Faculty Bibliography

Objective: To determine if administration of a muscarinic agonist can stimulate the secretion of tears in patients with familial dysautonomia (FD). Background: FD is frequently referred to as a disease with no tears, but the underlying reason for this alacrima is unknown. Normally, nerves in the cornea stimulate the production of tears from lacrimal glands in the eye. Whether the absent/reduced tears in FD is due to denervation or an abnormality in the lacrimal glands themselves is unclear. Design/Methods: We applied pilocarpine (4%, a parasympathetic M3 receptor agonist), topically to the eyes of 16 patients with genetically confirmed FD to stimulate the tear secretion directly in the lacrimal glands bypassing the nerve pathways. We assessed corneal sensitivity using a Cochet-Bonnet esthesiometer. Tear volume was estimated with the Schirmer test (a scaled paper strip placed in the lower eyelid and the length of moisture measured after 5 minutes). Schirmer's test was performed four times: at baseline; 30-minutes after instillation of normal saline (placebo, 2 drops); at 30-minutes; and 3-hours after pilocarpine instillation (2 drops). Results: Basal tear secretion was 6.3 +/- 2.6 mm (mean +/- SD), and 6.9 +/- 3.0 mm 30 min after placebo (p=0.395). Thirty minutes after the instillation of piloparpine, tear volume more than doubled to 19.6 +/- 8.3 mm (p<0.001); and the increased tear production persisted at 3 hours (12.6 +/- 5.1 mm; p<0.001). There was a significant positive correlation between corneal sensitivity and tear secretion at baseline (p<0.0001; R2=0.74). Conclusions: Patients with FD have functional lacrimal glands, which can be stimulated with an M3 agonist to produce tears. Basal tear secretion was directly related to corneal sensitivity. The findings suggest for the first time that tear production in patients with FD can be restored pharmacologically

Objective: To describe three cases with acute autonomic and sensory neuropathy (AASN). Background: AASN is considered a very rare variant of immune-mediated acute peripheral neuropathy or ganglionopathy. Only a few cases have been documented in the literature so far. Design/Methods: Case series. Results: Three previously healthy subjects (11-year-old male; 11-year-old female; 37-year-old female), all of Asian ancestry, presented with acute and severe sensory and autonomic deficits shortly after a brief gastrointestinal or respiratory febrile illness. Autonomic disturbances included vomiting, diarrhea, anhidrosis, abdominal cramps, neurogenic pain, dry mouth and eyes, non-reactive mid-sized pupils, and dizziness upon standing and syncope. Sensory disorders included decreased perception for all sensory modalities with widespread patchy distribution and significant sensory ataxia. Impaired motor control with dysphagia was interpreted as reduced muscle power and prompted an early diagnosis of Guillain-Barre syndrome. Symptoms progressed for a few days and later stabilized. Neurological examination revealed very depressed or absent deep tendon, corneal, and gag reflexes with preserved muscle power. Corneal exam showed paracentral and inferior corneal opacities due to exposure keratopathy and dry eye. Nerve conduction studies showed extremely reduced or absent sensory nerve action potentials with normal motor nerve conduction and F waves. Cardiovascular autonomic evaluation showed decreased heart rate variability, orthostatic hypotension without compensatory tachycardia and very low or absent plasma norepinephrine levels. Spinal cord MRI showed extensive T2 hyperintensities of the posterior cords. Patient #1 had positive anti-sulfatide antibodies. One year after onset, recovery of sensory impairment was poor, and autonomic dysfunction was ameliorated with symptomatic treatment. Conclusions: This is the second largest case series ever reported of patients with AASN, an immune-mediated disorder mostly affecting Asian subjects. Patients are usually misdiagnosed, which delays the start of appropriate therapy

Clinical data suggest that optic neuropathy and retinal ganglion cell loss are the main cause of visual decline in patients with familial dysautonomia, but this has not previously been confirmed by pathological analyses. We studied retinas and optic nerves in 6 eyes from 3 affected patients obtained at autopsy. Analyses included routine neurohistology and immunohistochemistry for neurofilaments, cytochrome c oxidase (COX), and melanopsin-containing ganglion cells. We observed profound axon loss in the temporal portions of optic nerves with relative preservation in the nasal portions; this correlated with clinical and optical coherence tomography findings in 1 patient. Retinal ganglion cell layers were markedly reduced in the central retina, whereas melanopsin-containing ganglion cells were relatively spared. COX staining was reduced in the temporal portions of the optic nerve indicating reduced mitochondrial density. Axonal swelling with degenerating lysosomes and mitochondria were observed by electron microscopy. These findings support the concept that there is a specific optic neuropathy and retinopathy in patients with familial dysautonomia similar to that seen in other optic neuropathies with mitochondrial dysfunction. This raises the possibility that defective expression of the IkB kinase complex-associated protein (IKAP) resulting from mutations in IKBKAP affects mitochondrial function in the metabolism-dependent retinal parvocellular ganglion cells in this condition.

BACKGROUND: Patterns of ganglion cell complex (GCC) loss detected by optical coherence tomography provide an objective measure of optic nerve injury. These patterns aid in early diagnosis and localization of chiasmal lesions. METHODS: Twenty-three patients with chiasmal compression seen between 2010 and 2015 were imaged with the Cirrus high-definition optical coherence tomography macular cube 512 x 128, retinal nerve fiber layer (RNFL) scan protocols and automated (30-2 Humphrey) visual fields (VFs). Age-matched controls were included for comparison. Generalized estimating equations were performed comparing RNFL and GCC thicknesses between patients and their controls. Effect size (d) was calculated to assess the magnitude of difference between patients and controls. The average GCC and RNFL thicknesses also were correlated with VF mean deviation (MD). Pre operative average GCC thickness was correlated to post operative VF MD. RESULTS: Patterns of GCC thinning corresponded to VF defects. The average GCC thickness was 67 +/- 9 mum in patients and 86 +/- 5 mum in controls (P < 0.001). The effect size was the greatest for GCC thickness (d = 2.72). The mean deviation was better correlated with GCC thickness (r =0.25) than RNFL thicknesses (r =0.15). Postoperatively, VF MD improved in 7 of 8 patients with persistent nasal GCC thinning. Six patients had no VF defect and showed statistically significant loss of GCC compared with controls (P = 0.001). CONCLUSIONS: Distinct patterns of GCC loss were identified in patients with chiasmal compression. Binasal GCC loss was typical and could be seen with minimal or no detectable VF loss. Thinning of the GCC may be detected before loss of the RNFL in some patients. After decompression, the majority of patients showed improvement in VF despite persistent GCC loss. Patients with less GCC loss before decompression had better postoperative VFs. Therefore, GCC analysis may be an objective method to diagnose and follow patients with chiasmal lesions.

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.

PURPOSE: To determine whether a pattern of altitudinal ganglion cell loss, as detected and measured by optical coherence tomography (OCT), can be used to distinguish non-arteritic ischaemic optic neuropathy (NAION) from optic neuritis (ON) during the acute phase, and whether the rate or severity of ganglion cell loss differs between the two diseases. METHODS: We performed a retrospective, case-control study of 44 patients (50 eyes) with ON or NAION and 44 age-matched controls. Non-arteritic ischaemic optic neuropathy and ON patients had OCT at presentation and four consecutive follow-up visits. Controls had OCT at one point in time. The ganglion cell complex (GCC) was evaluated in the macula, and the retinal nerve fibre layer (RNFL) was evaluated in the peripapillary region. Ganglion cell complex thickness, RNFL thickness and GCC mean superior and inferior hemispheric difference were compared between NAION and ON patients at each time-point using unpaired t-tests and between disease and control subjects at first measurement using paired t-tests. RESULTS: Mean time from onset of symptoms to initial presentation was 10.7 +/- 6.6 days in NAION and 11.7 +/- 8.6 days in ON (p = 0.67). There was a significantly greater vertical hemispheric difference in GCC thickness in NAION patients than ON patients at all time-points (5.5-10.7 mum versus 3.1-3.6 mum, p = 0.01-0.049). Mean GCC thickness was significantly decreased at less than 2 weeks after onset in NAION compared to age-matched controls (72.1 mum versus 82.1 mum, p < 0.001), as well as in ON compared to age-matched controls (74.3 mum versus 84.5 mum, p < 0.001). Progression and severity of GCC and RNFL loss did not differ significantly between NAION and ON. CONCLUSION: A quantitative comparison of mean superior and inferior hemispheric GCC thickness with OCT may be used to distinguish NAION from ON.

The objective of this study was to describe the changes in the retinal ganglion cell complex (GCC) relative to the retinal nerve fibre layer (RNFL) over time in Leber hereditary optic neuropathy (LHON) patients. Average RNFL and GCC thickness was measured in seven patients in the early acute (123, 68.4 mum), late acute (113.5, 57.4 mum), and chronic (72.7, 50.8 mum) phases. Patients showed thinning of the GCC with RNFL swelling in the early acute phase. GCC thinning became severe within weeks and persisted. RNFL swelling normalised during the late acute phase with eventual thinning in the chronic phase. GCC changes appear at the commencement of visual loss and in some cases prior to vision loss. These findings define an optical coherence tomography (OCT) profile in LHON.

BACKGROUND: Objective measures of disease progression that can be used as endpoints in clinical trials of MSA are necessary. We studied retinal thickness in patients with MSA and assessed changes over time to determine its usefulness as an imaging biomarker of disease progression. METHODS: This was a cross-sectional study including 24 patients with MSA, 20 with PD, and 35 controls, followed by a longitudinal study of 13 MSA patients. Patients were evaluated with high-definition optical coherence tomography and the Unified Multiple System Atrophy Rating Scale. Evaluations were performed at baseline and at consecutive follow-up visits for up to 26 months. RESULTS: MSA subjects had normal visual acuity and color discrimination. Compared to controls, retinal nerve fiber layer (P = 0.008 and P = 0.001) and ganglion cell complex (P = 0.013 and P = 0.001) thicknesses were reduced in MSA and PD. No significant differences between MSA and PD were found. Over time, in patients with MSA, there was a significant reduction of the retinal nerve fiber layer and ganglion cell complex thicknesses, with estimated annual average losses of 3.7 and 1.8 mum, respectively. CONCLUSIONS: Visually asymptomatic MSA patients exhibit progressive reductions in the thickness of the retinal nerve fiber layer and, to a lesser extent, in the macular ganglion cell complex, which can be quantified by high-definition optical coherence tomography. Specific patterns of retinal nerve fiber damage could be a useful imaging biomarker of disease progression in future clinical trials. (c) 2015 International Parkinson and Movement Disorder Society.