TheraRadar
Landscape / Immunology
Page updated Jul 4, 2026 · using data updated on Jun 28, 2026

NMOSD Clinical Trial Landscape

NMOSD is being studied across 67 clinical trials registered since 2008, with 28 programs currently active. The competitive pipeline includes 10 active Phase 3 trials, 8 active Phase 2 trials, and 7 active Phase 1 trials.

Top industry sponsors include AstraZeneca, Amgen, Roche.

Trial activity

28 active / 67 total since 2008
Active by phase 10 Ph3 / 23 8 Ph2 / 22 7 Ph1 / 17 3 Ph4 / 5

Competitive Intelligence

This NMOSD competitive landscape maps 3 companies against 2 mechanisms of action (MOA) across 3 active drug-development programs. Each cell is the lead program for a company–mechanism pair — its trial phase, modality, combination, and nearest readout. Read down a column to see who is competing on the same mechanism in NMOSD, across a row to see one company's mechanistic spread, and click any cell for the full program list and trial links.

Beta 3 companies 2 mechanisms 3 programs mapped all shown mechanisms rule/db-classified click any cell → asset tearsheet
At a glance

Neuromyelitis Optica Spectrum Disorder shows 3 programs across 3 companies and 2 mechanisms. The most contested mechanism is Complement C5 inhibitor (3 programs).

Key findings
  • AstraZeneca runs 3 programs — the deepest pipeline in this view.
  • 1 hot readouts in next 6 months — most imminent: AstraZeneca (Complement C5 inhibitor, ECU-NMO-304).
  • 5 trials are stale (overdue without status change) — possible class-maturity inflection or operational issue.
  • 4 single-program mechanisms in the long tail — 1 are Ph2+ first-in-class first-mover bets.
  • 2 NME candidates in the long tail.
  • 33% of programs are pediatric (3 of 9) — heavy label-extension footprint suggests the class is mature in adults.

Forward catalysts next 18 months

Nearest first. ⚖ Confirmed FDA PDUFA dates (curated calendar, primary sources) and 📅 estimated readouts (ClinicalTrials.gov primaryCompletionDate — a timing proxy, not a confirmed action date). Red = due within 6 months.
No PDUFA decisions or estimated readouts in this window for this view.

Company × Mechanism

Each cell = a company’s most-advanced program in that mechanism. Click for the asset tearsheet.
Unverified (lowTrust) cells:
Ph1 Ph2 Ph3 Ph4 ⚠ lowTrust +combo
Select & Focus Pro 🔒 Transpose, filtering, selection & export are Pro (search & sort are free) — start a free trial, or try them free on our showcase →
Complement C5 inhibitor
Anti-CD20 (mAb)
AstraZeneca
🇨🇳Beijing Mabworks
Bio-Thera Solutions

Phase 3 leaders · most advanced

  1. recruiting Hoffmann-La Roche NCT05199688
  2. recruiting Shanghai Jiaolian Drug Research and Development Co., Ltd NCT06413654
  3. recruiting Tianjin Medical University General Hospital NCT07420296
  4. active Alexion Pharmaceuticals, Inc. NCT06724809
  5. active Alexion Pharmaceuticals, Inc. NCT05346354

Beyond the grid Beta

What the matrix leaves out — rare mechanisms with only one player, small & emerging sponsors, and programs we haven’t classified yet.

Single-company mechanisms — BD white space 1 found

Mechanisms only ONE company is pursuing in this indication — the uncrowded / first-in-class bets the matrix cap hides. ⚡ first-in-class · ⚠ unverified mechanism. ⚡ first-in-class is computed across 61 mapped landscapes — scope-limited, not a global claim.
⚡ first-in-class · 🌱 first-in-indication · 🆕 NME candidate · ✅ AI-classified + verified · ⚙️ AI-classified, unverified · first-in-class computed across 61 mapped landscapes
Single-program mechanisms (4) — one program each — earliest-stage, sorted by phase
PhaseMechanismCompanyModalityReadoutTrial
Ph3 IL-6R inhibitor ⚡ 🌱 Roche / Genentech 1Q27 NCT05199688
Ph2 Anti-CD19 mAb (NMOSD/MS) 🌱 Amgen 2Q27 NCT05549258
Ph2 Corticosteroid 🌱 🆕 Guangzhou JOYO Pharma IV 1Q26 NCT06697535
Ph1 BCMA CAR-T (autoimmune) 🌱 🆕 Bioray Laboratories Cell therapy 4Q25 NCT06633042
Unclassified programs (4) — mechanism not captured yet
PhaseMechanismCompanyModalityReadoutTrial
Ph2+Ph3 B001unclassified Shanghai Jiaolian Drug Re… NCT06413654
Ph3 divozilimabunclassified Biocad NCT05730699
Ph1 Azercabtagene zapreleucel (azer-cel)unclassified TG Therapeutics, Inc. NCT06680037
Ph1 CE211NS21unclassified Corestemchemon, Inc. NCT07595965
Drugs in this landscape: Ravulizumab

Sponsor activity

Who is running trials now — green active, blue completed, red failed/terminated.

Sorted by active Active Done Failed
AstraZeneca 3 2 2
Amgen 2 0 0
Roche 1 3 1
Shanghai Jiaolian Drug Research and Development Co., Ltd 1 0 0
Beijing Mabworks Biotech Co., Ltd. 1 0 0
Guangzhou JOYO Pharma Co., Ltd 1 0 0
Biocad 1 0 0
Corestemchemon, Inc. 1 0 0

How the field has grown

New-trial starts peaked in 2026 (9 registered); 2025 saw 7. The right-hand chart shows median Phase 3 enrollment by start year — the number in parentheses is that year's Phase 3 trial count (15 in total), so single-trial years (and years with no Phase 3 starts) are obvious. Both are by trial start date; the current year is partial.

New trials started by year

2016
1
2017
3
2018
2
2019
2
2020
2
2021
3
2022
8
2023
3
2024
7
2025
7
2026
9

TheraRadar.com

Median Phase 3 enrollment by start year

2016 (0)
0
2017 (1)
118
2018 (1)
178
2019 (1)
58
2020 (1)
5
2021 (1)
119
2022 (4)
104
2023 (0)
0
2024 (1)
132
2025 (2)
96
2026 (3)
21

TheraRadar.com

Full trial pipeline

Every active and completed trial across Phase 1–4, with enrollment analytics. Sortable, filterable, exportable with Pro.

NCT05199688 RECRUITING
A Study To Evaluate Pharmacokinetics, Efficacy, Safety, Tolerability, And Pharmacodynamics Of Satralizumab In Pediatric Patients With Aquaporin-4 Antibody Positive Neuromyelitis Optica Spectrum Disorder (NMOSD)
Hoffmann-La Roche n=8
NCT06413654 RECRUITING
A Clinical Study of B001 Injection in the Treatment of Neuromyelitis Optica Spectrum Disorders(NMOSD)
Shanghai Jiaolian Drug Research and Development Co., Ltd n=132
NCT07557420 NOT YET RECRUITING
Efficacy, Safety, Pharmacokinetics, Pharmacodynamics, and Immunogenicity Study of Ravulizumab in Chinese Adults With Neuromyelitis Optica Spectrum Disorder (NMOSD)
Alexion Pharmaceuticals, Inc. n=21
NCT07420296 RECRUITING
Modified Zipper Therapy for AQP4-IgG Positive Neuromyelitis Optica Spectrum Disorder
Tianjin Medical University General Hospital n=198
NCT06724809 ACTIVE NOT RECRUITING
Efficacy, Safety, PK, PD, and ADA of Eculizumab in Chinese Adults With NMOSD
Alexion Pharmaceuticals, Inc. n=21
NCT05346354 ACTIVE NOT RECRUITING
Efficacy and Safety Study of Ravulizumab IV in Pediatric Participants With NMOSD
Alexion Pharmaceuticals, Inc. n=12
NCT05314010 ACTIVE NOT RECRUITING
A Study of MIL62 in Patients With Neuromyelitis Optica Spectrum Disorder (NMOSD)
Beijing Mabworks Biotech Co., Ltd. n=102
NCT07132398 NOT YET RECRUITING
Slow vs. Rapid Glucocorticoids Tapering With Inebilizumab in NMOSD
Tianjin Medical University General Hospital n=170
NCT05403138 ACTIVE NOT RECRUITING
Safety and Efficacy of Daratumumab in Patients With Anti-Aquaporin 4 Antibody Positive Neuromyelitis Optica Spectrum Disorders
Tianjin Medical University General Hospital n=135
NCT05730699 ACTIVE NOT RECRUITING
Efficacy and Safety of Divozilimab in Patients With Neuromyelitis Optica Spectrum Disorders (AQUARELLE)
Biocad n=105
NCT03330418 TERMINATED
A Phase III Study of TACI-antibody Fusion Protein Injection (RC18) in Subjects With Neuromyelitis Optica Spectrum Disorders
RemeGen Co., Ltd. n=178
NCT04201262 COMPLETED
An Efficacy and Safety Study of Ravulizumab in Adult Participants With NMOSD
Alexion Pharmaceuticals, Inc. n=58
NCT04660539 COMPLETED
A Study to Evaluate the Safety and Efficacy of Satralizumab in Participants With Neuromyelitis Optica Spectrum Disorder (NMOSD)
Hoffmann-La Roche n=119
NCT04155424 TERMINATED
A Study of the Safety and Activity of Eculizumab in Pediatric Participants With Relapsing Neuromyelitis Optica Spectrum Disorder
Alexion Pharmaceuticals, Inc. n=5
NCT02028884 COMPLETED
Efficacy and Safety Study of Satralizumab (SA237) as Add-on Therapy to Treat Participants With Neuromyelitis Optica (NMO) and NMO Spectrum Disorder (NMOSD)
Hoffmann-La Roche n=85
NCT02073279 COMPLETED
Efficacy and Safety Study of Satralizumab (SA237) as Monotherapy to Treat Participants With Neuromyelitis Optica (NMO) and Neuromyelitis Optica Spectrum Disorder (NMOSD)
Hoffmann-La Roche n=95
NCT02003144 COMPLETED
An Open Label Extension Trial of Eculizumab in Relapsing NMO Patients
Alexion Pharmaceuticals, Inc. n=119
NCT02200770 COMPLETED
N-MOmentum: A Clinical Research Study of Inebilizumab in Neuromyelitis Optica Spectrum Disorders
MedImmune LLC n=231
NCT03002038 COMPLETED
Comparison of Clinical Effects of Azathioprine and Rituximab NMO-SD Patients
Isfahan University of Medical Sciences n=86
NCT03829566 WITHDRAWN
Autologous Transplant To End NMO Spectrum Disorder
Northwestern University
NCT03350633 COMPLETED
Tocilizumab vs Azathioprine in Neuromyelitis Optica Spectrum Disorders
Tianjin Medical University General Hospital n=118
NCT01892345 TERMINATED
A Randomized Controlled Trial of Eculizumab in AQP4 Antibody-positive Participants With NMO (PREVENT Study)
Alexion Pharmaceuticals, Inc. n=143
NCT02398994 TERMINATED
A Multicentre randomiSed Controlled TRial of IntraVEnous Immunoglobulin Versus Standard Therapy for Transverse Myelitis
Guy's and St Thomas' NHS Foundation Trust n=2

Full NMOSD Pipeline

Every trial across Phase 1–4, plus enrollment analytics. Sortable, filterable, exportable.

Unlock with Pro

Frequently asked

Common questions about the NMOSD landscape

How many companies are developing Neuromyelitis Optica Spectrum Disorder treatments?
3 companies have active or registered Neuromyelitis Optica Spectrum Disorder programs in TheraRadar's competitive landscape (9 classified trials). The most active are AstraZeneca, Beijing Mabworks, and Bio-Thera Solutions.
What mechanisms of action are being developed for Neuromyelitis Optica Spectrum Disorder?
2 distinct mechanisms of action appear across the Neuromyelitis Optica Spectrum Disorder pipeline, including Complement C5 inhibitor and Anti-CD20 (mAb).
What is the most crowded mechanism in Neuromyelitis Optica Spectrum Disorder?
Complement C5 inhibitor is the most contested mechanism in Neuromyelitis Optica Spectrum Disorder, with 3 programs mapped to it.
Where does TheraRadar's Neuromyelitis Optica Spectrum Disorder landscape data come from?
Programs are derived from industry-sponsored ClinicalTrials.gov registrations (2008–present) and classified by mechanism of action using a curated rule set plus an LLM pipeline. Every cell links to its underlying trials, so each program is verifiable.
Is the Neuromyelitis Optica Spectrum Disorder heatmap free to use?
Yes — viewing and searching the Neuromyelitis Optica Spectrum Disorder heatmap is free. A TheraRadar Pro subscription adds advanced filters, row/column selection, and one-click export to PowerPoint, PDF, and CSV.
How this is built — methodology & limits

These grids are only as good as the data and the classification behind them — so here is exactly what goes in, what stays out, how every assignment is made, and where the limits are.

Where the data comes from

Every heatmap is built from the public ClinicalTrials.gov registry, via its official API — interventional drug and biologic trials with a start date of 2008 or later. The master index holds over 145,000 trials and is refreshed weekly (see the “updated” date on this page). A disease landscape draws only from the active, Phase 1–3, industry-sponsored slice of that index.

  • In scope: industry-sponsored trials in Phase 1, 2, or 3, with an active status (recruiting, active-not-recruiting, not-yet-recruiting, or enrolling by invitation). Phase 4 sits in the index but is left out of the landscapes.
  • Filtered out: deeply stale programs (a primary completion date more than two years past with no update to completed or terminated); basket trials and incidental mentions (a trial counts toward a disease only when that disease is genuinely the subject of study — not a secondary cohort, an organ-of-origin overlap, or a passing mention); and healthy-volunteer studies.

We do not exclude trials by sponsor geography. Where a sponsor is based in China, the program is flagged on the page rather than hidden, so you can weigh it yourself. An automated test fails the weekly refresh if the underlying index is more than 14 days old, so a published grid is never built on a stale index.

How a trial is matched to a disease

Matching uses a structured medical ontology, not keyword guessing, and is designed so that no trial is ever silently dropped — every trial that clears the filters gets a classification, even if that is just “Other.” It runs as an ordered sequence of steps, stopping at the first that applies:

  1. Healthy-volunteer studies are set aside as non-disease trials.
  2. Ontology match — each tracked disease is linked to its official identifiers in the standard medical taxonomy (MeSH), so a trial can be matched even when its text uses a synonym.
  3. Curated disease patterns — a hand-maintained library of over 150 disease-name patterns covers the more granular indications across oncology, hematology, infectious disease, cardiometabolic, immunology, and neuropsychiatry.
  4. Basket guard — a trial matching four or more distinct diseases, or carrying explicit basket language (“tumor-agnostic,” “all solid tumors,” “pan-cancer”), is grouped into a single advanced-solid-tumor category rather than over-counted across every cancer it touches.
  5. Therapeutic-area roll-up — a trial with no specific match, but which the taxonomy still places under a broad area, is assigned to that area (“Oncology — other,” “Immunology — other,” …), checking cancers first so a site-specific tumor isn’t filed under its anatomical system.

A “drop-if-parent-present” rule keeps a generic name from drowning out a subtype: a trial matching both lupus and lupus nephritis is reported only as lupus nephritis. Internal abbreviations are translated to the plain disease names used across the site (for example, “CRC” becomes “Colorectal Cancer”), and the same classifier is shared by every heatmap, so the same trial always maps to the same disease wherever it appears.

How a drug is matched to its mechanism

Mechanism of action is the hardest part to get right, so it is assigned in layers — leaning on curated and public data first, with AI as a last resort:

  1. Curated rulebook (first). A rulebook we maintain — over 600 drug-to-mechanism rules — is checked first, matching on drug names, trial acronyms, sponsor trial identifiers, and intervention lists. First match wins, which stops a combination trial from being counted several times.
  2. Public molecular-target data. Where no rule applies, each intervention’s target is looked up in a public target database, with verbose or gene-symbol labels normalized into consistent short forms so one target isn’t split across several columns.
  3. Standard-of-care backbones. A small set of rules recognizes common combination scaffolds (checkpoint-inhibitor monotherapy, standard chemotherapy regimens, established standard-of-care agents) so they aren’t mistaken for the experimental arm.
  4. AI as a last resort, then cross-checked. Only for genuinely opaque sponsor code-names that none of the first three steps can resolve do we ask an AI model to propose a mechanism — applied only above a fixed confidence bar, then automatically cross-checked against the sponsor’s own pipeline page. Where AI and the sponsor agree, the program is marked sponsor-verified. Where they contradict, the label is discarded entirely — not shown, not counted.

New mechanism rules are independently double-verified before they’re trusted — a second, adversarial pass set up to disprove the first — and each is checked so it can’t mislabel an unrelated trial. Drugs whose mechanism isn’t publicly disclosed are shown openly as “Emerging — not yet disclosed” rather than guessed at: for a tool meant to support real decisions, “we don’t yet know” is a more trustworthy answer than a confident guess.

Where AI is used — and where it isn’t

The disease and mechanism matching above is driven first by deterministic rules and public ontologies, not AI. AI plays three bounded, disclosed roles: (1) an optional extra check that a trial genuinely studies the disease, on top of the ontology match; (2) inferring a trial’s treatment setting on the competitive grids when the rules don’t cover it, only above a fixed confidence bar; and (3) the last-resort mechanism step above, always cross-checked against the sponsor’s disclosures. Wherever an AI label reaches a cell, the page marks it (⚙️ or ✅) — AI is never the silent, sole source of what you see.

What the on-page markers mean

  • ✅ Sponsor-verified — AI proposed the mechanism and it matched the sponsor’s own pipeline page. High-trust.
  • ⚙️ AI-classified — AI proposed it above the confidence bar but it has not yet been cross-checked against the sponsor. Useful; verify before citing. It never means a person reviewed it.
  • ⚡ First-in-class — the mechanism hasn’t appeared in any other disease landscape we’ve built. This reflects the scope of landscapes published so far (the tooltip lists exactly which were scanned), not an absolute claim about the whole market.
  • 🌱 First-in-indication — the only program competing on that mechanism within this disease.
  • 🆕 NME candidate — the interventions match no drug in our approved-drug index, suggesting a new molecular entity. The index is incomplete — a signal, not a regulatory fact.
  • 🔗 Combination · 👶 Pediatric · 🔥 Hot (readout within six months) · ⏳ Stale (completion date passed but still marked active — often a stalled program).

Sponsor names are resolved through a curated parent/subsidiary map; unrecognized sponsors appear under their raw registry name. The registry records the sponsor at a trial’s inception, so names are as originally filed and may not reflect later acquisitions. To keep large grids legible, mechanisms with a single program are listed separately rather than crowding the main grid, and very small players are listed below it — presentation choices only; nothing is removed from the underlying counts.

How we score programs — “what’s about to move”

Each program carries a 0–100 score that deliberately ranks imminence over raw stage — the most decision-relevant signal on a competitive grid. It is the sum of:

  • Clinical phase — up to 40 points (Phase 3 = 40, Phase 2 = 25, Phase 1 = 10).
  • Readout proximity — up to 60 points (next readout <6 months = 60, 6–12 months = 45, 1–2 years = 30, distant = 5).
  • Stale penalty — the score is halved if a trial is past its expected readout but still listed as active.

Cell colour on the grid is driven by this score, so a Phase 2 program about to read out can — correctly — outrank a dormant Phase 3 one. It answers “what’s about to move,” not just “what’s furthest along.”

What each grid plots

  • Indication landscape (this page) — one disease — companies (rows) × mechanism of action (columns): who is competing, and on what mechanism.
  • Company portfolio — one company — diseases (rows) × mechanism (columns): where it is active, and what it is betting on.
  • MOA platform — one mechanism family — drugs (rows) × diseases (columns): who is working on this class, and where.
  • Competitive landscape — one disease — mechanism (rows) × clinical setting (columns), aggregated across companies; setting columns are tailored per disease (e.g. lines of therapy in oncology; biologic-naïve vs. biologic-experienced in IBD).

What we don’t claim

  • First-in-class is editorial, not absolute — “not seen in the landscapes we’ve built,” not “novel across the industry.”
  • NME candidate is a signal, not a filing — absent from our (incomplete) approved-drug index.
  • Disease matching is automated and not exhaustively validated per disease — ontology and pattern matching can occasionally include or miss a trial.
  • AI-classified mechanisms are machine-proposed — unconfirmed unless they also carry ✅.
  • Sponsor names are as-filed and may lag current ownership.
  • Grids are as fresh as their last rebuild from the weekly index — no faster continuous refresh is claimed.

Data: ClinicalTrials.gov v2 API + FDA Drugs@FDA (approved-drug index). Spot an error? [email protected].

Data: ClinicalTrials.gov · Trials registered 2008 onwards · Industry sponsors only