scholarly journals Sepsis-induced alterations in sleep of rats

2011 ◽  
Vol 301 (5) ◽  
pp. R1467-R1478 ◽  
Author(s):  
Francesca Baracchi ◽  
Ashley M. Ingiosi ◽  
Richard M. Raymond ◽  
Mark R. Opp

Sepsis is a systemic immune response to infection that may result in multiple organ failure and death. Polymicrobial infections remain a serious clinical problem, and in the hospital, sepsis is the number-one noncardiac killer. Although the central nervous system may be one of the first systems affected, relatively little effort has been made to determine the impact of sepsis on the brain. In this study, we used the cecal ligation and puncture (CLP) model to determine the extent to which sepsis alters sleep, the EEG, and brain temperature (Tbr) of rats. Sepsis increases the amount of time rats spend in non-rapid eye movement sleep (NREMS) during the dark period, but not during the light period. Rapid eye movements sleep (REMS) of septic rats is suppressed for about 24 h following CLP surgery, after which REMS increases during dark periods for at least three nights. The EEG is dramatically altered shortly after sepsis induction, as evidenced by reductions in slow-frequency components. Furthermore, sleep is fragmented, indicating that the quality of sleep is diminished. Effects on sleep, the EEG, and Tbr persist for at least 84 h after sepsis induction, the duration of our recording period. Immunohistochemical assays focused on brain stem mechanisms responsible for alterations in REMS, as little information is available concerning infection-induced suppression of this sleep stage. Our immunohistochemical data suggest that REMS suppression after sepsis onset may be mediated, in part, by the brain stem GABAergic system. This study demonstrates for the first time that sleep and EEG patterns are altered during CLP-induced sepsis. These data suggest that the EEG may serve as a biomarker for sepsis onset. These data also contribute to our knowledge of potential mechanisms, whereby infections alter sleep and other central nervous system functions.

PEDIATRICS ◽  
1977 ◽  
Vol 59 (1) ◽  
pp. 145-145
Author(s):  
Stephen A. Feig

Thank you for the opportunity to reply to the letter of Drs. McWilliams and Maurer. We were truly perplexed by the presentation of the meningeal metastases in the reported patient. Lacking convincing evidence of central nervous system metastatic disease or bony erosion of the skull, we were loath to apply chemotherapy, which might have aggravated his clinical course and would have been of doubtful efficacy in any event. Additional radiation therapy was felt to be inadvisable because, in the opinion of our radiotherapists, the patient had been treated originally with a dose that closely approached the tolerance of the brain stem.


PEDIATRICS ◽  
1957 ◽  
Vol 19 (5) ◽  
pp. 949-957
Author(s):  
William A. Hawke ◽  
John S. Prichard

THE SEMINAR was conducted in four 3-hour sessions and aimed to cover the more important features of pediatric neurology. DEVELOPMENT Dr. Hawke reviewed the normal development of the central nervous system in the infant and child which is so important in the assessment of neurologic disorders in this age group. It was noted that the nervous system was particularly immature and changing rapidly in the first 2 years of life. Development was related to myelination and it was emphasized that this was not a steady process but a pattern of sequences of rapid and slow growth. Motor and sensory development appeared to develop from above and to proceed downward, so that eye-control develops before hand- and legcontrol. Development was related to three functioning levels of the central nervous system—the brain stem, the archipallium, and the neopallium. It was observed that the newborn baby functioned at the brain stem level, and to illustrate this an example was given of the hydranencephalic baby which behaves perfectly normally for the first few weeks of life. The anchipallium, which includes part of the temporal lobe, the cingulate gyrus and basal ganglia, supervenes on the brain stem and may be considered responsible for the basic emotions and some primitive motor and sensory control. The neopallium, which includes most of the cerebral hemisphere, becomes dominant in primates. Its function is intellectual rather than emotional and is responsible for skills, discrimination and fine movements. The clinical application of these developmental patterns are innumerable but illustrations were given of changes in physical signs in static brain lesions.


2008 ◽  
Vol 89 (6) ◽  
pp. 1545-1550 ◽  
Author(s):  
C. Julius ◽  
M. Heikenwalder ◽  
P. Schwarz ◽  
A. Marcel ◽  
M. Karin ◽  
...  

Prions induce highly typical histopathological changes including cell death, spongiosis and activation of glia, yet the molecular pathways leading to neurodegeneration remain elusive. Following prion infection, enhanced nuclear factor-κB (NF-κB) activity in the brain parallels the first pathological changes. The NF-κB pathway is essential for proliferation, regulation of apoptosis and immune responses involving induction of inflammation. The IκB kinase (IKK) signalosome is crucial for NF-κB signalling, consisting of the catalytic IKKα/IKKβ subunits and the regulatory IKKγ subunit. This study investigated the impact of NF-κB signalling on prion disease in mouse models with a central nervous system (CNS)-restricted elimination of IKKβ or IKKγ in nearly all neuroectodermal cells, including neurons, astrocytes and oligodendrocytes, and in mice containing a non-phosphorylatable IKKα subunit (IKKα AA/AA). In contrast to previously published data, the observed results showed no evidence supporting the hypothesis that impaired NF-κB signalling in the CNS impacts on prion pathogenesis.


Neurosurgery ◽  
1988 ◽  
Vol 22 (4) ◽  
pp. 691-693 ◽  
Author(s):  
Luis A. Rodriguez ◽  
Michael Prados ◽  
Dorcas Fulton ◽  
Michael S. B. Edwards ◽  
Pamela Silver ◽  
...  

Abstract Twenty-one patients with recurrent malignant central nervous system gliomas were treated with a combination of 5-fluorouracil, CCNU, hydroxyurea, and 6-mercaptopurine. Thirteen patients had brain stem gliomas, 3 patients had spinal cord gliomas, 3 patients had thalamic gliomas, and 2 patients had cerebellar astrocytomas. All patients had received radiation therapy, and 4 brain stem patients had also been treated with chemotherapy. Sixteen patients (76%) responded to treatment with either stabilization of disease or improvement. Nine of the 13 patients with brain stem gliomas (71%) had response or stabilization of disease. The median time to tumor progression (TTP) for the brain stem patients who responded or had stabilization of disease was 25 weeks. The median survival from recurrence for the brain stem glioma patients was 27 weeks. Patients with cerebellar, thalamic, and spinal cord tumors did very well, with an 87% response or stabilization of disease and a median TTP of 122 weeks.


2006 ◽  
Vol 18 (5) ◽  
pp. 793-802 ◽  
Author(s):  
Björn H. Rasch ◽  
Jan Born ◽  
Steffen Gais

High central nervous system levels of acetylcholine (ACh) are commonly regarded as crucial for learning and memory, and a decline in cholinergic neurotransmission is associated with Alzheimer's dementia. However, recent findings revealed exceptions to this rule: The low ACh tone characterizing slowwave sleep (SWS) has proven necessary for consolidation of hippocampus-dependent declarative memories during this sleep stage. Such observations, together with recent models of a hippocampal-neocortical dialogue underlying systems memory consolidation, suggest that high levels of ACh support memory encoding, whereas low levels facilitate consolidation. We tested this hypothesis in human subjects by blocking cholinergic neurotransmission during wakefulness, starting 30 min after learning. Subjects received the muscarinic antagonist scopolamine (4 µg/kg bodyweight intravenously) and the nicotinic antagonist mecamylamine (5 mg orally). Compared to placebo, combined muscarinic and nicotinic receptor blockade significantly improved consolidation of declarative memories tested 10 hr later, but simultaneously impaired acquisition of similar material. Consolidation of procedural memories, which are not dependent on hippocampal functioning, was unaffected. Neither scopolamine nor mecamylamine alone enhanced declarative memory consolidation. Our findings support the notion that ACh acts as a switch between modes of acquisition and consolidation. We propose that the natural shift in central nervous system cholinergic tone from high levels during wakefulness to minimal levels during SWS optimizes declarative memory consolidation during a period with no need for new memory encoding.


2021 ◽  
Vol 8 (4) ◽  
pp. 73-76
Author(s):  
Katherine Figarella

Trypanosoma brucei is one of the protozoa parasites that can enter the brain and cause injury associated with toxic effects of parasite-derived molecules or with immune responses against infection. Other protozoa parasites with brain tropism include Toxoplasma, Plasmodium, Amoeba, and, eventually, other Trypano-somatids such as T. cruzi and Leishmania. Together, these parasites affect billions of people worldwide and are responsible for more than 500.000 deaths annually. Factors determining brain tropism, mechanisms of in-vasion as well as processes ongoing inside the brain are not well understood. But, they depend on the par-asite involved. The pathogenesis caused by T. brucei initiates locally in the area of parasite inoculation, soon trypanosomes rich the blood, and the disease enters in the so-called early stage. The pathomecha-nisms in this phase have been described, even mole-cules used to combat the disease are effective during this period. Later, the disease evolves towards a late-stage, characterized by the presence of parasites in the central nervous system (CNS), the so-called meningo-encephalitic stage. This phase of the disease has not been sufficiently examined and remains a matter of investigation. Here, I stress the importance of delve into the study of the neuropathogenesis caused by T. brucei, which will enable the identification of path-ways that may be targeted to overcome parasites that reached the CNS. Finally, I highlight the impact that the application of tools developed in the last years in the field of neuroscience will have on the study of neglect-ed tropical diseases.


Author(s):  
Adejoke Onaolapo ◽  
Olakunle Onaolapo

: The possible impact of viral infections on the development or pathogenesis of neurodegenerative disorders remains largely unknown. However, there have been reports associating the influenza virus pandemic and long-term infection with the Japanese encephalitis virus with the development of post-encephalitic Parkinsonism or von Economo encephalitis. In the last one year plus, there has been a worldwide pandemic arising from infection with the novel coronavirus or severe acute respiratory syndrome coronavirus (SARS-CoV)-2 which causes a severe acute respiratory syndrome that has become associated with central nervous system symptoms or complications. Its possible central nervous system involvement is in line with emerging scientific evidence which shows that the human respiratory coronaviruses can enter the brain, infect neural cells, persist in the brain, and cause activation of myelin-reactive T cells. Currently, there is a dearth of scientific information on the acute or possible long-term impact of infection with SARS-CoV-2 on the development of dementias and/or neurodegenerative diseases. This is not unrelated to the fact that the virus is ‘new’, and its effects on humans are still being studied. This narrative review examines extant literature for the impact of corona virus infections on the brain; as it considers the possibility that coronavirus disease 2019 (COVID-19) could increase the risk for the development of neurodegenerative diseases or hasten their progression.


1980 ◽  
Vol 17 (5) ◽  
pp. 544-552 ◽  
Author(s):  
W. D. Sheffield ◽  
O. Narayan ◽  
J. D. Strandberg ◽  
R. J. Adams

A visna-maedi-like disease was found in a Corriedale sheep from which a retrovirus sharing the group antigen of visna-progressive pneumonia virus was isolated from lung, brain, and spleen. Clinically, the sheep had acute neurologic signs and dyspnea. Pathologic examination showed lesions similar to both visna and maedi. In the lung, there was a patchy interstitial pneumonia with marked lymphoid hyperplasia. Changes in the central nervous system were necrotizing nonsuppurative encephalitis of the brain stem, poliomyelitis of the cervical cord, and ependymitis and subependymal gliosis of the ventricles. Histologically, the central nervous system lesions seemed to have arisen sequentially, perhaps in response to bursts of virus replication as the agent underwent possible antigenic mutation. The severe lesions in both the central nervous system and lungs suggested a virus strain with dual tropism.


1995 ◽  
Vol 268 (1) ◽  
pp. G1-G10 ◽  
Author(s):  
R. C. Rogers ◽  
D. M. McTigue ◽  
G. E. Hermann

Vagovagal reflex control circuits in the dorsal vagal complex of the brain stem provide overall coordination of gastric, small intestinal, and pancreatic digestive functions. The neural components forming these reflex circuits are under substantial descending neural control. By adjusting the excitability of the differing components of the reflex, significant alterations in digestion control can be produced by the central nervous system. Additionally, the dorsal vagal complex is situated within a circumventricular region without a "blood-brain barrier." As a result, vagovagal reflex circuitry is also exposed to humoral influences, which can profoundly alter digestive functions by acting directly on brain stem neurons.


1966 ◽  
Vol 112 (485) ◽  
pp. 391-399 ◽  
Author(s):  
Ian Oswald ◽  
G. W. Ashcroft ◽  
R. J. Berger ◽  
D. Eccleston ◽  
J. I. Evans ◽  
...  

Sleep is essential for physical and mental health. In the last 15 years there has grown up the concept of the brain stem reticular activating system. Electroencephalographic studies have shown two qualitatively different and alternating kinds of sleep, the orthodox (“slow wave”, or “forebrain“) and the paradoxical (”hind-brain“, “rapid eye movement”, “activated“, or “dreaming”) phases (Akert et al., 1965). It may be predicted that in the next decade attention will turn increasingly to the chemical basis of sleep. If a man is deprived of sleep for 100 hours, it is extremely difficult to keep him awake and one may suppose that an abnormal biochemical state exists within his central nervous system.


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