Autonomic dysfunction following COVID-19 infection: an early experience.

PURPOSE: Post-COVID-19 syndrome is a poorly understood aspect of the current pandemic, with clinical features that overlap with symptoms of autonomic/small fiber dysfunction. An early systematic analysis of autonomic dysfunction following COVID-19 is lacking and may provide initial insights into the spectrum of this condition. METHODS: We conducted a retrospective review of all patients with confirmed history of COVID-19 infection referred for autonomic testing for symptoms concerning for para-/postinfectious autonomic dysfunction at Mayo Clinic Rochester or Jacksonville between March 2020 and January 2021. RESULTS: We identified 27 patients fulfilling the search criteria. Symptoms developed between 0 and 122 days following the acute infection and included lightheadedness (93%), orthostatic headache (22%), syncope (11%), hyperhidrosis (11%), and burning pain (11%). Sudomotor function was abnormal in 36%, cardiovagal function in 27%, and cardiovascular adrenergic function in 7%. The most common clinical scenario was orthostatic symptoms without tachycardia or hypotension (41%); 22% of patients fulfilled the criteria for postural tachycardia syndrome (POTS), and 11% had borderline findings to support orthostatic intolerance. One patient each was diagnosed with autoimmune autonomic ganglionopathy, inappropriate sinus tachycardia, vasodepressor syncope, cough/vasovagal syncope, exacerbation of preexisting orthostatic hypotension, exacerbation of sensory and autonomic neuropathy, and exacerbation of small fiber neuropathy. CONCLUSION: Abnormalities on autonomic testing were seen in the majority of patients but were mild in most cases. The most common finding was orthostatic intolerance, often without objective hemodynamic abnormalities on testing. Unmasking/exacerbation of preexisting conditions was seen. The temporal association between infection and autonomic symptoms implies a causal relationship, which however cannot be proven by this study.

Dermal and cardiac autonomic fiber involvement in Parkinson's disease and multiple system atrophy.

Pathological aggregates of alpha-synuclein in peripheral dermal nerve fibers can be detected in patients with idiopathic Parkinson's disease and multiple system atrophy. This study combines skin biopsy staining for p-alpha-synuclein depositions and radionuclide imaging of the heart with [123I]-metaiodobenzylguanidine to explore peripheral denervation in both diseases. To this purpose, 42 patients with a clinical diagnosis of Parkinson's disease or multiple system atrophy were enrolled. All patients underwent a standardized clinical work-up including neurological evaluation, neurography, and blood samples. Skin biopsies were obtained from the distal and proximal leg, back, and neck for immunofluorescence double labeling with anti-p-alpha-synuclein and anti-PGP9.5. All patients underwent myocardial [123I]-metaiodobenzylguanidine scintigraphy. Dermal p-alpha-synuclein was observed in 47.6% of Parkinson's disease patients and was mainly found in autonomic structures. 81.0% of multiple system atrophy patients had deposits with most of cases in somatosensory fibers. The [123I]-metaiodobenzylguanidine heart-to-mediastinum ratio was lower in Parkinson's disease than in multiple system atrophy patients (1.94 ± 0.63 vs. 2.91 ± 0.96; p < 0.0001). Irrespective of the diagnosis, uptake was lower in patients with than without p-alpha-synuclein in autonomic structures (1.42 ± 0.51 vs. 2.74 ± 0.83; p < 0.0001). Rare cases of Parkinson's disease with p-alpha-synuclein in somatosensory fibers and multiple system atrophy patients with deposits in autonomic structures or both fiber types presented with clinically overlapping features. In conclusion, this study suggests that alpha-synuclein contributes to peripheral neurodegeneration and mediates the impairment of cardiac sympathetic neurons in patients with synucleinopathies. Furthermore, it indicates that Parkinson's disease and multiple system atrophy share pathophysiologic mechanisms of peripheral nervous system dysfunction with a clinical overlap.

Post-ganglionic autonomic neuropathy associated with anti-glutamic acid decarboxylase antibodies.

PURPOSE: Antibodies to glutamic acid decarboxylase (GAD-Abs) have been associated with several conditions, rarely involving the autonomic nervous system. Here, we describe two patients complaining of autonomic symptoms in whom a post-ganglionic autonomic neuropathy has been demonstrated in association with significantly elevated serum and CSF GAD-Abs levels. METHODS: Patients underwent nerve conduction studies, sympathetic skin response testing, evaluation of autonomic control of the cardiovascular system and skin biopsy. Also, serum screening to exclude predisposing causes of peripheral neuropathy was performed. Anti-GAD65 antibodies were evaluated in serum and CSF. RESULTS: GAD-Abs titer was increased in both serum and CSF in both patients. Sympathetic skin response was absent and skin biopsy revealed a non-length-dependent small-fiber neuropathy with sympathetic cholinergic and adrenergic post-ganglionic damage in both patients. Nerve conduction studies and evaluation of autonomic control of the cardiovascular system were normal in both patients. Both patients were treated with steroids with good, but partial, (patient 2) recovery of the autonomic dysfunctions. CONCLUSIONS: Although the pathophysiological mechanisms involved are not fully defined, GAD-abs positivity in serum and CSF should be searched in patients with autonomic neuropathy when no other acquired causes are evident. This positivity may help to clarify autoimmune etiology and, subsequently, to consider immunomodulatory treatment.

Cardiac sympathetic denervation in 6-OHDA-treated nonhuman primates.

Cardiac sympathetic neurodegeneration and dysautonomia affect patients with sporadic and familial Parkinson's disease (PD) and are currently proposed as prodromal signs of PD. We have recently developed a nonhuman primate model of cardiac dysautonomia by iv 6-hydroxydopamine (6-OHDA). Our in vivo findings included decreased cardiac uptake of a sympathetic radioligand and circulating catecholamines; here we report the postmortem characterization of the model. Ten adult rhesus monkeys (5-17 yrs old) were used in this study. Five animals received 6-OHDA (50 mg/kg i.v.) and five were age-matched controls. Three months post-neurotoxin the animals were euthanized; hearts and adrenal glands were processed for immunohistochemistry. Quantification of immunoreactivity (ir) of stainings was performed by an investigator blind to the treatment group using NIH ImageJ software (for cardiac bundles and adrenals, area above threshold and optical density) and MBF StereoInvestigator (for cardiac fibers, area fraction fractionator probe). Sympathetic cardiac nerve bundle analysis and fiber area density showed a significant reduction in global cardiac tyrosine hydroxylase-ir (TH; catecholaminergic marker) in 6-OHDA animals compared to controls. Quantification of protein gene protein 9.5 (pan-neuronal marker) positive cardiac fibers showed a significant deficit in 6-OHDA monkeys compared to controls and correlated with TH-ir fiber area. Semi-quantitative evaluation of human leukocyte antigen-ir (inflammatory marker) and nitrotyrosine-ir (oxidative stress marker) did not show significant changes 3 months post-neurotoxin. Cardiac nerve bundle α-synuclein-ir (presynaptic protein) was reduced (trend) in 6-OHDA treated monkeys; insoluble proteinase-K resistant α-synuclein (typical of PD pathology) was not observed. In the adrenal medulla, 6-OHDA monkeys had significantly reduced TH-ir and aminoacid decarboxylase-ir. Our results confirm that systemic 6-OHDA dosing to nonhuman primates induces cardiac sympathetic neurodegeneration and loss of catecholaminergic enzymes in the adrenal medulla, and suggests that this model can be used as a platform to evaluate disease-modifying strategies aiming to induce peripheral neuroprotection.

Postganglionic sudomotor denervation in patients with multiple system atrophy.

OBJECTIVE: To evaluate postganglionic autonomic involvement in multiple system atrophy (MSA). METHODS: We quantified sudomotor innervation in skin biopsy of 29 patients with MSA (19 male and 10 female; age 60.0 ± 7.7 years) and 29 age- and sex-matched healthy subjects. Samples were obtained from thigh and leg and, in 20 out of the 29 cases, also from fingertip. Dysautonomic complaints were evaluated by SCOPA-AUT, a self-administered questionnaire. Sudomotor function was evaluated in a subgroup of patients by the silastic imprint test. Skin samples were processed by indirect immunofluorescence using pan-neuronal and selective cholinergic markers. Total length of sudomotor nerves was measured on digital confocal images using a semiautomated morphometric approach. RESULTS: Measurements of sudomotor nerve density (total length of nerve per volume of glandular tissue) favorably correlated to values obtained using a stereologic unbiased method. Sudomotor nerve density was lower in patients compared to controls in all the examined sites (0.9 ± 0.2 vs 1.9 ± 0.4 nm/µm(3), p < 0.001, in fingertip; 0.7 ± 0.2 vs 1.9 ± 0.5 nm/µm(3), p < 0.001, in thigh; 0.6 ± 0.2 vs 1.8 ± 0.4 nm/µm(3), p < 0.001, in leg). CONCLUSIONS: Our data support the hypothesis that postganglionic impairment occurs in MSA and may contribute with the coexisting degeneration of central structures to the development of dysautonomic disorders in this condition.

Neuroplastic changes occur early in the development of pancreatic ductal adenocarcinoma.

Perineural tumor invasion of intrapancreatic nerves, neurogenic inflammation, and tumor metastases along extrapancreatic nerves are key features of pancreatic malignancies. Animal studies show that chronic pancreatic inflammation produces hypertrophy and hypersensitivity of pancreatic afferents and that sensory fibers may themselves drive inflammation via neurogenic mechanisms. Although genetic mutations are required for cancer development, inflammation has been shown to be a precipitating event that can accelerate the transition of precancerous lesions to cancer. These observations led us to hypothesize that inflammation that accompanies early phases of pancreatic ductal adenocarcinoma (PDAC) would produce pathologic changes in pancreatic neurons and innervation. Using a lineage-labeled genetically engineered mouse model of PDAC, we found that pancreatic neurotrophic factor mRNA expression and sensory innervation increased dramatically when only pancreatic intraepithelial neoplasia were apparent. These changes correlated with pain-related decreases in exploratory behavior and increased expression of nociceptive genes in sensory ganglia. At later stages, cells of pancreatic origin could be found in the celiac and sensory ganglia along with metastases to the spinal cord. These results demonstrate that the nervous system participates in all stages of PDAC, including those that precede the appearance of cancer.

The increase in sympathetic nerve density in the atrium facilitates atrial fibrillation in patients with rheumatic heart disease.

BACKGROUND: Atrial fibrillation (Af) is frequently observed in patients with rheumatic heart disease (RHD). The hyperactivity of autonomic nervous system is known to contribute to the occurrence of Af in RHD patients. This study investigated the association between the autonomic density and the risk of Af in RHD patients. METHODS: Seventy-five patients were enrolled: (1) RHD patients with Af (N = 25, Group 1); (2) RHD patients without Af (N = 25, Group 2); (3) congenital heart disease patients without Af (N = 25, Group 3). The baseline characteristics and the blood concentrations of renin, C-reaction protein and angiotensin II were collected from all patients. The tissues were obtained from the right atrial appendage during the open-heart surgery and then stained using immunohistochemical methods with autonomic antibodies. RESULTS: The sympathetic nerve density was significantly higher in RHD patients with Af than RHD patients without Af and congenital heart disease patients, both endocardially and epicardially. The parasympathetic nerve density did not show significant difference among the three groups. The left atrial diameter was larger in RHD patients with Af than the other two groups. The blood concentrations of renin and angiotensin II were higher in RHD patients with Af than the other two groups. The erythrocyte sedimentation rate and blood concentrations of C-reaction protein did not show significant change among the three groups. CONCLUSION: This study provided direct evidence of the increase in sympathetic nerve density in atrium in patients with RHD. This phenomenon may be associated with the development of Af in RHD patients.

Cytologic alterations in nasal mucosa after sphenopalatine artery ligation in patients with vasomotor rhinitis.

BACKGROUND: Vasomotor rhinitis (VR) seems to be related to an imbalance between cholinergic and adrenergic activity in the autonomic nervous system. The nerve fibers of the sympathetic and parasympathetic nervous systems reach the nose through the posterior nasal nerve, which, after crossing the sphenopalatine foramen, distributes to the mucosa following the branches of the sphenopalatine vessels. This study was designed to evaluate the effect of sphenopalatine artery ligation on nasal function and nasal cytology in patients with VR. METHODS: Thirty patients with VR and bilateral inferior turbinate hypertrophy (ITH) were randomly assigned to receive endoscopic inferior turbinoplasty either with or without sphenopalatine artery ligation. Pre- (baseline) and postsurgical (1-year follow-up) assessment included fiber endoscopy, active anterior rhinomanometry, measurement of mucociliary transport time (MTt), and nasal cytology examination. RESULTS: At 1-year follow-up there was a statistically significant improvement in nasal resistances in both groups but not on intergroup comparison; MTt significantly decreased in both groups (p < 0.01) and was significantly better (p < 0.05) in the group that had undergone sphenopalatine artery ligation. Among the patients in this group, significantly fewer were found to have altered ciliated cells (p < 0.005) or a hyperchromatic supranuclear stria (p < 0.005) on nasal cytology; the differences were statistically significant also on intergroup comparison (p < 0.005 and p < 0.001, respectively). CONCLUSION: In patients with vasomotor rhinopathy and ITH, improvement in symptoms, nasal resistance, ciliated cell trophism, and MTt was observed after sphenopalatine artery ligation.

Autonomic innervation in multiple system atrophy and pure autonomic failure.

BACKGROUND: Pure autonomic failure (PAF) and multiple system atrophy (MSA) are both characterised by chronic dysautonomia although presenting different disability and prognosis. Skin autonomic function evaluation by indirect tests has revealed conflicting results in these disorders. Here, the authors report the first direct analysis of skin sympathetic fibres including structure and function in PAF and MSA to ascertain different underlying autonomic lesion sites which may help differentiate between the two conditions. METHODS: The authors studied eight patients with probable MSA (mean age 60±5 years) and nine patients fulfilling diagnostic criteria for PAF (64±8 years). They underwent head-up tilt test (HUTT), extensive microneurographic search for muscle and skin sympathetic nerve activities from peroneal nerve and punch skin biopsies from finger, thigh and leg to evaluate cholinergic and adrenergic autonomic dermal annexes innervation graded by a semiquantitative score presenting a high level of reliability. RESULTS: MSA and PAF patients presented a comparable neurogenic orthostatic hypotension during HUTT and high failure rate of microneurographic trials to record sympathetic nerve activity, suggesting a similar extent of chronic dysautonomia. In contrast, they presented different skin autonomic innervation in the immunofluorescence analysis. MSA patients showed a generally preserved skin autonomic innervation with a significantly higher score than PAF patients showing a marked postganglionic sympathetic denervation. In MSA patients with a long disease duration, morphological abnormalities and/or a slightly decreased autonomic score could be found in the leg reflecting a mild postganglionic involvement. CONCLUSION: Autonomic innervation study of skin annexes is a reliable method which may help differentiate MSA from PAF.

The fascination of complex regional pain syndrome.

Complex regional pain syndrome (CRPS) is a pain disorder involving the somatosensory, the somatomotor and the sympathetic nervous systems. Based on experiments conducted by Bove (2009), it is suggested that changes in impulse activity in small-diameter afferents and postganglionic axons generated by neuritis can contribute to signs of early CRPS. The potential mechanisms involved are discussed. These mechanisms include the possibility that CRPS, a disorder of the central nervous system, may be caused by a nerve inflammation.

[Changes of the nerve fibers innervating the minor salivary glands in Sjögren syndrome]. / A kis nyálmirigyek beidegzésében résztvevó idegelemek változása Sjögren-szindrómában.

INTRODUCTION: A large number of nerve fibres containing different neuropeptides/transmitters are also found in the salivary glands. The number and the distribution of nerve fibres is altered in many diseases, including in Sjögren's syndrome. AIM: Therefore in the present study the distribution and precise localisation of the nerve fibres containing the frequently observed neuropeptides were studied in the minor salivary glands. METHODS: Vasoactive intestinal polypeptide, neuropeptide Y, substance P, calcitonin gene-related peptide, somatostatin, nitric oxide synthase and tyrosine beta-hydroxylase antibodies were used as primary antisera, and then by the aid of avidin-biotin-peroxidase complex method the immunoreactive fibers in human labial glands (control and with Sjögren's syndrome) and in minor glands of the root of the rat's tongue were detected. RESULTS: Large number of vasoactive intestinal polypeptide and nitric oxide synthase immunoreactive nerve fibres were seen around the acini. The neuropeptide Y and tyrosine beta-hydroxylase positive nerve fibres were mainly found around the blood vessels. Some of the IR fibers were also found around the excretory ducts. In the biopsy of patients with Sjögren's syndrome, the acini were destroyed and only few excretory ducts were seen. The number of the nerve fibres was significantly decreased and many degenerated fibres were also observed among the acini. The electron-microscopic examinations showed that the immunoreactive nerve fibres were in close association to the secretory cells, to the smooth muscle cells of blood vessels and to the immunocells. The synaptic gap between the nerve fibres and the target cells were 40-200 nm. CONCLUSIONS: On the bases of the distribution of the different transmitters containing nerve fibres and their relationship to effector cells, the authors suppose that these transmitters control the function of the gland and regulate the blood flow. The close association to immunocells and decreasing the nerve fibres in Sjögren's syndrome imply that they may have also a role in the neuroimmunologic processes.

Pure progressive autonomic failure: a clinicopathological study.

Two cases of pure progressive autonomic failure (PAF) are presented. A postmortem study of one case (case 2) showed a pathology resembling that of Parkinson's disease. Marked cell loss was noted in the substantia nigra, nucleus ceruleus, and intermediolateral column of the spinal cord, while cell loss in the sympathetic ganglion was not remarkable. This case may be an exceptionally rare case of late-onset PAF in which autonomic failure was mainly ascribed to preganglionic (and central) pathology, although autonomic function tests suggested postganglionic sympathetic disorder in both cases.

Quantitative study of neuronal degeneration induced by Ricinus toxin and crush of postganglionic nerves in the ciliary ganglion of quail.

The effects of Ricinus toxin on the neurons of the ciliary ganglia were investigated in the quail. The neuronal death and the morphological alterations of the ganglionic cells were assessed following injection of the toxin in the anterior chamber of the eye or after application of the toxin on the postganglionic nerves at a crush site. A 45% loss of choroid neurons without loss of ciliary neurons was observed after postganglionic nerve crush alone. Injection of the toxin in the anterior chamber of the eye led to a selective loss of ciliary neurons (38%). Application of the toxin to the crushed postganglionic nerves led to a loss from both neuronal populations (40% of total neurons). This work indicates that different procedures result in selective lesion of the different neuronal populations in the ciliary ganglion.

Axonal degeneration of the peripheral nerves and postganglionic anhidrosis in a patient with multiple sclerosis.

A 36-year-old woman had, since the age of 24, numerous episodes of visual loss and spinal symptoms and signs at various levels, and was diagnosed as multiple sclerosis(MS). CSF myelin-basic-protein was increased. Neurological and electrophysiological investigations suggested the peripheral nerve involvement. Sural nerve biopsy performed about six years after the onset, revealed severe loss of both myelinated and unmyelinated fibers. Subsequently, histamine skin reaction was defective in the lower limbs. Tests on sudomotor and pupillary functions indicated deficits of both central and postganglionic sympathetic systems. Though we could not detect causative factors for the peripheral nerve lesions, our patient appears to be the first documented case of MS associated with axonal degeneration of the peripheral somatic and autonomic nervous systems.

Vagus nerve and celiac ganglion lesions in generalized amyloidosis. A correlative study of familial amyloid polyneuropathy and AL-amyloidosis.

To clarify the cause of gastrointestinal disorders in systemic amyloidosis we made pathologic and morphometric studies of vagus nerves, celiac ganglia, stomach and rectum in three autopsied cases with type 1 familial amyloid polyneuropathy (FAP) and two with nonhereditary generalized amyloidosis (AL-amyloidosis). The gastric and rectal walls in all cases were affected in the same way by amyloid deposition. On the other hand, there was a great difference between the two diseases in the severity of vagus nerve and celiac ganglion lesions: the vagus nerves in FAP showed very extensive endoneurial deposition of amyloid with severe loss of myelinated nerve fibers, but in AL-amyloidosis there was no loss of myelinated nerve fibers and only slight amyloid deposition in the endoneurium. Similarly, in the celiac ganglion, intraganglionic deposition of amyloid was prominent in FAP and slight in AL-amyloidosis. It is known that bowel symptoms frequently occur in type I FAP and are less prominent in AL-amyloidosis. This study demonstrated that the gastrointestinal autonomic nerves were more markedly disturbed by amyloid in the former than in the latter, and disorder in neural control of the digestive tract may be responsible for the bowel symptoms in systemic amyloidosis, especially in type I FAP.

Bladder dysfunction in distal autonomic neuropathy of acute onset.

A patient with cholinergic dysautonomia and a patient with pandysautonomia have each been investigated for disturbances of bladder and urethral function. Both patients suffered from an inability to develop or sustain a detrusor contraction, while retaining normal bladder sensation. Biopsy specimens of bladder muscle stained for acetylcholinesterase revealed a significant reduction in cholinergic nerves compared with controls; however, the prominent cholinergic subepithelial plexus was strikingly preserved. These findings lend support to the view that acetylcholinesterase-containing nerves in the bladder muscle are motor fibres responsible for detrusor contraction, while those located in the subepithelium are sensory in function. Urethral sphincter electromyography revealed no abnormality of individual motor units, confirming that motor unit integrity in this muscle is dependent upon somatic rather than autonomic innervation. In the patient with pandysautonomia the proximal urethra was incompetent, while in the patient with cholinergic dysautonomia the bladder neck remained closed, as in controls. This suggests that sympathetic rather than parasympathetic efferent activity is necessary for the maintenance of proximal urethral competence.

Identification of dystrophic sympathetic axons in experimental diabetic autonomic neuropathy.

Markedly dilated dystrophic post-ganglionic sympathetic axons have been identified by dopamine-beta-hydroxylase immunohistochemistry in the paravascular ileal mesenteric nerves of rats with chronic streptozotocin diabetes. Many axons contained multiple dilatations with interposed axonal segments of near normal dimensions. These axonal abnormalities were absent in control animals. The time course of the development of the axonopathy and its distribution in the alimentary tract correlate with quantitative ultrastructural findings previously reported in this system.