RISING beamline (BL28XU) for rechargeable battery analysis.

The newly installed BL28XU beamline at SPring-8 is dedicated to in situ structural and electronic analysis of rechargeable batteries. It supports the time range (1 ms to 100 s) and spatial range (1 µm to 1 mm) needed for battery analysis. Electrochemical apparatus for battery charging and discharging are available in experimental hutches and in a preparation room. Battery analysis can be carried out efficiently and effectively using X-ray diffraction, X-ray absorption fine-structure analysis and hard X-ray photoelectron spectroscopy. Here, the design and performance of the beamline are described, and preliminary results are presented.

Analysis of clinical variables of donors and recipients with respect to short-term graft outcome in human liver transplantation.

UNLABELLED: Donor and recipient factors are closely associated with graft survival after orthotopic liver transplantation (OLT). This study was performed to analyze clinical characteristics of recipients and donors, which affect 30-day graft loss after OLT. MATERIALS AND METHODS: One hundred eighty-six livers from heart-beating donors were accepted between May 1997 and June 1998 at the University of Pittsburgh Medical Center. Donor variables that were analyzed included age, sex, cold ischemia time (CIT), warm ischemia time (WIT), imported versus local procurement, cardiopulmonary arrest, serum sodium level, and dopamine dose. The recipient characteristics included native liver disease and UNOS status. Two-sided Fisher exact test and stepwise logistic regression were used for univariate and multivariate analyses. P-values < .05 were considered statistically significant. RESULTS: Twenty-eight grafts (15.1%) were lost within 30 days of OLT. The following factors were found to adversely affect graft survival: donor sodium > 155 mEq/L (P = .002); CIT > 12 hours (P = .002); WIT > 45 minutes (P = .002); and imported liver graft (P = .048). Logistic regression revealed that donor sodium (odds ratio, 3.03; 95% CI, 1.05 to 8.74), CIT (OR 1.20; 95% CI 1.05 to 1.38), WIT (OR 1.06; 95% CI 1.01 to 1.09) were independent predictors of early graft loss. CONCLUSION: Donor hypernatremia as well as warm and cold ischemia times independently affect graft outcomes in the early postoperative period after OLT. Avoidance of long preservation and correction of donor sodium level are recommended to optimize results and survival in OLT.

Intraoperative blood lactate level as an early predictor of initial graft function in human living donor liver transplantation.

UNLABELLED: This study was performed to investigate whether intraoperative changes in blood lactate levels after hepatic allograft reperfusion reflect initial graft function in living donor liver transplantation (LDLT). PATIENTS AND METHODS: From 1994 to 2003, 15 of LDLT cases were divided into two groups based on the intraoperative blood lactate levels. Group A consisted of seven recipients whose new liver grafts started to consume lactate immediately after portal perfusion. Group B consisted of the remaining eight recipients whose intraoperative blood lactate values showed no change or an elevation for 2 hours after graft revascularization. RESULTS: All Group A patients survived, whereas three out of eight patients in Group B died of infection and portal vein thrombosis within 3 months after LDLT. There was no significant difference in preoperative donor and recipient laboratory data. The recipient age and body size in Group B were significantly higher than those in Group A, indicating that Group B consisted of small-for-size liver transplant cases. Serum total bilirubin concentrations in Group B were significantly higher than Group A from postoperative day 5 to 23, whereas postoperative liver enzyme levels and prothrombin time were similar between the two groups. CONCLUSION: The change in intraoperative blood lactate after hepatic allograft reperfusion served as an accurate predictor of initial graft function which was associated with graft size in human LDLT.

Primary immunosuppression regimen of rapid steroid withdrawal after living related liver transplantation: a single-center experience.

AIM: Corticosteroids have been considered the mainstay of immunosuppressive therapy after liver transplantation. However, the side effects of long-term steroid use such as diabetes, infections, and bone disease, including growth retardation in children, are serious problems. Our immunosuppression regimen includes FK506 and steroid withdrawal by 30 days after transplantation. The aim of this study was to determine the outcomes of liver transplant, using this immunosuppressive regimen. PATIENTS: Fifteen primary liver transplant recipients were performed between January 1994 and May 2003 and data were reviewed retrospectively. Eight pediatric and four adult recipients, who had survived more than 3 months after transplantation, were included in this sample. The immunosuppressive regimen consisted of FK 506 (Prograf), initially at doses of 0.03 mg/kg, with dose adjustments to achieve daily trough levels of approximately 10 to 12 ng/mL, and predonisone, initially at 4 mg/kg/d, with a taper and cessation by 30 days when the graft was stable. RESULTS: All recipients were successfully withdrawn by 30 days. Acute rejection episodes occurred in three patients, no patient was diagnosed with chronic rejection. The acute rejection-free rate at 5 year was 74.1%. No recipient had diabetes, serious infections or bone disease. CONCLUSION: Our primary immunosuppressive regimen of rapid steroid withdrawal is safe with regard to acute and chronic rejection with benefits upon steroid-related side effects.

Efficacy of double-filtration plasmapheretic cross-circulation with a high-permeability membrane using canine harvested liver in porcine fulminant hepatic failure model.

INTRODUCTION: The use of bioartificial liver devices requires. A sufficient liver cell mass to provide adequate metabolic support, reduction of xenogeneic immune reactions, and avoidance of viral transmission. We have developed a plasmapheresis system using a semipermeable membrane combined with canine whole liver perfusion (PMCWLP). In this study, we investigated the efficacy of our system in a porcine fulminant hepatic failure (FHF) model. METHODS: The porcine FHF model was established by intraportal administration of alpha-amanitin (0.1 mg/kg) and lipopolysaccharide (1 microg/kg). Nine hours after drug injection, xenogenic perfusion treatment was performed twice within 6 hours (n = 5). As the plasmapheresis device, we used a hollow-fiber module with cellulose diacetate porous fibers (pore size, 0.05 microm, surface area, 2 m2). The canine whole liver was perfused with modified Krebs solution, which is commonly used in many laboratories, containing albumin (2 g/dL) and glucose (300 mg/dL). Control pigs (n = 10), had the circuit not connected to the whole canine liver. RESULTS: The survival of FHF pigs was significantly increased by the treatment (58.9 +/- 21.8 hour) compared with the controls (22.3 +/- 8.1 hour). Mean blood ammonia levels and intracranial pressure during treatment were significantly lower compared with control groups. CONCLUSION: Treatment of FHF pigs with the system significantly increased survival time, suggesting that this method may have applications as a clinical liver assist device.

In vitro evaluation of cross-circulation system using semipermeable membrane combined with whole liver perfusion.

INTRODUCTION: Many types of isolated hepatocytes-based bioartificial liver have been developed. However, to maintain hepatocyte-specific functions for a long period is still a significant challenge. The possibilities of rejection or viral transmission still remain as untackled obstacles. We developed a cross-circulation system, using a semipermeable membrane combined with whole liver perfusion. Detoxifying functions of the extracorporeal porcine liver and molecular movements across the membrane were evaluated in vitro. METHODS: The hollow-fiber module has a molecular cutoff of 100 kD. A spiked solution containing 500 mL low molecular dextran solution spiked with 12 mg ammonium chloride, 500 mg D-galactose, and 300 mg lidocaine, which mimicked a patient, was recirculated through the inner fiber space. The extracorporeal liver perfusion circuit consisted of an extra-fiber spaces. A reservoir containing 1000 mL healthy pig plasma, a membrane oxygenator, and a porcine whole liver. Both circuits circulated in the opposite direction for 6 hours. RESULT: In 6 hours, 47.3% +/- 10.2% of ammonia, 89.5% +/- 1.7% of D-galactose, and 95.5% +/- 1.0% of lidocaine were eliminated from the circuits; 66.5 +/- 11.1 mg of urea were produced at the same time. Oxygen consumption was maintained between 0.248 and 0.259 mL/100 g liver/min for 6 hours. Movement of IgM was completely blocked by the 100-kD membrane, whereas albumin was freely transferred from the reservoir to the intrafiber space. CONCLUSION: The perfusion experiments showed the possibility of using a whole liver with oxygenated plasma perfusion in a bioartificial liver system in vitro.

Synergistic effect of cold and warm ischemia time on postoperative graft function and outcome in human liver transplantation.

Prolonged cold ischemia time (CIT) during graft preservation and warm ischemia time (WIT) during rewarming time have been reported to cause postoperative graft dysfunction after orthotopic liver transplantation (OLT). However, the effects of both CIT and WIT in combination on patient and graft survivals are not yet defined. The aim of this study was to determine whether simultaneously prolonged CIT and WIT were associated with early graft outcomes after clinical OLT. For analysis of liver graft survival within 90 days of OLT and postoperative graft function, 186 consecutive OLT cases were divided into four groups as follows: group A, CIT < 12 hours and WIT < 45 minutes; group B, CIT > 12 hours and WIT < 45 minutes; group C, CIT < 12 hours and WIT > 45 minutes; and group D, CIT > 12 hours and WIT > 45 minutes. The graft loss rates were 5.4% in group A, 9.8% in group B, 11.1% in group C, and 42.9% in group D. The mean highest aspartate aminotransferase (AST) value after OLT in group D (3352.3 +/- 569.4 U/L) was significantly greater than those in groups A (1411.7 +/- 169.2 U/L) and B (1931.3 +/- 362.6 U/L). The simultaneously prolonged cold and warm ischemia times significantly caused hepatic allograft injury and failure, suggesting some cumulative effects of CIT and WIT on postoperative graft function.

The antinociceptive and sedative effects of carbachol and oxycodone administered into brainstem pontine reticular formation and spinal subarachnoid space in rats.

UNLABELLED: To clarify the supraspinal and spinal actions of a cholinergic agonist, carbachol, and an opioid, oxycodone, we studied their antinociceptive and behavioral effects when administered into brainstem medial pontine reticular formation (mPRF) or spinal subarachnoid space with or without pretreatment of muscarinic receptor subtype antagonist. Sprague-Dawley rats were implanted with a 24-gauge stainless steel guide cannula into the mPRF and chronically implanted with a lumbar intrathecal catheter. Antinociception was tested using tail flick latency, motor coordination was evaluated by the rotarod test, and overt sedation was assessed using a behavioral checklist. Carbachol (0.5-4.0 microg) administered into the mPRF produced significant dose- and time-dependent antinociception, sedation, and motor dysfunction. These were completely blocked by pretreatment with atropine and the M(2) muscarinic antagonist, methoctramine, and partially blocked by pretreatment with M(1) pirenzepine but not with M(3) p-fHHSID: Oxycodone administered into the mPRF did not produce such effects. Spinal carbachol and oxycodone produced antinociception without any behavioral effects; their antinociceptive effects were completely blocked by pretreatment with atropine and M(2) antagonist. These results suggest that the antinociceptive action of carbachol is mediated by muscarinic cholinergic receptor activation, especially by M(2) receptor subtype in mPRF and spinal cord, and that although oxycodone seems unlikely to affect the cholinergic transmission of mPRF, spinal oxycodone-induced analgesia is at least partly mediated via the activation of M(2) receptor subtype at the spinal cord. IMPLICATIONS: Carbachol-induced antinociception and sedation is mediated with the activation of M(2) muscarinic receptors. Oxycodone administered into brainstem medial pontine reticular formation did not cause any antinociceptive or behavioral effects, but its spinal administration produced a significant antinociception via M(2) muscarinic receptor activation

Selective blockade of muscarinic receptor subtypes in the brain stem reticular formation in rats: effects on anesthetic requirements.

Muscarinic involvement in the modulation of general anesthesia was examined in the rat with a cannula implanted in the pontine reticular formation. Atropine microinjected into the reticular formation reversed the minimum alveolar concentration (MAC) reducing effect of carbachol on halothane anesthesia, but M(1) or M(3) antagonist had no effect. An M(2) antagonist reduced the MAC of halothane following saline and carbachol. The results suggest that any of the muscarinic receptor subtypes in this region do not independently mediate the cholinomimetic effect on halothane anesthesia.

Halothane binding to a G protein coupled receptor in retinal membranes by photoaffinity labeling.

General anesthetics have been reported to alter the functions of G protein coupled receptor (GPCR) signaling systems. To determine whether these effects might be mediated by direct binding interactions with the GPCR or its associated G protein, we studied the binding character of halothane on mammalian rhodopsin, structurally the best understood GPCR, by using direct photoaffinity labeling with [(14)C]halothane. In the bleached bovine rod disk membranes (RDM), opsin and membrane lipids were dominantly photolabeled with [(14)C]halothane, but none of the three G protein subunits were labeled. In opsin itself, halothane labeling was inhibited by unlabeled halothane with an IC(50) of 0.9 mM and a Hill coefficient of -0.8. The stoichiometry was 1.1:1.0 (halothane:opsin molar ratio). The IC(50) values of isoflurane and 1-chloro-1,2, 2-trifluorocyclobutane were 5.0 and 15 mM, respectively. Ethanol had no effect on opsin labeling by halothane. A nonimmobilizer, 1, 2-dichlorohexafluorocyclobutane, inhibited halothane labeling by 50% at 0.05 mM. The present results demonstrate that halothane binds specifically and selectively to GPCRs in the RDM. The absence of halothane binding to any of the G protein subunits strongly suggests that the functional effects of halothane on GPCR signaling systems are mediated by direct interactions with receptor proteins.

Acetylcholine sensitivity of cat petrosal ganglion neurons.

We investigated if neuronal nicotinic acetylcholine receptors (nAChRs) are localized in chemoreceptor afferent neurons in the cat petrosal ganglion (PG) and if acetylcholine (ACh) excites chemoreceptor afferent neurons. Immunocytochemistry revealed that a majority of PG neurons expressed alpha 4 and/or alpha 7 subunits of neuronal nAChRs, and a part of them were tyrosine hydroxylase positive. Excitability of cultured PG neurons was studied with patch clamp techniques (whole cell configuration). ACh and nicotine evoked both inward and outward currents. The inward current was partially blocked by removal of extracellular calcium and by antagonists for alpha 4 beta 2 (dihydro-beta-erythroidine) or alpha 7 nAChRs (methyllycaconitine). Outward current was blocked by 4-aminopyridine (4-AP) and sometimes by atropine. ACh-induced membrane potential changes were well correlated with ACh-induced currents. Depolarization and hyperpolarization occurred in response to ACh. Occasionally depolarization was followed by a train of action potentials. The results suggest that heterogeneous neuronal nAChRs are widely distributed in both chemoreceptor and other PG neurons. In some neurons nAChRs may be functionally coupled with outward K+ channels. Further studies are required to determine whether chemoreceptor neurons have a distinct distribution pattern of nAChRs and K+ channels.

Effects of cholinomimetic injection into the brain stem reticular formation on halothane anesthesia and antinociception in rats.

The brain stem reticular formation plays an important role in determining consciousness and arousal. Modulation of cholinergic neurotransmission in this region alters the sleep-wake cycle. In the present study, we examined the effect of the direct application of cholinergic agents into the pontine reticular nucleus on anesthetic requirements and recovery and antinociception in rats. Sprague-Dawley rats were implanted with 24-gauge guide cannulas 1.0 mm above the oral portion of pontine reticular nucleus (PnO) while under pentobarbital anesthesia with the use of a stereotaxic apparatus. After recovery from surgery, animals were randomly assigned to one of the following protocols: minimum alveolar concentration (MAC), recovery time, tail-flick latency, or motor blockade. All measurements were performed after carbachol microinjection into the PnO after pretreatment with atropine or mecamylamine. Carbachol injection into the PnO significantly reduced MAC of halothane and prolonged recovery in a dose-dependent manner. Pretreatment with atropine reversed MAC reduction by carbachol, and both atropine and mecamylamine shortened recovery time under carbachol. In unanesthetized rats, carbachol produced antinociceptive effects as reflected by a change in tail-flick latency response. Atropine and mecamylamine inhibited antinociceptive effects of carbachol. These results suggest that cholinomimetic injection into the PnO modulates the anesthetic state produced by halothane, suggesting participation of this area in the mechanisms in the brain that generate the anesthetic state.

Presence of nicotinic acetylcholine receptors in cat carotid body afferent system.

With immunocytochemical techniques using a monoclonal antibody for alpha7 subunits of neuronal nicotinic acetylcholine receptors, we have found these subunits to be exclusively expressed in nerve fibers in the carotid body. Double-immunostaining showed that alpha7 subunit-positive nerve endings enveloped tyrosine hydroxylase-positive glomus cells. Some carotid sinus nerve fibers and tyrosine hydroxylase-positive petrosal ganglion neurons also expressed alpha7 subunits. These data support a role for acetylcholine in carotid body neurotransmission.

Effects of blood glucose changes and physostigmine on anesthetic requirements of halothane in rats.

BACKGROUND: Although hyper- and hypoglycemia induce neurophysiologic changes, there have been no reports on the effects of blood glucose changes on anesthetic requirements. This study examined the effects of hyper- and hypoglycemia on the minimum alveolar concentration (MAC) of halothane in rats. In addition, based on a previous finding that the level of brain acetylcholine was reduced during mild hypoglycemia, the authors examined the influence of physostigmine on MAC during hypoglycemia. METHODS: In Sprague-Dawley rats, anesthesia was induced and maintained with halothane in oxygen and air. The MAC was determined by observing the response to tail clamping and tested during mild hypoglycemia (blood glucose level, 60 mg/dl) and hyperglycemia (blood glucose level, 300 and 500 mg/dl) induced by insulin and glucose infusion, respectively (experiment 1). The effects of 0.3 and 1.0 mg/kg physostigmine given intraperitoneally on MAC were examined in rats with mild and severe hypoglycemia (blood glucose level, 60 and 30 mg/dl; experiment 2). RESULTS: In experiment 1, mild hypoglycemia significantly reduced the MAC of halothane (0.76 +/- 0.03%) compared with the control value (0.92 +/- 0.04%), but hyperglycemia did not change MAC. In experiment 2, mild and severe hypoglycemia reduced MAC of halothane in a degree-dependent manner. Physostigmine (1 mg/kg) had no effect on MAC regardless of blood glucose level, but 0.3 mg/kg reduced MAC. CONCLUSIONS: Hypoglycemia reduced anesthetic requirements in a degree-dependent manner, whereas hyperglycemia had no effects. Although the mechanism of hypoglycemic MAC reduction needs further investigations, physostigmine studies suggest that this may not be related to inhibition of cholinergic transmission.

General anaesthesia for cleft lip and palate surgery team activities in Cambodia.

Cleft lip and palate surgery team activities in Cambodia were launched in 1989 by a Japanese non-governmental organization. The objectives of the project were to provide appropriate surgical treatment and safe general anaesthesia for local patients, and also to teach general anaesthesia and surgery to local medical staff. A surgery team was sent on four occasions between 1991 and 1993 and a total of 130 patients received surgical treatment and general anaesthesia. Anaesthesia techniques employed included total intravenous anaesthesia in 70 patients and intravenous anaesthesia and low dose halothane in 60 patients. There were no major complications, such as airway obstruction or apnoea in the postoperative period. Total intravenous anaesthesia is an appropriate technique for patients in developing countries. The teaching of anaesthesia should be emphasized during the surgery team activities.

Non-GABAergic effects of midazolam, diazepam and flumazenil on voltage-dependent ion currents in NG108-15 cells.

Non-gamma-Aminobutyric acid (GABA)-mediated effects of benzodiazepines (BZs) have not been widely investigated. However, there is significant evidence in the literature to suggest that several experimental and clinical observations are inconsistent with the commonly accepted GABAergic mechanisms of action for these drugs. The purpose of the present study was to explore electrophysiological effects of midazolam, diazepam and a specific BZ antagonist, flumazenil, using patch-clamp techniques in NG108-15 cells which do not express the GABAA receptor. Midazolam and diazepam decreased Na+, K+ and Ca2+ currents in a dose-related manner. Ca2+ currents were reduced more significantly by diazepam than by midazolam. Flumazenil showed no effects on voltage-dependent ion currents. GABA by itself showed neither effects on the membrane potential nor these ion currents. Midazolam and diazepam, but not flumazenil, exhibited effects on voltage-dependent ion currents in cultured neurons.

Eosinophilic gastroenteritis with ileus and ascites.

We report a case of eosinophilic gastroenteritis, which has features of the predominant subserosal type presented as an ileus and ascites. A 48-year-old Japanese woman was admitted to our hospital because of epigastralgia, lower abdominal pain and vomiting. She had a past history of allergic disorders. The computed tomographic scan revealed ascites, and marked wall thickening and dilatation of the intestine. This patient showed eosinophilic ascites without marked peripheral eosinophilia. Histologic examination demonstrated eosinophilic infiltrates did not predominate in the gastrointestinal tract. Conservative treatment of intravenous infusion of antibiotics and Ringer's solution was effective in this case.

[Perioperative managements of a mentally retarded child with obstructive sleep apnea syndrome for adeno-tonsillectomy].

We describe a mentally retarded child with obstructive sleep apnea syndrome (OSAS) in whom it was difficult to maintain upper airway in the perioperative period. The child underwent awake intubation, because the preanesthetic evaluation of the airway with a direct fiberoptic visualization revealed a very narrow airway. Also we considered that if we used an anesthetic agent, a perioperative airway management would be very troublesome. Postoperatively we continuously monitored for apnea and arrhythmias. When the child was sleeping, we found frequently that her thoratic movements were getting weak and percutaneous oxygen saturation went down to about 70 percent. The preoperative direct fiberoptic visualization of the upper airway is effective for the evaluation of the degree of airway obstruction in this child. We also recommend the continuous intensive postoperative monitorings including pulse oximetry, ECG, and apnea monitor which are very important to avoid life-threatening complications such as upper airway obstruction and serious arrhythmias in patients with obstructive sleep apnea syndrome.