In the rat brain, global hypoxia cause a delayed neuronal degeneration that occurs hours to days after reoxygenation. It is generally thought that the ischemic damage is initiated by neurotoxicity mediated through glutamate receptors, particulary NMDA subtypes. Calcium entry through the NMDA receptor is responsible for the synaptic plasiticity and neuronal pathology. Degradation of MAP-2 and NF200, a major components of neuronal cytoskeleton, by Ca2+-dependent protease after NMDA receptor activation has been postulated in delayed neuronal damage. Changes of NR subunit 2B, MAP2 and NF200 in rat brain postsynaptic density[PSD] after hypoxic injury were investigated through immunoblot analyses. To understand the effect of Ca2+ influx through NMDA receptors on neuronal damage which is manifested by cytoskeletal disruption, morphological change was examined through immunohistochemistry and H & E staining. We found that immunoreactivity to NR2B antibody in the cerebral cortex PSD was up-regulated while MAP2 and NF200 was down-regulated at 30 hours after initial hypoxic insult. At this time, morphological changes of neuronal cells in hypoxic conditions were manifested as down-regulation of MAP2 and NF200 immunoreactivities, hyperchromatic condensation of cytoplasm and nucleus, homogenizing cell change, expansion of perineuronal space and dispersion of chromatin. From 3 days, NR2B, MAP2, NF200 were up-regulated simultaneously. On the other hand, morphological alterations in hypoxic neurons were progress further. Our present results suggests that Calcium influx through NR1/NR2B receptor channel is effective whithin 30 hours but ineffective from 30 hours. Delayed neuronal cell death triggered by Ca2+ influx through NR1/NR2B receptor channel within 30 hours, which may activate intracellular profeases. Proteolysis of cytoskeleton by activated protease leads to its abnormal reorganization and eventually damages normal function of cell membrane which causes neuronal cell death.
Animals ; Anoxia ; Brain ; Calcium ; Cell Death ; Cell Membrane ; Cerebral Cortex* ; Chromatin ; Cytoplasm ; Cytoskeleton* ; Down-Regulation ; Hand ; Immunohistochemistry ; N-Methylaspartate* ; Neurons ; Pathology ; Proteolysis ; Rats* ; Receptors, Glutamate ; Receptors, N-Methyl-D-Aspartate ; Up-Regulation*

Transient cerebral ischemia was induced by bilateral common carotid artery ligation with reperfusion to understand its effect on the expression of NMDA receptor subunits 2A (NR2A), 2B (NR2B), and NF200 The changes of the expressions of NR2A, NR2B, and NF200 in cerebral postsynaptic density (PSD) were evaluated through immunoblot analyses. The expressions of NR2A and NF200 were markedly decreased until 18 hours after reperfusion, while that of NR2B was increased. The immunohistochemistry with NFIGO antibody showed that NF200 protein, which is a marker for neuronal damage, was also significantly decreased at this time point indicating neuronal damages, and the morphological damages of neuronal cells were evident by hyperchromatic condensation of nucleus, irregular cell membrane, displacement of nucleus, and chromatolysis of Nissl substances in toluidine blue stain. However, from 18 hours to 3 day after reperfusion, immunoblot analyses showed that NF200 was increased significantly, while the expression of NR2A were recovered to the control level and that of NR2B was returned to somewhat higher level than control. The NR1/NR2B-type receptor is known to have a longer offset decay time than NR1/NR2A-type ones, and to be more potent in Ca2 influxing. Therefore, our results suggest that, until 18 hours, neurons are damaged by overinflux of Ca2 through NR1/NR2B receptors which helps to degrade NF200 by Ca2 sensitive professes resulting in damages to intracellular transport. The fact that the expression of NF200 was increased even though the NR2A and NR2B are control level during 18 hours to 3 days after damage suggests that NMDA receptor subunits expressed at this time may not form functional receptors. The worsening of some neuronal damages after 3 days may indicate that an abnormal reorganization of elevated NF200 between 18 hours to 3 days further disturb intracellular transport and functions of cell membrane which cause cell death.
Animals ; Carotid Artery, Common ; Cell Death ; Cell Membrane ; Cerebral Cortex* ; Immunohistochemistry ; Ischemic Attack, Transient* ; Ligation ; N-Methylaspartate* ; Neurons ; Post-Synaptic Density ; Rats* ; Reperfusion ; Tolonium Chloride

In the rat brain, partial ischemia causes a delayed neuronal degeneration that occurs hours to days after reoxygenation. It is generally thought that the ischemic damage is initiated by neurotoxicity mediated through glutamate receptors, particulaly NMDA subtypes. Calcium entry through the NMDA receptor is responsible for the synaptic plasiticity and neuronal pathology. Degradation of MAP-2 and NF200, a major components of neuronal cytoskeleton, by Ca2+-dependent protease after NMDA receptor activation has been postulated in delayed neuronal damage. Calcium-activated protease calpain, excessive degradation of MAP-2, together with the calpain-sensitive microtubule and neurofilaments, would be expected to disrupt intracellular transport- and membrane-related functions that is vital to neurons. Changed of NR subunit 2A, 2B, MAP2 and NF200 in rat hippncampal postsynaptic density[PSD] after partial ischemic injury were investigated though immunoblot analyses. To understand the effect of Ca2+, influx through NMDA receptors on neuronal damage which is manifested by cytoskeletal disruption, morphological change was examined through immunohistochemistry and routine staining method. We found that immunoreactivity to NR2B receptor subuit in the hippocampal formation PSD was upregulated while MAP2 and NF200 was down-regulted at 18 hours after initial partial ischemic insult. On the other hand, morphological changes of neuronal cell in partial ischemic conditions were manifested as eosinophilic inclusion bodies in the cytoplasm which is progression of neuronal damage after 6 days. Calcium influx through NR1/NR2B receptor channel may activate intracellular proteases which would degrade cytoskeleton. Proteolysis of cytoskeleton leads to its reorganization and eventually damages normal function of cell membrane which cause neuronal cell death.
Animals ; Brain ; Calcium ; Calpain ; Cell Death ; Cell Membrane ; Cytoplasm ; Cytoskeleton ; Eosinophils ; Hand ; Hippocampus* ; Immunohistochemistry ; Inclusion Bodies ; Ischemia ; Microtubules ; N-Methylaspartate ; Neurons ; Pathology ; Peptide Hydrolases ; Proteolysis* ; Rats* ; Receptors, Glutamate ; Receptors, N-Methyl-D-Aspartate

PURPOSE: This study was done to verify effects of a positive psychotherapy program on depression, self-esteem, and hope in patients with major depressive disorders. METHODS: A nonequivalent control group pre-post design was used. Participants were 53 people (control group=27 and experimental group=26) who were diagnosed with a major depressive disorder and received psychiatric outpatient treatment. The data were collected from July 1 to December 30, 2013. The experimental group received the positive psychotherapy program 8 times over 8 weeks. Data analysis was conducted using chi2-test, Fisher's exact test and t-test. RESULTS: As the result of the intervention, depression (p<.001), self-esteem (p<.001) and hope (p<.001) improved significantly in the experimental group compared to the control group. CONCLUSION: The results suggest that the positive psychotherapy program can be widely utilized as one of the nursing intervention programs for depressive patients.
Depression* ; Depressive Disorder, Major* ; Hope* ; Humans ; Nursing ; Outpatients ; Psychotherapy* ; Statistics as Topic

Incarceration of the gravid uterus is a rare but serious complication of pregnancy. Reported is the case of a gravid 2, para 0, abortus 1 with known uterine subserosal myoma(5.3 x5.5cm sized) 26-year-old woman presented with acute dysuria and urinary retention. The patient was 14 weeks and 3 days pregnant and presented several week history of urinary frequency and sensation of incomplete bladder emptying. Examination revealed a retroflexed uterus with cervical opening pointing toward the anterior abdominal wall. An ultrasound revealed a thin, elongated maternal bladder and a uterus incarcerated between the sacral promontary and the pubis. The incarceration was successfully reduced by tenaculum traction of the cervical posterior lip without surgical intervention and had a normal infant of appropriate weight at term.
Abdominal Wall ; Adult ; Dysuria ; Female ; Humans ; Infant ; Leiomyoma ; Lip ; Myoma* ; Pregnancy ; Sensation ; Traction ; Ultrasonography ; Urinary Bladder ; Urinary Retention ; Uterine Retroversion ; Uterus*

Effort to improve balance ability in the field of rehabilitation has been constantly issued and developed up to now. A variety of subcomponent of postural control including function and cognition should be needed in many body systems and be complicatedly linked to each system. In South Korea, although decreased postural dysfunction due to neurological or musculoskeletal disorders has been well documented, we do not have many experience and knowledge of vestibular rehabilitation for maintain and improve balance function. In the United States, vestibular physical therapy is already acknowledged as clinical subspecialty by American Physical Therapy Association. However, there is no curriculum subject related to vestibular rehabilitation in standard education of physical therapy and no specialist who has clinical experience and knowledge of this realm. Therefore, we reviewed general information and basic knowledge of vestibular rehabilitation such as current state of vestibular disorder in South Korea, pathology, major causes of vestibular dysfunction including peripheral vestibular disorders, vestibular neuritis, benign paroxysmal positional vertigo, and central disorder, evaluation of vestibular dysfunction, and treatment for vestibular dysfunction new approaches. We expect that physical therapist in South Korea recognize clinical significance of vestibular exercise and that clinical concern and research will be begun in near future.
Benign Paroxysmal Positional Vertigo ; Cognition ; Curriculum ; Dizziness ; Education ; Humans ; Korea ; Pathology ; Physical Therapists ; Rehabilitation ; Specialization ; United States ; Vestibular Neuronitis

Ischemic brain hippocampal formation has been developed to understand the relationship between delayed neuronal damage and the expression of NMDA receptor subunits[NR2A, NR2B], MAP2, and NF200 in ttle conditions of hypoxia. Changes of NR subunits[NR2A, 2B], MAP2 6nd NF200 in rat brain postsynaptic density[PSD] after hypoxic injury were investigated through immunoblot analyses. To understand the effect of Ca2+ influx through NMDA receptors on neuronal damage which is manifested by morphological change, cytoskeletal disruption was examined through H & E, toluidine blue and immunohistochemical studies. The expression of NR2B was increased than normal at 30 hours after hypoxia. At this time, the expression of MAP2 and NF200 was markedly decreased and their morphology was more eosinophilic than normal and then became darker with expanded perineuronal space. Irreversible neuronal cell damage in hypoxic hippocampal formation is most prominent in CA3 region of hippocampus and the process is triggered by Ca2+ influx through NR1/MR2B receptor channel at 30 hour after initial hypoxic insult. Ca2+ influx through NR1/MR2B receptor channel may activate intracellular proteases which would degrade cytoskeleton. Proteolysis of cytoskeleton leads to its reorganization and eventually damages normal function of cell membrane which causes neuronal cell death. And, morphological changes of neuronal cells in hypoxic conditions were manifested as red neurons in the stage of reactive change, and as dark neuron in the stage of late hypoxic cell damage.
Animals ; Anoxia* ; Brain ; Cell Death ; Cell Membrane ; Cytoskeleton ; Eosinophils ; Hippocampus* ; N-Methylaspartate ; Neurons ; Peptide Hydrolases ; Proteolysis ; Rats* ; Receptors, N-Methyl-D-Aspartate ; Tolonium Chloride

Vulnerability of hippocampal CA1 neurons after brain hypoxia is coupled with high concentration of NMDA recep-tor subunits especially NR2 subunits. These subunits can be regarded as modulators, since NMDA receptors display different properties depending on which of the NR2 subunits assembles with NR1. Stimulation of NMDA receptors opens a receptor-gated Ca2+ channel; and the Ca2+ influx is believed to play a critical role in c-fos expression that require alterations in gene expression. We examined the effect of the NMDA subunits (NR1, NR2A, NR2B) mRNA level on the c-fos activation and CA1 neuronal change by in situ hybridization and TUNEL method following hypoxia and reoxygenation. Present studies show that high expression and variability of NR2B mRNA in CA1 region, compared with those of NR1 and NR2A, at our experimental time window suggest that NR2B is main functional subunit in the determining of properties of NMDA receptor in hypoxic hippocampal CA1 cells. From 0 hour to 6 hours, TUNEL positive reaction and c-fos mRNA expression were steadily increased. Thereafter, TUNEL positive reaction was decreased compared with that of 6 hours and c-fos mRNA expression was decreased and then steadily re-increased from 3 days to 6 days. Therefore, high expression of NR2B and subsequent Ca2+ influx may play important roles in the hippocampal CA1 neuronal apoptosis and c-fos expression. In addition, c-fos expression may play different roles in neuronal apoptosis in a time-dependent manner.
Animals ; Anoxia* ; Apoptosis ; Gene Expression ; Hypoxia, Brain ; In Situ Hybridization ; In Situ Nick-End Labeling ; N-Methylaspartate ; Neurons* ; Rats* ; Receptors, N-Methyl-D-Aspartate ; RNA, Messenger*

In the present studies, changes of the glial fibrillary acidic protein (GFAP) expression in the astrocytes of the rat hippocampal formation were examined in response to the bilateral carotid artery occlusion for 10 minutes along with a decrease of mean arterial blood pressure (MABP) to 50 mmHg. Their relations to neuronal viability were also studied by H&E staining. In early postischemic period, mild increase of the GFAP expression was observed and this was not only confined to the mild-necrotic (CA3 and dentate gyrus) regions but also in the non-necrotic regions (CA1 and subiculum) at postischemic 8 h. This suggest that astrocytosis during early postischemic period may be resulted from nonspecific reaction associated with changes in brain environment. In contrast, in late phase of the postischemia, a marked increase of the GFAP expression was observed at day 4. Moreover, cell bodies were significantly larger and many prominent and numerous processes were observed, suggesting that this may also contribute to the significant increase in the GFAP expression. Importantly, these cellular changes were only confined to the regions of massive necrosis such as subiculum and inner granular cell layer of dentate gyrus and were not observed in the non-necrotic regions (except CA1). In contrast, the GFAP expression in astrocytes were returned to control levels in mildly damaged CA3 region by 4 days. Thus reactive astrocytosis with upregulation of the GFAP in the late postischemic period with structural transformation in the regions of massive necrosis may contribute to the damages in the neighboring neurons.
Animals ; Arterial Pressure ; Astrocytes ; Brain ; Carotid Arteries ; Dentate Gyrus ; Glial Fibrillary Acidic Protein ; Gliosis* ; Hippocampus* ; Necrosis ; Neurons ; Rats* ; Up-Regulation

No abstract available.
Child* ; Humans ; Nephrosis, Lipoid*