NCT00806156
- Objective
- Not yet disclosed
- Design
- Not yet disclosed
- Participants
- Not yet disclosed
- Primary endpoint
- Not yet disclosed
- Results
- Results not yet reported in available intelligence
pharma · Melanoma · Tumor · NKTR
Nektar Therapeutics UK Limited
Nektar Therapeutics is a pharma organization headquartered in San Francisco, USA. It trades on NYSE under ticker NKTR. Primary therapeutic focus areas include Melanoma, Tumor, Renal Cell Carcinoma, Alopecia Areata, Pneum
Phase 2 · small molecule · Tumor
NKTR-102 q14d is a small-molecule oncology therapeutic developed by Nektar Therapeutics UK Limited for the treatment of tumors. The program is currently in Phase 2 development, with the most recent milestone recorded on 12 July 2021. The compound is being evaluated under internal code 08-PIR-04 and is supported by clin
Internal code 08-PIR-04
NKTR-102 q14d is a small-molecule oncology therapeutic developed by Nektar Therapeutics UK Limited for the treatment of tumors. The program is currently in Phase 2 development, with the most recent milestone recorded on 12 July 2021. The compound is being evaluated under internal code 08-PIR-04 and is supported by clinical trial NCT00806156. As a Phase 2 program with completed status as of the latest disclosed milestone, NKTR-102 q14d represents an intermediate-stage asset in Nektar's oncology pipeline. The mechanism of action, specific target, and detailed clinical endpoints remain not yet disclosed in available intelligence. The q14d designation indicates a proposed dosing schedule of once every 14 days. Nektar's development strategy for this asset reflects the company's focus on tumor indications, though the specific tumor type and patient population have not been publicly detailed. Regulatory approval status and commercial projections are not yet disclosed.
Oncology remains one of the highest-priority therapeutic areas globally, with substantial unmet medical need across multiple tumor types. The competitive landscape for tumor therapeutics is highly active, with numerous approved agents spanning small-molecule kinase inhibitors, immunotherapies, and combination regimens. NKTR-102 q14d's positioning within this landscape depends on its specific mechanism of action, target population, and efficacy-safety profile relative to established standards of care. The Phase 2 status indicates the program has advanced beyond early-stage evaluation but has not yet demonstrated sufficient efficacy and safety to warrant Phase 3 registration trials. The biweekly dosing schedule (q14d) may offer convenience advantages over more frequent dosing regimens, potentially improving patient compliance and quality of life. Market relevance is contingent on the program's ability to differentiate from existing therapies in terms of efficacy, tolerability, or patient population served. The competitive field includes multiple approved agents from major pharmaceutical companies (Pfizer, Roche, AstraZeneca, Eli Lilly) as well as emerging therapies in Phase 3 development, indicating a mature and competitive market segment.
NKTR-102 q14d is classified as a small-molecule oncology therapeutic. The specific molecular target, mechanism of action, and route of administration have not been disclosed in available intelligence. The compound is designated for tumor indications, though the specific tumor type(s) and patient population remain to be detailed. Related therapies in development and approved use span multiple mechanistic classes, including tyrosine kinase inhibitors (Alecensa, Braftovi, GAVRETO, SELPERCATINIB), immunotherapies (Durvalumab, NIVOLUMAB, PEMBROLIZUMAB), and chemotherapy agents (Irinotecan liposomes, Vinorelbine, Gemcitabine, Cisplatin, Carboplatin, ALIMTA). Patent status and first approval date are not yet disclosed.
Also known as: cell process disease, disease of cellular proliferation, neoplasia, neoplasm (disease), neoplastic disease, neoplastic growth
A benign or malignant tissue growth resulting from uncontrolled cell proliferation. Benign neoplastic cells resemble normal cells without exhibiting significant cytologic atypia, while malignant cells exhibit overt signs such as dysplastic features, atypical mitotic figures, necrosis, nuclear pleomorphism, and anaplasia. Representative examples of benign neoplasms include papillomas, cystadenomas, and lipomas; malignant neoplasms include carcinomas, sarcomas, lymphomas, and leukemias.
ClinicalTrials.gov lists 97 registered studies for Growth (AACT aggregate).
Phase breakdown: NA (81), PHASE3 (6), PHASE4 (4), PHASE2/PHASE3 (3), PHASE2 (2), PHASE1 (1)
Common investigational therapies:
Disease data sourced from MONDO Disease Ontology (MONDO:0005070), NCT00001150, NCT00001336, NCT00001341, NCT00001444, NCT00001500, AACT (ClinicalTrials.gov aggregate), ClinicalTrials.gov, NCT00189449, NCT00255385, NCT00282113, NCT00285090, NCT00349323, Open Targets Platform (CC BY 4.0).
Phase 2 ongoing
NKTR-102 q14d in Phase 2 development for tumor indication under NCT00806156.
Latest milestone
Most recent disclosed milestone for NKTR-102 q14d program.
The competitive landscape for NKTR-102 q14d encompasses multiple approved small-molecule oncology therapies and agents in advanced development. Approved competitors include targeted kinase inhibitors such as Braftovi (encorafenib), Zelboraf (vemurafenib), Alecensa (alectinib), and GAVRETO (pralsetinib) from major sponsors including Pfizer, Roche, and Rigel Pharmaceuticals. Immunotherapy agents such as Durvalumab (AstraZeneca), NIVOLUMAB, and PEMBROLIZUMAB represent alternative mechanistic approaches to tumor treatment. Chemotherapy-based regimens including Irinotecan liposomes combined with cisplatin/carboplatin, Vinorelbine, Gemcitabine, and ALIMTA remain standard-of-care options in many tumor settings. Phase 3 programs including MTX (Xiyuan Hospital) and multiple Roche agents (Vinorelbine, Gemcitabine, Carboplatin, Cisplatin, ALIMTA, Alecensa) indicate ongoing development activity in this space. The competitive field is characterized by both well-established agents with extensive clinical data and emerging therapies targeting specific molecular subtypes or resistance mechanisms. NKTR-102 q14d's competitive positioning will depend on demonstration of superior efficacy, improved tolerability, or activity in specific patient populations not adequately served by existing therapies.
| Therapy | Company | Mechanism | Status |
|---|---|---|---|
| SomaKit TOC 40 micrograms kit for radiopharmaceutical preparation | Ningbo Cancer Hospital | small_molecule | approved |
| INDOCYANINE GREEN | The George Institute | small_molecule | approved |
| Dotarem® | Guerbet | small_molecule | approved |
| Chlorhexidine gluconate | Hospital Authority, Hong Kong | small_molecule | approved |
| Irinotecan liposomes combined with cisplatin/carboplatin | The First People's Hospital of Lianyungang | small_molecule | approved |
| Braftovi 50 mg hard capsules, Zelboraf 240 mg film-coated tablets, Encorafenib, Erbitux 5 mg/mL solution for infusion, PEMBROLIZUMAB, Braftovi 75 mg hard capsules, Braftovi 75 mg hard capsules, Braftovi 50 mg hard capsules, Ribociclib, Ribociclib, NIVOLUMAB, Mektovi 15 mg film-coated tablets, Mektovi 15 mg film-coated tablets, Ribociclib | Pfizer Australia Pty Ltd | small_molecule | approved |
| GAVRETO ®(pralsetinib) capsules | RIGEL PHARMACEUTICALS INC | small_molecule | approved |
| Durvalumab | AstraZeneca | small_molecule | approved |
| Dexamethasone 4 mg tablets, Dexamethasone Phosphate 4 mg/ml Solution for Injection | Disc Medicine | small_molecule | approved |
| SELPERCATINIB, SELPERCATINIB | Eli Lilly Co. | small_molecule | approved |
| MTX | Xiyuan Hospital of China Academy of Chinese Medical Sciences | small_molecule | phase_3 |
| Alecensa 150 mg hard capsules, VINORELBINE, Gemcitabin-GRY 1000 mg Pulver zur Herstellung einer Infusionslösung, Carboplatin-GRY® 10 mg/ml Konzentrat zur Herstellung einer Infusionslösung, Carboplatin ACTAVIS 10 mg/ml concentrat pentru soluţie perfuzabilă, ALIMTA 500 mg powder for concentrate for solution for infusion, Cisplatin NeoCorp 1 mg/ml - Konzentrat zur Herstellung einer Infusionslösung, Alecensa 150 mg hard capsules | Hoffmann-La Roche | small_molecule | phase_3 |
| ZOLEDRONIC ACID | — | Farnesyl diphosphate synthase inhibitor | Approved |
| ZANUBRUTINIB | — | Tyrosine-protein kinase BTK inhibitor | Approved |
| VORINOSTAT | — | Histone deacetylase 3 inhibitor | Approved |
| VISMODEGIB | — | Smoothened homolog inhibitor | Approved |
| VINORELBINE | — | Tubulin inhibitor | Approved |
| VINCRISTINE | — | Tubulin inhibitor | Approved |
| VINBLASTINE SULFATE | — | Tubulin inhibitor | Approved |
| VINBLASTINE | — | Tubulin inhibitor | Approved |
Additional associated therapies sourced from Open Targets Platform (CC0), linked to NovaPharmaNews drug profiles where matched.
Regulatory approval status for NKTR-102 q14d is not yet disclosed. FDA, EMA, PMDA (Japan), and NMPA (China) approval or filing status remains unknown. The program's Phase 2 status indicates that regulatory submissions have not yet been made to major health authorities. Clinical trial NCT00806156 is registered with the U.S. National Institutes of Health and represents the primary disclosed evidence base for this program. Future regulatory milestones, including Phase 3 initiation, Investigational New Drug (IND) status updates, or regulatory pre-submission meetings, have not been disclosed.
NKTR-102 q14d is a small-molecule oncology therapeutic in Phase 2 development for the treatment of tumors. The specific tumor type(s) and patient population have not been disclosed.
NKTR-102 q14d is developed and sponsored by Nektar Therapeutics UK Limited. No partner or co-development arrangement has been disclosed.
No. NKTR-102 q14d is currently in Phase 2 development and has not been approved by the FDA or other major regulatory authorities.
The specific mechanism of action for NKTR-102 q14d has not been disclosed in available intelligence.
The specific molecular target for NKTR-102 q14d has not been disclosed in available intelligence.
The q14d designation indicates a proposed dosing schedule of once every 14 days. Specific dose levels and administration route have not been disclosed.
NKTR-102 q14d is supported by clinical trial NCT00806156. Detailed trial design, enrollment, and results have not been disclosed in available intelligence.
NKTR-102 q14d is in Phase 2 development with a completed status as of the latest disclosed milestone on 12 July 2021. No subsequent milestones have been disclosed.
Competitors include approved agents such as Braftovi, Zelboraf, Alecensa, GAVRETO, Durvalumab, NIVOLUMAB, and PEMBROLIZUMAB, as well as chemotherapy regimens and Phase 3 programs from major pharmaceutical companies.
No development partner or co-development arrangement has been disclosed for NKTR-102 q14d.
The internal development code for NKTR-102 q14d is 08-PIR-04.
The first disclosure date for NKTR-102 q14d has not been disclosed in available intelligence. The most recent milestone is dated 12 July 2021.
Projected peak sales figures for NKTR-102 q14d have not been disclosed in available intelligence.
Consensus analyst position on NKTR-102 q14d has not been disclosed in available intelligence.
NKTR-102 q14d is a small-molecule therapeutic.
No. NKTR-102 q14d remains in Phase 2 development as of the latest disclosed milestone on 12 July 2021, with no announcement of Phase 3 initiation.
NKTR-102 q14d → Drug → Target → Indication → Company → Trials → Competitors
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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.