Persistent Autonomic and Immunologic Abnormalities in Neurologic Post-Acute Sequelae of SARS-CoV2 Infection.

OBJECTIVES: After acute coronavirus disease-2019 (COVID-19), people often experience fatigue, "brain fog," or other central neurologic symptoms (neuro-post-acute SARS-CoV2, or "Neuro-PASC"). In this observational study we evaluated whether abnormalities noted on initial evaluation persist after at least another year. METHODS: Neuro-PASC research participants who had undergone comprehensive inpatient testing at the NIH Clinical Center returned after at least 1 year for follow-up assessments including symptoms rating scales, MRI, lumbar puncture for tests of the CSF, physiologic recordings during the Valsalva maneuver and head-up tilting (with serial plasma catechols and cardiac Doppler ultrasound during the tilting), blood volume measurement, skin biopsies to examine sympathetic innervation, and blood sampling for neuroendocrine and immunologic measures. RESULTS: 7 patients with Neuro-PASC (6 women, age range 42-63 years) underwent follow-up testing. 71% of initially abnormal test results remained abnormal at follow-up, including the pattern of CSF and serum oligoclonal bands, CSF indices of central catecholamine deficiency, baroreflex-cardiovagal dysfunction, the occurrence of tilt-evoked sudden hypotension, white matter hyperintensities on MRI, and adaptive responses in CSF. DISCUSSION: In Neuro-PASC most of the autonomic and immunologic abnormalities found initially are still present after more than a year.

[Post-Covid Syndrome, Sick Building Syndrome, Silicone Breast Syndrome, Choric Fatigue Syndrome, Fibromyalgia -Autoimmunity to the Autonomic Nervous System].

INTRODUCTION: Post-Covid Syndrome, Sick Building Syndrome, Silicone Breast Syndrome, Choric Fatigue Syndrome, Fibromyalgia -Autoimmunity to the Autonomic Nervous System.

Antibodies Against ZSCAN1 in Pediatric and Adult Patients With Non-Paraneoplastic ROHHAD Syndrome.

OBJECTIVES: To report the association of zinc finger and SCAN domain containing 1 antibodies (ZSCAN1-abs) with rapid-onset obesity, hypothalamic dysfunction, hypoventilation, and autonomic dysregulation (ROHHAD) syndrome in patients without tumor. METHODS: Patients with symptoms compatible with ROHHAD syndrome but without an associated tumor were selected from our database. Serum and CSF samples were examined for the presence of ZSCAN1-abs by an in-house cell-based assay. In addition, samples from 149 patients with several inflammatory and noninflammatory disorders and 50 healthy participants served as controls. RESULTS: Thirteen patients with ROHHAD syndrome were identified. Of these, we had paired serum/CSF samples from 6 patients and only serum from the other 7. Five of 6 patients (83.3%) with paired serum/CSF (4 children, 1 adult) had ZSCAN-abs only in CSF and 1 had antibodies in serum and CSF. ZSCAN1-abs were not detected in the remaining 7 patients with ROHHAD with only serum available or in any of the 199 control samples. DISCUSSION: Patients with ROHHAD syndrome should be investigated for the presence of ZSCAN1-abs in CSF. The antibodies do not necessarily predict the presence of a tumor. The detection of ZSCAN1-abs in an adult patient suggests that this condition also occurs beyond the pediatric age.

[Autoimmune Autonomic Ganglionopathy and Acute Autonomic Sensory Neuropathy].

Autoimmune autonomic ganglionopathy (AAG) and acute autonomic sensory neuropathy (AASN) are immune-mediated neuropathies that affect the autonomic and/or dorsal root ganglia. Autoantibodies against the nicotinic ganglionic acetylcholine receptor (gAChR) detected in the sera of patients with AAG play a key role in the pathogenesis of this condition. Notably, gAChR antibodies are not detected in the sera of patients with AASN. Currently, AAG and AASN are not considered to be on the same spectrum with regard to disease concept based on clinical symptoms and laboratory findings. However, extra-autonomic brain symptoms (including psychiatric symptoms and personality changes) and endocrine disorders occur in both diseases, which suggests shared pathophysiology between the two conditions.

Indicators of Immune and Neurohumoral Profile in Women of Fertile Age with Functional Disorders of the Autonomic Nervous System Associated with Polymorphic Variants of the HTR2A (rs7997012) and TP53 (rs1042522) Genes.

In women of fertile age with functional disorders of the autonomic nervous system (ANS), a complex of indicators of the immune and neurohumoral profile associated with polymorphic variants of the HTR2A (rs7997012) and TP53 (rs1042522) genes was revealed. In patients with the diagnosis "G90.8. Other disorders of the autonomic nervous system", the neurohumoral profile is characterized by excessive content of cortisol and serotonin (p<0.05), which indicates the development of the hypersympathicotonic variant of autonomic regulation disorders. The cellular immune profile in the examined individuals was characterized by a significant decrease in the content of CD3+CD4+ and CD3+CD8+ lymphocytes (p<0.05). At the same time hyperactivation of the humoral immune response was observed. In particular, we revealed enhanced production of IgG and IgM antibodies accompanied by increased count of CD19+ lymphocytes (p<0.05), which characterized clinical and laboratory manifestations of the asthenic syndrome. The women with ANS disorders had increased frequency of the G allele (OR=3.00; 95%CI 1.20-7.47) and GG genotype (OR=3.91; 95%CI 1.00-15.24) of the HTR2A (rs7997012) serotonin receptor gene, as well as the G allele (OR=1.93; 95%CI 1.04-3.57), CG genotype (OR=2.38; 95%CI 1.02-5.53) and the GG genotype (OR=1.48; 95%CI 0.42-5.24) of the TP53 (rs1042522) oncosuppressor protein gene (p<0.05). The polymorphic G allele and GG genotype variants of candidate genes (HTR2A (rs7997012) and TP53 (rs1042522) genes) in women with ANS pathology are associated with an imbalance of the neurohumoral (excess of cortisol and serotonin) and immune regulation (deficiency of the CD3+CD4+ and CD3+CD8+, excess of CD19+, IgG and IgM). These parameters form a complex of the immune, neurohumoral, and genetic profile indicators in women of fertile age that characterize functional disorders of ANS manifestations by hypersympathicotonic type with an asthenic component.

Features Neurohumoral and Immune Profile in Children with Functional Disorders of the Autonomic Nervous System Associated with Sirtuin Gene SIRT1 (rs7069102) Polymorphism.

We revealed some features of the neurohumoral and immune profile in preschool children with functional disorders of the autonomic nervous system (ANS) associated with the polymorphism of the SIRT1 gene (rs7069102) responsible for stability of the cell cycle, energy and plastic metabolism of organic substances, and Ca2+ exchange. The neurohumoral profile of the surveyed children is characterized by excessive content of glutamic acid and serotonin, which leads to excessive synaptic activation and disorders of ANS inhibition (p<0.05). The cell immune profile is characterized by a reduced immunoregulatory index CD4+/CD8+ with a simultaneous deficiency of CD3+CD4+ and excess of CD3+CD8+ lymphocytes (p<0.05). These etiopathogenetic disorders of the neurohumoral and immune profile are associated with variant G-allele of the SIRT1 gene (rs7069102) and the corresponding homozygous GG-genotype (p<0.05), which leads to disturbances in the control of the cell cycle stability, including apoptosis, cytochrome deacetylation, inhibition of the glutamate dehydrogenase enzyme activity with excessive glutamate accumulation, energy metabolism in mitochondria, and Ca2+ exchange. The revealed features of neurotransmitters content (excess of serotonin and glutamic acid) and indicators of cell immunity (reduced proportion of CD4+/CD8+ cells) associated with the variant G allele and GG genotype of the SIRT1 gene (rs7069102) form a complex of neurohumoral, immune, and genetic markers in children with functional disorders of ANS (G90.8). This allows recommending them as indicators for early diagnosis and prevention of autonomic disorders in children.

Subunit-specific autoantibodies in autoimmune autonomic ganglionopathy.

Autoimmune Autonomic Ganglionopathy (AAG) is a disorder that causes autonomic failure and is associated with alpha3-ganglionic acetylcholine-receptor (gnACHR) antibodies. Assays that detect antibodies to whole gnACHR or subunits are available. We compared in-house subunit-specific immunoassays using bacterially-expressed alpha3 and beta4 subunits against an immunomodulation assay to detect antibodies in patients with AAG or control groups in a novel 2-step clinical-characteristic unblinding protocol. Only 1/8 patients with seropositive-AAG had subunit-specific antibodies, with sensitivity, specificity, false-negative and positive rates of 12.5, 85.2, 78.6 and 13.4% respectively. Subunit-specific antibody-derived false-positive results can lead to misdiagnosis, as autonomic failure is not specific to AAG.

Evaluation of commercially available antibodies and fluorescent conotoxins for the detection of surface ganglionic acetylcholine receptor on the neuroblastoma cell line, IMR-32 by flow cytometry.

Commercially available antibodies that bind to the human muscle acetylcholine receptor (ACHR) have been validated previously for flow cytometric use (Keefe et al., 2009; Leite et al., 2008; Lozier et al., 2015). Despite a multitude of commercially available antibodies to other nicotinic ACHRs, validation in a wide variety of immunoassay formats is lacking; when studied, a large proportion of these antibodies have been deemed not fit for most research purposes (Garg and Loring, 2017). We have recently described a flow cytometric immunomodulation assay for the diagnosis of Autoimmune Autonomic Ganglionopathy (AAG) (Urriola et al., 2021) that utilises the monoclonal antibody mab35(Urriola et al., 2021) which is specific for ganglionic ACHR (gnACHR) that contain α3 subunits (Vernino et al., 1998). Other fluorescent ligands for α3-gnACHR have not been validated for flow cytometric use. We investigated 7 commercially sourced antibodies and 3 synthetic fluorescent novel conotoxins purported to specifically bind to the extracellular domains of the gnACHR, and compared the results to staining by mab35, using flow cytometry with the neuroblastoma cell line IMR-32. We also evaluated the degree of non-specific binding by depleting the cell membrane of the relevant acetylcholine receptor with a pre-incubation step involving the serum from a patient with Autoimmune Autonomic Ganglionopathy containing pathogenic antibodies to the ganglionic acetylcholine receptor. None of the assessed conotoxins, and only one antibody (mab35) was found to perform adequately in flow cytometric staining of the native ganglionic acetylcholine receptor.

A Flow Cytometric Assay to Detect Functional Ganglionic Acetylcholine Receptor Antibodies by Immunomodulation in Autoimmune Autonomic Ganglionopathy.

Autoimmune Autonomic Ganglionopathy (AAG) is an uncommon immune-mediated neurological disease that results in failure of autonomic function and is associated with autoantibodies directed against the ganglionic acetylcholine receptor (gnACHR). The antibodies are routinely detected by immunoprecipitation assays, such as radioimmunoassays (RIA), although these assays do not detect all patients with AAG and may yield false positive results. Autoantibodies against the gnACHR exert pathology by receptor modulation. Flow cytometric analysis is able to determine if this has occurred, in contrast to the assays in current use that rely on immunoprecipitation. Here, we describe the first high-throughput, non-radioactive flow cytometric assay to determine autoantibody mediated gnACHR immunomodulation. Previously identified gnACHR antibody seronegative and seropositive sera samples (RIA confirmed) were blinded and obtained from the Oxford Neuroimmunology group along with samples collected locally from patients with or without AAG. All samples were assessed for the ability to cause gnACHR immunomodulation utilizing the prototypical gnACHR expressing cell line, IMR-32. Decision limits were calculated from healthy controls, and Receiver Operating Characteristic (ROC) curves were constructed after unblinding all samples. One hundred and ninety serum samples were analyzed; all 182 expected negative samples (from healthy controls, autonomic disorders not thought to be AAG, other neurological disorders without autonomic dysfunction and patients with Systemic Lupus Erythematosus) were negative for immunomodulation (<18%), as were the RIA negative AAG and unconfirmed AAG samples. All RIA positive samples displayed significant immunomodulation. There were no false positive or negative samples. There was perfect qualitative concordance as compared to RIA, with an Area Under ROC of 1. Detection of Immunomodulation by flow cytometry for the identification of gnACHR autoantibodies offers excellent concordance with the gnACHR antibody RIA, and overcomes many of the shortcomings of immunoprecipitation assays by directly measuring the pathological effects of these autoantibodies at the cellular level. Further work is needed to determine the correlation between the degree of immunomodulation and disease severity.

Conditions of Aerogenic Exposure to Benzene and Genetic Status as Factors of Formation of Immune Profile Features in Men with Autonomic Regulation Disturbances.

We studied the immunological status and polymorphic variants of candidate genes in men with disturbances of autonomic nervous regulation under conditions of aerogenic exposure to benzene. The group of men with pathology of the autonomic nervous system (autonomic dysfunction syndrome) living under conditions of aerogenic exposure to benzene is characterized by increased blood contamination with benzene, which 1.5-fold surpassed this parameter in the group of conventionally healthy men (p<0.05). The immune profile of the surveyed men is characterized by increased specific sensitization (IgG to benzene) and activation of apoptosis (TNFR, p53) and phagocytosis. The production of serum IgA was also increased (p<0.05) in men of this group. The content of CD127- lymphocytes significantly (p<0.05) exceeded the reference level against the background of a significantly reduced (p<0.05) level of CD3+CD95+ lymphocytes irrespective of the presence or absence of autonomic nervous system pathology in men with excessive haptenic load with benzene. The revealed features of the immune status of men with autonomic regulation disorders were significantly associated (OR>1; p<0.05) with the variant allele of the FOXP3 immune regulation gene (rs3761547) and with wild-type allele of the SOD2 superoxide dismutase gene (rs2758330) and the corresponding homozygous genotypes. The established features of immune regulation (hyperproduction of IgG to benzene, imbalance of apoptosis markers (CD127-, CD3+CD95+, p53, and TNFR) against the background of altered polymorphism of candidate genes (FOXP3, SOD2) form a complex of genetic and immunological markers of autonomic regulation disorders in men living under conditions of aerogenic exposure to benzene.

Antibody Testing for Suspected Autoimmune Autonomic Dysfunction and Small Fiber Neuropathies.

SUMMARY: Autonomic dysfunction and small fiber neuropathies are heterogeneous disorders with a wide array of potential etiologies. As with other neurologic diseases, autoantibodies specific to neural tissue, either in the setting of cancer or systemic autoimmunity, may cause autonomic abnormalities. Given the complex and varied functions of the autonomic nervous system, however, the presentation of these conditions may be quite variable. This, in addition to pitfalls of autonomic testing especially for the novice, can lead to inaccuracies in recognizing and characterizing these conditions. We now have a large number of autoantibodies available for testing with more in the pipeline thanks to unprecedented developments in the field of neuroimmunology. Those have been very helpful in uncovering potentially treatable mechanisms of autonomic disease, but also pose a challenge to the clinician given their multiplicity and variable specificity. Growing knowledge regarding autoimmune autonomic implications and the autonomic specificities of each antibody, in addition to the increasing attention to the relevance of antibody titers are of utmost importance for clinicians concerned with autonomic neurology. This review attempts to shed a light on the frequently encountered antibodies in relation to autonomic dysfunction.

Impairment of agonist-induced M2 muscarinic receptor activation by autoantibodies from chagasic patients with cardiovascular dysautonomia.

Previous studies showed that circulating autoantibodies against M2 muscarinic receptors (anti-M2R Ab) are associated with decreased cardiac parasympathetic modulation in patients with chronic Chagas disease (CD). Here we investigated whether the exposure of M2R to such antibodies could impair agonist-induced receptor activation, leading to the inhibition of associated signaling pathways. Preincubation of M2R-expressing HEK 293T cells with serum IgG fractions from chagasic patients with cardiovascular dysautonomia, followed by the addition of carbachol, resulted in the attenuation of agonist-induced Gi protein activation and arrestin-2 recruitment. These effects were not mimicked by the corresponding Fab fractions, suggesting that they occur through receptor crosslinking. IgG autoantibodies did not enhance M2R/arrestin interaction or promote M2R internalization, suggesting that their inhibitory effects are not likely a result of short-term receptor regulation. Rather, these immunoglobulins could function as negative allosteric modulators of acetylcholine-mediated responses, thereby contributing to the development of parasympathetic dysfunction in patients with CD.

A comprehensive analysis of the clinical characteristics and laboratory features in 179 patients with autoimmune autonomic ganglionopathy.

The clinical importance of autoantibodies against the ganglionic acetylcholine receptor (gAChR) remains to be fully elucidated. We aimed to identify the clinical characteristics of autoimmune autonomic ganglionopathy (AAG) in patients with gAChR autoantibodies. For this cohort investigation, serum samples were obtained from patients with AAG between 2012 and 2018 in Japan. We measured the levels of autoantibodies against gAChRα3 and gAChRß4 and evaluated clinical features, as well as assessing the laboratory investigation results among the included patients. A total of 179 patients tested positive for antibodies, including 116 gAChRα3-positive, 13 gAChRß4-positive, and 50 double antibody-positive patients. Seropositive AAG patients exhibited widespread autonomic dysfunction. Extra-autonomic manifestations including sensory disturbance, central nervous system involvement, endocrine disorders, autoimmune diseases, and tumours were present in 118 patients (83%). We observed significant differences in the frequencies of several autonomic and extra-autonomic symptoms among the three groups. Our 123I-metaiodobenzylguanidine myocardial scintigraphy analysis of the entire cohort revealed that the heart-to-mediastinum ratio had decreased by 80%. The present study is the first to demonstrate that patients with AAG who are seropositive for anti-gAChRß4 autoantibodies exhibit unique autonomic and extra-autonomic signs. Decreased cardiac uptake occurred in most cases, indicating that 123I- metaiodobenzylguanidine myocardial scintigraphy may be useful for monitoring AAG. Therefore, our findings indicate that gAChRα3 and gAChRß4 autoantibodies cause functional changes in postganglionic fibres in the autonomic nervous system and extra-autonomic manifestations in seropositive patients with AAG.

Autoimmune Autonomic Disorders.

PURPOSE OF REVIEW: Autonomic disorders sometimes occur in the context of systemic autoimmune disease or as a direct consequence of autoimmunity against the nervous system. This article provides an overview of autonomic disorders with potential autoimmune etiology. RECENT FINDINGS: Recent evidence highlights a close association between the autonomic nervous system and inflammation. The autonomic nervous system regulates immune function, and autonomic manifestations may occur in a number of systemic autoimmune diseases. In a few instances, autoimmunity directly influences autonomic function. Autoimmune autonomic ganglionopathy is the prototypic antibody-mediated autonomic disorder. Over time, a better understanding of the clinical spectrum of autoimmune autonomic ganglionopathy, the significance of ganglionic nicotinic acetylcholine receptor antibodies, other immune-mediated autonomic neuropathies, and autonomic manifestations of other systemic or neurologic autoimmune disorders has emerged. SUMMARY: Autoimmune autonomic disorders may be challenging, but correct identification of these conditions is important. In some cases, potential exists for effective immunomodulatory treatment.

Autonomic Peripheral Neuropathy.

PURPOSE OF REVIEW: This article provides a summary of the autonomic neuropathies, including neuropathies associated with diabetes mellitus, neuropathies due to amyloid deposition, immune-mediated autonomic neuropathies (including those associated with a paraneoplastic syndrome), inherited autonomic neuropathies, and toxic autonomic neuropathies. The presenting features, diagnostic investigations, and natural history of these neuropathies are discussed. RECENT FINDINGS: Recent findings in autonomic peripheral neuropathy include data on the epidemiology and atypical presentations of diabetic autonomic neuropathy, treatment-induced neuropathy of diabetes mellitus, the presentation of immune-mediated neuropathies, and advances in hereditary neuropathy associated with amyloidosis and other hereditary neuropathies. SUMMARY: Knowledge and recognition of the clinical features of the autonomic neuropathies, combined with appropriate laboratory and electrophysiologic testing, will facilitate accurate diagnosis and management.

Making sense of gut feelings in the traumatic brain injury pathogenesis.

Traumatic brain injury (TBI) is a devastating condition which often initiates a sequel of neurological disorders that can last throughout lifespan. From metabolic perspective, TBI also compromises systemic physiology including the function of body organs with subsequent malfunctions in metabolism. The emerging panorama is that the effects of TBI on the periphery strike back on the brain and exacerbate the overall TBI pathogenesis. An increasing number of clinical reports are alarming to show that metabolic dysfunction is associated with incidence of long-term neurological and psychiatric disorders. The autonomic nervous system, associated hypothalamic-pituitary axis, and the immune system are at the center of the interface between brain and body and are central to the regulation of overall homeostasis and disease. We review the strong association between mechanisms that regulate cell metabolism and inflammation which has important clinical implications for the communication between body and brain. We also discuss the integrative actions of lifestyle interventions such as diet and exercise on promoting brain and body health and cognition after TBI.

Neurological autoimmune disorders with prominent gastrointestinal manifestations: A review of presentation, evaluation, and treatment.

BACKGROUND: The identification of autoantibodies directed against neuronal antigens has led to the recognition of a wide spectrum of neurological autoimmune disorders (NAD). With timely recognition and treatment, many patients with NAD see rapid improvement. Symptoms associated with NAD can be diverse and are determined by the regions of the nervous system affected. In addition to neurological symptoms, a number of these disorders present with prominent gastrointestinal (GI) manifestations such as nausea, diarrhea, weight loss, and gastroparesis prompting an initial evaluation by gastroenterologists. PURPOSE: This review provides a general overview of autoantibodies within the nervous system, focusing on three scenarios in which nervous system autoimmunity may initially present with gut symptoms. A general approach to evaluation and treatment, including antibody testing, will be reviewed.

Immune and autonomic nervous system interactions in multiple sclerosis: clinical implications.

Multiple sclerosis is characterized by a wide spectrum of clinical manifestations, among which dysfunction of the autonomic nervous system represents an important cause of multiple sclerosis-related disability. The aim of this review is to provide an overview of autonomic dysfunction in people with multiple sclerosis, and to discuss the interactions between the immune and autonomic nervous systems and the effects of these interactions on various aspects of multiple sclerosis. Autonomic dysfunction in people with multiple sclerosis can be demonstrated clinically and on a molecular level. Clinically, it can be demonstrated by measuring autonomic symptoms with the Composite Autonomic Symptom Score (COMPASS-31), and neurophysiologically, with different autonomic nervous system tests. Both symptomatic and objectively determined autonomic dysfunction can be associated with increased risk of multiple sclerosis disease activity. Further supporting these clinical observations are molecular changes in immune cells. Changes in the sympathetic autonomic system, such as different expression of dopaminergic and adrenergic receptors on immune cells, or modulation of the cholinergic anti-inflammatory pathway over different subunits of the nicotinic acetylcholine receptor in the peripheral immune system, may mediate different effects on multiple sclerosis disease activity.

Immunoresponsive Autonomic Neuropathy in Sjögren Syndrome-Case Series and Literature Review.

BACKGROUND: Sjögren syndrome (SS) is one of the most common autoimmune disorders that classically affects exocrine glands, resulting in keratoconjunctivitis sicca and xerostomia, and frequently is associated with other systemic symptoms. SS appears to have a particular predilection for involving the autonomic nervous system. STUDY QUESTION: Does immunotherapy improve signs and symptoms of autonomic nervous system impairment in SS? STUDY DESIGN: This is a retrospective review of patients seen in the autonomic clinic at our institution who underwent an evaluation for a suspected autonomic disorder that ultimately was attributed to SS. SS patients who were treated with immunotherapy and completed autonomic testing before and after treatment were included in this review. RESULTS: A total of 4 patients were identified who were treated for SS-related autonomic dysfunction with immunotherapy and underwent repeat autonomic testing after treatment. Marked clinical and functional improvement was seen after treatment with intravenous immunoglobulin in all patients and adjunctive rituximab therapy in 1 patient. The clinical improvement with immunotherapy in these patients correlated with markedly improved findings on autonomic testing in all. MEASURES AND OUTCOMES: Clinical symptoms and results of autonomic testing prior to and following immunotherapy were assessed. CONCLUSIONS: Autonomic signs and symptoms in SS are potentially immunoresponsive, but immunotherapy in these patients may require repeated, ongoing, or adjunctive therapy for optimal and sustained improvement.

Ganglionic Antibody Level as a Predictor of Severity of Autonomic Failure.

OBJECTIVE: To assess antibody level as a test of autonomic failure (AF) associated with ganglionic nicotinic acetylcholine receptor antibody (AChR-Ab) autoimmunity. PATIENTS AND METHODS: We searched the Mayo Clinic laboratory database of 926 ganglionic AChR-Ab-seropositive patients seen at our institution between October 1, 1997, and April 1, 2015, for initial level of 0.05 nmol/L or higher and contemporaneous autonomic reflex screen (standardized evaluation of adrenergic, cardiovagal, and sudomotor functions) from which Composite Autonomic Scoring Scale (CASS) scores could be calculated. RESULTS: Of 289 patients who met inclusion criteria, 163 (56.4%) were women, median age was 54 years (range, 10-87 years), median antibody level was 0.11 nmol/L (range, 0.05-22.10 nmol/L), and median CASS total score was 2.0 (range, 0-10). Using receiver operating characteristic curve analysis, a level above 0.40 nmol/L predicted severe AF (CASS score, ≥7) with 92% specificity and 56% sensitivity. For at least moderate AF (CASS score ≥4 and anhidrosis ≥25%), a level of at least 0.20 nmol/L had 80% specificity and 59% sensitivity. Levels below 0.20 nmol/L were not predictive of the presence or absence of AF. For predicting orthostatic hypotension, ganglionic AChR-Ab level had excellent specificity above 0.4 nmol/L but lacked sensitivity. Autoantibodies to additional targets were present in 61 patients (21.1%). CONCLUSION: Ganglionic AChR-Ab level of at least 0.40 nmol/L is a moderately sensitive and highly specific marker for severe AF, as is a level of at least 0.20 nmol/L for moderate AF if CASS score is coupled with anhidrosis of 25% or more, among patients with suspected ganglionic AChR-Ab autoimmune autonomic ganglionopathy. Antibody levels of less than 0.20 nmol/L have little clinical importance in the absence of clinical AF.