71 research outputs found
A comparison of renal phosphorus regulation in thermally-injured and multiple trauma patients receiving specialized nutrition support
To compare phosphorus intake and renal phosphorus regulation between thermally injured patients and multiple trauma patients, 40 consecutive critically ill patients, 20 with thermal injury and 20 with multiple trauma, who required enteral tube feeding were evaluated. Phosphorus intakes were recorded for 14 days from the initiation of tube feeding which was started 1 to 3 days post-injury. Serum for determination of phosphorus concentrations was collected at days 1, 3, 7, and 14 of the study period. A 24-hour urine collection was obtained during the first and second weeks of nutrition support for urinary phosphorus excretion, fractional excretion of phosphorus, renal threshold phosphate concentration, and phosphorus clearance. Average total daily phosphorus intake during the 14-day study for thermally injured patients and multiple trauma patients was 0.99 ± 0.26 mmol/kg/d vs 0.58 ± 0.21 mmol/kg/d, respectively, p \u3c .001. Serum phosphorus concentration on the third day of observation was significantly lower in the thermally injured group than those with multiple trauma (1.9 ± 0.8 mg/dL vs 3.0 ± 0.8 mg/dL, p ≤ .01). A trend toward hypophosphatemia in the thermally injured group persisted by the seventh day of feeding (2.7 ± 1.2 mg/dL vs 3.3 ± 0.6 mg/dL, p ≤ .04). Differences in urinary phosphorus excretion was not statistically significant between the thermally injured and multiple trauma groups (271 ± 213 mg/d vs 171 ± 181 mg/d for week 1, and 320 ± 289 mg/d vs 258 ± 184 mg/d for week 2, respectively). Urinary phosphorus clearance, fractional excretion of phosphorus, or renal threshold phosphate concentrations were also not significantly different between thermally injured and multiple trauma patients. During nutrition support, serum phosphorus concentrations are lower in thermally injured patients compared with multiple trauma patients despite receiving a significantly greater intake of phosphorus. Renal phosphorus regulation does not significantly contribute to the profound hypophosphatemia observed in thermally injured patients when compared with multiple trauma patients during nutrition support
Measured energy expenditure of tube-fed patients with severe neurodevelopment disabilities
Objective: To determine measured resting energy expenditure (REE) of nonambulatory tube-fed patients with severe neurological neurodevelopmental disabilities.
Methods: Twenty patients were prospectively studied. Only steady state indirect calorimetry measurements were taken. All measurements were conducted using a canopy system. Nutritional needs were met entirely by enteral feedings via a permanent ostomy.
Results: REE was widely distributed from 16 kcals/kg/day to 39 kcals/kg/day. The mean REE (888 ±176 kcals/day) of the patients was significantly (p \u3c 0.01) lower than predicted as estimated by the Harris-Benedict equations (1081 ± 155 kcals/day) and World Health Organization equations (1194 ± 167 kcals/day). Fat-free mass (FFM) was the best parameter for predicting REE. Two predictive equations were developed that are not significantly biased and more precise (≤ 15% error) than conventional predictive formulas.
Conclusion: Conventional formulas for estimating energy expenditure are inaccurate and generally overestimate measured energy expenditure of nonambulatory patients with severe developmental disabilities
Increased hypoglycemia associated with renal failure during continuous intravenous insulin infusion and specialized nutritional support
Objective: To evaluate glycemic control for critically ill, hyperglycemic trauma patients with renal failure who received concurrent intensive insulin therapy and continuous enteral (EN) or parenteral nutrition (PN).
Methods: Adult trauma patients with renal failure, who were given EN or PN concurrently with continuous graduated intravenous regular human insulin (RHI) infusion for at least 3 days were evaluated. Our conventional RHI algorithm was modified for those with renal failure by allowing greater changes in blood glucose concentrations (BG) before the infusion rate was escalated. BG was determined every 1-2 hours while receiving the insulin infusion. BG control was evaluated on the day prior to RHI infusion and for a maximum of 7 days while receiving RHI. Target BG during the RHI infusion was 70 to 149 mg/dL (3.9 to 8.3 mmol/L). Glycemic control and incidence of hypoglycemia for those with renal failure were compared to a historical cohort of critically ill, hyperglycemic trauma patients without renal failure given our conventional RHI algorithm.
Results: Twenty-one patients with renal failure who received the modified RHI algorithm were evaluated and compared to forty patients without renal failure given our conventional RHI algorithm. Average BG was significantly greater for those with renal failure (133 + 14 mg/dL or 7.3 + 0.7 mmol/L) compared to those without renal failure (122 + 15 mg/dL or 6.8 + 0.8 mmol/L), respectively (p \u3c 0.01). Patients with renal failure experienced worsened glycemic variability with 16.1 + 3.3 hours/day within the target BG range, 6.9 + 3.2 hours/day above the target BG range, and 1.4 + 1.1 hours below the target BG range compared to 19.6 + 4.7 hours/day (p \u3c 0.001), 3.4 + 3.0 hours/day (p \u3c 0.001), and 0.7 + 0.8 hours/day (p \u3c 0.01) for those without renal failure, respectively. Moderate hypoglycemia (\u3c 60 mg/dL or \u3c 3.3 mmol/L) occurred in 76% of patients with renal failure compared to 35% without renal failure (p \u3c 0.005). Severe hypoglycemia (BG \u3c 40 mg/dL or \u3c 2.2 mmol/L) occurred in 29% of patients with renal failure compared to none of those without renal failure (p \u3c 0.001).
Conclusion: Despite receiving a modified RHI infusion, critically ill trauma patients with renal failure are at higher risk for developing hypoglycemia and experience more glycemic variability than patients without renal failure
Accuracy of predictive methods to estimate resting energy expenditure of thermally-injured patients
Background
The purpose of this study was to evaluate the bias and precision of 46 methods published from 1953 to 2000 for estimating resting energy expenditure (REE) of thermally injured patients.
Methods
Twenty-four adult patients with ≥20% body surface area burn admitted to a burn center who required specialized nutrition support and who had their REE measured via indirect calorimetry (IC) were evaluated. Patients with morbid obesity, human immunovirus, malignancy, pregnancy, hepatic or renal failure, neuromuscular paralysis, or those requiring a FiO2 \u3e50% or positive end expiratory pressure (PEEP) ≥10 cm H2O were excluded. One steady-state measured REE measurement (MEE) was obtained per patient. The methods of Sheiner and Beal were used to assess bias and precision of these methods. The formulas were considered unbiased if the 95% confidence interval (CI) for the error (kilocalories per day) intersected 0 and were considered precise if the 95% CI for the absolute error (%) was within 15% of MEE.
Results
MEE was 2780 ± 567 kcal/d or 158% ± 34% of the Harris Benedict equations. None of the methods was precise (≤15% CI error). Over one-half (57%) of the 46 methods had a 95% confidence interval error \u3e30% of the MEE. Forty-eight percent of the methods were unbiased, 33% were biased toward overpredicting MEE, and 19% consistently underpredicted MEE. The pre-1980s methods more frequently overpredicted MEE compared with the 1990 to 2000 (p \u3c .01) and 1980 to 1989 (p \u3c .05) published methods, respectively. The most precise unbiased methods for estimating MEE were those of Milner (1994) at a mean error of 16% (CI of 10% to 22%), Zawacki (1970) with a mean error of 16% (CI of 9% to 23%), and Xie (1993) at a mean error of 18% (CI of 12% to 24%). The conventional 1.5 times the Harris Benedict equations was also unbiased and had a mean error of 19% (CI of 9% to 29%).
Conclusions
Thermally injured patients are variably hypermetabolic and energy expenditure cannot be precisely predicted. If IC is not available, the most precise, unbiased methods were those of Milner (1994), Zawacki (1970), and Xie (1993)
Oxandrolone in trauma patients
Study Objective
To determine the effect of oxandrolone administration on nutritional and clinical outcomes after multiple trauma.
Design
Prospective, randomized, double-blind, placebo-controlled study. Setting. Level 1 trauma center in a university teaching hospital.
Patients
Sixty-two patients requiring enteral nutrition, 60 of whom completed the study.
Intervention
Patients were randomized to receive either oxandrolone 10 mg or placebo twice/day for a maximum of 28 days.
Measurements and Main Results
Total urinary nitrogen, prealbumin, nitrogen balance, total body water, and body cell mass were measured on day 1 of enteral nutrition and then at day 7, day 10, and study exit. Patients were assessed daily for metabolic and infectious complications. The two groups were similar for demographics and dosage of enteral nutrition. Measurement of total urinary nitrogen at study entry showed both groups to be highly catabolic (oxandrolone 17.2 ± 4.9, placebo 19.1 ± 10.8 g/day, NS). On days 7 and 10, total urinary nitrogen increased in both groups; however, there was no significant difference between groups. Nitrogen balance was negative throughout the study in each group. Body cell mass decreased slightly in both groups over the study period. Prealbumin serum concentrations increased significantly in both groups at day 10 and study exit compared with study entry. The groups did not differ significantly for length of hospital stay (oxandrolone 30.8 ± 17.9, placebo 27.0 ± 25.7 days), length of intensive care unit stay (oxandrolone 17.1 ± 7.8, placebo 15.5 ± 9.7 days), and frequency of pneumonia or sepsis (oxandrolone 48, placebo 43 episodes).
Conclusion
Oxandrolone 20 mg/day does not have obvious benefit in nutritional and clinical outcomes during the first month after multiple trauma
Sequential single doses of cisapride, erythromycin, and metoclopramide in critically ill patients intolerant to enteral nutrition: A randomized, placebo-controlled, crossover study
Objective: To evaluate the comparative efficacy of enteral cisapride, metoclopramide, erythromycin, and placebo for promoting gastric emptying in critically ill patients with intolerance to gastric enteral nutrition (EN).
Design: A randomized, crossover study.
Setting: Adult medical intensive care unit at a university-affiliated private hospital and trauma intensive care unit at a university teaching hospital.
Patients: Ten adult, critically ill, mechanically ventilated patients not tolerating a fiber-containing EN product defined as a single aspirated gastric residual volume \u3e150 mL or two aspirated gastric residual volumes \u3e120 mL during a 12-hr period.
Interventions: Patients received 10 mg of cisapride, 200 mg of erythromycin ethylsuccinate, 10 mg of metoclopramide, and placebo as 20 mL of sterile water every 12 hrs over 48 hrs. Acetaminophen solution (1000 mg) was administered concurrently. Gastric residual volumes were assessed, and plasma acetaminophen concentrations were serially determined by TDx between 0 and 12 hrs to evaluate gastric emptying.
Measurements and Main Results: Gastric residual volumes during the study were not significantly different between agents. No differences in area under the concentration vs. time curve or elimination rate constant were identified between agents. Metoclopramide and cisapride had a significantly shorter mean residence time of absorption than erythromycin (6.3 ± 4.5 [SEM] mins and 10.9 ± 5.8 vs. 30.1 ± 4.5 mins, respectively [p \u3c .05]). Metoclopramide (9.7 ± 15.3 mins) had a significantly shorter time to peak concentration compared with erythromycin and placebo (60.7 ± 8.1 and 50.9 ± 13.5 mins, respectively [p \u3c .05]). The time to onset of absorption was significantly shorter for metoclopramide vs. cisapride (5.7 ± 4.5 vs. 22.9 ± 5.7 mins [p \u3c .05]).
Conclusion: In critically ill patients intolerant to EN, single enteral doses of metoclopramide or cisapride are effective for promoting gastric emptying in critically ill patients with gastric motility dysfunction. Additionally, metoclopramide may provide a quicker onset than cisapride
Measured energy expenditure of nonambulatory patients with severe neurodevelopmental disabilities
Abstract from American College of Clinical Pharmacy 1997 Annual Meeting, Phoenix, AZ, November 9-12, 1997
Renal phosphorus regulation in thermally-injured and multiple trauma patients receiving enteral nutrition
Abstract from the 22nd Clinical Congress of the American Society for Parenteral and Enteral Nutrition, Orlando, FL, January 18-21, 1998
Accuracy of predictive formulas to estimate resting energy expenditure of thermally injured patients
Abstract from the 25th Clinical Congress of the American Society for Parenteral and Enteral Nutrition, Chicago, IL, January 21-24, 2001
Chronic hypothermia and energy expenditure in a neurodevelopmentally disabled patient: a case study
Hypothermia is defined as a core body temperature of \u3c35°C and results in a decrease in measured resting energy expenditure. A 51-year-old mentally disabled patient experienced chronic hypothermia from neurologic sequelae. Because of her continued weight gain and increased body fat in the presence of presumed hypocaloric nutrition, indirect calorimetry measurements were performed twice in a 3-month period. The resting energy expenditure measurements prompted a reduction of her daily caloric intake to prevent further overfeeding. Hypothermia reduces oxygen consumption and, as a consequence, decreases resting energy expenditure. In patients for whom chronic hypothermia is a problem, nutritional intake must be adjusted to prevent overfeeding, excessive weight gain, and the long-term complications of an excess of total calories
- …