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Query: UMLS:C0019829 (Hodgkin's disease)
 30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Extranodal marginal zone B-cell lymphomas of mucosa-associated lymphoid tissue (MALT) lymphomas are a well-described type of low-grade B-cell non-Hodgkin lymphoma. They typically arise adjacent to mucosal surfaces in the gastrointestinal tract, lung and conjunctiva, and, less frequently, in the skin, salivary gland and thyroid gland. Unusual locations, such as the genitourinary tract, thymus and meninges, have also been reported. We recently encountered a case of an intracranial MALT lymphoma in a 53-year-old man who presented with persistent headaches and a seizure. The lesion developed as a mass within the lateral ventricle, appeared to be arising from the choroid plexus, and was not associated with meninges. Histologically, there was a vaguely nodular, dense lymphoid infiltrate with occasional benign follicles colonized by marginal zone lymphoma, suggesting derivation from a focus of prior inflammation. Translocations involving the MALT1 gene were not identified but karyotypic evaluation highlighted a complex cytogenetic profile with many chromosomal abnormalities. This rare case provides insight into the pathophysiology of MALT lymphomas.
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PMID:Extranodal marginal zone B-cell lymphoma of mucosa-associated lymphoid tissue arising in the lateral ventricle. 1619 87

There have been numerous studies presented in the literature related to the simulation of the interaction between biological neurons and electronic devices. A complicating factor associated with these simulations is the algebraic complexity involved in implementation. This complication has impeded simulation of more involved neural-electronic circuitry and consequently has limited potential advancements in the integration of biological neurons with synthetic electronics. In this paper, we describe a modification to a previously proposed SPICE based Hodgkin-Huxley neuron model that demonstrates more physiologically relevant electrical behavior. We utilize this SPICE based neuron model in conjunction with an external circuit that allows for artificial selective inhibition of neural spiking. The neural firing control scheme proposed herein would allow for action potential frequency modulation of neural activity that, if developed further, could potentially be applied to suppress undesirable neural activity that manifests symptomatically as the tremors or seizures associated with specific pathologies of the nervous system.
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PMID:Neural-electronic inhibition simulated with a neuron model implemented in SPICE. 1656 38

A large scale neural network simulation with realistic cortical architecture has been undertaken to investigate the effects of external electrical stimulation on the propagation and evolution of ongoing seizure activity. This is an effort to explore the parameter space of stimulation variables to uncover promising avenues of research for this therapeutic modality. The model consists of an approximately 800 mum x 800 mum region of simulated cortex, and includes seven neuron classes organized by cortical layer, inhibitory or excitatory properties, and electrophysiological characteristics. The cell dynamics are governed by a modified version of the Hodgkin-Huxley equations in single compartment format. Axonal connections are patterned after histological data and published models of local cortical wiring. Stimulation induced action potentials take place at the axon initial segments, according to threshold requirements on the applied electric field distribution. Stimulation induced action potentials in horizontal axonal branches are also separately simulated. The calculations are performed on a 16 node distributed 32-bit processor system. Clear differences in seizure evolution are presented for stimulated versus the undisturbed rhythmic activity. Data is provided for frequency dependent stimulation effects demonstrating a plateau effect of stimulation efficacy as the applied frequency is increased from 60 to 200 Hz. Timing of the stimulation with respect to the underlying rhythmic activity demonstrates a phase dependent sensitivity. Electrode height and position effects are also presented. Using a dipole stimulation electrode arrangement, clear orientation effects of the dipole with respect to the model connectivity is also demonstrated. A sensitivity analysis of these results as a function of the stimulation threshold is also provided.
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PMID:Studies of stimulus parameters for seizure disruption using neural network simulations. 1761 99

The central nervous system's (CNS) involvement is uncommon in Hodgkin's disease (HD) and usually occurs in patients with relapsing disease many years after the initial diagnosis. An isolated involvement of the CNS is extremely rare and therefore, difficult to diagnosis. We report the case of a 27-year-old woman with seizure and a left cerebrodural mass on the cerebral imaging; secondarily, she developed cervical lymph node swelling; histological examination of the node revealed HD of the nodular sclerosis type. The dural lesion resolved after chemotherapy for HD.
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PMID:[Intracranial localization revealing Hodgkin's disease]. 1835 82

There are several processes implicated as uncommon causes of temporal lobe epilepsy. Trauma is the leading cause of epilepsy in young adults, intracerebral blood collection being the most consistent risk factor of seizures, especially subdural hematomas and brain contusions. Infarction is the entity most commonly related to epilepsy in the elderly population. Seizures usually present as complex seizures with high recurrence between 6 months and 2 years after stroke. There are some radiological characteristics of the affectation associated with high risk of early and late seizures. Noninfectious limbic encephalitis is a syndrome characterized by seizures, memory loss, and confusion. It includes paraneoplasic and non-paraneoplasic limbic encephalitis, both presenting as hyperintense lesion affecting temporobasal regions more evident with fluid-attenuated inversion recovery sequences. Paraneoplasic limbic encephalitis is associated with several types of tumor-induced autoimmunity against the nervous system. The tumors most frequently implicated are the lungs, testis, and breast, including Hodgkin's lymphoma, teratoma, and thymoma in young patients. Once a tumor is excluded, non-paraneoplasic limbic encephalitis has to be considered by investigating the presence of antibodies against voltage-gated potassium channels. It is associated with hyponatremia and responds to regimens of steroids, plasma exchange, and intravenous immunoglobulins. Finally, herpetic limbic encephalitis is also associated with seizures, accompanied by fever and neurologic symptoms. It presents characteristic findings and distribution on magnetic resonance imaging, which shows abnormalities in more than 90% of patients with proven Herpes simplex virus type 1.
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PMID:Uncommon epiloptogenic lesions affecting the temporal lobe. 1838 7

Hodgkin's disease is a neoplasm of clonal Reed-Sternberg cells. Intracranial Hodgkin's lymphoma is rare. We present a unique case of a 57-year-old woman with secondary intracranial lymphoma infiltrating the dura. Her past medical history included Hodgkin's lymphoma from which she was deemed to be in remission at the time of presentation. Following an acute onset of seizures, she underwent radiological investigations that demonstrated an enhancing right-sided temporal dural-based space occupying lesion. Histopathological findings revealed nodular sclerosing Hodgkin's lymphoma with pathognomonic Reed-Sternberg cells. In cases of intracranial lesions with dural infiltration, Hodgkin's lymphoma should be considered in the diagnosis.
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PMID:Dural infiltration of metastatic Hodgkin's lymphoma. 1856 36

In these companion papers, we study how the interrelated dynamics of sodium and potassium affect the excitability of neurons, the occurrence of seizures, and the stability of persistent states of activity. We seek to study these dynamics with respect to the following compartments: neurons, glia, and extracellular space. We are particularly interested in the slower time-scale dynamics that determine overall excitability, and set the stage for transient episodes of persistent oscillations, working memory, or seizures. In this second of two companion papers, we present an ionic current network model composed of populations of Hodgkin-Huxley type excitatory and inhibitory neurons embedded within extracellular space and glia, in order to investigate the role of micro-environmental ionic dynamics on the stability of persistent activity. We show that these networks reproduce seizure-like activity if glial cells fail to maintain the proper micro-environmental conditions surrounding neurons, and produce several experimentally testable predictions. Our work suggests that the stability of persistent states to perturbation is set by glial activity, and that how the response to such perturbations decays or grows may be a critical factor in a variety of disparate transient phenomena such as working memory, burst firing in neonatal brain or spinal cord, up states, seizures, and cortical oscillations.
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PMID:The influence of sodium and potassium dynamics on excitability, seizures, and the stability of persistent states. II. Network and glial dynamics. 1908 88

Limbic encephalitis refers to an inflammatory process involving the hippocampi. amygdala and less frequently frontobasal and insular regions. This disorder used to be considered extremely rare, invariably associated with cancer, and unresponsive to treatment. However, recent studies suggest that limbic encephalitis is more frequent than it was previously thought, and a substantial number of patients may recover. This is due in part to the development of clinical diagnostic criteria and identification of antibodies directed against two broad categories of antigens: (1) intracellular or classical paraneoplastic antigens, including Hu, Ma2, and CV2 CRMP5, among others, and (2) cell surface antigens including, voltage-gated potassium channels (VGKC), N-methyl-D-aspartate receptor (NMDAR), and others expressed in the neuropil of the hippocampus. While the disorders related to the first category of antibodies associate with cancer (lung, testis and other), prominent brain infiltrates of T-cells, and limited response to treatment, the disorders related to the second category of antibodies associate with other tumors (thymoma. teratoma, Hodgkin's lymphoma), appear to be antibody-mediated, and respond better to immunotherapy. Of particular interest in the later group is the disorder that associates with antibodies to extracellular epitopes of NR1/NR2 heteromers of the NMDA receptor. Patients with this syndrome may present as limbic encephalitis but more frequently manifest severe psychiatric symptoms, seizures, dyskinesias, autonomic instability or hypoventilation. In all, the study of these disorders provides a link between immunologic processes and neuronal events involved in memory, cognition, seizures, and neuronal degeneration.
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PMID:[Limbic encephalitis and variants related to neuronal cell membrane autoantigens]. 1919 3

Limbic encephalitis is an inflammatory disease localized to the "grand lobe limbique" defined by Broca in 1878, sometimes restricted to the hippocampus, but sometimes including extralimbic abnormalities. The main features are subacute onset, short-term memory disorders and cognitive impairment, temporal seizures, and hippocampic changes on MRI. A list of underlying causes has recently been published Infectious causes used to be frequent (mainly herpes simplex virus). Paraneoplastic limbic encephalitis is characterized by the presence of various onconeural antibodies, such as AntiHu and ANNA3 (bronchial small cell carcinoma), AntiMa2 (testicular tumor), AntiCV2 (lymphoma, thymoma,...). No such antibodies are detected in 40% of patients. The prognosis of these forms is poor. Voltage-gated potassium channel-associated limbic encephalopathies are due to antibodies targeting potassium channels. Mutations of the genes encoding the Kv11 and Kv12 subunits are responsible for several Shaker syndromes, including neuromyotonia, Morvan's disease, type I episodic ataxia, and limbic encephalitis with hyponatremia. Plasma exchanges and immunotherapy are effective. In patients without detectable antibodies, hippocampic anti-neuropil antibodies should be sought, particularly those targeting N-methyl-D-aspartate receptors. Ovarian teratoma is the usual cause of this type of encephalitis. Surgery and immunotherapy are effective. These disorders have been categorized into those associated with antibodies targeting intracellular antigens (poor-prognosis paraneoplastic encephalitis) and those associated with antibodies targeting antigens reacting with cellular membranes (potassium channelopathies and antineuropil antibodies), which respond to immunotherapy and carry a better prognosis. Limbic encephalitis can also reveal Hodgkin's disease, as in a case observed by the authors.
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PMID:[Limbic encephalitis--evolving concepts]. 1944 70

Nonlinear ensemble state estimation offers a paradigm-shifting improvement in our ability to observe, predict, and control the state of spiking neuronal systems. We use an ensemble Kalman filter to predict hidden states and future trajectories in the Hodgkin-Huxley equations, reconstruct ion dynamics, control neuronal activity including a strategy for dynamic conductance clamping, and show the feasibility of controlling pathological cellular activity such as seizures.
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PMID:Tracking and control of neuronal Hodgkin-Huxley dynamics. 1951 66


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