Improved reproducibility of γ-aminobutyric acid measurement from short-echo-time proton MR spectroscopy by linewidth-matched basis sets in LCModel

γ-Aminobutyric acid (GABA), as the primary inhibitory neurotransmitter, is extremely important for maintaining healthy brain function, and deviations from GABA homeostasis are related to various brain diseases. Short-echo-time (short-TE) proton MR spectroscopy (1 H-MRS) has been employed to measure GABA concentration from various human brain regions at high magnetic fields. The aim of this study was to investigate the effect of spectral linewidth on GABA quantification and explore the application of an optimized basis-set preparation approach using a spectral-linewidth-matched (LM) basis set in LCModel to improve the reproducibility of GABA quantification from short-TE 1 H-MRS. In contrast to the fixed-linewidth basis-set approach, the LM basis-set preparation approach, where all metabolite basis spectra were simulated with a linewidth 4 Hz narrower than that of water, showed a smaller standard deviation of estimated GABA concentration from synthetic spectra with varying linewidths and lineshapes. The test-retest reproducibility was assessed by the mean within-subject coefficient of variation, which improved from 19.2% to 12.0% in the thalamus, from 27.9% to 14.9% in the motor cortex, and from 9.7% to 2.8% in the medial prefrontal cortex using LM basis sets at 7 T. We conclude that spectral linewidth has a large effect on GABA quantification from short-TE 1 H-MRS data and that using LM basis sets in LCModel can improve the reproducibility of GABA quantification.

Fast in vivo assay of creatine kinase activity in the human brain by 31 P magnetic resonance fingerprinting

A new and efficient magnetisation transfer 31 P magnetic resonance fingerprinting (MT-31 P-MRF) approach is introduced to measure the creatine kinase metabolic ratek CK between phosphocreatine (PCr) and adenosine triphosphate (ATP) in human brain. The MRF framework is extended to overcome challenges in conventional 31 P measurement methods in the human brain, enabling reduced acquisition time and specific absorption rate (SAR). To address the challenge of creating and matching large multiparametric dictionaries in an MRF scheme, a nested iteration interpolation method (NIIM) is introduced. As the number of parameters to estimate increases, the size of the dictionary grows exponentially. NIIM can reduce the computational load by breaking dictionary matching into subsolutions of linear computational order. MT-31 P-MRF combined with NIIM providesT 1 PCr ,T 1 ATP andk CK estimates in good agreement with those obtained by the exchange kinetics by band inversion transfer (EBIT) method and literature values. Furthermore, the test-retest reproducibility results showed that MT-31 P-MRF achieves a similar or better coefficient of variation (<12%) forT 1 ATP andk CK measurements in 4 min 15 s, than EBIT with 17 min 4 s scan time, enabling a fourfold reduction in scan time. We conclude that MT-31 P-MRF in combination with NIIM is a fast, accurate, and reproducible approach for in vivok CK assays in the human brain, which enables the potential to investigate energy metabolism in a clinical setting.

High-fat diet-induced hyperglutamatergic activation of the hippocampus in mice: A proton magnetic resonance spectroscopy study at 9.4T

The aim of this study was to investigate the long-term neurochemical alterations in the hippocampus of mice fed a high-fat diet (HFD) while plasma leptin and corticosterone levels were monitored. Although metabolic disturbances induced by the excess intake of fat are assumed to cause depression, the relationship underlying dysfunctional adipose tissue, stress hormone release, and excitatory metabolism has not been fully understood yet. Four-week-old male C57BL/6 mice were separated into a HFD-fed group (n = 8) and low-fat diet-fed group (n = 8). Proton magnetic resonance spectroscopy was used to measure the long-term changes in neurochemicals in the hippocampus at 0, 5, and 10 weeks and blood samples were taken at the same time to assess plasma hormones levels. At the end of the experiment, magnetic resonance imaging was performed to quantify abdominal fat accumulation. At 10 weeks, corticosterone and leptin levels were significantly increased in the HFD group compared with the low-fat diet group. In addition, aspartate, glutamate, total choline, and N-acetylaspartic acid levels were significantly increased, but glutamine/glutamate ratios were substantially decreased at 10 weeks in the HFD group. These results were compatible with HFD-induced acute stress responses and changes in N-methyl-d-aspartate receptor-induced plasticity. These findings demonstrated that the long-term ingestion of a HFD induced hyperglutamatergic metabolism and altered glutamine-glutamate cycling. Therfore, it is suggested that hypothalamic-pituitary-adrenal dysfunction and hyperglutamatergic activation in the hippocampus resulting from the HFD.

Decreased Glutamatergic Activity in the Frontal Cortex of Single Prolonged Stress Model: In vivo and Ex Vivo Proton MR Spectroscopy

Single prolonged stress (SPS) is one of the preclinical models of posttraumatic stress disorder (PTSD) in humans. Not every traumatized person develops PTSD and the onset of the disease varies from months to many years after exposure to life-threatening events. The pathogenetic neurometabolites in PTSD have not been investigated to date, and could provide a means for therapeutic interventions. Therefore the present study aimed to evaluate neurochemical changes in the frontal cortex in the SPS model during time-dependent sensitization using in vivo and ex vivo proton magnetic spectroscopy (¹H-MRS). Twenty-one male Sprague-Dawley rats (200-220 g) were randomly assigned into two groups (Control, n = 10; SPS, n = 11). SPS consists of three consecutive stressors (restraint, forced swimming, and ether exposure) followed by 7 days without disturbance. In vivo ¹H-MRS scans were conducted at baseline, immediately after SPS, and 3 and 7 days after SPS to quantify time-dependent alterations in the frontal cortex. On day 7, all animals were sacrificed and ex vivo ¹H-MRS was performed. After SPS exposure, the SPS group showed signs of excitatory activities (glutamate) and cellular membrane turnover (choline and total choline) for 7 days. After the time-sensitization period, the SPS group showed lower glutamate and creatine levels and higher choline and lactate levels than the control group. These results indicate that SPS induces sustained adaptation of glutamatergic neuronal activity in the frontal cortex. Therefore, we conclude that SPS-induced stress reduces glutamatergic metabolism in the frontal cortex.

Effects of repeated dizocilpine treatment on glutamatergic activity in the prefrontal cortex in an animal model of schizophrenia: An in vivo proton magnetic resonance spectroscopy study at 9.4T

Repeated exposure to dizocilpine (MK-801) can be used as a model of schizophrenia that incorporates disease progression. Proton magnetic resonance spectroscopy (¹H MRS) has been widely used to investigate schizophrenia-related alterations in glutamate (Glu). The purpose of this study was to investigate metabolic alterations in the prefrontal cortex (PFC) in an animal model of schizophrenia by using in vivo ¹H MRS. Because of the spectral overlap of Glu and glutamine (Gln), high-field ¹H MRS with short echo time (TE) was used. A point-resolved spectroscopy sequence was used to measure the levels of Glu and Gln, and the brain metabolites in a volume of interest (22.5μL) located in the PFC region of rats (n=13) before and after 6days of MK-801 (0.5mg/kg) treatment. Analysis of the spectra showed that the cross-contamination of Glu and Gln can be considered to comparably low. No metabolic parameters were altered (p>0.05). However, differences in Glu and N-acetylaspartate (NAA) levels between two times were significantly correlated (p<0.01). The results showed both decreased (in 6 of the 13 rats) and increased (7 of the 13 rats) levels of Glu and NAA, which suggested that these opposite metabolic alterations reflect two stage of disease progression. The results suggest that high-field and short TE in vivo ¹H MRS can quantify Glu and Gln with reliably low level of cross-contamination and that repeated exposure to MK-801 induces the progressive development of schizophrenia.

Caudal ropivacaine in infants: population pharmacokinetics and plasma concentrations

BACKGROUND

Ropivacaine is a new long-acting amino-amide local anesthetic. However, there are no data on its use in infants. In the current study, the authors investigated the pharmacokinetics of caudal ropivacaine in 30 infants younger than 12 months.

METHODS

Two groups of infants (group 1 [n = 15], aged 0-3 months; group 2 [n = 15], aged 3-12 months) were given a caudal bolus dose of 0.2% ropivacaine (2 mg/kg) and a standardized general anesthetic technique. Serial blood samples taken for up to 12 h were analyzed for total and free ropivacaine using high-performance liquid chromatography. Population pharmacokinetic modeling was performed to yield estimates of clearance, volume of distribution, and absorption rate constant. An analysis of covariates on the kinetic parameters also was made.

RESULTS

Median maximum free ropivacaine concentration was significantly higher in group 1 (99 micog/l) than in group 2 (38 microg/l) (P = 0.0002), as was the median free fraction of ropivacaine (10% vs. 5%; P = 0.01). Pharmacokinetic variables of the total population were best described by a one-compartment model with first-order absorption. Mean clearance was 0.31 l.h(-1).kg(-1) (coefficient of variation [CV], 51%), volume of distribution was 2.12 l/kg (CV, 34%), and absorption rate constant was 1.61 h(-1) (CV, 46%). Mean absorption and elimination half-lives were 0.43 and 5.1 h, respectively. Age and percentage of free ropivacaine were significant covariates for clearance. Posterior Bayesian estimates of clearance were significantly higher (38%) in older children.

CONCLUSION

Total and free plasma ropivacaine concentrations after caudal ropivacaine (0.2%, 2 mg/kg) in infants were within the range of concentrations previously reported in adults and older children. Age and percentage of free ropivacaine were significant covariates of clearance.

Pharmacokinetics and clinical efficacy of long-term epidural ropivacaine infusion in children

The clinical efficacy and pharmacokinetics of long-term epidural ropivacaine infusion were investigated in 18 postoperative children aged between 0.3 and 7.3 yr. A lumbar or thoracic epidural catheter was inserted after the anaesthetic induction. Sixty minutes following a bolus dose of ropivacaine 1 mg kg-1, 0.2% ropivacaine was infused at a fixed rate of 0.4 mg kg-1 h-1 for a mean of 61.3 h (range 36-96 h). Clinical evaluation comprised hourly recording of pain, sedation, motor block, nausea/vomiting, pruritus-scores, SpO2, pulse and respiratory rates, and recording of non-invasive arterial pressure every 4 h. Total and free plasma concentrations were measured by high-performance liquid chromatography at 0, 1, 6, 12, 24, 36, 48, 72 and 96 h. Analgesia was of high quality and side effects were minor. No clinical signs of local anaesthetic toxicity were seen. Total (100-3189 micrograms litre-1) and free (10-56 micrograms litre-1) ropivacaine concentrations were within the range reported to be 'safe' in previous studies in adults. Mean (95% CI) volume of distribution was 3.1 litre kg-1 (2.1-4.2 litre kg-1), total clearance was 8.5 ml kg-1 min-1 (5.8-11.1 ml kg-1 min-1), free clearance was 220 ml kg-1 min-1 (170-270 ml kg-1 min-1) and elimination half-life was 4.9 h (3.0-6.7 h).

Clinical evaluation of the non-invasive cardiac output (NICO) monitor in the intensive care unit

The Non-invasive Cardiac Output (NICO) monitor (Novametrix Medical Systems Inc., Wallingford, CT, U.S.A.) utilizes a minimally-invasive partial rebreathing method to determine cardiac output by means of a differential form of the Fick equation. We evaluated the NICO monitor by comparing its output to paired measurements obtained by the standard thermodilution (TD) technique in patients who had recently undergone cardiac surgery. Forty-two paired measurements were carried out in 12 patients. The correlation between the two methods was moderate with a correlation coefficient of 0.691. Repeated measures ANOVA showed that TD measures of cardiac output were significantly higher than those obtained by the NICO monitor (P = 0.0003). Comparison of the two techniques using the method described by Bland and Altman showed decreased correlation at higher values of cardiac output. We conclude that the NICO monitor may well have a place in intensive care monitoring, provided patients are not breathing spontaneously and are able to tolerate a 4 mmHg rise in PaCO2. It is less suitable for use in patients with a high cardiac output state.

Changes in microbiological and physicochemical properties of bee pollen by application of gamma irradiation and ozone treatment

The effects of gamma irradiation and ozone treatment on microbiological and physicochemical properties of bee pollen were investigated. Gamma irradiation at 7.5 kGy reduced the total microbial loads below detection levels (>10(2) CFU g(-1)), but after ozone treatment of up to 18 ppm for 8 h the total aerobic bacteria were found in concentrations of more than 10(3) CFU g(-1). Physicochemical properties such as amino acid and fatty acid composition, thiobarbituric acid value, mineral content, and pigment were not significantly changed by gamma irradiation, whereas ozone treatment caused significant changes in fatty acid composition, thiobarbituric acid value, and pigment by lipid oxidation and decoloration (P < 0.05).

Identification of three catalytic triad constituents and Asp-225 essential for function of lysine-specific serine protease, Achromobacter protease I

Achromobacter protease I is a lysine-specific serine protease that Achromobacter lyticus M497-1 extracellularly secretes. The structural aspects necessary for the protease to function were investigated by means of site-directed mutagenesis to identify the constituents of the catalytic triad and the amino acid residue responsible for lysine specificity. The precursor molecules, which were produced by substitution of His-57, Asp-113, or Ser-194 for alanine, could not be converted to the mature form. In contrast, a precursor of a mutant in which either His-56 or Ser-193 is converted to alanine was perfectly processed autocatalytically and attained full protease activity. Substitution of Glu-190, one of the two candidates for determining lysine specificity, to glutamine, aspartic acid, or leucine had no or little effect on both proteolytic activity and substrate specificity. However, the kinetic parameters were subtly different from one another, depending on the nature of substituents in these mutants. The substitution of the other candidate, Asp-225, for asparagine or leucine resulted in the failure of maturation to the active forms. However, the precursor of the D225E mutant slowly matured and was essentially inactive. The observed reduction of protease activity is largely due to a decrease in the affinity of lysine to the protease. These results suggest that His-57, Asp-113, and Ser-194 are the three constituents of the catalytic triad in Achromobacter protease I and that Asp-225 plays a critical role in restricted substrate specificity as a lysyl endopeptidase.

[Potential cornea, heart valve, bone and skin donors in 5 Dutch hospitals far outnumber actual donors]

OBJECTIVE

To determine the number of potential cornea, heart valve, bone and skin donors among patients who died in Dutch hospitals, in comparison with the number of actual donors.

DESIGN

Descriptive.

SETTING

Five hospitals in the western part of the Netherlands.

MATERIAL AND METHODS

The medical records of patients who died in 1989 were reviewed. Children younger than 4 weeks were excluded from the study. On the basis of criteria used by the Eurotransplant and Bio Implant Services Foundations and those of the skin bank of the Dutch Burns Foundation, it was determined if the deceased were medically suitable as cornea, heart valve, bone or skin donor.

RESULTS

Data were collected on 2150 of 2369 deceased (90.8%), mean age 69.5 (17.0) (SD) years. Medical criteria for cornea donation were met in 72% of the cases, 6.8% of these became actual donors. The figures for heart value donors were 4.3% and 9.7% respectively, and for bone donors 2.7% and 0%. The percentage of potential skin donors could not be determined, because essential data were missing from the medical records. After extrapolation the number of donors among all patients who died in Dutch hospitals in 1989 amounted to 35,046 potential cornea donors, 2,093 potential heart valve donors and 1,314 potential bone donors.

CONCLUSION

Only a very small proportion of the potential tissue donors were referred to Eurotransplant and Bio Implant Services. Therefore, waiting lists for tissue transplantation are not necessary.