UMLS:C0432222 - FACTA Search

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Recent findings indicate that ischemia/reperfusion (IR) is associated with phospholipase C (PLC)-induced inositol 1,4,5-triphosphate production, as well as abnormal sarcoplasmic reticulum (SR) Ca2+ release. Therefore, we hypothesized that increased SR Ca2+ release may contribute to Ca2+ overload and myocardial stunning. Neomycin (NEO) was used to inhibit PLC, and sodium dantrolene (DAN) was used to inhibit myocardial SR Ca2+ release. The purposes of this study were (1) to determine if PLC inhibition would reduce IR-induced ventricular dysfunction, (2) to examine ventricular function during inhibition of SR Ca2+ release prior to ischemia, and (3) to examine the influence of SR Ca2+ release inhibition on post-IR ventricular function. Left ventricular developed pressure (DP) and +/- dP/dt of isolated crystalloid perfused rat heart (Langendorff apparatus) paced at 350 bpm were compared before and after global IR (38 degrees C, 20 min I, 40 min R) to assess functional recovery. PLC was inhibited with NEO (10 microM x 5 min prior to ischemia), and SR Ca2+ release was retarded with DAN (12.5 microM) in 0.05% DMSO (vehicle) infused for 3 min via the aortic cannula 13 min prior to ischemia. No effect on DP was observed during NEO or DAN infusion. NEO and DAN pretreatment each improved recovery of DP (% recovery +/- SEM) following IR: control, 46.5 +/- 5.1%; NEO + IR, 71.0 +/- 6.3%,* vehicle + IR, 44.4 +/- 2.9%; DAN + IR, 71.0 +/- 4.7%, *, # (*P < 0.05 vs control IR, #P < 0.05 vs vehicle + IR, ANOVA, Scheffe F test, n = 5 all groups). We conclude that SR Ca2+ release during IR contributes to myocardial stunning.
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PMID:Inhibition of sarcoplasmic reticulum calcium release reduces myocardial stunning. 836 Nov 66

Several studies have reported a protective effect of halothane on myocardial injury in an ischaemia-reperfusion situation. It is unclear if the protection is a result of the haemodynamic effects of halothane or if halothane has a specific action on ischaemia or reperfusion pathomechanisms. To examine this question, we have used an isolated rat heart model where heart rate (300 beat min-1), ventricular volume and coronary flow are constant. Left ventricular developed pressure (LVDP) and release of creatine kinase (CK) were measured as variables of myocardial performance and cellular injury, respectively. Five control hearts were subjected to 35 min of low-flow (2 ml min-1) anoxic and substrate-free perfusion and were then perfused for 1 h with the oxygenated buffer. In the treatment groups, halothane 0.4 mmol litre-1 was added during the first 30 min of anoxic perfusion (n = 5) or during the first 30 min of reoxygenation (n = 5). In five additional hearts, the effect of halothane 0.4 mmol litre-1 was tested under normoxic conditions. Mean basal CK release was 0.29 (SEM 0.13) iu g-1 min-1 and LVDP was 105.5 (4.0) mm Hg. Under normoxic conditions, halothane reduced LVDP to 52.0 (2.6) mm Hg. In control hearts, the major cell injury occurred at the onset of reoxygenation (CK release increased to 149.1 (9.1) iu g-1 min-1) and functional recovery after 1 h of reoxygenation was poor (control LVDP, 14.2(2.)% of baseline). Halothane during anoxia attenuated myocardial injury only moderately (CK release 50.2(5.7) iu g-1 min-1) and LVDP recovered to 30.8(3.0)% (each P < 0.05 vs control). When halothane was administered at reoxygenation, CK release was reduced to 10.1 (0.9) iu g-1 min-1 and LVDP recovered to 69.4(4.9)% (each P < .05 vs control). We conclude that halothane not only attenuated ischaemic injury but had a specific protective action against reoxygenation injury.
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PMID:Effect of halothane on myocardial reoxygenation injury in the isolated rat heart. 867 63

Although ischaemic preconditioning (PC) has been shown to protect normal hearts from a subsequent ischaemic insult, its protective effect on the hypertrophied myocardium has not been widely studied. This study was designed to investigate whether ischaemic preconditioning protects hearts with hypertrophy (HYP). Cardiac HYP was produced in rats by suprarenal abdominal aortic constriction of 5 weeks' duration, and was defined as left ventricular weight: body weight [LVW: BW (mg/g)] ratio over 3.0. Isolated rat hearts were perfused with a modified Krebs-Henseleit buffer at 37 degrees C in a Langendorff preparation. Hearts from sham-operated animals (NORM) and those with HYP underwent a PC protocol consisting of 3 min of global zero flow ischaemia, 5 min of reperfusion followed by 5 min of ischaemia and 5 min of reperfusion. This was followed by 20 min ischaemia and 45 min reperfusion. Control hearts in the HYP and NORM groups were not subjected to the PC protocol. There were, thus, four experimental groups: NORM control (n = 9), NORM, PC (n = 9), HYP control (n = 9), HYP, PC (n = 11). The recovery of function after ischaemia was evaluated by recovery of left ventricular developed pressure (LVDP) expressed as % of the initial value (LVDP%). The LVW: BW ratio for the HYP groups was 3.4 (SEM 0.08). LVDP% was higher (p < 0.01) in preconditioned groups as compared with controls. In NORM control recovery was 49.3 (6.1), NORM, PC 76.5 (3.4), HYP control 39.8 (4.6) HYP, PC 70.1 (4.1). These data indicate that the ability of preconditioning to protect against ischaemic ventricular dysfunction is preserved in this model of cardiac hypertrophy.
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PMID:Ischaemic preconditioning protects against myocardial dysfunction caused by ischaemia in isolated hypertrophied rat hearts. 899 29

Heart rate (HR) reduction may reduce the severity of myocardial ischemia. ZD7288 (4-(N-ethyl-N-phenylamino)-1,2-dimethyl-6-(methylamino)pyrimidinium++ + chloride) is a novel bradycardic agent with a specific effect on the sinoatrial node without having any other direct effects on the heart. In the present study, the effect of ZD7288 on infarct size and regional myocardial function during regional myocardial ischemia and reperfusion was investigated. Seventeen anesthetized open chest dogs (control, n = 8, and ZD7288, n = 9) underwent 1 h of left anterior descendent artery (LAD) occlusion followed by 6 h of reperfusion. In one group, ZD7288 was given intravenously (0.7 mg/kg body weight) 45 min before LAD occlusion. Regional myocardial function was assessed by sonomicrometry as systolic wall thickening fraction (sWTF) in the anteroapical (interest region, IR) and the posterobasal wall (control region, CR). Ischemic regional myocardial blood flow (RMBF) was determined by colored microspheres and infarct size (IS) by triphenyltetrazolium staining. ZD7288 injection decreased HR from 104 +/- 5 to 74 +/- 3 bpm (mean +/- SEM, p < 0.001 vs control, vs baseline), but did not change sWTF. During reperfusion, sWTF of the IR was significantly greater in the ZD7288 group (26 +/- 12 vs -14 +/- 13%, 1 h reperfusion, p < 0.05), while sWTF of CR stayed equal (120 +/- 13 vs 111 +/- 16%, p = ns). IS was markedly reduced in the ZD7288 group (4.7 +/- 1.8 vs 18.0 +/- 5.2% of IR, p < 0.05). There was no difference in ischemic endocardial RMBF (ZD7288 11.0 +/- 4.3 vs control 12.3 +/- 6.5 ml/min/100 g, p = ns). ZD7288 reduces HR without having direct effects on regional myocardial function. This HR reduction leads to a smaller IS and to a better regional functional recovery.
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PMID:Effect of heart rate reduction by 4-(N-ethyl-N-phenyl-amino)-1,2-dimethyl-6-(methylamino)pyrimidinium chloride on infarct size in dog. 952 27

We studied the effect of local application of brain-derived neurotrophic factor (BDNF) on functional recovery after dorsal spinal cord transection in the adult rat. BDNF was applied at the site of the lesion in rat tail collagen type I. Locomotion was measured for 4 weeks using the BBB locomotor rating scale. One day after injury and application of BDNF the performance of treated rats was significantly increased as compared to controls (BBB-score 11.5+/-1.3 (mean +/- SEM) and 7.5+/-1.3, respectively). This difference remained significant during the first week. Histological examination of the spared spinal cord tissue at the lesion centre 4 weeks after lesioning showed no significant difference between control and BDNF-treated animals. The results indicate that local application of BDNF results in a decreased loss of function in the partially transected rat spinal cord starting one day after injury.
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PMID:Local application of collagen containing brain-derived neurotrophic factor decreases the loss of function after spinal cord injury in the adult rat. 972 76

Three experiments were conducted on healthy adult bullfrogs (Rana catesbeiana) for the purpose of investigating three characteristics of centrifugal vestibular afferent regeneration after complete transection of the anterior division of the vestibular nerve (AVN). In experiment 1 total fiber count and axon diameter measurements were obtained from the anterior canal nerve at three different time periods and compared with normal. The normal group (n = 3) demonstrated a total fiber count of 1001 +/- 76 (SEM). The early time period (1 to 2 weeks, n = 3) did not completely regenerate as demonstrated by a total fiber count of 282 +/- 23. The intermediate (4 to 6 weeks, n = 3) and late (8 to 16 weeks, n = 3) groups exhibited total fiber counts of 907 +/- 29 and 946 +/- 50, respectively, which were not different from normal (Mann-Whitney U, p > 0.2). Evaluation of fiber diameter distribution of the intermediate and late regenerated nerves revealed a reduction in axon diameter caliber compared with normal (analysis of variance, p < 0.0001). Thus transection of the AVN results in regeneration of all afferents that exhibit a reduction in axon diameter. In experiment 2 fibers innervating the anterior canal crista (ACC) were prelabeled before nerve transection. After the labeling procedure the AVN (n = 3) was sectioned at a location that resulted in denervation of three vestibular receptors: the ACC, horizontal canal cristae (HCC), and utricular macula. After 4 weeks of regeneration the ACC fibers that were prelabeled were observed innervating all three denervated vestibular receptors. This result demonstrated that reinnervation of the peripheral vestibular end organs after AVN transection is a nonspecific process. In experiment 3, 167 regenerated canal afferents were evaluated for functional recovery 16 weeks after transection. Both spontaneous and rotation-induced discharge characteristics were obtained and compared with those obtained from a sample of 254 normal afferents in a previous study (Hoffman LF. Factors affecting the response dynamics of canalicular primary afferent neurons in the bullfrog. St. Petersburg (FL): Association for Research in Otolaryngology; 1989). The mean spontaneous discharge coefficient of variation (CV) +/- standard deviation was 0.60 +/- 0.32 and 0.49 +/- 0.33 for ACC and HCC regenerated afferents, respectively, which did not differ from the normal means of 0.63 +/- 0.33 and 0.54 +/- 0.36 (Mann-Whitney, p > 0.2). Response gains and phases obtained during 0.05 Hz sinusoid rotations at 15 degrees/second maximum horizontal table velocity also demonstrated normal discharge characteristics. The mean phases were -28.2 +/- 25.2 degrees and -55.9 +/- 21.5 degrees for regenerated ACC and HCC afferents, respectively, which were not different from the normal means of -33.77 +/- 24.31 degrees and -58.0 +/- 23.3 degrees (Mann-Whitney U). Furthermore, regenerated afferents exhibited a positive association between phase and CV, which was also true for normal afferents (correlation analysis, p > 0.001). Although the mean gains for regenerated ACC and HCC (7.13 +/- 5.5 and 3.3 +/- 2.4 spikes x sec(-1)/degrees x sec(-2), respectively) afferents were reduced from normal ACC and HCC (14.8 +/- 12.52 and 7.76 +/- 6.58 spikes x sec(-1)/degrees x sec(-2), respectively) afferents (Mann-Whitney U, p > 0.0001), a positive association between gain and CV was also demonstrated by regenerated afferents, as was the case for normal afferents (correlation analysis, p < 0.001). Thus the overall response discharges of regenerated afferents were comparable with normal afferents. Normally, large fibers innervate central regions of the receptor, and smaller fibers innervate the peripheral regions. However, the data from experiments 1 and 2 demonstrate that vestibular nerve regeneration results in a dissociation between the normal topographic organization of fiber size and regional innervation of the receptor epithelium. (ABSTRACT TRUNCATED)
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PMID:Vestibular nerve regeneration in the bullfrog, Rana catesbeiana: peripheral dendrites. 974 80

During development, neurotrophic factors play an important role in the guidance and outgrowth of axons. Our working hypothesis is that neurotrophic factors involved in the development of axons of a particular CNS tract are among the most promising candidates for stimulating and directing the regrowth of fibers of this tract in the lesioned adult animal. The neurotrophin NT-3 is known to be involved in the target selection of outgrowing corticospinal tract (CST) fibers. We studied the capacity of locally applied NT-3 to stimulate and direct the regrowth of axons of the CST in the lesioned adult rat spinal cord. We also studied the effect of NT-3 application on the functional recovery of rats after spinal cord injury, using the gridwalk test. NT-3 was applied at the site of the lesion dissolved into rat tail collagen type I. Four weeks after spinal cord injury and collagen implantation, significantly more CST fibers had regrown into the collagen matrix containing NT-3 (22 +/- 6%, mean +/- SEM) than into the control collagen matrix without NT-3 (7 +/- 2%). No CST fibers grew into areas caudal to the collagen implant. Despite the absence of regrowth of corticospinal axons into host tissue caudal to the lesion area, functional recovery was observed in rats with NT-3 containing collagen implants.
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PMID:Collagen containing neurotrophin-3 (NT-3) attracts regrowing injured corticospinal axons in the adult rat spinal cord and promotes partial functional recovery. 974 66

A specific action against myocardial reperfusion injury of the oxygen paradox type was recently characterized for halothane after anoxic perfusion in isolated rat hearts and isolated cardiomyocytes. In this study, we have characterized the protective effects of the clinically available inhalation anaesthetics during reperfusion after ischaemia. In isolated, isovolumically beating rat hearts perfused at a constant flow (10 ml min-1, PO2 80 kPa) and paced at 350 beat min-1, we determined left ventricular developed pressure (LVDP) and release of creatine kinase (CKR) as indices of myocardial performance and cellular injury, respectively. Seven control hearts underwent 30 min of no-flow ischaemia and 1 h of reperfusion. In the treatment groups, halothane, enflurane, isoflurane, sevoflurane or desflurane (each group n = 6) was added to the perfusion medium for the first 30 min of reperfusion at a concentration corresponding to 1.5 MAC in the rat. In the control group, cellular injury occurred at early reperfusion (peak CKR 283 (SEM 57) iu litre-1 at 10 min of reperfusion). Peak CKR to the coronary venous effluent was attenuated by all anaesthetics (halothane group 156 (45), enflurane group 134 (20), sevoflurane group 132 (20), desflurane group 159 (25) iu litre-1; each P < 0.05). Isoflurane did not differ from controls (303 (53) iu litre-1; P = 0.5). In the sevoflurane group, there was a delayed peak CKR after discontinuation of the anaesthetic at 30 min of reperfusion (260 (34) iu litre-1). Functional recovery was improved by all anaesthetics, but was seen much earlier with desflurane (LVDP 28 (3)% of baseline at 5 min reperfusion compared with halothane (6 (1)%), enflurane (11 (3)%), isoflurane (9 (6)%), sevoflurane (10 (2)%) and controls (3 (1)% of baseline)). At 30 min of reperfusion, recovery of LVDP was improved to a similar extent by all anaesthetics (halothane 30 (9)%, enflurane 36 (9)%, isoflurane 33 (5)%, sevoflurane 30 (5)%, desflurane 36 (4)% of baseline values) compared with controls (13 (5)%; each P < 0.05). All inhalation anaesthetics protected against myocardial reperfusion injury, but showed differences in attenuation of cellular injury and functional recovery. These differences may suggest different protective mechanisms.
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PMID:Effects of halothane, enflurane, isoflurane, sevoflurane and desflurane on myocardial reperfusion injury in the isolated rat heart. 1021 Oct 19

In these studies, we examined the neuroprotective effects of the potent antiinflammatory cytokine interleukin-10 (IL-10) following spinal cord injury (SCI). Neuroprotection was assessed by using behavioral and morphological end points. We hypothesized that injury-induced inflammation contributes to the resulting neuropathology and subsequent loss of function. Therefore, by attenuating injury-induced inflammation, we should promote functional recovery. The New York University device was used to induce moderate SCI and study the resulting inflammatory response and functional consequences of inhibiting this response in rats. We determined that SCI induces the expression of tumor necrosis factor-alpha (TNF-alpha) in the spinal cord and by SCI-activated monocytes isolated from the peripheral circulation. IL-10 (5.0 microg) administered 30 minutes after-injury significantly reduced the expression of TNF-alpha protein in the spinal cord and in vitro by SCI-activated monocytes. Next, we investigated whether IL-10 would improve functional recovery after SCI. Randomized, double-blinded studies demonstrated that a single injection of IL-10 significantly improves hind limb motor function 2 months after injury, as determined by the Basso, Beattie and Bresnahan (BBB) open-field behavioral test. IL-10-treated animals had a mean BBB score of 18.0+/-0.5 (SEM, n = 9) compared with a score of 12.9+/-0.6 (SEM, n = 9) for the saline-treated controls. Morphological analysis demonstrated that IL-10 reduces lesion volume by approximately 49% 2 months after injury. These data suggest that acute administration of IL-10 reduces TNF-alpha synthesis in the spinal cord and by activated macrophages, is neuroprotective, and promotes functional recovery following SCI.
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PMID:Systemically administered interleukin-10 reduces tumor necrosis factor-alpha production and significantly improves functional recovery following traumatic spinal cord injury in rats. 1054 95

Transplantation of neural tissue from other species has the potential to improve function in patients with neurodegenerative disorders. We investigated the functional effects of embryonic porcine dopaminergic neurons transplanted in a rat model of Parkinson's disease and the immune responses to the grafts in immunosuppressed and nonimmunosuppressed hosts. Twenty-three rats with unilateral 6-hydroxydopamine lesions received dissociated, 27-day-old embryonic porcine ventral mesencephalic tissue in the right striatum. Eighteen rats received cyclosporine (10 mg/kg, IP, daily) during the whole period of 14 weeks, in combination with prednisolone (20 mg/kg, IP, daily) the first 4 days. Five rats served as nonimmunosuppressed controls. All rats were tested for amphetamine-induced rotational behavior at 3-week intervals. Two immunosuppressed rats were excluded due to severe side effects of the treatment. Functional recovery was seen in 9 of 16 immunosuppressed rats at 12 weeks. Six animals remained functionally recovered at 14 weeks and contained an average of 5750+/-1450 (SEM) dopaminergic neurons. Between 9 and 14 weeks, three immunosuppressed rats rejected their grafts, based on rotation scores and immunohistochemical demonstration of cell infiltrates. One additional immunosuppressed rat showed evidence of ongoing rejection at 14 weeks. The striata in animals with ongoing or recent rejection contained large numbers of CD4- and CD8-positive lymphocytes, NK cells, macrophages, and microglia cells, whereas scar tissue was found in rats with grafts rejected at earlier time points (n = 11). Embryonic porcine ventral mesencephalic tissue matures in the adult rat striatum, reinnervates the host brain, and restores behavioral defects. Immunosuppressive treatment was necessary for long-term graft survival and functional recovery, but did not sufficiently protect from rejection mechanisms. Porcine neural tissue is an interesting alternative to embryonic human tissue for intracerebral transplantation in neurodegenerative diseases. However, to achieve stable graft survival in discordant xenogeneic combinations, an appropriate immunosuppressive treatment or donor tissue modifications are needed.
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PMID:Intrastriatal ventral mesencephalic xenografts of porcine tissue in rats: immune responses and functional effects. 1081 98

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