Faculty Bibliography

BACKGROUND: Multiple system atrophy (MSA) is a rare, adult-onset, rapidly progressive fatal synucleinopathy that primarily affects oligodendroglial cells in the brain. Patients with MSA only rarely have visual complaints, but recent studies of the retina using optical coherence tomography (OCT) showed atrophy of the peripapillary retinal nerve fiber layer (RNFL) and to a lesser extent the macular ganglion cell layer (GCL) complex. METHODS: We performed a literature review and meta-analysis according to the preferred reporting items for systematic reviews and meta-analyses guidelines for studies published before January 2017, identified through PubMed and Google Scholar databases, which reported OCT-related outcomes in patients with MSA and controls. A random-effects model was constructed. RESULTS: The meta-analysis search strategy yielded 15 articles of which 7 met the inclusion criteria. The pooled difference in the average thickness of the RNFL was -5.48 mum (95% CI, -6.23 to -4.73; p < 0.0001), indicating significant thinning in patients with MSA. The pooled results showed significant thinning in all the specific RNFL quadrants, except in the temporal RNFL quadrant, where the thickness in MSA and controls was similar [pooled difference of 1.11 microm (95% CI, -4.03 to 6.26; p = 0.67)]. This pattern of retinal damage suggests that MSA patients have preferential loss of retinal ganglion cells projecting to the magnocellular pathway (M-cells), which are mainly located in the peripheral retina and are not essential for visual acuity. Visual acuity, on the other hand, relies mostly on macular ganglion cells projecting to the parvocellular pathway (P-cells) through the temporal portion of the RNFL, which are relatively spared in MSA patients. CONCLUSION: The retinal damage in patients with MSA differs from that observed in patients with Parkinson disease (PD). Patients with MSA have more relative preservation of temporal sector of the RNFL and less severe atrophy of the macular GCL complex. We hypothesize that in patients with MSA there is predominant damage of large myelinated optic nerve axons like those originating from the M-cells. These large axons may require higher support from oligodendrocytes. Conversely, in patients with PD, P-cells might be more affected.

BACKGROUND:Putaminal diffusivity in brain magnetic resonance diffusion-weighted imaging (DWI) is increased in patients with the parkinsonian variant of multiple system atrophy (MSA-P) compared to Parkinson disease (PD) patients. PURPOSE/OBJECTIVE:We performed a systematic review and meta-analysis to evaluate the diagnostic accuracy of DWI to distinguish MSA-P from PD. METHODS:Studies on DWI were identified through a systematic PubMed and Clarivate Analytics® Web of Science® Core Collection search. Papers were selected based on stringent inclusion criteria; minimum requirement was the inclusion of MSA-P and PD patients and documented true positive, true negative, false positive and false negative rates or overall sample size and reported sensitivity and specificity. Meta-analysis was performed using the hierarchical summary receiver operating characteristics curve approach. RESULTS:The database search yielded 1678 results of which 9 studies were deemed relevant. Diagnostic accuracy of putaminal diffusivity measurements were reported in all of these 9 studies, whereas results of other regions of interest were only reported irregularly. Therefore, a meta-analysis could only be performed for putaminal diffusivity measurements: 127 patients with MSA-P, 262 patients with PD and 70 healthy controls were included in the quantitative synthesis. The meta-analysis showed an overall sensitivity of 90% (95% confidence interval (CI): 76.7%-95.8%) and an overall specificity of 93% (95% CI: 80.0%-97.7%) to distinguish MSA-P from PD based on putaminal diffusivity. CONCLUSION/CONCLUSIONS:Putaminal diffusivity yields high sensitivity and specificity to distinguish clinically diagnosed patients with MSA-P from PD. The confidence intervals indicate substantial variability. Further multicenter studies with harmonized protocols are warranted particularly in early disease stages when clinical diagnosis is less certain.

The ability of the skin to conduct electricity depends on sweat secretion. This is referred to as electrodermal or electrochemical skin conductance. Recently, a technique has been developed to assess electrodermal activity using reverse iontophoresis dependent on sweat chloride levels. This method can reliably identify patients with cystic fibrosis, a disease with well-described increases in chloride concentration in sweat. Our goal was to determine the relationship between electrodermal response and serum chloride levels in other patient groups. We conducted a cross-sectional study involving 38 subjects with HSAN-III (familial dysautonomia, FD) and 20 healthy controls. Electrodermal activity of the soles was assessed using stainless steelbased plate electrodes applied under the soles of the feet for 3 min (Sudoscan). The influence of age, serum electrolyte levels, and medications were analyzed.
Result(s): Electrodermal activity was normal (>60 microS) in 24 patients (63 %) and reduced (<60 microS) in the remaining 14. There was a direct correlation between electrodermal activity and serum chloride levels (p = 0.007). Reduced electrodermal activity was explained by low serum chloride in 6 patients, and likely by medications in 8 (clonidine). All controls had normal electrodermal activity, but because their serum chloride levels were normal in every subject (>97 mEq/L), no correlation could be established.
Conclusion(s): Low serum chloride levels result in reduced electrodermal activity. In addition to medications, serum chloride levels should be checked to properly interpret electrodermal activity measurements

Background: Normally, during sleep, when cortical influences are minimized, blood pressure (BP) and heart rate (HR) fall (i.e., nocturnal dipping). In patients with afferent baroreflex failure, in whom BP and HR are highly dependent on cortical influences, this nocturnal dipping is usually preserved. There are, however, a number of patients with afferent baroreflex failure in whom BP does not dip at night. The reasons for this are unknown.
Method(s): We examined the 24-hour ambulatory BP profiles in 50 patients with afferent baroreflex failure of acquired (n = 6) or genetic origin (familial dysautonomia n = 44). BP and HR were captured at 30-minute intervals over a 24-h period. Nighttime sleep periods were identified from the patient's diary. Dipping was defined as a 10 % or greater fall in systolic and diastolic blood pressure at night.
Result(s): Normal BP nocturnal dipping was present in only 50 % of the patients; 33 % of patients had reversal of the circadian rhythm with higher blood pressures at night. In the remaining 17 %, nocturnal BP was similar to daytime BP. Patients with preserved nocturnal dipping had a significantly higher glomerular filtration rate (8430 mL/ min) than those that did not dip at night (6130 mL/min, p = 0.043).
Conclusion(s): Lack of nocturnal BP dipping in patients with afferent baroreflex failure was associated with impaired renal function. These findings suggest that in patients with FD, a non-dipping profile may involve abnormalities in extracellular volume and/or impaired regulation of vascular resistance (i.e., abnormal endothelial function)

Background: Infusion of vasoactive agents in the assessment of orthostatic intolerance in the autonomic laboratory is controversial. The technique of lower body negative pressure (LBNP) was described two decades ago. LBNP exaggerates orthostatic stress by closely mimicking a physiologic stimulus, and has the advantage of being quickly reversible. However, it is not routinely used in clinical practice.
Objective(s): To describe our experience using LBNP in the clinical autonomic laboratory in patients with orthostatic intolerance of unclear origin.
Method(s): We used a customized airtight cover, sealed to a tilttable and to the subject at the level of the iliac crest. After 30 min of asymptomatic passive head-up tilt, LBNP was applied while the patient was still upright. Suction was briefly initiated at -20 mmHg for 1-min and then increased to -40 mmHg for the following 10-min. Blood pressure, heart rate and plasma catecholamines when supine, after 10-min of head up tilt, and during syncope or other paroxysmal event, were measured. Time from LBNP onset to episode was recorded.
Result(s): Fifteen subjects (8 men; aged 40 +/- 20 years, range: 12-75 years) were enrolled. During LBNP, 7 subjects developed typical vasovagal syncope (after 3.8 +/- 1.3 min of LBNP) with hypotension and bradycardia and marked increases in plasma levels of epinephrine and vasopressin. Six tolerated the procedure uneventfully. One patient became unresponsive and his head stooped forward but BP and HR remained stable without changes in plasma catecholamines. The remaining patient had flailing bilateral movements with no changes in consciousness, BP or HR, but a significant increase in plasma epinephrine levels. All patients recovered without sequelae.
Conclusion(s): LBNP is a useful technique in the differential diagnosis of patients with orthostatic intolerance of unclear origin and can be easily implemented in the clinical setting. In addition to its wellknown value to induce vasovagal syncope, this technique can also be useful to induce psychogenic episodes

Background: Stress-induced adrenergic hypertensive crises are a cardinal feature of familial dysautonomia (FD). Classically, this is treated with clonidine and benzodiazepines, which cause excessive sedation and can lead to respiratory arrest. Dexmedetomidine is a recently introduced compound, 8 times more specific for central alpha-2 adrenergic receptors than clonidine, resulting in less sedation. Advantages over clonidine are also that dexmedetomidine can be administered intravenously (IV), and its half-life is shorter (12 vs. 2 h), which allows an easy titration.
Method(s): Retrospective chart review of IV dexmedetomidine use to treat refractory hypertensive crisis in patients with FD.
Result(s): IV dexmedetomidine was used 15 times in 9 patients (mean age: 26 years; 44 % men) with acute adrenergic crisis. Crisis triggers included respiratory infection (n = 8), emotional stress (n = 3), surgery (n = 1), bacteremia (n = 1), gastroenteritis (n = 1) and bleeding gastric ulcer (n = 1). Before treatment, all patients had signs of adrenergic activation including skin flushing, nausea/retching, vomiting, diaphoresis, and agitation. Blood pressure (BP) was 1616/1026 mmHg and heart rate (HR) was 1134 bpm. IV dexmedetomidine was administered at an average rate of 0.510.13 mcg/kg/h. One hour post-infusion, BP decreased to 1165/586 mmHg (p<0.0001) and HR to 975 bpm (p = 0.002). Drowsiness occurred in one patient, although he was easily arousable. There were no episodes of rebound hypertension or respiratory depression. In one case, rapid titration at a high dose resulted in paradoxical hypertension, which subsided immediately upon dexmedetomidine discontinuation.
Conclusion(s): IV dexmedetomidine is an effective, well-tolerated approach for managing adrenergic crises in patients with FD. In contrast to other commonly used medications, dexmedetomidine does not induce excessive sedation or respiratory depression. In a small percentage of patients, rapid IV dosing may result in paradoxical hypertension due to its direct action on peripheral postsynaptic alpha2-adrenergic receptors

Congenital insensitivity to pain with anhidrosis (CIPA, also known as hereditary sensory and autonomic neuropathy type IV) is a rare autosomal recessive disorder caused by mutations in the gene encoding for neurotrophic tyrosine kinase receptor type 1, a receptor for nerve growth factor (NTRK1-NGF). We recently described that patients with CIPA have very low or undetectable circulating norepinephrine levels. Since these mutations severely deplete the development of noradrenergic neurons in the periphery, they presumably also affect those in the central nervous system. Patients with CIPA have low IQ and behavioral problems including hyperactivity and reckless impulsivity, likely the result of a central deficiency in norepinephrine. We explored whether treatment with droxidopa, a synthetic norepinephrine precursor, which crosses the blood brain barrier, could improve behavioral features in a patient with CIPA. Our patient was a 29-year-old woman with a classic phenotype and molecular confirmation of a mutation in the NTRK1 gene (c360- 2A >C pathogenic variant). She had symptoms of attention deficit and hyperactivity and scored highly on the adult ADHD self-report scales (Scores Part A: 4/6 and Part B: 9/12). She had high scores in the attentional (17 and 4), motor (21 and 10), and planning (21 and 17) domains of Barratt impulsiveness scale. NICHQ Vanderbilt assessment scale also indicated attention deficits and hyperactivity. After two months treatment with droxidopa (at 400 mg/day), attention and hyperactivity scales scores decreased to the normal range (Scores Part A: 3/6 and Part B: 4/12). Impulsiveness scores assessed by Barratt impulsiveness scales also improved (attentional scores 15 and 11, motor scores 19 and 9 and planning scores 20 and 9). This case report suggests that behavioral deficits might be reversed in patients with CIPA by norepinephrine replenishment therapy. Clinical studies to evaluate the usefulness of droxidopa to treat behavioral problems in CIPA patients are warranted

Background: In synucleinopathies, deposits of alpha-synuclein occur in sympathetic neurons innervating sweat glands, leading to impaired sudomotor function. Hence, measurement of sweat production may be relevant as a diagnostic biomarker. We hypothesized that patients with synucleinopathies have decreased electrodermal activity, and that this is associated with sympathetic adrenergic impairment.
Objective(s): To evaluate electrodermal activity in subjects with synucleinopathies.
Method(s): Cross-sectional study including 106 patients with synucleinopathies (55 with idiopathic Parkinson disease-PD-, 18 with probable multiple system atrophy-MSA-, 25 with pure autonomic failure-PAF-, and 8 with idiopathic REM behavior disorder-RBD-) and 57 healthy controls enrolled in New York University (New York, NY) and Hospital de Cruces (Bilbao, Spain). Electrodermal activity was assessed with a device (Sudoscan). Standard cardiovascular autonomic testing (in all subjects) and I¹²³metaiodobenzylguanidine myocardial scintigraphy (in 30 patients with PD) were performed to quantify sympathetic adrenergic dysfunction.
Result(s): Electrodermal activity both in the palms and in the soles was lower in patients than in controls (p<0.01). When considered separately, MSA, PAF and RBD had lower electrodermal activity in the palms than in controls (p<0.001), whereas electrodermal activity in the soles was lower in MSA, PAF and PD (p<0.05). Linear regressions showed that reduced electrodermal activity was associated with markers of sympathetic adrenergic impairment (p<0.05), but not with disease duration.
Conclusion(s): Decreased electrodermal activity in palms and soles is a frequent finding in synucleinopathies. Decreased electrodermal activity was associated with decreased sympathetic adrenergic function, suggesting a parallel degeneration of both adrenergic and cholinergic sympathetic fibers

Background: Pure autonomic failure is a neurodegenerative synucleinopathy largely restricted to the peripheral nervous system. Later in the clinical course of the disease some patients may develop parkinsonism, cerebellar ataxia or cognitive impairment. The purpose of this study is to define the clinical features and biomarkers that predict which patients will retain a pure autonomic failure phenotype, and which will develop clinical deficits indicating spread of the synucleinopathy to the central nervous system.
Method(s): One hundred patients with pure autonomic failure were recruited at 5 medical centers in the US. Participants were followed at 12-months intervals, for 4 years to determine whether they had developed motor/cognitive abnormalities and met the diagnostic criteria of Parkinson disease (PD)/dementia with Lewy bodies (DLB) or multiple system atrophy (MSA). Smell discrimination, occurrence of REM sleep behavior disorder (RBD) and sympathetic and parasympathetic cardiovascular autonomic functions were assessed.
Finding(s): Mean age of onset of autonomic failure was 61 (+/-12) years. Patients had a 10 % per year cumulative risk for developing a CNS synucleinopathy with locomotor dysfunction or dementia. All patients who developed a CNS synucleinopathy had subtle motor impairment and RBD at the time of enrolment. Factors that predicted a future diagnosis of MSA included younger age at onset of autonomic failure, severe bladder/bowel abnormalities, normal olfaction and a >10 bpm cardiac chronotrophic response to tilt. Factors that predicted future diagnosis of PD/DLB were abnormal olfaction, a lesser chronotrophic response to tilt and longer disease duration. Patients that retained a PAF phenotype had very low circulating norepinephrine levels, slow resting heart rate, no RBD or subtle motor deficits and preserved smell discrimination.
Interpretation(s): Pure autonomic failure can be a premotor stage of a central nervous system synucleinopathy or may remain as a restricted peripheral disorder. Patients who developed PD/DLB or MSA have distinct premotor features. Patients who retain a pure autonomic failure phenotype had more severe peripheral sympathetic involvement