Evidence for effect of l-serine, a novel therapy for GRIN2B-related neurodevelopmental disorder.

RATIONALE: To date, causal therapy is potentially available for GRIN2B-related neurodevelopmental disorder (NDD) due to loss-of-function (LoF) variants in GRIN2B, resulting in dysfunction of the GluN2B subunit-containing N-methyl-d-aspartate receptor (NMDAR). Recently, in vitro experiments showed that high doses of NMDAR co-agonist d-serine has the potential to boost the activity in GluN2B LoF variant-containing NMDARs. Initial reports of GRIN2B-NDD patients LoF variants, treated with l-serine using different regimens, showed varying effects on motor and cognitive performance, communication, behavior and EEG. Here, this novel treatment using a standardized protocol with an innovative developmental outcome measure is explored further in an open-label observational GRIN2B-NDD study. METHODS: Initially, in vitro studies were conducted in order to functionally stratify two de novo GRIN2B variants present in two female patients (18 months and 4 years old). Functional studies showed that both variants are LoF, and thus the patients were treated experimentally according to an approved protocol with oral l-serine (500 mg/kg/day in 4 doses) for a period of 12 months. Both patients showed a heterogeneous clinical phenotype, however overlapping symptoms were present: intellectual developmental disability (IDD), behavioral abnormalities and hypotonia. Outcome measures included laboratory tests, quality of life, sleep, irritability, stool, and performance skills, measured by, among others, the Perceive-Recall-Plan-Perform System of Task Analysis (PRPP-Assessment). RESULTS: Both patients tolerated l-serine without adverse effects. In one patient, improvement in psychomotor development and cognitive functioning was observed after 12 months (PRPP mastery score 10% at baseline, 78% at twelve months). In the most severe clinically affected patient no significant objective improvement in validated outcomes was observed. Caregivers of both patients reported subjective increase of alertness and improved communication skills. CONCLUSION: Our observational study confirms that l-serine supplementation is safe in patients with GRIN2B-NDD associated with LoF variants, and may accelerate psychomotor development and ameliorate cognitive performance in some but not all patients. The PRPP-Assessment, a promising instrument to evaluate everyday activities and enhance personalized and value-based care, was not performed in the severely affected patient, meaning that possible positive results may have been missed. To generate stronger evidence for effect of l-serine in GRIN2B-NDD, we will perform placebo-controlled n-of-1 trials.

A self-centring osteotomy of the tibial tubercle for patellar maltracking or instability: results with ten-years' follow-up.

An increased tibial tubercle-trochlear groove (TT-TG) distance is related to patellar maltracking and instability. Tibial tubercle transfer is a common treatment option for these patients with good short-term results, although the results can deteriorate over time owing to the progression of osteoarthritis. We present a ten-year follow-up study of a self-centring tibial tubercle osteotomy in 60 knees, 30 with maltracking and 30 with patellar instability. Inclusion criteria were a TT-TG ≥ 15 mm and symptoms for > one year. One patient (one knee) was lost to follow-up and one required total knee arthroplasty because of progressive osteoarthritis. Further patellar dislocations occurred in three knees, all in the instability group, one of which required further surgery. The mean visual analogue scores for pain, and Lysholm and Kujala scores improved significantly and were maintained at the final follow-up (repeated measures, p = 0.000, intergroup differences p = 0.449). Signs of maltracking were found in only a minority of patients, with no difference between groups (p > 0.05). An increase in patellofemoral osteoarthritis was seen in 16 knees (31%) with a maximum of grade 2 on the Kellgren-Lawrence scale. The mean increase in grades was 0.31 (0 to 2) and 0.41 (0 to 2) in the maltracking and instability groups respectively (p = 0.2285) This self-centring tibial tubercle osteotomy provides good results at ten years' follow-up without inducing progressive osteoarthritis.

Autophagy activity is up-regulated in adipose tissue of obese individuals and modulates proinflammatory cytokine expression.

Autophagy, an evolutionary conserved process aimed at recycling damaged organelles and protein aggregates in the cell, also modulates proinflammatory cytokine production in peripheral blood mononuclear cells. Because adipose tissue inflammation accompanied by elevated levels of proinflammatory cytokines is characteristic for the development of obesity, we hypothesized that modulation of autophagy alters adipose tissue inflammatory gene expression and secretion. We tested our hypothesis using ex vivo and in vivo studies of human and mouse adipose tissue. Levels of the autophagy marker LC3 were elevated in sc adipose tissue of obese vs. lean human subjects and positively correlated to both systemic insulin resistance and morphological characteristics of adipose tissue inflammation. Similarly, autophagic activity levels were increased in adipose tissue of obese and insulin resistant animals as compared with lean mice. Inhibition of autophagy by 3-methylalanine in human and mouse adipose tissue explants led to a significant increase in IL-1ß, IL-6, and IL-8 mRNA expression and protein secretion. Noticeably, the enhancement in IL-1ß, IL-6, and keratinocyte-derived chemoattractant (KC) by inhibition of autophagy was more robust in the presence of obesity. Similar results were obtained by blocking autophagy using small interfering RNA targeted to ATG7 in human Simpson-Golabi-Behmel syndrome adipocytes. Our results demonstrate that autophagy activity is up-regulated in the adipose tissue of obese individuals and inhibition of autophagy enhances proinflammatory gene expression both in adipocytes and adipose tissue explants. Autophagy may function to dampen inflammatory gene expression and thereby limit excessive inflammation in adipose tissue during obesity.

Response of in vivo protein synthesis in T lymphocytes and leucocytes to an endotoxin challenge in healthy volunteers.

In vivo determination of protein synthesis in immune cells reflects metabolic activity and immunological activation. An intravenous injection of endotoxin to healthy volunteers was used as a human sepsis model, and in vivo protein synthesis of T lymphocytes and leucocytes was measured. The results were related to plasma concentrations of selected cytokines, peripheral cell counts and subpopulations of immune cells. The subjects (n = 8 + 8) were randomized to an endotoxin (4 ng/kg) or a saline group. In vivo protein synthesis was determined twice: before and 1-2.5 h after the endotoxin/saline injection. Protein synthesis decreased in isolated T lymphocytes, but increased in leucocytes. Plasma levels of TNF-alpha, IL-8, IL-6, IL-1 ra and IL-10 were elevated, whereas IL-2 and IFN-gamma, produced predominantly by T lymphocytes, did not change in response to endotoxin. Neutrophils increased, whereas lymphocytes and monocytes decreased 2.5 h after the endotoxin injection. Flow cytometry revealed a drop in total CD3+ T lymphocytes and CD56+ natural killer cells, accompanied by an increase in CD15+ granulocytes. In summary, in vivo protein synthesis decreased in T lymphocytes, while the total leucocyte population showed a concomitant increase immediately after the endotoxin challenge. The changes in protein synthesis were accompanied by alterations in immune cell subpopulations and in plasma cytokine levels.

A combined stress hormone infusion decreases in vivo protein synthesis in human T lymphocytes in healthy volunteers.

In vivo protein synthesis decreases in mononuclear cells following a combined stress hormone infusion given to healthy volunteers as a human trauma model. Here, the purpose was to further investigate this finding and to measure in vivo protein synthesis in isolated T lymphocytes. Furthermore, the effects of stress hormones on the lymphocyte subpopulations and mononuclear cells, characterized by flow cytometry and phytohemagglutinin (PHA)-induced and unstimulated proliferative responses in vitro, were elucidated. Healthy volunteers (n = 16) were randomized into 2 groups to receive either a stress hormone or a saline infusion for 6 hours. In vivo protein synthesis was studied before and after the treatment by measuring the incorporation of stable isotopically-labeled phenylalanine into lymphocyte and mononuclear cell proteins. Protein synthesis decreased after stress hormone infusion in both cell populations: in T lymphocytes from 13.0% +/- 0.7%/d (mean +/- SD) to 8.6% +/- 2.1%/d (P <.01) and in mononuclear cells from 13.3% +/- 1.2%/d to 6.3 +/- 2.0%/d (P <.001). No change in proliferative responsiveness in vitro was observed. The stress hormone infusion produced a decrease in the percentage of T helper CD3/CD4 from 41% to 18% (P <.001), T cytotoxic CD3/CD8 from 27% to 15% (P <.001), as well as total T CD3 cells from 69% to 35% (P <.001). There was an increase in the percentage of natural killer (NK) cells CD16/CD56 from 17% to 55% (P <.001). Determination of phenotypes expressed on activated T lymphocytes showed that CD3/HLA-DR was unchanged and CD3/CD25 decreased from 14% to 7% (P <.01) in the stress hormone group. The study showed that the decrease of in vivo protein synthesis was 34% in T lymphocytes as compared with 53% in mononuclear cells, when determined immediately after a 6-hour stress hormone infusion. This change was associated with a pronounced decrease in all lymphocyte subpopulations, except for the NK cells, which increased substantially.

Growth hormone does not affect albumin synthesis in the critically ill.

OBJECTIVE: To study the effect of growth hormone (GH) on albumin synthesis in critically ill patients. DESIGN: Prospective randomized controlled study. SETTING: Two intensive care units, university hospital and county hospital, respectively. PATIENTS: Twenty-two critically ill patients in the intensive care unit. INTERVENTIONS: Albumin synthesis was measured twice in each patient, with a 5-day interval. The patients in the control group (n = 11) received standard intensive care unit (ICU) treatment between measurements, whereas those in the GH group (n = 11) also received 0.3 U/kg daily of human recombinant GH. MEASUREMENTS AND RESULTS: Albumin synthesis was measured by labeling with L-[2H5]phenylalanine. In the control group, the fractional synthesis rate (FSR) of albumin was 16.3+/-4.1%/day (mean and SD) in the first measurement and 15.7+/-4.2%/day 5 days later (NS), whereas in the GH group the corresponding values were 17.0+/-4.7%/day and 16.7+/-5.5%/day (NS). The calculated absolute synthesis rates of albumin, based on FSR and intravascular albumin mass, also showed no effect of GH. CONCLUSION: Albumin synthesis rates were consistently higher in the two groups of critically ill patients than previously reported values in healthy subjects. However, GH treatment for 5 days neither stimulated nor inhibited albumin synthesis rates in these critically ill patients.

Growth hormone together with glutamine-containing total parenteral nutrition maintains muscle glutamine levels and results in a less negative nitrogen balance after surgical trauma.

BACKGROUND: Muscle protein catabolism, reflected by a decrease in glutamine (GLN), a decrease in muscle protein synthesis, and a negative nitrogen balance can be reduced by either administration of GLN or growth hormone (GH). In this study, the effects of a combination of GH and GLH were studied. METHODS: Patients (n = 16) undergoing abdominal operation were given total parenteral nutrition (TPN) containing either GLN alone or GLN together with GH (GH/GLN) during 3 postoperative days. The amino acid concentration and protein synthesis in muscle tissue and the nitrogen balance were measured. RESULTS: GH/GLN reduced nitrogen losses compared with GLN alone (-5.8 +/- 1.4 g nitrogen versus -10.6 +/- 1.1 g nitrogen, P <.05). GH/GLN maintained muscle GLN at preoperative levels compared with a 47.5% +/- 6.3% decline in the GLN group. A similar decrease was seen in the fractional synthesis rate of muscle protein postoperatively in both groups. CONCLUSIONS: GH has an additive effect given together with GLN on muscle amino acid metabolism, preventing the decrease in the GLN concentration in skeletal muscle and diminishing the loss of whole body nitrogen. However, the improvements in muscle amino acid concentrations and nitrogen loss were not associated with differences between the groups in muscle protein synthesis postoperatively.

Stimulation of human albumin synthesis and gene expression by growth hormone treatment.

BACKGROUND AND AIMS: In this study the effects of acute (5 h) and short-term (5 days) GH treatment on albumin synthesis rates in man were investigated and related to changes in the availability of hepatic albumin mRNA. METHODS: 30 patients undergoing elective laparoscopic cholecystectomy were randomized into controls (n=10) or GH-treatment (12 U/dose) for 5 h or 5 days (n=10 in each group). Albumin mRNA levels (in liver biopsy specimens) were measured employing a quantitative polymerase chain reaction assay developed specifically for this purpose, whereas albumin synthesis was measured using [(2)H(5)]phenylalanine. RESULTS: The fractional synthesis rate of albumin was 6.0+/-0.9 %/day in the control group and 8.0+/-1.8 %/day and 8.3+/-1.7 %/day in the GH-treated groups, respectively (P<0.05 vs controls in both cases). The corresponding values for the concentration of albumin mRNA were 2.6+/-1.1 ng/microg total RNA, 2.9+/-0.8 ng/microg total RNA (NS) and 4.7+/-1.8 ng/microg total RNA in the "GH 5" group (P<0.01 vs controls). The changes in albumin synthesis were only partly explained by the differences in hepatic albumin mRNA levels (r=0.5, P<0.01). CONCLUSION: These results suggest that GH may induce a quick, gene expression-independent increase in albumin synthesis, which is sustained by a later-occurring increase in albumin gene expression.

Total parenteral nutrition after surgery rapidly increases serum leptin levels.

OBJECTIVE: In humans, leptin is regulated by long-term changes in energy intake. However, short-term regulation of serum leptin by nutrients has been difficult to show. The aim of this study was to investigate whether short periods of fasting and stress sensitise the leptin response to nutrients. SUBJECTS AND EXPERIMENTAL PROTOCOL: Fourteen patients of normal weight undergoing elective open cholecystectomy were randomised into two groups. One group received saline infusion during surgery and for 24 h postoperatively. The other group also received saline during the surgical procedure, but total parenteral nutrition (TPN) was started immediately after surgery. Blood samples were drawn before as well as 2, 4, 8, 16, and 24 h after the start of surgery to determine the serum levels of leptin and other hormones. RESULTS: Postoperative TPN induced a significant rise in serum leptin within 6 h, reaching a more than fourfold increase within 14 h (P<0.001). Serum glucose and insulin levels increased within 2 h. Growth hormone and IGF-1 serum levels also increased significantly in the group receiving TPN. Serum cortisol levels increased postoperatively in both groups, which may explain why no significant reduction in serum leptin was observed in the group receiving saline. Free tri-iodothyronine (T3) decreased in both groups, while catecholamines were similar in the groups. CONCLUSION: During fasting and surgical stress, nutrients rapidly increased the serum leptin levels in humans in a manner similar to that previously reported in rodents. This may be mediated by increases in serum glucose, insulin and cortisol.

Effect of hemodialysis on protein synthesis.

BACKGROUND: Earlier studies have shown that hemodialysis (HD) treatment stimulates net protein catabolism. Several factors associated with HD affect protein catabolism, such as an inflammatory effect due to blood-membrane contact and loss of amino acids and glucose into the dialysate. SUBJECTS, MATERIAL AND METHODS: We have studied protein synthesis in skeletal muscle of healthy volunteers (n = 9) before and after a single heparin-free HD. Protein synthesis (PS) was studied, using 2 independent techniques: the incorporation of labeled 2H5-phenylalanine into muscle protein, which gives a quantitative measure of the fractional synthesis rate of muscle proteins, and the concentration and size distribution of ribosomes, which gives a qualitative estimate of protein synthesis. Furthermore, free amino acid concentrations were determined in muscle and plasma. RESULTS: The rate of PS, expressed as the fractional synthesis rate, decreased by 13% during HD (p < 0.02). The capacity for PS, as reflected by the total concentration of ribosomes, was reduced by 22% (p < 0.02) and the activity of PS, expressed as the relative proportion of polyribosomes, decreased from 48.4 +/- 0.9% to 44.8 +/- 0.8% after dialysis (p < 0.01). There was a total loss of 5.8 +/- 0.3 g amino acid to the dialysate. Plasma and muscle free amino acid concentrations were determined at four time points; before and after the phenylalanine incorporation period, before dialysis and before and after the second incorporation period after dialysis. Immediately after dialysis, there was a decrease in plasma asparagine, histidine, alanine, taurine, valine and tryptophane. In muscle, no changes occurred except for a slight increase in leucine after dialysis. In blood, the glucose concentration decreased and the total amount of glucose lost to the dialysate was 21 +/- 3.0 g. In summary, one single hemodialysis treatment decreases fractional protein synthesis rate in skeletal muscle. CONCLUSION: The results demonstrate substantial losses of amino acids and glucose to the dialysate and decreased amino acid concentrations in plasma, but only minimal changes in the intracellular amino acid concentrations in muscle, suggesting that the decreased PS is caused not by lack of amino acid precursors at the site of the synthesis activity, but by other mechanisms.

Protein-sparing effect in skeletal muscle of growth hormone treatment in critically ill patients.

OBJECTIVE: To investigate the effect of growth hormone (GH) treatment on skeletal muscle protein catabolism in patients with multiple organ failure in the intensive care unit (ICU). SUMMARY BACKGROUND DATA: Skeletal muscle depletion affects the incidence of complications and the length of hospital stay. A protein-sparing effect of GH treatment in skeletal muscle of long-term ICU patients was hypothesized. METHODS: Twenty critically ill ICU patients were randomized to treatment with GH (0.3 U/kg/day) or as controls. Percutaneous muscle biopsy samples were taken before and after a 5-day treatment period starting on day 3 to 42 of the patient's ICU stay. Protein content, protein synthesis, water, nucleic acids, and free amino acids in muscle were analyzed. RESULTS: The protein content decreased by 8% +/- 11% in the control patients, with no significant change in the GH group. The fractional synthesis rate of muscle proteins increased in the GH group by 33% +/- 48%, and muscle free glutamine increased by 207% +/- 327% in the GH group. Total intramuscular water increased by 12% +/- 14% in the control group as a result of an increase in extracellular water of 67% +/- 86%; these increases were not seen in the GH group. In contrast, the intracellular water increased by 6% +/- 8% in the GH group. CONCLUSION: Treatment with GH for 5 days in patients with multiple organ failure stimulated muscle protein synthesis, increased muscle free glutamine, and increased intracellular muscle water.

In vivo protein synthesis of circulating human T lymphocytes does not respond to a cortisol challenge within 24 h.

BACKGROUND: Although immunocompetence is often measured by assessing responsiveness of lymphocytes to mitogenic stimulation in vitro, this approach may not reflect the in vivo situation. The aim of this investigation was to determine in vivo the protein synthesis rate (FSR) in isolated T lymphocytes and to study the effect of a short-term cortisol infusion on FSR. METHODS: Healthy volunteers (n=24) were randomised into 4 groups. A continuous cortisol infusion (6 microg kg(-1) min(-1)) during 6 h was given to groups 1 and 2, whereas groups 3 and 4 served as control groups and received saline infusion. Protein synthesis was studied before and after 6 h of the cortisol/saline infusion (groups 1 and 3) or 24 h after the start of the infusion (groups 2 and 4). FSR was determined in vivo by the flooding method. The isotopic enrichment of phenylalanine in plasma and lymphocyte protein was determined with gas chromatography-mass spectrometry. RESULTS: The FSR in T lymphocytes was 13.6+/-0.9%/24 h as a mean value (+/-SD) of the first determination in 4 groups. There was no significant difference in FSR from the baseline value immediately after the cortisol infusion (group 1: 13.3+/-1.4%/24 h vs 13.5+/-2.8%/24 h) or 24 h after the start of the infusion (group 2: 13.6+/-0.7%/24 h vs 12.3+/-2.4%/24 h). CONCLUSION: The metabolic activity of circulating T lymphocytes, as reflected by a quantitative measurement of in vivo protein synthesis of human T lymphocytes, was not affected by the increased level of cortisol.

Inhibition of liver protein synthesis during laparoscopic surgery.

Previous studies have indicated that laparoscopic surgery is associated with a decline in liver protein synthesis. In this study, the fractional synthesis rate (FSR) of total liver protein and albumin was measured in patients undergoing elective laparoscopic cholecystectomy at different times after commencing the procedure (n = 8 + 8). Liver biopsy specimens were taken after 15 min of surgery in an "early" group and after 49 min of surgery in a "late" group. The liver FSR was higher in the early group (24.1 +/- 4.7%/day) compared with the late group (19.0 +/- 2.8%/day, P < 0.02). The fractional and absolute synthesis rates of albumin were similar in the two groups, 6.4 +/- 1.5 vs. 6.5 +/- 1.0%/day and 97 +/- 19 vs. 96 +/- 18 mg. kg(-1). day(-1) for the early and late groups, respectively. It is concluded that laparoscopic surgery was accompanied by a decrease in total liver protein synthesis rate, which developed rapidly during surgery. In contrast, no change in the synthesis rate of albumin was apparent during the course of surgery.

Depression of liver protein synthesis during surgery is prevented by growth hormone.

This study was undertaken to elucidate the specific effects of growth hormone (GH) on liver protein metabolism in humans during surgery. Otherwise healthy patients scheduled for elective laparoscopic cholecystectomy were randomized into controls (n = 9) or pretreatment with 12 units of GH for 1 day (GH 1, n = 9) or daily for 5 days (GH 5, n = 10). The fractional synthesis rate of liver proteins, as assessed by flooding with [2H5]phenylalanine, was higher in the GH 5 group (22.0 +/- 6.9%/day, mean +/- SD, P < 0.05) than in the control (16.1 +/- 3.1%/day) and GH 1 (16.5 +/- 5.5%/day) groups. During surgery, the fraction of polyribosomes in the liver, as assessed by ribosome analysis, decreased in the control group by approximately 12% (P < 0.01) but did not decrease in the GH-treated groups. In addition, the concentrations of the essential amino acids and aspartate in the liver decreased in response to GH treatment. In conclusion, GH pretreatment decreases hepatic free amino acid concentrations and preserves liver protein synthesis during surgery.

The effect of unloading on protein synthesis in human skeletal muscle.

Atrophy of skeletal muscle is observed in response to immobilization and lack of weight-bearing. The aim of this study was to investigate the effect of immobilization on muscle protein synthesis and associated biochemical parameters in skeletal muscle of healthy volunteers employing a standardized model of lower limb unloading. One leg was unloaded for 10 days, and percutaneous muscle biopsies were taken before and at the end of the unloading period. The capacity for protein synthesis, as reflected by the concentration of RNA, decreased by 16% (P < 0.05) although the fractional synthesis rate (FSR) of protein was not significantly changed after 10 days of unloading. Furthermore there was an increase in the concentration of the free branched chain amino acids in muscle by 48% (P < 0.05).

Tissue protein synthesis rates in critically ill patients.

OBJECTIVES: The aims of this study were to simultaneously determine the in vivo rates of protein synthesis in skeletal muscle, peripheral blood lymphocytes, and serum albumin in critically ill patients; to establish whether a relationship between the responses of these tissues could be observed; and to demonstrate if a protein synthesis pattern characteristic of critical illness exists. DESIGN: Descriptive study. SETTING: Intensive care unit of a 1000-bed university hospital. PATIENTS: Fifteen patients treated in the intensive care unit. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Rates of tissue protein synthesis were determined in vivo once during the course of critical illness, using the flooding method with L-(2H5)phenylalanine. Protein synthesis in muscle was 1.49 +/- 0.16%/day; in circulating lymphocytes (i.e., mononuclear cells), protein synthesis was 11.10 +/- 1.82%/day. Albumin synthesis was 12.81 +/- 1.23%/day when expressed as the fractional rate, and was 184 +/- 19 mg/kg/day when expressed as the absolute rate. CONCLUSIONS: The individual tissues responded differently to trauma, and showed a wide range of values. The responses were not significantly correlated with each other and no pattern of tissue protein synthesis characteristic of critical illness was observed. However, both muscle protein and albumin synthesis rates correlated with metabolic status and clinical indices of the severity of illness.

The effects of short-term parenteral nutrition on human liver protein and amino acid metabolism during laparoscopic surgery.

BACKGROUND: This study was undertaken to elucidate the specific effects of short-term artificial nutrition on human liver protein metabolism. METHODS: Thirty patients undergoing elective laparoscopic cholecystectomy were studied: a control group (n = 16) and a group that received total parenteral nutrition (TPN; n = 14). The nutrition consisted of a balanced i.v. solution of nutrients (17.5 nonprotein kcal/kg body wt, 50% fat, 50% carbohydrates, and 0.1 gN/kg) that was discontinued when the investigation was finished, after a total infusion time of 8.6 +/- 1.0 hours. A liver biopsy specimen was taken as soon as possible after surgery was started, for the determination of the free hepatic amino acid concentrations. In 16 of the patients, L[2H5]phenylalanine was given by i.v. to determine the fractional synthesis rate of total liver protein in a second liver biopsy specimen taken approximately 30 minutes later. RESULTS: The fractional synthesis rate of total liver protein was 15.2% +/- 4.7%/d in the TPN group (n = 7), which was not different from that of the control group (17.7% +/- 3.8%/d, n = 9). However, the free hepatic concentrations of alanine (p < .05) and the essential amino acids increased (p < .001) in the TPN group, whereas the total hepatic amino acid concentrations were comparable between the groups. CONCLUSION: Thus short-term TPN induced specific changes of the free hepatic amino acid concentrations, whereas total liver protein synthesis remained unaffected by the nutrition.

Longitudinal changes of biochemical parameters in muscle during critical illness.

The study was undertaken to characterize the time course of biochemical parameters in skeletal muscle during critical illness to gain information for the design of a suitable protocol for interventional studies using metabolic or nutritional manipulation. Critically ill patients in our intensive care unit ([ICU] N = 9) were investigated on two separate sampling occasions with percutaneous muscle biopsies for determination of protein, nucleic acids, free amino acids, energy-rich phosphates, fat, water, and electrolytes. The first biopsy specimen was taken 3 to 11 days after admission and the second biopsy specimen 3 to 7 days later. Protein concentration, expressed as alkali-soluble protein (ASP)/DNA, decreased by 12% (P < .02) between the two biopsies. The total free amino acid content was only 50% of normal, but remained unaltered over time. In particular, the concentration of glutamine remained low, approximately 25% of normal. In contrast, branched-chain amino acid (BCAA) increased by 25% (P < .05) and phenylalanine by 55% (P < .05) between biopsies. The fat content related to fat-free solid (FFS) increased by 130% (P < .001) between the two biopsies. Muscle water did not change during the study period. The extracellular portion was double the normal value when related to FFS. Intracellular water, on the other hand, was outside the 95% confidence interval for normal values in the second biopsy. The concentrations of adenosine triphosphate (ATP), creatine, phosphocreatine, and the phosphorylated fraction of total creatine remained at the same level between the two biopsies. We conclude that in critically ill patients, there is a decrease in protein content over time and increases in BCAA, phenylalanine, and fat content, while the low glutamine level and high extracellular water content remain unaltered. The temporal alterations were well characterized after a 5-day study period.

Glycine 1.0% versus glycine 1.5% as irrigating fluid during transurethral resection of the prostate.

OBJECTIVE: To evaluate the potential benefits of reducing the glycine concentration from 1.5% to 1.0% in the irrigating fluid used during transurethral resection of the prostate (TURP) when 1% ethanol is used as the tracer of absorption. PATIENTS AND METHODS: The effect of 1% ethanol on the tendency for blood to haemolyse was tested in vitro and the optical condition of the irrigating fluids were studied during 10 TURPs. The breath ethanol level was monitored during 423 operations where these fluids were used in a randomized double-blind study. The incidence of 13 symptoms was recorded in the 77 patients who absorbed irrigating fluid. RESULTS: Ethanol slightly lowered the tendency for blood to haemolyse. Reducing the glycine concentration did not alter the optical conditions during TURP. The incidence of symptoms increased significantly as more glycine solution was absorbed, arterial hypotension and nausea being the most usual. Bradycardia, prickling skin sensations and feelings of uneasiness were less common when 1.0% glycine was used, but the choice of irrigating fluid had no effect on the total incidence of symptoms. CONCLUSION: We found no clear advantage in lowering the glycine concentration of the irrigating fluid used during TURP.