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Pure autonomic failure

Pure autonomic failure (PAF), also known as Bradbury-Eggleston syndrome, is a rare neurodegenerative disorder primarily affecting the peripheral , leading to progressive dysfunction in automatic bodily functions such as regulation. It is characterized by —a sudden drop in upon standing—that causes symptoms like , , syncope, and visual disturbances, often without significant involvement of the early in the disease. PAF typically emerges in , around the sixth decade of life, and results from the accumulation of α-synuclein protein in autonomic ganglia and peripheral nerves, distinguishing it from other synucleinopathies like or . The hallmark symptom of PAF is severe , present in nearly all cases, which impairs the body's ability to maintain during postural changes due to postganglionic sympathetic . Additional common features include genitourinary dysfunction (such as or incontinence in about 50% of patients), gastrointestinal issues like chronic (affecting over 50%), thermoregulatory sweat abnormalities (in roughly 50%), and in men (up to 65%). Many individuals also experience rapid (REM) sleep behavior disorder, reported in up to 72% of cases, which involves acting out vivid dreams and serves as an early indicator of underlying synuclein pathology. Unlike central forms of autonomic failure, PAF spares cognitive and motor functions initially, though subtle involvement may emerge over time. The pathophysiology of PAF involves selective degeneration of peripheral postganglionic autonomic neurons, leading to reduced norepinephrine release and impaired sensitivity, as evidenced by low plasma norepinephrine levels and abnormal autonomic function tests. This α-synucleinopathy predominantly targets the , with deposition confirmed through imaging like cardiac ¹²³I-metaiodobenzylguanidine (MIBG) , which shows reduced uptake in affected nerves. Diagnosis relies on established consensus criteria from , including documented , evidence of autonomic failure without other causes, and exclusion of central neurodegenerative diseases via clinical evaluation, tilt-table testing, and . Management of PAF focuses on symptom relief rather than disease modification, employing nonpharmacologic strategies such as increased fluid and salt intake, compression garments, and physical counter-maneuvers to mitigate . Pharmacologic options include vasopressor agents like or to elevate , alongside targeted treatments for secondary symptoms, such as laxatives for or medications for dysfunction, often requiring multidisciplinary care. Prognosis varies, with a median survival of approximately 12.5 years from symptom onset, though up to 34% of patients may phenoconvert to central synucleinopathies—such as (18%), (8%), or (8%)—within four years, particularly those with early REM sleep behavior disorder or severe autonomic impairment. Ongoing research highlights the progressive nature of PAF and its role as a precursor to broader synuclein-related disorders.

Overview

Definition

Pure autonomic failure (PAF) is a rare neurodegenerative disorder primarily affecting the peripheral , leading to progressive failure of autonomic functions without significant involvement. It is characterized by the degeneration of postganglionic autonomic neurons, resulting in widespread autonomic dysfunction that spares sensorimotor and cognitive functions. The hallmark feature is neurogenic , defined as a sustained reduction in systolic of at least 20 mm Hg or diastolic of 10 mm Hg within three minutes of standing, often accompanied by evidence of more generalized autonomic impairment. A key pathological characteristic of PAF is the accumulation of protein in the form of Lewy bodies within autonomic ganglia and peripheral nerves, distinguishing it as a peripheral . This deposition occurs predominantly in structures such as the , epicardial fat, and adrenal glands, leading to noradrenergic denervation without early neuronal loss in central structures. Unlike central , PAF typically presents in midlife or later as an idiopathic, sporadic condition with slow progression and preservation of extrapyramidal, cerebellar, and cognitive domains, though some patients may develop rapid eye movement sleep behavior disorder. PAF is classified as a form of primary chronic autonomic failure within the spectrum of alpha-synucleinopathies, but it remains "pure" in most cases, without progression to central neurodegenerative disorders such as or . While approximately 24% of patients may phenoconvert to these conditions over time—typically to within about three years or to within eight years—the majority maintain a peripheral-limited . This distinction underscores PAF's unique profile among autonomic disorders, emphasizing its idiopathic nature and lack of identifiable secondary causes.

Epidemiology

Pure autonomic failure (PAF) is a rare neurodegenerative disorder, with estimates varying due to limited epidemiological data and challenges in . European estimates range from 1 to 9 cases per 1,000,000 (or 0.1 to 0.9 per 100,000). The condition is often underdiagnosed because its initial symptoms, such as , can mimic more common age-related complaints or other cardiovascular issues. Demographically, PAF typically manifests in middle to late adulthood, with onset commonly occurring after age 60, though cases have been documented as early as the 40s. It exhibits a slight male predominance, affecting approximately 70% of diagnosed individuals. The disorder is sporadic, with no established racial, ethnic, or geographic biases influencing its occurrence, though most reported cases originate from Western populations due to higher diagnostic awareness and access to specialized autonomic testing. PAF follows a slow, progressive course spanning decades, characterized by gradual worsening of autonomic dysfunction without initial involvement. Longitudinal studies indicate that 12-34% of patients may phenoconvert to other α-synucleinopathies, such as , , or , over periods exceeding 10 years, with predictors including REM sleep behavior disorder and urinary dysfunction. A 2025 UK cohort study of 281 patients followed for a median of 10 years reported a phenoconversion rate of 33%.

Clinical features

Signs and symptoms

Pure autonomic failure (PAF) primarily manifests through dysfunction in the , with as the hallmark symptom, characterized by a sustained drop in systolic of at least 20 mm or diastolic of at least 10 mm within three minutes of standing from a . This leads to symptoms such as , , presyncope, or syncope upon postural changes, often resulting in falls, particularly in the morning, after meals, during exercise, or in warm environments. In advanced stages, approximately 50% of patients develop supine hypertension, with systolic exceeding 140 mm or diastolic exceeding 90 mm while lying down, which can contribute to further cardiovascular strain. Beyond cardiovascular effects, PAF involves widespread autonomic impairments, including anhidrosis or reduced sweating, which causes and compensatory in some areas, affecting about 50% of patients. Genitourinary symptoms are common, with urinary urgency, frequency, retention, or incontinence reported in around 50% of cases, alongside in up to 65% of affected males, often appearing early in the disease course. Gastrointestinal involvement manifests as in over 50% of individuals, sometimes severe enough to require intervention, while sicca symptoms like dry eyes and mouth, along with from pupillary abnormalities, further impair daily function. Additionally, behavior disorder occurs in about 72% of patients, leading to dream enactment behaviors. Notably, PAF spares non-autonomic functions, with no significant motor deficits, cognitive impairments, or sensory losses, distinguishing it from other synucleinopathies like or . Symptoms typically worsen with triggers such as heat exposure, postprandial states, or physical exertion, and patients often experience chronic fatigue and reduced exercise tolerance due to limited cardiovascular reserve. The condition has a gradual onset, typically in the fifth or sixth decade of life, with symptoms progressing slowly over years to decades and fluctuating in severity based on posture and environmental factors.

Differential diagnosis

Pure autonomic failure (PAF) must be differentiated from other disorders presenting with and autonomic dysfunction, as these symptoms overlap with several neurodegenerative and secondary conditions. Key differentials include (MSA), (PD) with autonomic features, and secondary autonomic failure due to systemic diseases such as diabetes mellitus or . In MSA, a central synucleinopathy, patients exhibit rapid progression with prominent , , or corticospinal signs alongside autonomic failure, contrasting with the peripheral, insidious onset and lack of involvement in PAF. Similarly, often features motor symptoms like , rigidity, and bradykinesia early in the course, which are absent in PAF, although autonomic dysfunction can precede motor signs in some cases; , such as MRI, typically shows abnormalities in and advanced but remains normal in PAF. Secondary autonomic failure from involves small-fiber neuropathy due to chronic , often with sensory symptoms and elevated blood glucose, while presents with protein deposits causing multisystem involvement beyond the . Distinguishing PAF requires excluding these through clinical history, laboratory tests for underlying causes (e.g., HbA1c for , serum amyloid protein for ), and autonomic function testing showing isolated postganglionic sympathetic denervation without central or sensory deficits. Other considerations include acute pandysautonomia, which has a subacute onset with widespread autonomic and sometimes sensory involvement, unlike the chronic, purely autonomic profile of PAF, and non-neurodegenerative causes of such as medication effects (e.g., antihypertensives) or volume depletion from , which resolve with correction of the precipitant. Rare genetic disorders like (HSAN) may mimic PAF but typically include congenital onset, sensory loss, and identifiable mutations (e.g., in SCN9A or ELP1 genes), necessitating for differentiation. Diagnostic challenges arise because early PAF can resemble benign orthostatic intolerance syndromes, such as (POTS), where heart rate increases excessively without , or initial presentations of synucleinopathies before motor features emerge. Long-term follow-up is essential, as up to 34% of PAF cases may phenoconvert to with Lewy bodies, or within 4 years. More recent multicenter studies (as of 2024) report an annual phenoconversion risk of approximately 12%, with distribution to (42%), (35%), and (23%), and median time from PAF onset of 7 years, guided by serial clinical assessments and biomarkers like for deposits or cerebrospinal fluid analysis.

Pathophysiology

Underlying pathology

Pure autonomic failure (PAF) is characterized by progressive neurodegeneration primarily affecting postganglionic autonomic neurons in the peripheral . This involves significant loss of neurons in key autonomic structures, such as the sympathetic chain ganglia, paravertebral and prevertebral , and the enteric plexus of the . Intraneural inclusions composed of aggregated protein, forming Lewy bodies, are a defining feature observed in these peripheral autonomic ganglia and nerves. These Lewy bodies consist of misfolded filaments, which accumulate in the neuronal cytoplasm and disrupt normal cellular function. The pathology in PAF demonstrates marked autonomic selectivity, with predominant involvement of the sympathetic nervous system leading to denervation of target organs like the heart and blood vessels. Parasympathetic and enteric systems are affected later in the disease course, contributing to symptoms such as gastrointestinal dysmotility, though central nervous system structures like the brainstem and cortex remain spared from significant Lewy pathology. This peripheral restriction distinguishes PAF from other synucleinopathies, where central involvement is more prominent. Pathological hallmarks include axonal degeneration of autonomic nerves without evidence of inflammation or immune-mediated damage. misfolding serves as a central event, initiating that propagates along axons and leads to neuronal dysfunction and loss, akin to mechanisms in and . While most cases exhibit these synuclein inclusions, rare instances of PAF without detectable pathology have been reported, suggesting potential heterogeneity. Studies from the have reinforced the concept of PAF as a peripheral-restricted , with aggregates confirmed in cutaneous autonomic nerves via biopsies, aiding pathological correlation. Emerging evidence points to a potential prion-like spread of misfolded confined to autonomic nerves, which may underlie disease progression and occasional phenoconversion to more widespread in a subset of patients.

Etiology and risk factors

Pure autonomic failure (PAF) is considered an idiopathic neurodegenerative disorder characterized by the progressive accumulation of protein in the peripheral , particularly in and postganglionic neurons, without identifiable infectious or toxic precipitants. This aggregation forms Lewy bodies, leading to selective neuronal loss in autonomic structures, distinguishing PAF as a primary rather than a secondary autonomic failure syndrome. The strongest for PAF is advanced age, with typical onset occurring after age 50, reflecting the disorder's predilection for older adults; as of 2025, a slight predominance is also confirmed as a demographic . PAF is sporadic, with no definitive genetic established. Environmental exposures, such as pesticides, have been hypothesized as potential contributors based on associations in broader synucleinopathies like , but direct evidence implicating them in PAF remains unproven. Unlike secondary autonomic failures, PAF shows no robust associations with vascular diseases or autoimmune processes, which are more characteristic of conditions like or paraneoplastic syndromes. This lack of non-neurodegenerative contributors underscores PAF's distinction as a pure, primary of autonomic neurodegeneration. Recent investigations into emerging factors, such as gut microbiome alterations or viral triggers in synucleinopathies, have been proposed (2023–2025), but evidence specific to PAF remains inconclusive and requires further validation.

Diagnosis

Clinical evaluation

The clinical evaluation of pure autonomic failure (PAF) begins with a detailed history to identify the onset and progression of autonomic symptoms, such as orthostatic , syncope, , , or anhidrosis, typically developing insidiously in without a familial pattern. The history also emphasizes excluding secondary causes, including recent infections, use (e.g., antihypertensives or diuretics), , or systemic conditions like or , as these can mimic PAF symptoms. Family history is assessed to rule out hereditary autonomic disorders, though PAF is characteristically sporadic. Physical examination focuses on confirming orthostatic hypotension, defined as a sustained drop in systolic of at least 20 mm Hg or diastolic of at least 10 mm Hg within three minutes of standing from a after at least five minutes of rest. A comprehensive neurological is performed to verify the absence of involvement, such as , , , or , which would suggest alternative diagnoses like . Emerging evidence as of 2025 suggests subtle central involvement in some cases, necessitating ongoing monitoring. Cardiovascular and general exams help exclude cardiac arrhythmias or structural heart disease contributing to symptoms. Initial laboratory investigations include basic blood tests to identify treatable mimics, such as for , serum electrolytes and glucose for imbalances, renal function tests, liver enzymes, , and levels to rule out endocrine or nutritional deficiencies. electrophoresis may be considered to exclude paraproteinemic neuropathies. These tests aim to eliminate secondary autonomic failure without delving into specialized autonomic assays. Diagnosis aligns with the 1996 consensus criteria from the American Autonomic Society and American Academy of Neurology, requiring documented neurogenic orthostatic hypotension with evidence of additional autonomic involvement (e.g., sudomotor or gastrointestinal dysfunction) and absence of other neurological signs, after excluding secondary etiologies. Recent refinements, such as the 2022 Movement Disorder Society criteria for multiple system atrophy, enhance specificity by better delineating PAF through exclusion of parkinsonian features. A provisional PAF diagnosis may be made early, but confirmation often requires observation for at least five years to ensure stability without progression to central synucleinopathies.

Autonomic testing

Autonomic testing plays a crucial role in confirming autonomic dysfunction in pure autonomic failure (PAF), particularly by demonstrating neurogenic and widespread sympathetic impairment. Tilt-table testing is considered the gold standard for evaluating , involving a head-up tilt to 60-80 degrees for 3-45 minutes (with the diagnostic drop assessed within 3 minutes of tilting) while continuously monitoring and responses. A diagnostic threshold for neurogenic is a sustained systolic drop of 20 mmHg or more (or diastolic drop of 10 mmHg or more) without an appropriate compensatory increase, often accompanied by hypertension. This test not only confirms the diagnosis but also supports early detection as outlined in recent guidelines for synucleinopathies. Additional autonomic function tests assess , adrenergic, and other systems to characterize the extent of failure. The quantitative sudomotor axon reflex test (QSART) evaluates postganglionic function by measuring sweat output in response to of , with reduced sweat volumes indicating anhidrosis typical in PAF. norepinephrine levels provide evidence of sympathetic , showing low supine concentrations (typically <100 pg/mL) and failure to rise appropriately upon standing, distinguishing PAF from conditions with preserved function. Gastrointestinal motility studies, such as or manometry, reveal delayed gastric emptying and colonic transit, reflecting involvement, though these are supportive rather than primary diagnostic tools. Advanced imaging and biopsy techniques further support the diagnosis by visualizing sympathetic denervation and pathology. Iodine-123-meta-iodobenzylguanidine (123I-MIBG) demonstrates reduced cardiac uptake and enhanced washout, indicating postganglionic sympathetic in the heart, which helps differentiate PAF from non-synucleinopathic autonomic disorders. assesses intraepidermal nerve fiber density, often showing reduction, and detects phosphorylated deposits in cutaneous nerves, with high sensitivity (over 90%) for synucleinopathies including PAF as validated in recent studies. These tests collectively confirm peripheral autonomic failure while excluding central involvement.

Management

Treatment approaches

The management of pure autonomic failure (PAF) focuses on symptomatic relief, particularly for (OH), as no disease-modifying therapies are currently available. Non-pharmacological interventions form the foundation of treatment and are recommended for all patients to minimize symptoms and improve . These include increasing salt and fluid intake to expand intravascular volume, wearing or abdominal binders to reduce venous pooling in the lower extremities, elevating the head of the bed by 4-6 inches to mitigate supine hypertension, and performing slow positional changes to avoid sudden drops. Lifestyle modifications, such as consuming small frequent meals to prevent postprandial hypotension and avoiding environmental triggers like hot weather or prolonged standing, are also essential. Pharmacological treatments target OH and associated symptoms when non-drug measures are insufficient. Midodrine, an , is commonly used to promote and raise standing , typically dosed 2.5-10 mg three times daily, though it should be avoided in the evening to prevent supine hypertension. , a , expands plasma volume by enhancing sodium retention, administered at 0.1-0.2 mg daily, but requires monitoring for and . For neurogenic OH, , a norepinephrine precursor, improves symptoms by increasing endogenous catecholamines, with doses up to 600 mg three times daily. , an , may benefit milder cases by enhancing ganglionic transmission, potentially alleviating OH while also aiding and impaired sweating, at doses of 30-60 mg. Additional agents like or can address postprandial by slowing gastrointestinal absorption. Other autonomic symptoms are managed supportively. For gastrointestinal issues such as , a high-fiber diet combined with stool softeners or laxatives is advised, while severe cases may require enemas. Urinary dysfunction, including retention or incontinence, can be treated with for retention or anticholinergics like for ; persistent issues may necessitate intermittent catheterization. If occurs, injections provide targeted relief, though anhidrosis is more common in PAF. Supine hypertension, a frequent complication, is monitored closely and managed with short-acting antihypertensives such as or at bedtime. A multidisciplinary approach enhances outcomes by addressing the full spectrum of symptoms. Physical therapy focuses on balance training and fall prevention exercises to counteract OH-related risks. Urological consultation is recommended for refractory bladder problems, and regular cardiovascular monitoring helps balance OH and supine hypertension. Emerging therapies targeting the underlying alpha-synuclein pathology, such as inhibitors in early-phase trials for synucleinopathies, show promise but remain unapproved for PAF as of 2025, with supportive care continuing as the mainstay.

Prognosis and complications

Pure autonomic failure (PAF) typically follows a slowly progressive course, with autonomic dysfunction worsening gradually over years while most patients retain the "pure" without progression to involvement. In a longitudinal of 271 patients followed for up to 37 years, 74% maintained the PAF diagnosis, with symptoms such as and dysfunction appearing first, followed by , syncope, and late urinary issues. The disease remains stable in many cases, contrasting with more rapid deterioration seen in related synucleinopathies like . Median survival post-diagnosis ranges from 10 to 20 years, with recent studies reporting 12.5 years (range 5.1-15.9) in one and 15 years from orthostatic symptom onset in another large series. Mortality affects approximately 43% of patients over long-term follow-up, primarily due to cardiovascular events linked to supine hypertension and . In these , survival is influenced by age at onset and severity of autonomic failure, with better in isolated PAF compared to cases evolving to other synucleinopathies. Key complications include falls and fractures resulting from recurrent syncope due to neurogenic , as well as renal impairment from chronic hypoperfusion and supine . A subset of patients—13% to 34% across longitudinal studies—may phenoconvert to or , often after 4 to 10 years, marked by emerging motor or cognitive symptoms. is substantially impaired by persistent orthostatic symptoms, genitourinary dysfunction, and activity limitations, with about half of patients experiencing mild dependence in daily activities, particularly urinary control; however, the absence of a cure emphasizes ongoing symptom management to mitigate these effects. 2024-2025 cohort analyses highlight improved long-term outcomes with early recognition, underscoring the importance of monitoring for progression.

History and nomenclature

Historical development

Pure autonomic failure (PAF) was first described in 1925 by Bradbury and Cary Eggleston, who reported three cases of severe in middle-aged patients without evidence of involvement or other neurological deficits.90007-5) These patients exhibited profound drops in upon standing, accompanied by syncope, anhidrosis, and a fixed , leading to the initial characterization of the condition as idiopathic postural hypotension, later termed Bradbury-Eggleston syndrome.90007-5) Early observations focused primarily on the hemodynamic instability and lack of compensatory , highlighting the peripheral nature of the autonomic dysfunction. In the mid-20th century, further studies began to delineate PAF from more complex neurodegenerative disorders. In 1960, G Milton Shy and Glenn A Drager described a involving alongside parkinsonian features and , which was initially linked to central autonomic degeneration and later reclassified as (). Subsequent work in the 1960s and 1970s, including Roger Bannister's 1967 study of patients with isolated autonomic failure, emphasized selective degeneration of peripheral sympathetic fibers without central pathology, supporting PAF as a distinct entity. This distinction was formalized in the 1996 consensus statement by the American Autonomic Society and American Academy of Neurology, which defined PAF as an idiopathic, sporadic disorder characterized by neurogenic with evidence of widespread autonomic failure but absent . The modern understanding of PAF advanced in the late 1990s and early 2000s with the identification of pathology. In 2001, and colleagues reported the accumulation of aggregates in autonomic nerves and ganglia of PAF patients, establishing it as a peripheral akin to and . Longitudinal cohort studies in the , such as the 2017 prospective analysis by et al. involving 137 patients, clarified the slowly progressive, predominantly peripheral nature of the disease, with most individuals remaining free of central features over follow-up periods averaging 10 years, though a subset phenoconverted to conditions like . Recent milestones from 2023 to 2025 have focused on peripheral biomarkers to aid early and monitoring. Studies have validated cutaneous phosphorylated detection via as a sensitive, specific for PAF, distinguishing it from non-synucleinopathic autonomic failures with over 90% accuracy in cohort validations. Multimodal autonomic assessments, including fiber density and imaging, have been integrated into updated classifications in society guidelines and reviews, refining diagnostic criteria to emphasize -supported identification of peripheral synuclein deposition.

Eponyms and terminology

Pure autonomic failure (PAF) is eponymously known as Bradbury-Eggleston syndrome, after the 1925 report by Samuel Bradbury and Cary Eggleston describing three cases of severe postural hypotension without identifiable cause. This early description highlighted the condition's hallmark orthostatic symptoms and lack of central nervous system involvement, laying the foundation for its recognition as a distinct entity. The syndrome was also termed idiopathic autonomic failure or idiopathic orthostatic hypotension in subsequent decades, reflecting its unknown etiology and primary manifestation of blood pressure instability upon standing. The terminology evolved in the mid-20th century as research distinguished peripheral autonomic degeneration from multisystem neurodegenerative disorders. Initially labeled progressive autonomic failure to emphasize its gradual onset and worsening, the condition was reclassified in the 1970s by , who coined "pure autonomic failure" to underscore its restriction to the peripheral , sparing central structures unlike or with autonomic features.30257-1/fulltext) This naming shift addressed diagnostic overlaps and highlighted the absence of or , facilitating clearer clinical differentiation. Under contemporary nomenclature, "pure autonomic failure" remains the preferred term, as affirmed in expert reviews and consensus guidelines from autonomic societies, avoiding ambiguity with broader syndromes like Bradbury-Eggleston . PAF is classified as a subtype of chronic autonomic failure, characterized by selective, progressive degeneration of autonomic ganglia and postganglionic fibers, and is explicitly distinguished from acute pan-autonomic failure syndromes involving widespread, often immune-mediated disruption of both sympathetic and parasympathetic systems. This standardized terminology supports precise diagnostic criteria and research into its pathology.