Figure 4 Relation of neuropsychological deficits and intrathecal immune cell subsets in GABAB receptor antibody–associated limbic encephalitis Relation.

Slides:

Advertisements

Similar presentations

Figure 2 Medial occipital lobe (designated by visual cortical brain regions) hypometabolism in anti–NMDA receptor encephalitis Medial occipital lobe (designated.

Advertisements

Figure 1 Muscle biopsy from a patient with a slowly progressive (24 years) HMGCR antibody–associated myopathy syndrome (A) Hematoxylin & eosin stain, (B)

Figure 2. Change in total PSPRS score from baseline to each study visit for all participants Change in total PSPRS score from baseline to each study visit.

Figure 1 Treg percentage and suppressive function increased during each round of Treg infusions Treg percentage and suppressive function increased during.

Figure 3 Immune response to neoantigen: Geometric mean titers of antirabies antibody levels over timeAt days 31 and 38, all subjects achieved antibody.

Figure 2 Immunopathologic analysis of all 3 Rasmussen encephalitis cases Immunopathologic analysis of all 3 Rasmussen encephalitis cases (A) Perivascular.

Figure 3 JCV index changes in JCV+ patients

Figure Immune checkpoint inhibitor–induced encephalitis before and after treatment with natalizumab Immune checkpoint inhibitor–induced encephalitis before.

Figure 3 Age, pretreatment, sex, and leukopenia do not influence CD19+ cell repopulation Age, pretreatment, sex, and leukopenia do not influence CD19+

Figure 1 Effect of DMF therapy on T cell subsets

Figure 2 Neuropathologic examination for lymphoma etiology (patients 1–4)‏ Neuropathologic examination for lymphoma etiology (patients 1–4) Immunohistochemical.

Figure 2 Alemtuzumab-induced changes in the dendritic cell compartment

Figure 1 MOR103 sequential-dose trial flowchart of study population with multiple sclerosis aPatients received 2 doses of study drug before trial withdrawal.

Figure 3 Gene expression in CSF cell pellets

Figure 1 8-Iso-PGF2α levels in CSF of patients with MS and controlsCSF 8-iso-prostaglandin F2α (8-iso-PGF2α) levels were estimated using an ELISA. (A)

Figure Association of hippocampal subfield volumes to cognition by neopterin level, volumes, and cognition adjusted for age, education, race, sex, and.

Figure 1 Peripheral blood leukocyte subset counts during dimethyl fumarate treatmentComplete blood cell counts were obtained at baseline (n = 34) and at.

Figure 2 DTI values between the hepatitis C group and controls(A) DTI FA values, (B) DTI diffusion values. *Statistically significant at FDR-adjusted p.

Figure 3 Responder subset (A) Percentage of “responders” (nonprogressing patients) at week 25 after 6 months of treatment; percentage of “responders” in.

Figure 1 GABAB expression in the thymus(A–C) Staining of thymus tissue with anti-cytokeratin (A) and anti-GABAB antibody (B, C double immunofluorescence).

Figure. Groups 1–3, patients tested, and test results (viral PCR and antibodies)‏ Groups 1–3, patients tested, and test results (viral PCR and antibodies)

Figure 2 CD4+ and CD8+ T cells accumulate in the CSF in GABAB receptor antibody–associated LE CD4+ and CD8+ T cells accumulate in the CSF in GABAB receptor.

Figure 1 Schematic overview of flow cytometry Schematic overview on the analysis of peripheral immune cells by flow cytometry. Schematic overview of flow.

Figure 1 Evolution of blood cell counts during 18-month treatment and follow-up (A) Mean white blood cell count, (B) mean lymphocyte count, (C) mean eosinophil.

Figure 4 Relative abundances of the order Clostridiales and its family members are differentially changed by therapy Relative abundances of the order Clostridiales.

Figure 1 The human adaptive immune profile in multiple sclerosis (MS)‏

Figure 4 Aquaporin-4 immunoglobulin G (AQP4-IgG) index in time-matched paired serum-CSF specimens: 3 attack/preattack pairs and 7 bridge/remission pairs.

Figure 2 Abnormal myofiber nuclei in HMGCR antibody–associated myopathy Myonuclei are often enlarged (dark arrow) with clear centers (dark arrowhead) or.

Figure 5 Pairwise correlations between selected patient-reported outcomes and performance tests in patients with MS (A) The number of pairwise correlations.

Figure 3 Longitudinal performance of 2 MS–cohabitant participant pairs on Ishihara color testing Both response speed and response accuracy are provided.

Figure 1 Phenotype and functional properties of B cells in MS and HCs at baseline Phenotype and functional properties of B cells in MS and HCs at baseline.

Figure 1 Proportions of the major B-cell subsets in DMF-treated patients Proportions of the major B-cell subsets in DMF-treated patients B cells were collected.

Figure 4 Shared and unique immune changes induced by multiple sclerosis (MS) immunomodulatory treatments Shared and unique immune changes induced by multiple.

Figure 1 Annual trend in specimen type submitted as first sample for aquaporin-4 immunoglobulin G testing (serum only vs CSF only vs both) from 101,065.

Figure 2 Distinct changes to immunoprofile in autoimmune thyroid disease (AITD) and multiple sclerosis (MS)‏ Distinct changes to immunoprofile in autoimmune.

Figure 2 Reduced frequency of central memory CD4 T cells in patients with PML Reduced frequency of central memory CD4 T cells (CD4Tcm) (p < ), naive.

Figure 6 Cellular composition after tissue dissociation

Figure 2 Flu immunization–induced changes in the proportions and absolute numbers of B cells and their relevant subpopulations Flu immunization–induced.

Figure 1 B cells and plasma cells accumulate in the CSF in GABAB receptor antibody–associated LE B cells and plasma cells accumulate in the CSF in GABAB.

Figure 1 Examples illustrating gating strategy for fluorescence-activated cell sorting (FACS)‏ Examples illustrating gating strategy for fluorescence-activated.

Figure 2 Peripheral blood lymphocyte subset counts during dimethyl fumarate treatment(A) Lymphocyte subsets were obtained at baseline (n = 21) and at month.

Figure 2 Comparison of BAFF levels in controls and patients with MuSK(A) ELISA performed on plasma samples shows higher B cell–activating factor (BAFF)

Figure 1 BG-12 treatment reduced total circulating B cells and had variable effects on memory B cells BG-12 treatment reduced total circulating B cells.

Figure 1 Examination of MuSK antibody levels and B-cell subsetsFlow cytometric analysis (n = 13) using standardized Human Immunology Project Consortium.

Figure 2 Correlation of CSF 8-iso-PGF2α levels with other indicators of oxidative stressCorrelations of 8-iso-prostaglandin F2α (8-iso-PGF2α) values with.

Figure 4 Alemtuzumab-mediated effects on interleukin (IL)–23 and granulocyte-macrophage colony-stimulating factor (GM-CSF) production in innate myeloid.

Figure 3 Pedigrees of 3 multiplex families with NLRP3 mutations and MS The patient numbers refer to the patients listed in table 1. Pedigrees of 3 multiplex.

Figure 2 CD4+ T-cell subsets fluorescence-activated cell sorting analysis in peripheral blood mononuclear cells of patients with multiple sclerosis treated.

Figure 1 CD52 expression on innate myeloid and lymphoid cell subsets

Figure 1 Distinct cognitive performers present differences in the cell populations of the adaptive immune systemThe profile (cell counts per mL of blood)

Figure 2 Repopulation of CD19+ cells in low and high BSA patients and calculation of the BSA Repopulation of CD19+ cells in low and high BSA patients and.

Figure 2 Evolution of blood cell counts during interleukin (IL)–7 therapy Evolution of blood cell counts during interleukin (IL)–7 therapy The leukocyte.

Figure 3 Flu immunization–induced changes in the proportions and absolute numbers of RORγt-expressing CD4+ and CD8+ T cells Flu immunization–induced changes.

Figure 1 Flu immunization–induced changes in the proportions and absolute numbers of T cells and their relevant subpopulations Flu immunization–induced.

Figure 2 CD56bright natural killer (NK) cell counts in daclizumab high-yield process (DAC HYP)-treated patientsData are medians with 25th and 75th percentiles.

Figure 1 Peripheral blood lymphocyte counts during dose titrationB-lymphocyte (CD19+; A) and total lymphocyte (CD45+; B) counts (cells/µL) in peripheral.

Figure Spinal cord imaging (A, B) Sagittal and axial T2-weighted cervical spine MRI demonstrating hyperintensities in the central gray matter of patient.

Figure 1 Classical pathway and lectin pathway activity in patients with multifocal motor neuropathy and controls Classical pathway (CP) activity (A) and.

Figure 2 Detection of atypical anti-neuronal antibodies Immunohistofluorescence assay on rat brain sagittal slices incubated with the patient's CSF and.

Yian Gu et al. Neurol Neuroimmunol Neuroinflamm 2019;6:e521

Ingo Kleiter et al. Neurol Neuroimmunol Neuroinflamm 2018;5:e504

Figure 6 Multiple target epitopes exist in the N-terminal domains of Caspr2 (A) Multidomain deletion constructs of Caspr2 were generated to determine which.

Figure 2 Cell-based assay demonstrating differential binding of AChR antibodies to the adult and fetal receptorsThe fetal (gamma subunit specific) and.

Gitanjali Das et al. Neurol Neuroimmunol Neuroinflamm 2018;5:e453

Figure 3. Sensitivity and specificity of microarray analysis in relation to target number Sensitivity and specificity of microarray analysis in relation.

Figure 3 Alemtuzumab-induced changes in monocytes

Figure 4 Cell count of selective immune cell subpopulations during alemtuzumab Cell count of selective immune cell subpopulations during alemtuzumab Absolute.

Figure 4 Venn diagram for B-cell Sup proteins compared with proteins from exosome-enriched fractions from a human B-cell line Venn diagram for B-cell Sup.

Figure 2. Percentage of CD16− monocytes in the blood is reduced during disease progression Percentage of CD16− monocytes in the blood is reduced during.

Figure 4 Longitudinal analysis of peripheral immune cell composition Frequency of naive, central memory (Tcm), and effector memory (Tem) CD4 T cells over.

Presentation transcript:

Figure 4 Relation of neuropsychological deficits and intrathecal immune cell subsets in GABAB receptor antibody–associated limbic encephalitis Relation of neuropsychological deficits and intrathecal immune cell subsets in GABAB receptor antibody–associated limbic encephalitis Relation of neuropsychological deficits to the absolute numbers of CD138+ CD19+ plasma cells (A), activated HLADR+ CD4+ T cells (B), and activated HLADR+ CD8+ T cells (C) and within the CSF in 3 patients with GABAB receptor antibody–associated limbic encephalitis. The overall neuropsychological deficits are quantified as the total neuropsychological percentile rank sum, and the verbal memory retrieval performance is quantified as the respective percentile rank sum (see table e-2). For details, refer to the main text. GABAB = γ-aminobutyric acid B; Pt. = patient. Kristin S. Golombeck et al. Neurol Neuroimmunol Neuroinflamm 2016;3:e232 © 2016 American Academy of Neurology