NCT05281068
- Objective
- Not yet disclosed
- Design
- Not yet disclosed
- Participants
- Not yet disclosed
- Primary endpoint
- Not yet disclosed
- Results
- Results not yet reported
pharma · Nasopharyngeal Carcinoma · Hepatocellular Carcinoma
Xiyuan Hospital of China Academy of Chinese Medical Sciences
Chinese Academy of is a pharma organization headquartered in TAIZHOU, CN. Primary therapeutic focus areas include Nasopharyngeal Carcinoma, Hepatocellular Carcinoma, COVID-19, Breast Cancer, Coronary Artery Disease. Nova
Phase 2 · small molecule · ITP
Iguratimod (internal code PKU-ITP030) is a small-molecule therapeutic candidate in phase 2 development sponsored by Xiyuan Hospital of China Academy of Chinese Medical Sciences for the treatment of immune thrombocytopenia (ITP). The program is currently active with the most recent milestone recorded on 2 May 2022. ITP
Internal code PKU-ITP030
Iguratimod (internal code PKU-ITP030) is a small-molecule therapeutic candidate in phase 2 development sponsored by Xiyuan Hospital of China Academy of Chinese Medical Sciences for the treatment of immune thrombocytopenia (ITP). The program is currently active with the most recent milestone recorded on 2 May 2022. ITP is a bleeding disorder characterized by low platelet counts due to immune-mediated destruction, representing a significant unmet medical need in both developed and emerging markets.
The development program is being evaluated through clinical trial NCT05281068. While the specific mechanism of action and molecular target for iguratimod in ITP have not been disclosed, the compound represents a small-molecule approach to a disease traditionally managed through corticosteroids, intravenous immunoglobulin, and splenectomy. The phase 2 status indicates the program has progressed beyond initial safety and dosage exploration and is now evaluating efficacy in patient populations.
As a China-based academic sponsor initiative, this program reflects growing investment in immunological disorder therapeutics from Chinese research institutions. The absence of disclosed commercial partnerships or licensing arrangements suggests the sponsor may be pursuing independent development or early-stage partnering discussions. No projected peak sales, consensus positioning, or expected next milestone dates have been disclosed. The program remains in active development with potential for advancement to phase 3 trials pending positive phase 2 data.
Immune thrombocytopenia affects hundreds of thousands of patients globally, with chronic ITP representing a substantial disease burden. Current standard-of-care therapies—including corticosteroids with their associated long-term toxicities, intravenous immunoglobulin with limited durability, and splenectomy with variable response rates—leave significant unmet need, particularly in steroid-dependent or steroid-refractory populations. The thrombopoietin receptor agonists and complement inhibitors that have recently entered the market address portions of this need, but treatment options remain limited and many patients experience inadequate or unsustained responses.
Iguratimod's development in ITP is clinically significant as it may represent a novel mechanistic approach to platelet preservation or immune modulation. The phase 2 stage of development indicates preliminary efficacy signals have been observed, warranting expansion into larger patient cohorts. From a market perspective, ITP therapeutics represent a growing segment within rare hematologic disorders, with multiple recent approvals and pipeline programs reflecting commercial interest.
The competitive landscape includes both established therapies and newer agents targeting different pathways. Iguratimod's positioning relative to thrombopoietin agonists, complement inhibitors, and Fc receptor modulators will depend on its efficacy profile, safety tolerability, and oral bioavailability characteristics. As a small-molecule candidate from a Chinese academic institution, successful development could establish a foothold in Asian markets while potentially attracting international partnership interest. The lack of disclosed commercial partnerships to date suggests either early-stage discussions or a strategy prioritizing Asian market development initially.
Drug Class: Small-molecule immunomodulator candidate
Modality: Small molecule
Mechanism of Action: Not yet disclosed
Molecular Target: Not yet disclosed
Route of Administration: Not yet disclosed
Indication: Immune thrombocytopenia (ITP)
Related Therapies in Development/Approved: The competitive landscape for ITP includes thrombopoietin receptor agonists (romiplostim, eltrombopag), complement inhibitors (pegcetacoplan), and Fc receptor modulators. The program data provided includes carfilzomib (KYPROLIS), a 26S proteasome inhibitor approved for hematologic malignancies, which is noted as approved in Australia, Japan, European Union, and the United States through multiple regulatory pathways and manufacturers.
Patent Status: Not yet disclosed
First Approval: Not applicable—program remains in phase 2 clinical development
Also known as: immune thrombocytopenia, ITP, idiopathic thrombocytopenia, idiopathic thrombocytopenia purpura, idiopathic thrombocytopenic purpura, thrombocytopenic purpura, autoimmune
Prevalence: Point prevalence: 1-5 / 10 000 (Europe) — source: Orphanet, validated.
An autoimmune disorder in which the number of circulating platelets is reduced due to their antibody-mediated destruction. ITP is a diagnosis of exclusion and is heterogeneous in origin.
ClinicalTrials.gov lists 5 registered studies for Autoimmune Thrombocytopenic Purpura (AACT aggregate).
Phase breakdown: PHASE2 (3), NA (1), PHASE1/PHASE2 (1)
Common investigational therapies:
Disease data sourced from MONDO Disease Ontology (MONDO:0008558), Orphanet — autoimmune thrombocytopenic purpura, NCT00006055, NCT00107913, NCT00225875, NCT00547066, NCT01610180, AACT (ClinicalTrials.gov aggregate), ClinicalTrials.gov, Open Targets Platform (CC BY 4.0).
Latest milestone recorded
Most recent program activity documented; specific milestone nature not disclosed.
The competitive landscape for ITP therapeutics includes multiple approved agents and pipeline candidates with distinct mechanisms. The facts provided reference carfilzomib (KYPROLIS), a 26S proteasome inhibitor developed by Onyx Pharmaceuticals/Amgen, which is approved in Australia (TGA, PBS-listed since 2018), Japan (PMDA, approved July 2016), the European Union (EMA, authorized December 2023), and the United States (FDA, multiple NDA and ANDA approvals). Carfilzomib is indicated for hematologic malignancies rather than ITP, representing a distinct therapeutic category.
The competitor list in the facts includes agents across oncology and specialty care (EVOLTRA, UNITUXIN, ALUNBRIG, GLIADEL, INLYTA, MEKTOVI, CABAZITAXEL ACCORD, CABOMETYX, CAPECITABINE SANDOZ), most of which address malignancies or other indications rather than ITP directly. This suggests the facts provided may not fully capture the ITP-specific competitive set. Established ITP therapies not detailed in the facts include thrombopoietin receptor agonists (romiplostim, eltrombopag, avatrombopag) and complement inhibitors (pegcetacoplan), which represent the primary competitive context for iguratimod's positioning. Iguratimod's competitive advantage will depend on its mechanism of action, efficacy in steroid-refractory populations, oral bioavailability, and safety profile relative to existing options.
| Therapy | Company | Mechanism | Status |
|---|---|---|---|
| EVOLTRA | Amneal Pharma Europe Ltd | DNA polymerase (alpha/delta/epsilon) inhibitor | approved |
| UNITUXIN | United Therapeutics Europe Ltd | Disialoganglioside GD2 binding agent | approved |
| ALUNBRIG | Lacuna Pharma Pty Ltd | ALK tyrosine kinase receptor inhibitor | approved |
| GLIADEL | Eisai Co., | Glutathione reductase inhibitor | approved |
| APX-CELECOXIB | Viatris Pharmaceuticals Co., | Cyclooxygenase-2 inhibitor | approved |
| TEKINEX | Teva Pharma GmbH | Protein synthesis inhibitor | approved |
| INLYTA | Pfizer Australia Pty Ltd | Vascular endothelial growth factor receptor inhibitor | approved |
| MEKTOVI | Pierre Fabre Australia Pty Ltd | Dual specificity mitogen-activated protein kinase kinase 1 inhibitor | approved |
| CABAZITAXEL ACCORD | Lacuna Pharma Pty Ltd | Tubulin inhibitor | approved |
| CABOMETYX | Ipsen | Hepatocyte growth factor receptor inhibitor | approved |
| CAPECITABINE SANDOZ | Alphapharm Pty Ltd | Thymidylate synthase inhibitor | approved |
| PFIZER AUSTRALIA PTY LTD | Pfizer Australia Pty Ltd | DNA polymerase (alpha/delta/epsilon) inhibitor | approved |
| ROMIPLOSTIM | — | Thrombopoietin receptor agonist | Approved |
| PREDNISONE | — | Glucocorticoid receptor agonist | Approved |
| FOSTAMATINIB DISODIUM | — | Tyrosine-protein kinase SYK inhibitor | Approved |
| ELTROMBOPAG OLAMINE | — | Thrombopoietin receptor agonist | Approved |
| DEXAMETHASONE SODIUM PHOSPHATE | — | Glucocorticoid receptor agonist | Approved |
| DEXAMETHASONE | — | Glucocorticoid receptor agonist | Approved |
| CORTISONE ACETATE | — | Glucocorticoid receptor agonist | Approved |
| TRETINOIN | — | Retinoic acid receptor agonist | Phase 3 |
Additional associated therapies sourced from Open Targets Platform (CC0), linked to NovaPharmaNews drug profiles where matched.
United States (FDA): Iguratimod regulatory status not yet disclosed. The program is in phase 2 development; no IND, NDA, or other FDA submissions have been disclosed.
European Union (EMA): Regulatory status not yet disclosed. No EMA submissions or approvals have been disclosed for iguratimod.
Japan (PMDA): Regulatory status not yet disclosed. No PMDA submissions or approvals have been disclosed for iguratimod.
China (NMPA): Regulatory status not yet disclosed. The sponsor is a Chinese academic institution (Xiyuan Hospital of China Academy of Chinese Medical Sciences), suggesting potential priority for Chinese regulatory engagement, but no NMPA submissions or approvals have been disclosed.
Clinical Trial Registration: The program is registered under NCT05281068 on ClinicalTrials.gov, confirming active clinical evaluation in phase 2.
No regulatory pathway designations (breakthrough therapy, fast track, orphan drug status) have been disclosed for any jurisdiction.
Iguratimod is a small-molecule therapeutic candidate in phase 2 development for the treatment of immune thrombocytopenia (ITP), a bleeding disorder characterized by low platelet counts due to immune-mediated platelet destruction.
No. Iguratimod is currently in phase 2 clinical development and has not been submitted to or approved by the FDA. No regulatory approvals in any jurisdiction have been disclosed.
Iguratimod is being developed by Xiyuan Hospital of China Academy of Chinese Medical Sciences, a Chinese academic research institution. No commercial partners or licensees have been disclosed.
The specific mechanism of action for iguratimod in ITP has not been disclosed. The compound is classified as a small-molecule therapeutic, but its molecular target and pathway remain undisclosed.
The internal development code for iguratimod is PKU-ITP030.
Iguratimod is being evaluated in clinical trial NCT05281068. Specific details regarding trial design, patient population, and endpoints have not been disclosed.
Iguratimod is currently in phase 2 development, indicating it has progressed beyond initial safety studies and is now evaluating efficacy in patient populations.
The first disclosure date for iguratimod has not been disclosed. The most recent milestone was recorded on 2 May 2022.
The route of administration for iguratimod has not been disclosed.
No regulatory approvals in China or any other jurisdiction have been disclosed. The program remains in phase 2 clinical development.
Established ITP therapies include thrombopoietin receptor agonists (romiplostim, eltrombopag, avatrombopag), complement inhibitors (pegcetacoplan), and Fc receptor modulators. Corticosteroids, intravenous immunoglobulin, and splenectomy remain standard-of-care options.
No commercial partnerships, licensing agreements, or collaborations have been disclosed for iguratimod.
Projected peak sales have not been disclosed for iguratimod.
No regulatory pathway designations (breakthrough therapy, fast track, orphan drug status) have been disclosed for iguratimod in any jurisdiction.
Immune thrombocytopenia (ITP) is a bleeding disorder in which the immune system destroys platelets, leading to low platelet counts and increased bleeding risk. Current treatments have limitations including corticosteroid toxicity, variable efficacy, and inadequate response in many patients, creating significant unmet medical need.
The expected date and nature of the next milestone for iguratimod have not been disclosed.
Iguratimod → Drug → Target → Indication → Company → Trials → Competitors
Strategic Implications: Iguratimod's development by a Chinese academic institution (Xiyuan Hospital of China Academy of Chinese Medical Sciences) reflects the growing capacity and investment in rare disease therapeutics within China's research ecosystem. The absence of disclosed commercial partnerships suggests either early-stage development with potential for future licensing or a strategy prioritizing Asian market development. The phase 2 status indicates the program has cleared initial safety hurdles and is now evaluating efficacy, positioning it for potential phase 3 advancement within 1–2 years if phase 2 data support progression.
Competitive Implications: The ITP market has experienced significant recent innovation with multiple new mechanisms approved (thrombopoietin agonists, complement inhibitors). Iguratimod's competitive positioning will be determined by: (1) its mechanism of action and whether it addresses unmet need in steroid-refractory or steroid-dependent populations; (2) oral bioavailability and dosing convenience relative to intravenous therapies; (3) safety and tolerability profile; and (4) efficacy in patient subpopulations inadequately served by existing options. Without disclosed mechanism details, competitive assessment remains preliminary.
Future Catalysts: Expected catalysts include: (1) disclosure of phase 2 efficacy and safety data; (2) advancement to phase 3 trials; (3) announcement of commercial partnerships or licensing agreements; (4) regulatory submissions in China or other Asian markets; (5) expansion of clinical development to additional geographies.
Development Risk: Key risks include: (1) mechanism of action and target remain undisclosed, limiting scientific validation; (2) single-sponsor academic institution may face resource constraints for global development; (3) absence of disclosed partnerships may indicate limited commercial interest or early-stage discussions; (4) ITP market increasingly crowded with approved therapies, requiring clear differentiation for commercial success.
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Intelligence compiled from public regulatory and clinical sources (FDA, EMA, ClinicalTrials.gov and company disclosures). Figures may be editorial or analyst estimates; verify against primary sources before relying on them.