Recovery of nutritional metabolism after liver transplantation.

OBJECTIVE: Perioperative nutritional assessment is critically important to reflect nutritional management because liver transplantation (LTx) often is undertaken in patients with poor nutritional status. The aim of this study was to evaluate nutritional status, including the non-protein respiratory quotient (npRQ), resting energy expenditure (REE), nitrogen balance, and blood biochemical parameters in patients before and after LTx. METHODS: Fourteen patients undergoing LTx and 10 healthy controls were enrolled in this study. The npRQ and REE were measured using indirect calorimetry before LTx and at 2, 3, and 4 wk after the procedure. Blood biochemistry and nitrogen balance calculated by 24-h urine collection were performed concurrently with indirect calorimetric measurement; the results were compared between the two groups. RESULTS: Before LTx, npRQ was significantly lower and serum non-esterified fatty acid levels were significantly higher in the patients than in the controls. Furthermore, a negative nitrogen balance was observed in the patients. These, however, improved significantly at 4 wk after LTx. REE did not significantly increase compared with the preoperative values in recipients. Blood biochemistry showed gradually increasing levels of serum cholinesterase and albumin. These failed to reach to normal levels by 4 wk post-transplant. CONCLUSIONS: The findings revealed that improvement of nutritional metabolism after LTx may require 4 wk. Additional nutritional strategies, therefore, may be needed to minimize catabolic state during the early post-transplant period. Adequate, individualized nutritional guidance before and after LTx should be performed in these patients.

Comparison of measured and predicted energy expenditure in patients with liver cirrhosis.

Obesity is a risk factor for the onset of liver cancer in patients with cirrhosis. To prevent overfeeding and obesity, estimation of energy requirement is important, but energy expenditure in patients with liver cirrhosis has not been fully elucidated. This study aimed to investigate resting energy expenditure (REE) and energy intake in patients with cirrhosis and determine adequate energy intake criteria. In this cross-sectional study, indirect calorimetry measurement was conducted in 488 Japanese inpatients with cirrhosis. We compared REE measured by indirect calorimetry (M-REE) with basal energy expenditure (BEE) predicted by the Harris-Benedict equation (H-BEE) and Dietary Reference Intakes (DRI) for Japanese (D-BEE). Mean M-REE (1256 kcal) was significantly lower than H-BEE (1279 kcal); however, it was not significantly different from D-BEE (1254 kcal). Mean M-REE expressed in relation to body weight (BW; REE/kg BW) was 21.7 kcal/kg BW. H-BEE was significantly higher than M-REE in patients in the first and second quartiles of BMI, and D-BEE was significantly different from MREE in patients in the highest and lowest quartiles of BMI. Average energy intake was 30.5 kcal/kg BW, which was 1.4 times greater than REE/kg BW. Although DRI is a useful tool for the estimation of REE in patients in the second and third quartiles of BMI, M-REE is recommended to ensure the provision of adequate nutritional care to patients with cirrhosis, including those in the highest and lowest quartiles of BMI.

Pre- and postoperative nutritional assessment and health-related quality of life in recipients of living donor liver transplantation.

AIM: The nutritional state of living donor liver transplantation (LDLT) recipients is one of the most important factors affecting postoperative outcome. Although the assessment of health-related quality of life (HRQOL) is of increasing importance, few studies have examined this in conjunction with LDLT recipient nutritional state. METHODS: Ten LDLT recipients with end-stage liver disease were recruited for this study. Measurements of energy expenditure, anthropometrics and laboratory data were performed before and 1, 6 and 12-24 months after LDLT. HRQOL was measured by using the 36-item Short-Form (SF-36) before and 1, 3, 6 and 12-24 months after LDLT. RESULTS: The preoperative value of non-protein respiratory quotient (npRQ) was 0.796 ± 0.026 and it increased significantly after the operation. Serum non-esterified fatty acid (NEFA) levels were high in the preoperative state, but had significantly decreased 1 month after the operation. A negative correlation between npRQ and NEFA was observed throughout the study period. Cholinesterase and albumin levels improved to normal levels within 6 and 12-24 months, respectively. The recovery of the physical component summary of the SF-36 was observed after the improvement of all domains of laboratory data and energy metabolism based on the nutritional state. CONCLUSION: This study demonstrated that the recovery of metabolic function, laboratory data and HRQOL in LDLT recipients are variable, and it took more than 6 months to normalize the liver protein synthetic capacity and physical HRQOL score periods. Therefore, long-term nutritional support is required in LDLT recipients.

Recovery pattern of non-protein respiratory quotient and non-esterified fatty acids after liver resection.

OBJECTIVE: Perioperative nutritional care is important to maintain preoperative and postoperative nutritional status. However, few reports have investigated energy metabolism after hepatectomy. The aim of this study was to determine differences in energy metabolism, blood biochemistry, and nutritional status before and after liver resection in patients with hepatocellular carcinoma (HCC) and healthy living donors for liver transplantation. METHODS: Eighteen hospitalized patients with HCC group and 13 living donors for liver transplantation (donor group) were enrolled in this study. The donor group was divided into two groups on the basis of age; Y-donor group (age < 40 y, n = 7), and O-donor group (age ≥ 40 y, n = 6). Energy metabolism was measured by indirect calorimetry at preoperative day and postoperative day (POD) 7 and 14, and blood biochemistry was also examined. RESULTS: Recovery of non-protein respiratory quotient (npRQ) and blood biochemical data such as total bilirubin, aspartate aminotransferase and alanine aminotransferase levels were observed in Y-donor group on POD 14. However, although biochemical data improved in the HCC and O-donor group, npRQ remained unchanged on POD 14. CONCLUSIONS: Improvement of npRQ took longer than blood biochemical data in patients with HCC and older donors. Because the recovery of npRQ is associated with donor age, careful nutritional management may be required for a longer time depending on the pathophysiological condition of each patient after hepatectomy.