A Rational Approach to Treating Inflammatory Optic Neuropathies: - - PowerPoint PPT Presentation

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A Rational Approach to Treating Inflammatory Optic Neuropathies: - - PowerPoint PPT Presentation

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A Rational Approach to Treating Inflammatory Optic Neuropathies: Which Treatment and Why Jeffrey L. Bennett, MD, PhD Gertrude Gilden Professor of Neurology Professor of Ophthalmology and Neuroscience University of Colorado School of Medicine

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A Rational Approach to Treating Inflammatory Optic Neuropathies: Which Treatment and Why

Jeffrey L. Bennett, MD, PhD Gertrude Gilden Professor of Neurology Professor of Ophthalmology and Neuroscience University of Colorado School of Medicine

Hot Topics: What’s New in the Optic Nerve March 5, 2018

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Di Disclos

  • sures
  • Research Grant: EMD-Serono
  • Consultant
  • Novartis
  • Genzyme-Sanofi
  • Genentech
  • MedImmune
  • Chugai
  • Teva Pharmaceuticals
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SLIDE 3

Obj Objec ectives es

  • Enumerate immune and infectious causes of

inflammatory optic neuropathy.

  • List clinical and diagnostic data impacting

treatment of inflammatory optic neuropathy.

  • Describe data supporting various treatments of

acute inflammatory optic neuropathy.

  • List inflammatory optic neuropathies with high

risk of poor visual recovery or recurrent disease.

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SLIDE 4

Ra Ration

  • nal Approa
  • ach to
  • ON

N Treatment

  • Etiology
  • Prognosis
  • Therapeutic Options/Data
  • Risk of Recurrent Disease
  • Preventative Therapy
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SLIDE 5

ON ON: : Differ eren ential al Diag agno nosis

  • Infection
  • Ischemia
  • Toxic
  • Genetic
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SLIDE 6

Infectious Optic Neuropathy

  • Bilateral
  • Optic Disc Heme
  • Ocular Inflammation
  • Uveitis
  • Iritis
  • Retinitis
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SLIDE 7

Etiology Common Clinical Features Treatments

Syphilis (Treponema) Uveitis, chorioretinitis, vasculitis, papillitis (varied) Penicillin Cat-scratch (Bartonella) Neuroretinitis (macular star) Corticosteroids; antibiotics: azithromycin, ciprofloxacin, tetracycline, sulfamethoxazole- trimethoprim Lyme Disease (Borrelia) Optic disc edema; reports of intermediate uveitis or papilledema Ceftriaxone; doxycycline Tuberculosis (Mycobacteria) Papillitis, uveitis, neuroretinitis Isoniazid, rifampicin, pyrazinamide, ethambutol Viral (WNV, HIV, VZV) Variable: mild optic disc edema, chorioretinitis, vitritis (WNV); normal, mild microangiopathy (HIV); hemorrhagic optic disc edema, cotton wool spots (VZV) HAART (HIV); acyclovir (VZV)

Treatment of Infectious Causes of ON

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Etiology Common Clinical Features Treatments

NMOSD Recurrent, MRI-optic nerve enhancement/extensive lesions; chiasm, NMO-IgG IVSM; PLEX MOG Recurrent; MRI-optic nerve enhancement/extensive lesions; MOG- IgG Corticosteroids – may require prolonged treatment GFAP Optic disc papillitis; MRI-perivascular enhancement; GFAP-IgG Corticosteroids Paraneoplastic Bilateral; disc edema; vitreal cell; vascular leakage; paraneoplastic antibodies IVIg; PLEX; corticosteroids; identify and remove inciting neoplasm Idiopathic Multiple Sclerosis Other (CRION, AON) Occasional mild disc edema; MRI-optic nerve enhancement/T2 signal Recurrent, isolated; MRI-optic nerve enhancement/T2 signal; IgG on skin biopsy IVSM; PLEX Corticosteroids Sarcoidosis Optic disc edema; ocular inflammation; multi-system disease Corticosteroids; TNF-a blocker

In Inflammatory Causes es of ON

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Inflammatory Optic Neuritis: Clinical Suspicion

  • NMOSD
  • Severe vision loss/field loss (<20/200; MD <11dB)
  • MRI: Posterior optic nerve or chiasm involvement
  • MOG-IgG
  • Recurrent optic neuritis; simultaneous TM and ON
  • Steroid sensitive
  • MRI: Significant ON nerve/sheath enhancement
  • RION/CRION/AON
  • Recurrent optic neuritis
  • Steroid sensitive
  • Paraneoplastic
  • Subacute onset, older age; painless
  • Vitreal cell, retinal vascular leakage
  • Sarcoidosis
  • Acute or subacute onset; ocular inflammation
  • MRI: Perineuritis, chiasmitis, enlargement/enhancement optic nerve
  • GFAP-IgG
  • Meningoencephalitis; papillitis
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ON ON: : MRI and and OC OCT

NMOSD Sarcoid MOG-ON

Jurynczyk et al. Brain 2017: 140; 3128 Pache et al. J Neuroinflammation 2016;13(1):282. Naismith et al. Neurology (2009) vol. 72: 1077 Ratchford et al. Neurology (2009) vol. 73: 302

>15 micron loss

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Laboratory Clues –Serology and CSF

  • Serology
  • ANA: NMOSD and MOG-IgG (~42%)
  • Anti-neural antibodies: GFAP-IgG
  • NMDA-R-IgG, anti-GAD65, ion channel antibodies
  • Thyroid Abs – 16.7%
  • AchR Abs – 11%; Anti-GAD Abs – 15%
  • CSF
  • MOG-IgG: Pleocytosis ≥100 cells/ml
  • Oligoclonal bands: MS-related, GFAP-IgG
  • Eosinophils: NMOSD

Pittock, Arch Neurol (2008); McKeon, Muscle & Nerve (2009); Jarius, J Neuroinflamm (2016); Flanagan, Ann Neurol (2017)

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Optic Neuritis Treatment Trial (ONTT)

No difference in visual acuity between steroid and placebo groups at 6 months*.

(NEJM 326:581, 1992)

*Increase in the rate

  • f normalization of

visual field, contrast sensitivity, and visual acuity

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Visual Prognosis

  • Average recovery after vision loss
  • NMOSD: logMAR 0.4 (~42% worse than 1.0)
  • MOG-IgG: 20/20
  • Sarcoidosis: 20/40
  • CRION/RION/AON & GFAP-IgG: “Good”
  • High risk of relapse
  • NMOSD: 63% by 1 year untreated
  • ARR w/treatment: 0.38 (0.04-2.25; N = 83)
  • MOG-IgG

Collongues, et al. (2010). Neurology, 74:736 Jarius et al. (2012). J Neuroinflamm, 9:14. Weinshenker et al. (2006). Neurology, 59:566–569. Jurynczyk et al. Brain 2017: 140; 3128 Kidd et al., Brain 2003; 126:276

MOG-IgG

MOG-IgG

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Staging Acute Therapy

Recovery from attack is often incomplete

Serial treatment generally moves non-responders to partial responders

189 12 73 10 N= N=

Kleiter et al. (2016). Ann Neurol, 79:206. Merle et al., (2012). Arch Ophthalmol, 130:858

PLEX: More complete responders

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NMO Pathogenesis

Human Pathology

  • Anti-complement Therapy
  • Anti-C5 complement
  • C1q esterase inhibition
  • Anti-neutrophil elastase
  • IVIg

Future Therapies?

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MOG-IgG Disease Pathology

Type II MS Pathology: Lymphocytic infiltrate, IgG, complement

Spadara et al., (2015) Ann Clin Transl Neurol, 2:295; Jarius et al., (2016) Mult Scler, 22:1541 Saadoun et al. (2014), Acta Neuropathol Comm, 2:35 Peschl et al. (2017), J Neuroinflamm, 14:208 T cell B cell Ast Mac IgG Comp

Minimal Pathology in Experimental Systems

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Rational Approach to Optic Neuritis Treatment

  • Identify the cause
  • Infectious or non-infectious
  • Clinical, imaging, laboratory clues
  • Prognosis
  • Generally good
  • Recurrent ON and NMOSD are likely exceptions
  • Treatment
  • Intravenous methylprednisolone
  • Early plasma exchange for NMOSD and recurrent ON
  • Lingering Questions
  • Combination Therapy
  • Direct treatment of immune effectors (CDC, ADCC)
  • Early use of immunosuppression/immunomodulators