days. Appendicitis was the most common abdominal surgical indication in 30.6% (n = 26) of cases (Table 1).
Preoperative nutritional status
Before surgery 69.6% (n = 16/23) of participants had a normal BMI, 21.7% (n = 5/23) were overweight and 8.7% obese (n = 2/23). Low serum albumin levels (<35 g/l) were observed in 17.4% (n = 4/23) of participants. A low preoperative serum albumin level was significantly associated with patient’s age ≥ 40 years (p < 0.001).
Using the nutritional risk index, 30.4% (n = 7/23) and 8.7% (n = 2/23) of participants had moderate and severe malnutrition respectively.
Postoperative nutritional status
After surgery, 16.5% (n = 14/85) of participants had malnutrition according to the BMI and almost half of participants (44.7%, n = 38/85) had low serum albumin levels. Likewise, the proportion of moderate and severe malnutrition increased in postoperative period (43.5%, n = 37/85 and 23.5%, n = 20/85 respectively). The male gender was significantly associated to postoperative malnutrition according to the BMI (p < 0.01).
During hospitalization, the mean weight loss was 2.9 ± 1.2 kg and there was a relationship between the lengths of hospital stay and weight loss (p < 0.001 and r2 = 0.5749) (Fig. 1). A total of 61.2% of participants had a favorable postoperative outcome.
The nutritional parameters associated with a favorable evolution were: normal postoperative BMI [OR (95% CI) = 2.9 (1.19–7.34), p = 0.018], normal postoperative level of serum albumin [OR (95% CI) = 55 (13.49–224.32), p < 0.001] and normal nutritional risk index [OR (95% CI) = 19.3 (2.18–169.79), p = 0.003] (Table 2).
The main objective of this study was to evaluate the nutritional status and postoperative outcome in patients undergoing abdominal surgery. There was a high frequency of malnutrition in the study population. One-third of participants had unfavorable postoperative outcomes. The nutritional parameters associated with a favorable outcome were: normal postoperative BMI, and normal postoperative serum albumin.
This study was an observational study, in order to be aligned with the ethical principle of non-maleficence. Participants were selected in a single hospital with the aim to standardize its surgical and postsurgical intensive care practices. The variability of nutritional index in this study enhanced the chance to detect any nutritional risk. The prevalence of preoperative malnutrition according to the Buzby score was 39.1%, this is inferior to the 53.3% reported by Rakotondrainibe et al. in 2013, probably because their study sample included a higher proportion of major abdominal surgical procedures known to have long postoperative fasting time . In our series, the predominance of minor abdominal surgical procedures was already highly suggestive that there should be high prevalence of malnutrition. Shpata et al., in 2014 in a study done in Tirana found a higher prevalence of preoperative malnutrition of 65.3% in patients undergoing gastrointestinal surgery . It is normal to have more case of malnourished patients when the type of surgery is purely gastrointestinal, because the postoperative fasting time is sometime prolonged . In gastrointestinal cancer surgery this prevalence is higher with a value reach 84.9%, this is explained by the hypercatabolic state of patients . Patients with gastrointestinal malignancies were excluded from our sample size in order to reduce selection bias. Low level of serum albumin has been found in 17.4% of participants contrary to the 27.3% found by Rakotondrainibe et al. in group patients who underwent gastrointestinal cancer surgery . This difference is because of the predominance of major abdominal procedures which have high risk of malnutrition.
Similarly to Wu et al. in 2005, we found that the prevalence of malnutrition increased in the postoperative period explained by the physiological hypercatabolic state which occurs during this period. In our series, the male gender was a determinant of postoperative malnutrition. This observation is in line with that reported by Aparecida et al. in 2014 .
The good nutritional status observed in this study was correlated with a favorable postoperative outcome at 1 week; probably because, nutrients help to reduce infection, accelerate healing and general rehabilitation. The benefit of an optimal perioperative nutritional status have been well cited in studies carried out in high-income countries . Current guidelines recommend that all nutritional grade 2 (NG2) patients should have nutritional advice and supplementation prior to surgery. The NG4 patients on the other hand, should have enteral or parenteral nutritional assistance for at least 7 days before surgery . However these guidelines are not well codified in sub-Saharan Africa.
We acknowledge some limitations of our study. Its single study setting and the small sample of surgical procedures (n = 83), as such our results may not be generalized to all abdominal surgical procedures. Also, the data concerning surgical pathology were taken in the medical file of the patients and sometimes these were not clear enough. The reported surgical pathologies required minor abdominal procedures, contrary to the studies done in western populations. However, to the best of our knowledge, it’s the first study in our milieu, and this may serve as base for future study.
Our findings suggest that patients undergoing abdominal surgery have poor nutritional status, further exacerbated in the postoperative period. This would need to be further explored in large multicentre studies in our setting. Due to the risk of potential postsurgical complications from malnutrition and the management challenges akin to resource-limited settings, we highlight the need to integrate a routine nutritional assessment program in the management of patients undergoing abdominal surgery, in a bid to improve the postsurgical outcome.
body mass index
human immunodeficiency virus
Statistical Package for Social Sciences
World Health Organization
Chambrier C, Sztark F. Société Francophone de nutrition clinique et métabolisme (SFNEP), Société française d’anesthésie et réanimation (SFAR). French clinical guidelines on perioperative nutrition. Update of the 1994 consensus conference on perioperative artificial nutrition for elective surgery in adults. J Visc Surg. 2012;149(5):e325–36.
WHO. Child mortality. http://www.who.int/pmnch/media/press_materials/fs/fs_mdg4_childmortality/en/. Accessed 8 Sep 2016.
Klein S, Kinney J, Jeejeebhoy K, Alpers D, Hellerstein M, Murray M, et al. 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 Nutr. 1997;66(3):683–706.
Kehlet H. Multimodal approach to control postoperative pathophysiology and rehabilitation. Br J Anaesth. 1997;78(5):606–17.
Francon D, Chambrier C, Sztark F. Nutritional assessment of patients before surgery. Ann Fr Anesth Rèanim. 2012;31(6):506–11.
Uribe-Leitz T, Jaramillo J, Maurer L, Fu R, Esquivel MM, Gawande AA, et al. Variability in mortality following caesarean delivery, appendectomy, and groin hernia repair in low-income and middle-income countries: a systematic review and analysis of published data. Lancet Glob Health. 2016;4(3):e165–74.
WHO. Global database on body mass index. http://apps.who.int/bmi/index.jsp?introPage=intro_3.html. Accessed 10 Sep 2016.
Oh CA, Kim DH, Oh SJ, Choi MG, Noh JH, Sohn TS, et al. Nutritional risk index as a predictor of postoperative wound complications after gastrectomy. World J Gastroenterol. 2012;18(7):673–8.
Rakotondrainibe A, Randriamizao HMR, Rasoaherinomenjanahary F, Rajaonera TA, Rakotonaivo MJ, Samison LH, et al. Evaluation nutritionnelle peri-operatoire en chirurgie digestive majeure. Pan Afr Med J. 2013;15(139). http://www.panafrican-med-journal.com/content/article/15/139/full/.
Shpata V, Prendushi X, Kreka M, Kola I, Kurti F, Ohri I. Malnutrition at the time of surgery affects negatively the clinical outcome of critically ill patients with gastrointestinal cancer. Med Arch. 2014;68(4):263–7.
Francisco SC, Batista ST, Pena GD. Fasting in elective surgical patients: comparison among the time prescribed, performed and recommended on perioperative care protocols. ABCD Arq Bras Cir Dig São Paulo. 2015;28(4):250–4.
Leandro-Merhi VA, de Aquino JLB. Determinants of malnutrition and post-operative complications in hospitalized surgical patients. J Health Popul Nutr. 2014;32(3):400–10.
Cerantola Y, Grass F, Cristaudi A, Demartines N, Fer M. Perioperative nutrition in abdominal surgery: recommendations and reality. Gastroenterol Res Pract. 2011;22(2011):e739347.
de Luis DA, Aller R, Izaola O. Perioperatory artificial nutrition. An Med Interna Madr Spain 1984. 2008;25(6):297–300.
CGMT, MNT, ES participated in the design of the study, statistical analysis, interpretation of data and drafted the manuscript. AE, BN, ES, JJN participated in the design of the study, statistical analysis, interpretation of data and provision of patients. All authors read and approved the final manuscript.
We gratefully acknowledge all the patients who have accepted to take part in this study. We also wanted to thank Dr. Tochie Joel who participated in the revision of the manuscript.
The authors declare that they have no competing interests.
Availability of data and materials
The dataset supporting the conclusions of this study is included within the article.
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Ethics approval and consent to participate
This study was granted ethical approval (No. 2014/026/UdM/PR/CAB/CIE) by the Institutional Review board of the Higher Institute of Health Sciences, Université des Montagnes. Signed Informed consent was obtained from each participant and the study was conducted in accordance with the Helsinki declaration.
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Mambou Tebou, C.G., Temgoua, M.N., Esiene, A. et al. Impact of perioperative nutritional status on the outcome of abdominal surgery in a sub-Saharan Africa setting. BMC Res Notes 10, 484 (2017) doi:10.1186/s13104-017-2765-8
- Abdominal surgery
- Nutritional status
- Perioperative period