Nutritional and metabolic assessment of critically ill children

In a prospective study, with the objective of determining the metabolic profile, response to nutrient supply, and role of nutritional and metabolic assessment parameters in children admitted to a pediatric ICU, 11 patients in the age group 2-12 were studied. The assessment was carried out during the first 72 hours of admission, and again seven days later, and included the following parameters: caloric supply; nitrogen supply; prealbumin serum level; urinary urea nitrogen; nitrogen balance and creatinine-height index. The evolution of the parameters in the two stages of the study showed the following results: The urinary urea nitrogen median value at admission was 7.5 g/m of corporeal surface, and did not present significant changes seven days later. There was a significant increase in caloric supply from 42.9 to 70f3 kcal/kg, and in nitrogen supply, from 4.7 to 10.2 g/m2 of corporeal surface p 0.01 .The level of nitrogen balance rose from 5.6 to 2.5 g/24h (p<0.03), and that of prealbumin, from 16.7 to 26.3 mg/dl (p<0.03). There was a significant reduction in the creatinine-height index, from 86.2 percent to 55.0 percent p 0.01. The magnitude of urinary urea nitrogen excretion at admission varied 2.5-13.8 g/m2 of corporeal surface. Based on this parameter, it was not possible to establish a characteristic metabolic profile for the conditions studied. Notwithstanding an increase in the protein and caloric supply, prealbumin level and nitrogen balance observed in the second stage of the study, the patients lost muscle mass and entered into a malnutrition process, probably due to intense protein catabolism and the poor response to nutrition supply that occurs in metabolic stress.


INTRODUCTION
T he development of new techniques in enteral and parenteral nutrition has led to an improvement in the therapeutic support for children with acute conditions, allowing the benefits of nutritional support to be favorably reflected in the parameters of hospital evolution.
This has raised interest in an objective

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Heitor Pons  metabolic and nutritional assessment, with the purpose of optimizing the supply of nutritional support to these patients.
The metabolic changes resulting from infectious processes or acute injuries lead to a metabolic response that deeply affects the production, use and demand for nutrients at the cellular level.This results in a rapid process of malnutrition, with severe consequences for the patient.l In this situation, a nutritional assessment does not only detect the changes in corporeal composition and organic function, consequent to a poor food intake, but also identifies the changes caused by an increase in the consumption, degradation and loss of nutrients, and thus can be considered a nutritional and metabolic assessment.
In clinical practice, the resources used to assess the adequacy of nutritional support in adult patients with metabolic stress are based on an anthropometric

PATIENTS AND METHODS
Children admitted to the pediatric intensive care units of the Hospital do Servidor Publico Estadual de Sao Paulo and the Hospital Sao Paulo -Escola Paulista de Medicina were assessed as to their metabolic and nutritional status, and supply of nutrients.The study was approved by the ethics committees of these hospitals and was conducted between September 1991 and January 1993.The assessment was carried out during the first 72 hours of admission to the ICU and again seven days later.It included the following parameters: • anthropometric assessment: weight and height at admission.
• laboratorial assessment: prealbumin, urinary urea nitrogen, nitrogen balance, and creatinine-height index (at admission and again seven days later).Chi ldren who had the prospect of u ndergoi ng parenteral and/or enteral nutrition for a period of seven or more days were initially included in the study.The criteria for exclusion were: age under 3 months; patients with renal insufficiency; hepatic insufficiency or diarrhea; and those who, in the second stage of assessment, had had their protein and caloric supply interrupted or reduced in the previous 48 hours.Of the 15 patients initially included, four did not complete the second stage of assessment, and 11 patients effectively participated.
The age group ranged from 4 to 12 years, with a median of 9 years.Eight were male and three were female.
The Holliday & Segar 3 method was used to estimate caloric needs.The protein and caloric supply administrated parenterally and/or enterally was recorded daily during the commitment period in the ICU.Weight and height and respective ratios were compared to World Health Organization standards.

RESULTS
Table I di vides patients according to diagnosis at admission, urinary urea nitrogen values, and nutritional status at admission.Patients suffering from astrocytoma, medullar aplasia, and medulloblastoma had been given corticosteroids.
Table 2 shows individual values of biochemical parameters obtained in both phases of the study.Table 3 shows the evolution of nutritional parameters and the results of statistical analysis.The median value of urinary urea nitrogen at admission was 7.5 g/m2 of corporeal surface, varying from 3.4 to 13.9 g/m2.Protein and caloric supply and serum prealbumin levels showed a significant increase in the second phase of the study, as did nitrogen balance, although it continued to be a negative value.There was a significant reduction in the creatinine-height index.The excretion of urea nitrogen in urine did not change significantly in the second stage of assessment; that is, patients remained hypercatabolic.

DISCUSSION
In either nutritional or metabolic assessments, the ideal parameter should present good sensitivity and specificity both in the assessment prior to treatment and such as trauma, sepsis, and immediate postoperative period of major surgeries.Although these situations lead to a reduction in cellular mass, there is an absolute expansion of extracellular fluid which results in an underestimated weight loss.Weight gain may actually occur, caused by fluid accumulation in the third space, due to an increase in the permeability of capillary endothelium which occurs in these situations.This "extra" fluid is eliminated within a few days, unless there is a persistence or exacerbation of the metabolic response to stress.
We know that the urinary excretion of products originating from the degradation of skeletal muscle reflects the intensity of hypercatabolism and the extent of metabolic response to stress.IO The use of the formula based on the 24-hour urine urea nitrogen is useful in estimating total losses of nitrogen, II and has been used to assess the magnitude of metabolic response to stress in adult patients.'2 The magnitude of urinary urea nitrogen excretion observed at admission of the studied patients varied, depending on their pathologies, being greater in A study of hypercatabolic children shows comparable values, and a wide variation was also observed, with values ranging from 0.99 to 13.7 g/m2 of corporeal surface in 24 hours. 13The high values observed in a child with medullar aplasia/sepsis and in another child with postoperative medulloblastoma can be explained by the fact that these children had been given corticosteroids, which must be taken into account when interpreting values of this parameter.Corticotherapy increases the urinary excretion of nitrogen 14 and, in the patients mentioned above, probably caused an additional effect of the drug on the hypercatabolism caused by the sepsis and craniotomy, respectively.The urinary urea nitrogen value obtained in a child suffering from Guillain-Barre syndrome suggests the existence of a hypercatabolic state, probably triggered by endocrine and inflammatory components of the disease.An increase in urinary urea nitrogen excretion was also observed by ROUBENOFF et al. 12in adults with Guillain-Barre syndrome.
In that study, the authors draw attention to the false impression of the maintenance of a good nutritional status in patients suffering from this disease; ~his often delays the onset of an adequate nutritional support.
Nitrogen balance, despite the difficulties in collecting urine for 24 hours and in the presence of diarrhea (factors which limit its use with children), is sti II the si mplest and fastest method to assess shortterm protein metabolism and to evaluate the efficacy of nutritional treatment in hypercatabolic patients.Transport plasma or visceral proteins are indicati ve of protein and caloric malnutrition, and can be used (particularly, the prealbumin) to assess surgical risks in children who undergo major surgeries.IS This protein, whose 2-day half-life provides a fast response to changes in protein and caloric supply, has been shown to be a good parameter in monitoring the response to nutritional support supply.16.17 However, the concentrations of these proteins drop rapidly in response to metabolic stress.IX  by an increase in prealbumin levels and followed the protein caloric supply, but might have also reflected a decrease in the intensity of the acute phase response.
In spite of the increases observed in: the protein caloric supply; prealbumin levels; and nitrogen balance in the second phase of the study, patients lost muscle mass, and entered into a process of malnutrition, which was demonstrated by a decrease in their creatinineheight index.This malnutrition is due mainly to the intense protein catabolism that occurs in metabolic stress, and to the poor response to nutritional treatment.The effects of hypercatabolism may be partially compensated for by an increase in caloric protein supply,l,IlJ.2owhich, however, does not generally meet the requirements of an increase in metabolic demands, and in turns leads to loss of muscle mass.The necessi ty to reduce hydration, frequent in gravely ill patients, may limit the administration of nutrients, and aggravate the imbalance between supply and demand.In this study, as the patients were mainly children suffering from central nervous system conditions presenting cerebral edema, it was necessary to reduce fluid administration.
This limited their nutrient supply and demonstrated that it is difficult to provide adequate nutritional support to patients under hydric restraint.
Considering the variability of pathologies and the small number of children studied in this paper, it was not possible to establish a characteristic metabolic profile.Even taking into account the limitations of available methods and the existing difficulties in applying them, an objective nutritional and metabolic assessment is an essential part in nutritional support planning, which, integrated with other therapeutic measures, may contribute to reducing mortality and morbidity in children admitted to intensive care units.Further studies using larger and more homogeneous samples are needed to determine the metabolic profile and to identify more sensitive and specific parameters to assess the adequacy of nutritional support in critically ill children.
LEITE, H.P.; CARVALHO, W.B. & FISBERG, M .•Nutritional and metabolic assessment of critically ill children sao Paulo Medical Journal/RPM 114(3): 1156-1161, 1996 The Wilcoxonl) test was used in order to analyze the variation of values of biochemical parameters, and the caloric and nitrogen supply obtained in both phases of the study.Values are expressed in median.The level set for rejecting the hypothesis of equality was 0.05 (5 percent).

Table 2
Children according to prealbumin (mg/dl), nitrogen balance (g/24 h) and creatinin-height index in both phases of the study.