OBJECTIVE: To assess the impact of early introduction of enteral nutrition therapy in reducing morbidity and mortality in pediatric intensive care unit. METHODS: Search in the literature of the last 10 years, in English and the target population of individuals aged 1 month to 18 years admitted to pediatric intensive care units in the databases PubMed, Lilacs and Embase using the keywords: Critical Care, Nutritional Support and Nutrition Disorders or Malnutrition. RESULTS: Despite advances in the quality of clinical care, the prevalence of malnutrition in hospitalized children remains unchanged in the last 20 years (15-30%) and has implications for the time of admission, course of illness and morbidity. Malnutrition is common and is often poorly recognized and therefore, untreated. Nutritional therapy is an essential part in the treatment of pediatric patients who have severely ill hypercatabolic state protein, which can be minimized with an effective nutritional treatment plan. In this study, we reviewed publications which have shown that there is still a paucity of randomized and controlled studies with good statistical treatment in relation to enteral nutritional therapy with outcomes related to morbidity and mortality. The current guidelines for nutritional therapy in these patients are largely based on expert opinion and data extrapolated from adult studies and studies in healthy children. CONCLUSION: The scientific evidence on the use of enteral nutrition therapy in improving the development of critically ill pediatric patients is still scarce and further studies are needed focusing on it, and better guidelines must be formulated.
Care; Nutritional therapy; Malnutrition; Child mortality
OBJETIVO: Avaliar o impacto da introdução precoce de terapia nutricional enteral na redução da morbimortalidade em unidades de terapia intensiva pediátrica. MÉTODOS: Pesquisa bibliográfica nas bases de dados PubMed, Lilacs e Embase dos últimos 10 anos, em língua inglesa e população-alvo de indivíduos de 1 mês de idade a 18 anos, internados em unidades de terapia intensiva pediátrica, usando as palavras-chave: Critical Care, Nutritional Support e Nutrition Disorders or Malnutrition. RESULTADOS: Apesar dos avanços na qualidade dos cuidados clínicos, a prevalência de desnutrição em crianças hospitalizadas permanece imutável nos últimos 20 anos (15-30%) e tem implicações no tempo de internação, curso da doença e morbidade. A desnutrição é comum e é com frequência pouco reconhecida e então, não tratada. A terapia nutricional é parte essencial no tratamento dos pacientes pediátricos gravemente doentes que apresentam estado de hipercatabolismo proteico, que pode ser minimizado com um plano terapêutico nutricional efetivo. Neste estudo, foram revisadas publicações que mostraram que ainda há uma escassez de pesquisas controladas e randomizadas com bom tratamento estatístico em relação à terapia nutricional enteral com desfecho relacionado à morbimortalidade. As diretrizes atuais para terapia nutricional desses pacientes são amplamente baseadas na opinião de experts e em dados extrapolados de estudos em adultos, bem como de estudos realizados em crianças saudáveis. CONCLUSÃO: A evidência científica na utilização de terapia nutricional enteral na melhora da evolução dos pacientes pediátricos gravemente doentes ainda é escassa e são necessários novos estudos focados nisso, além de diretrizes mais bem-formuladas.
Cuidados críticos; Terapia nutricional; Desnutrição; Mortalidade na infância
Impact of early enteral nutrition therapy on morbimortality reduction in a Pediatric Intensive Care Unit: a systematic review*
Fernanda Marchetto da SilvaI,II,**; Ana Carolina Gouvea BermudesII,III; Ivie Reis ManeschyII; Graziela de Araújo Costa ZanattaII,III; Rubens FeferbaumIV; Werther Brunow de CarvalhoIV; Uenis TannuriV; Artur Figueiredo DelgadoVI
IAmbulatory of Specialties, Instituto da Criança, Hospital das Clínicas, Faculdade de Medicina, Universidade de São Paulo, São Paulo, SP, Brazil
IIDepartament of Pediatrics, Faculdade de Medicina, Universidade de São Paulo, São Paulo, SP, Brazil
IIIPediatric Intensive Care Unit, Instituto da Criança, Hospital das Clínicas, Faculdade de Medicina, Universidade de São Paulo, São Paulo, SP, Brazil
IVFaculty of Medicine, Universidade de São Paulo, São Paulo, SP, Brazil
VDiscipline of Pediatric Surgery, Faculdade de Medicina, Universidade de São Paulo, São Paulo, SP, Brazil
VIPost-graduation Program in Pediatrics, Faculdade de Medicina, Universidade de São Paulo, São Paulo, SP, Brazil
OBJECTIVE: To assess the impact of early introduction of enteral nutrition therapy on morbidity and mortality reduction in a pediatric intensive care unit.
METHODS: A search was performed in the literature of the last 10 years in English, with the target population of individuals aged 1 month to 18 years admitted to pediatric intensive care units in the PubMed, Lilacs and Embase databases using the keywords: Critical Care, Nutritional Support and Nutrition Disorders or Malnutrition.
RESULTS: Despite advances in the quality of clinical care, the prevalence of malnutrition in hospitalized children remains unchanged in the last 20 years (15-30%) and has implications for the time of admission, course of illness and morbidity. Malnutrition is common and is often poorly recognized and therefore, untreated. Nutritional therapy is an essential part in the treatment of severely ill pediatric patients who have hypercatabolic protein state, which can be minimized with an effective nutritional treatment plan. In this study, we reviewed publications which have shown that there is still a paucity of randomized and controlled studies with good statistical treatment in relation to enteral nutritional therapy with outcomes related to morbidity and mortality. The current guidelines for nutritional therapy in these patients are largely based on expert opinion and data extrapolated from adult studies and studies in healthy children.
CONCLUSION: The scientific evidence on the use of enteral nutrition therapy in improving the development of critically ill pediatric patients is still scarce and further studies are needed focusing on it, and better guidelines must be formulated.
Keywords: Critical care; Nutritional therapy; Malnutrition; Child mortality
Malnutrition is a continuous process that begins with inadequate nutrient intake followed by functional and metabolic changes that lead to loss of body composition, resulting in growth and muscle strength impairment ,as well as increasing the risk of aspiration pneumonia with a negative impact on brain growth and development, which may increase the length of hospital stay and hospital costs.1-7 It should be emphasized that malnutrition is a disease with adverse consequences on body composition and function and not just a change in the body appearance and shape.5
Approximately 15-55% of patients admitted to any hospital have malnutrition, especially those critically-ill admitted at pediatric intensive care units (ICUs), with a mortality rate of 9-38%. A part of them arrive at the hospital in an already malnourished state; however, most of them develop malnutrition during hospitalization due to hypercatabolism caused by sepsis, shock and inflammation, which rapidly leads to decreased lean body mass, impaired function of vital organs and destruction of immune processes, consuming as much as 30-50% more energy from the individual.3,5,7-14
Nutrition is an important part of the treatment of critically-ill children. The onset of early nutritional therapy and an appropriate therapeutic plan can reverse hypercatabolism. Adequate nutritional support focused on the patient's nutritional risk, especially when he or she cannot be fed orally, aims to improve resistance to infections, promote wound healing and reduce morbidity and mortality of critically-ill malnourished patients, preventing loss of muscle protein, as that survival of critically-ill patients is inversely proportional to the loss of lean mass.4,6-8,14-16
Enteral nutrition is always the first option when there is no gastrointestinal involvement, as it inhibits the intestinal mucosa atrophy, reducing the incidence of bacterial translocation, in addition to being less expensive. However, if this is not a possibility, parenteral nutrition should be used as a source of macro and micronutrient uptake or as supplement to the enteral nutrition.4,10
In order to treat these patients, it is desirable to design an appropriate treatment plan, considering the indication of nutritional therapy, side effects and available feeding techniques. One should take into consideration the patient's clinical history, physical and laboratory assessment (especially micronutrient levels such as zinc, calcium and magnesium), use of drugs and alcohol, gastrointestinal function, including dentition, swallowing and absorption.3,14
The follow-up of this treatment plan should emphasize aspects of the consequences of malnutrition, such as decreased lean body mass, fatigue and depression, food intake and vital functions.3,14 The results of this plan and its follow-up should be communicated to all professionals involved, including those who treat the patient in future consultations after discharge or those who will treat the patient after hospital transference.4
A research was performed by two independent reviewers, in the PubMed, Embase and Lilacs databases, using the following key words: Critical Care, Nutritional Support and Nutrition Disorders or Malnutrition. The filters were articles published in the last 10 years, in the English language and the target population aged from 1 month of to 18 years. Letters, editorials and commentary articles were excluded. A total of 261 articles were found.
At a later phase, the two reviewers independently selected the articles based on titles and abstracts, excluding those that were reviews and of which populations were not related to the theme and thus, five articles were included. At another moment, the two reviewers met with a third researcher (expert), who suggested the inclusion of another article that was considered relevant to the study.
Article selection was directed to meet the questions structured in the PICO methodology (Population, Intervention, Comparison and Outcome). The population consisted of critically-ill pediatric patients admitted to tertiary intensive care units, excluding the neonatal period; the intervention included morbimortality, evaluating the nutritional therapeutic plan defined during hospitalization in the ICU; the comparison was made with other studies in which there was no therapeutic plan for enteral nutritional therapy for critically-ill patients; and finally, the outcome sought to minimize morbimortality with enteral nutritional therapy. The degree of recommendation and level of evidence used in this study results are based on the model proposed by the BMA17 (2008).
Gottschlich et al.18 studied 77 children admitted to a Burn Unit with a mean of 52.5 ± 2.3 of burned body surface area (BSA), mean age 9.3 ± 0.5 years, who were randomized to receive enteral nutrition within 24 hours or after 48 hours of hospitalization. The groups were homogenous in terms of percentage of burned BSA, age, sex, presence of inhalation injury, need for mechanical ventilation and weight at admission and there was no statistically significant difference regarding mortality (11% vs. 8%, p = 0.9999 ) between them. Regarding morbidity, nutritional assessment was performed, which showed no significant weight loss in both groups and no patient had gastric aspiration.
Khorasani et al.19 studied 688 children with a mean burned BSA > 20% who were randomized to receive early-onset enteral nutrition in the first 3-6 hours post-injury or after 48 hours. The groups were homogenous according to age, weight, percentage of burned BSA, cause of burn, time of debridement start, antibiotic therapy and number of grafts. In the group of early-onset enteral feeding, lower mortality (8.5% vs. 12%) was observed, as well as shorter hospital stay (12.6 ± 1.3 × 16.4 ± 3.7 days) and less weight loss in relation to admission (3% x 9%) (p < 0.05 for all variables).
Briassoulis et al.20 randomized 25 patients to receive intervention (I) formula, which consisted of enteral nutrition supplemented with glutamine, arginine, antioxidants, omega 3 fatty acids, and another 25 patients to receive the control (C) formula, which consisted of enteral nutrition for critically-ill children modified for age. The groups were similar regarding demographic and clinical characteristics, as well as nutritional indices on the first day. There was no difference in mortality (12% Group I vs. 4% Group C, p > 0.05) and length of hospital stay (13 × 11.5 days, p > 0.05).
Van Waadendurg et al.21 randomized 10 children with acute respiratory failure requiring mechanical ventilation to receive a standard formula and other 10 children to receive formula enriched with calories and protein. The duration of mechanical ventilation and length of ICU stay did not change significantly between groups (5.5 ± 0.7 × 7.1 ± 2.2 days and 9.0 ± 2.7 vs. 6.7 ± 0.7 days, respectively, p > 0.05). The intake of calories and protein was higher in the intervention group (112 × 82 kcal/kg/day and 2.8 × 1.5 g/kg/day; p < 0.01), as well as nitrogen balance (297 × 123 mg/kg/day, p < 0.05).
Zamberlam et al.10 demonstrated that 80% of patients received enteral nutrition (complete polymeric diet according to the age, when the administration route was gastric and oligomeric diet when the administration route was post-pyloric) and 35% received oral feeding. After a week of hospitalization, the mean amount of calories offered was 82 kcal/kg/day (± 47 kcal/kg/day) and the amount of protein offered was 2.7 g/kg/day (± 1.9 g/kg/day). Parenteral nutrition was used in 10% of patients. There was a significant difference in z-score of arm circumference for age (p < 0.001) and mean triceps skinfold thickness (p < 0.001) between the first day and the seventh day of hospitalization.
Metha et al.22 demonstrated that 68% of the patients received enteral nutrition (EN) for at least 24 hours during hospitalization. Among these patients, 75% started EN until the third day of hospitalization. EN was interrupted in 24 patients (30%) with a mean of 3.7 times per patient (1483 hours without receiving EN). The interruption was considered avoidable in 58% of the episodes in 15 patients. Avoidable interruptions were more frequent in patients younger than 1 year (p < 0.006). patients with longer hospital stays and greater delay starting en showed more interruptions (p < 0.01). Patients with avoidable interruptions were three times more likely to use parenteral nutrition and needed significantly more time to reach their caloric goals.
Despite advances in the quality of clinical care, the prevalence of malnutrition in hospitalized children has remained unchanged over the past 20 years and has implications for the time of hospitalization, course of disease and morbidity. Malnutrition is common among those children, and is often poorly recognized and therefore, goes untreated. The reported prevalence of malnutrition in pediatric hospitals is around 15-30% of patients. Children admitted to the ICU are at risk of change in the nutritional status and anthropometric measures over time.1,22 The energy deficit accumulated in the first days of hospitalization in critically-ill patients may have an important role in clinical outcomes and length of ICU stay.23
Nutritional therapy is an essential part in the treatment of critically-ill pediatric patients and inadequate nutrition therapy is associated with increased morbidity and mortality. This is particularly true in patients with prolonged ICU length of stay. The majority of patients with a defined therapeutic plan can achieve the established calorie-protein and micronutrient goals within the first 5 days of hospitalization with early-onset enteral nutritional therapy (within 72 hours).
Critically-ill patients may have reduced energy demand for several reasons, such as the use of sedation and analgesic agents that decrease the basal metabolic rate, the energy required for activity is minimal, especially if the patient is on mechanical ventilation and patients during severe metabolic stress are in a catabolic state and are not growing.7,24,25 However, most critically-ill children show a protein hypercatabolic state, with high consumption of endogenous reserves, which can be minimized with an effective therapeutic plan.
Enteral nutritional therapy is supported as it reduces intestinal mucosa atrophy and decrease intestinal permeability, with consequent reduction in the incidence of bacterial translocation and septic complications, as well as being of lower cost and more physiological.11 There are three major obstacles to providing nutritional supply to critically-ill pediatric patients: fluid restriction, gastrointestinal intolerance and diet interruptions caused by procedures or after the performance of tests.7
In the study by Mehta et al.22 carried out in a tertiary pediatric ICU to identify risk factors associated with avoidable interruptions of enteral nutrition, it was shown that despite the early onset of diet infusion, it was interrupted numerous times, some in avoidable situations, which led to a three-fold increase in the use of parenteral nutrition and significant delay in achieving the caloric goals. The study had no statistical power to detect results such as infectious complications, long-term morbidity and mortality.22
In patients with gastrointestinal intolerance, trophic feeding may be instituted, which is also called minimal enteral nutrition, that is, to supply small volumes of diet (10-15 mL/kg/day) with no intention of providing adequate calories for growth, but enough to exert trophic effects on the intestinal mucosa improving milk tolerance, reducing sepsis and length of hospital stay.26,27
In this study, literature articles published in the past 10 years were systematically reviewed, totaling six original articles, showing that studies in children are still less than expected when compared with the number of publications in adults. There is a paucity of randomized controlled studies performed in children, mainly regarding enteral nutritional therapy with morbimortality-related outcomes. Current guidelines for nutrition therapy in critically-ill pediatric patients are largely based on the opinion of experts and data extrapolated from studies carried out in adults, as well as studies in healthy children.7
According to a literature review carried out on adults by Zaloga et al.,28 the majority of prospective controlled studies support the idea that early-onset enteral nutritional therapy improves clinical outcomes in critically-ill patients. Using an evidence-based approach, the recommendation for the use of early enteral nutrition in these patients is a grade A recommendation.17
Evidence-based studies for enteral nutritional therapy in pediatrics that were reviewed in this study mention the level of evidence 1B, which are randomized controlled trials with narrow confidence interval, the level of evidence 2B, which are cohort studies including randomized clinical trials of lower quality, and 2C, which is the observation of therapeutic results. This result shows that further randomized studies with best scientific treatment in pediatric patients are lacking.17
However, the selected studies may suggest a higher degree of recommendation for early-onset enteral nutrition therapy in reducing morbidity and mortality, helping to construct guidelines, flowcharts and standards for pediatric intensive care with secondary and mainly tertiary care level.
Thus, studies that prioritize results from established therapeutic plans, such as the studies by Mehta et al.,29 Briassoulis et al.24 and Taylor et al.30 or that identify well-defined effects regarding the progression of nutritional assessment, such as that by Zamberlam et al.10 can improve the content of guidelines and flowcharts. After establishing a treatment plan, it is very important to follow strict guidelines provided to the entire multidisciplinary team of intensive care, so there is no inadvertent interruption and worsening in morbimortality (Mehta et al.22).
The scientific evidence for the use of enteral nutritional therapy in improving the evolution of critically-ill pediatric patients is still scarce. Further studies with better design and statistical analysis are needed, according to the evaluation of the systematic review. In addition, guidelines for prioritizing pre-established therapeutic plans may be better formulated.
Conflicts of interest
The authors declare no conflicts of interest.
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Publication in this collection
19 Dec 2013
Date of issue
03 Aug 2012
04 June 2013