Table 9.
Characteristics of Searched Clinical Studies
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I. An Early Phase Study of Abraxane Combined with Phenelzine Sulfate in Patients with Metastatic or Advanced Breast Cancer168 (8 participants) Metastatic Breast Cancer | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Phase Ib Safety and Pharmacokinetics (PK)/ Pharmacodynamics (PD) Study to Determine the Dosage of Abraxane in Combination with Phenelzine Sulfate in Metastatic or Inoperable Locally Advanced Breast Cancer Study Phase: Phase 1b Study Objectives: To determine the safety and efficacy after administration of Abraxane and phenelzine sulfate (Nardil) for metastatic or locally advanced breast cancer. Study design: Interventional, open label, non-randomised, cumulative cohort group design (5 groups) with a defined target toxicity fraction of 30% and a corresponding margin of 10%. The toxicity fraction is defined for clinical application and study as the number of study subjects receiving particular dose who experience a Dose-Limiting Toxicity. Study Status: completed (October 30, 2019) |
Arms: 1. Nanoparticle albumin-bound paclitaxel. Abraxane i.v. (100mg/m2) 2. Phenelzine Sulfate (Nardil) p.o. initial dose of 15mg/d to a max dose of 90mg/d |
Brief Summary Participants diagnosed with metastatic breast cancer or inoperable locally advanced breast cancer of age 18 years or above will receive combination of intravenously administered Abraxane and phenelzine sulfate orally. Both of the medicinal products have been applied in clinical practice for years however the combination of both has not been given for cancer therapy. The aim of the study is to investigate the effect of those two drugs together. Safety and efficacy will be assessed weekly for the period of 3 administration cycles. Abraxane administration is given weekly for the first 3 weeks of a 4-week period for 3 consecutive cycles. Phenelzine sulfate will be given daily for 3 cycles. Study is divided in five cohort groups each will be given a progressively increasing dose of phenelzine sulfate. Primary Outcome Measures Dose-Limiting Toxicity events assessed during the initial fifty-six (56) days Secondary Outcome Measures 1. Abraxane Cmax 2. Abraxane Tmax 3. Abraxane Half-life 4. Abraxane AUC 5. Nardil Cmax 6. Nardil Tmax 7. Nardil Half-life 8. Nardil AUC 9. Circulating Tumour Cell burden: a. PDL1 expressing Circulating Tumour Cell b. HER2 expressing Circulating Tumour Cell c. FFPE Tumour cells d. FFPE Stoma cells e. FFPE Cancer Stem Cells |
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II. Nanoparticle Albumin-Bound Rapamycin in Treating Patients With Advanced Cancer With mTOR Mutations169 (2 participants) Advanced Malignant Neoplasm; Cervical Squamous Cell Carcinoma; Endometrial Carcinoma; Malignant Uterine Neoplasm; Recurrent Carcinoma of Bladder, Breast, Cervical, Head, and Neck, Ovarian, Prostate; Recurrent Malignant Neoplasm; Recurrent Renal Cell Carcinoma; Solid Neoplasm Stage III; Bladder Cancer Stage: III, IVA, IVB; Prostate Cancer Stage III & Stage IV; Renal Cell Cancer Stage IIIA & Stage IVA; Breast Cancer Stage: IIIA, IIIB, IIIC, IV; Cervical Cancer Stage: IIIA, IIIB, IVB; Ovarian Cancer Stage: IIIB, IIIC, IV | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Pilot Study of a Rapid Access Platform for Investigational Drugs (RAPID) in Advanced Cancers Study Phase: Phase 1 Study Objectives: PRIMARY OBJECTIVES: I. To investigate efficacy. II. To determine the confirmed response rate of nab-rapamycin SECONDARY OBJECTIVES: I. To estimate other clinical outcomes II. To assess the adverse event profile III. To assess the clinical benefit IV. To assess progression-free survival and overall survival of these patients. TERTIARY OBJECTIVES: I. To assess quality of life and to correlate HRQOL/symptoms with genomic markers. II. To assess the rate of individual mTOR pathway aberrations Study design: Interventional, Open label, Single group assignment Study dates: Study start date: January 2016; Study end date: April 24, 2018 Study Status: completed |
Arms: 1. Nanoparticle albumin-bound rapamycin Interventions 1. Laboratory Biomarker Analysis 2. Quality-of-Life Assessment |
Brief Summary This pilot study investigates clinical response to rapamycin administered to patients with advanced cancer and having abnormal genetic test results in a protein called mechanistic target of rapamycin (mTOR). Patients are given nanoparticle albumin-bound rapamycin, which may inhibit the growth of cancer cells by influencing the mTOR enzyme, required for cell growth. Primary Outcome Measures 1. Proportion of confirmed responses (clinical benefit) Secondary Outcome Measures 1. Incidence of adverse events 2. Relationship of adverse events to study treatment 3. Survival time 4. Time to disease progression Other Outcome Measures 1.Quality of life (EORTC QLQ-C30 questionnaire) 2. Rate of mTOR pathway aberrations |
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III. A Study of CriPec® Docetaxel Given to Patients With Solid Tumours170 (33 participants) Metastatic Cancer, Solid Tumors | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Phase I Open-Label, Safety, Pharmacokinetic and Preliminary Efficacy Study of CriPec® Docetaxel in Patients With Solid Tumours Study Phase: Phase 1 Study Objectives: To assess safety and tolerability Study design: Open Label, Single Group Assignment Study dates: Study start date: August 2015 Study end date: July 2018 Study Status: completed |
Arms: 1. CriPec® docetaxel Docetaxel containing nanoparticle 3 weekly IV dose |
Brief Summary The aim of this study is to determine safety by finding the highest safe dose of CriPec® docetaxel that can be administered to patients with solid tumours Primary Outcome Measures 1. Incidence of adverse events (grade 3 or 4) as a measure of safety and tolerability. 2. Incidence of abnormal clinical laboratory values as a measure of safety and tolerability. 3. Incidence abnormal of electrocardiogram findings as a measure of safety and tolerability. 4. Incidence of adverse events at the Maximum Tolerated Dose (grade 3 or 4) 5. Incidence of abnormal lab values at the Maximum Tolerated Dose 6. Incidence of ECG abnormalities at the Maximum Tolerated Dose 7. Pharmacokinetics: (Tmax), (Cmax), volume of distribution (Vd), half life (t1/2), total body clearance (CL) and area under the concentration-time curve (AUC) Secondary Outcome Measures 1. Early signs of anti-tumor efficacy (overall response rate) 2. Early signs of anti-tumor efficacy (duration of response) |
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IV. PIPAC Nab-pac for Stomach, Pancreas, Breast and Ovarian Cancer171 (20 participants) Ovarian Cancer Stage: IIIB, IIIC, IV; Breast Cancer Stage: IIIB, IIIc, IV; Stomach Cancer; Stage III & Stage IV with Metastases; Pancreas Cancer, Stage III& Stage IV | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Intraperitoneal Aerosolization of Albumin-stabilized Paclitaxel Nanoparticles for Stomach, Pancreas, Breast and Ovarian Cancer Study Phase: Phase 1 Study Objectives: To assess maximal tolerated dose via dose escalation combined with pharmacokinetic/pharmacodynamic modelling which incorporates, in addition to plasma, tumor tissue, and peritoneal drug concentrations, biomarkers of toxicity and efficacy Study design: Interventional, Randomized, Single Group Assignment, Double blinded, Multicenter Study dates: Study start date: September 16, 2017; Study end date: May 6, 2020 Study Status: completed |
Arms: 1. PIPAC with Abraxane (35 mg/m2) 2. PIPAC with Abraxane (70 mg/m2) 3. PIPAC with Abraxane (90 mg/m2) 4. PIPAC with Abraxane (112,5 mg/m2) 5. PIPAC with Abraxane (140 mg/m2) |
Brief Summary The study is designed to assess the maximal tolerated dose of albumin bound nanoparticle paclitaxel (nab-pac) administered with repeated pressurized intraperitoneal aerosol chemotherapy Primary Outcome Measures 1. Maximally tolerated dose of Abraxane (dose limiting toxicities) Secondary Outcome Measures 1. Surgical morbidity will be measured (Dindo-Clavien classification) 2. Maximum plasma concentration of Abraxane 3. Area Under the Curve (AUC) 4. Pharmacodynamics of Abraxane will be analyzed using tumor markers (CA15.3 for breast cancer, CEA for stomach cancer, CA19.9 for pancreatic cancer, CA125 in case of ovarian cancer). 5. Pharmacodynamics (PD) of Abraxane will be analyzed by tumor biopsies 6. Quality of Life (EORTC QLQ-C30 questionnaire) 7. Quality of Life (FACT-G questionnaire) 8. Neutropenia (neutrophil count) 9. Decreased platelet count |
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V. Ceritinib and Combination Chemotherapy in Treating Patients With Advanced Solid Tumors or Locally Advanced or Metastatic Pancreatic Cancer172 (38 participants) Advanced Malignant Solid Neoplasm; ALK Positive Metastatic Pancreatic Adenocarcinoma Pancreatic Cancer Stage III & Stage IV | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Phase I Study of Ceritinib (LDK378), a Novel ALK Inhibitor, in Combination With Gemcitabine-Based Chemotherapy in Patients With Advanced Solid Tumors Study Phase: Phase 1 Study Objectives: PRIMARY OBJECTIVES: I. Determine the maximum tolerated dose and recommended Phase II dose of ceritinib in combination with gemcitabine (gemcitabine hydrochloride) alone, gemcitabine/nab-paclitaxel and gemcitabine/cisplatin in patients with advanced solid malignancies. SECONDARY OBJECTIVES: I. Assess the safety profile II. Determine the pharmacokinetic characteristics III. Determine the preliminary efficacy of the study drug combinations. TERTIARY OBJECTIVES: I. Investigate potential biomarkers of efficacy Study design: Interventional, Non-randomized, Open label, Parallel assignment Study dates: Study start date: January 8, 2015; Study end date: February 12, 2019 Study Status: completed |
Arms: 1. Ceritinib maximum tolerated dose (MTD) then gemcitabine alone Interventions 1: Drug: Ceritinib Drug: Gemcitabine Hydrochloride Other: Laboratory Biomarker Analysis Other: Pharmacological Study 2. Ceritinib maximum tolerated dose then with gemcitabine and paclitaxel albumin-stabilized nanoparticle Interventions 2: Drug: Ceritinib Drug: Gemcitabine Hydrochloride Drug: Paclitaxel Albumin-Stabilized Nanoparticle Formulation Other: Laboratory Biomarker Analysis Other: Pharmacological Study 3. Ceritinib maximum tolerated dose then with gemcitabine and cisplatin Interventions 3: Drug: Ceritinib Drug: Cisplatin Drug: Gemcitabine Hydrochloride Other: Laboratory Biomarker Analysis Other: Pharmacological Study |
Brief Summary Study to determine safety - the maximum tolerated dose and recommended Phase II dose for chemotherapy with Ceritinib (LDK378) in patients with advanced solid tumors Primary Outcome Measures 1. Maximum tolerated dose and recommended Phase II dose of ceritinib in combination with gemcitabine hydrochloride alone 2. Maximum tolerated dose and recommended Phase II dose of ceritinib in combination with gemcitabine hydrochloride and cisplatin 3. Maximum tolerated dose and recommended Phase II dose of ceritinib in combination with gemcitabine hydrochloride and paclitaxel albumin-stabilized nanoparticle formulation Secondary Outcome Measures 1. Incidence of adverse events of Ceritinib in combination treatment with gemcitabine hydrochloride chemotherapy Safety profile based on event type, frequency, severity, time relationship, seriousness and relationship to study treatment. 2. Pharmacokinetics of Ceritinib and Gemcitabine hydrochloride combined: A population based pharmacokinetic model to estimate individual AUC or clearance of Ceritinib 3. Pharmacokinetics of Ceritinib, Gemcitabine hydrochloride, and paclitaxel albumin-stabilized nanoparticle formulation; A population based pharmacokinetic model will be developed to estimate individual AUCs or CL of Ceritinib in combination with Gemcitabine hydrochloride and nab-Paclitaxel. 4. Pharmacokinetic characteristics of paclitaxel albumin-stabilized nanoparticle formulation, and cisplatin; A population based pharmacokinetic model will be developed to estimate individual AUCs or CL of Ceritinib in combination with Gemcitabine hydrochloride and Cisplatin. 5. Progression free survival 6. Response rate as estimated by the RECIST 1.1 Other Outcome Measures: 1. Tumor biomarkers and levels of serum |
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VI. Phase 1 Trial of PAN-301-1 (SNS-301) in Cancer Patients173 (12 participants) Prostate Cancer | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Phase 1, Open Label Trial to Evaluate the Safety and Immunogenicity of PAN-301-1 in Cancer Patients Study Phase: Phase 1 Study Objectives: Study design: Interventional, Sequential Assignment, Open label Study dates: Study start date: December 2016; Study end date: December 2018 Study Status: completed |
Arms: 1. PAN-301-1 (SNS-301) Vaccine Intervention: Biological: PAN-301-1 |
Brief Summary Research phase 1 study of PAN-301-1 (SNS-301), a HAAH directed nanoparticle vaccine, given intradermally in cohorts of patients with biochemically relapsed prostate cancer, aiming to assess safety parameters. Primary Outcome Measures Safety assessment to determine maximum tolerated dose by monitoring the development of adverse events and dose-limiting toxicity Secondary Outcome Measures Safety assessment by monitoring administration site reactions, abnormal lab values and adverse events |
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VII. Gemcitabine Hydrochloride, Cisplatin, and Nab-Paclitaxel in Treating Patients With Advanced or Metastatic Biliary Cancer174 (62 participants) Stage III Intrahepatic Cholangiocarcinoma AJCC v7 Stage IIIA Gallbladder Cancer AJCC v7 Stage IIIB Gallbladder Cancer AJCC v7 Stage IVA Gallbladder Cancer AJCC v7 Stage IVA Intrahepatic Cholangiocarcinoma AJCC v7 Stage IVB Gallbladder Cancer AJCC v7 Stage IVB Intrahepatic Cholangiocarcinoma AJCC v7 Unresectable Extrahepatic Bile Duct Carcinoma Unresectable Gallbladder Carcinoma | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Phase II Study of Gemcitabine, Cisplatin, and Abraxane in Advanced Biliary Cancers Study Phase: Phase 2 Study Objectives: PRIMARY OBJECTIVES: I. Determine the progression-free survival of gemcitabine hydrochloride (gemcitabine), cisplatin, and nab-paclitaxel in advanced, untreated biliary cancers. SECONDARY OBJECTIVES: I. Determine the response rate and disease control rate II. Determine overall survival of gemcitabine, cisplatin, and nab-paclitaxel in advanced biliary cancers. III. Evaluate the toxicity of gemcitabine, cisplatin, and nab-paclitaxel in advanced biliary cancers. Study design: Interventional, Single Group Assignment, Open - label Study dates: Study start date: April 2, 2015; Study end date: August 13, 2020 Study Status: completed |
Arms: 1. Treatment (nab-paclitaxel, cisplatin, gemcitabine) Intervention/treatment Drug: Cisplatin Given IV Drug: Gemcitabine Hydrochloride i.v. Drug: Nab-paclitaxel i.v. Other: Laboratory Biomarker Analysis, Correlative studies |
Brief Summary This study investigates the efficacy of the intervention drugs administered in patients with biliary cancers. Primary Outcome Measures Progression free survival Secondary Outcome Measures Incidence of adverse events |
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VIII. Radiosensitization of Multiple Brain Metastases Using AGuIX Gadolinium Based Nanoparticles175 (15 participants) Brain Metastases | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Phase I Clinical Study of Radiosensitization of Brain Metastases By Gadolinium Nanoparticles Study Phase: Phase 1 Study Objectives: To study safety and preliminary efficacy Study design: Interventional, open label, Single Group Assignment Study dates: Study start date: March 2016; Study end date: February 2019 Study Status: completed |
Arms: 1. AGuIX and radiotherapy With the following escalation cohorts: 15 mg/kg, 30 mg/kg, 50 mg/kg, 75 mg/kg and 100 mg/kg Intervention/treatment Drug: AGuIX |
Brief Summary Study investigates if AGuIX particles may increase the effectiveness of radiation therapy by sensitizing tumor cells to radiation. This trial studies the side effects and optimal dose of AGuIX when injected together with whole brain radiation therapy. The preliminary effectiveness of the combination of AGuIX and radiation therapy will be also assessed. Primary Outcome Measures 1. Maximum tolerated dose of AGuIX given with the whole brain radiation therapy Secondary Outcome Measures 1. Pharmacokinetic parameter of AGuIX particles - Cmax 2. Pharmacokinetic parameter of AGuIX particles - AUC 3. Pharmacokinetic parameter of AGuIX particles -T1/2 4. MRI to evaluate distribution of AGuIX particles in brain metastases and surrounding healthy tissue 5. MRI to assess intracranial progression-free survival 6. Overall survival |
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IX. Study to Evaluate CORT125134 in Combination With Nab-paclitaxel in Patients With Solid Tumors176 (146 participants) Solid Tumors | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Phase 1/2 Study of CORT125134 in Combination With Nab-paclitaxel in Patients With Solid Tumors Study Phase: Phase 1/2 Study Objectives: To assess the safety and to determine the preliminary efficacy Study design: Interventional, non-randomized, open label, Single Group Assignment, multicenter Study dates: Study start date: May 2016; Study end date: May 2020 Study Status: completed |
Arm CORT125134 with nab-paclitaxel Intervention/treatment CORT125134 with nab-paclitaxel p.o. Nab-paclitaxel i.v. |
Brief Summary The purpose of this study is to assess the safety and preliminary efficacy of the combination of drugs: CORT125134 and nab-paclitaxel administered in patients with solid tumors. Primary Outcome Measures 1. Maximum Tolerated Dose of CORT125134 Secondary Outcome Measures 1. Incidence of Treatment-Related Adverse Events Other Outcome Measures 1. Objective response rate, progression free survival, overall survival 2. Objective response rate, progression free survival, and overall survival in patients with GR-positive or GR negative solid tumors. 3. Pharmacokinetics: exposure-response 4. Pharmacodynamics: modulation of GR function, hormonal changes and FKBP5 |
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X. Study of Topical SOR007 Ointment for Cutaneous Metastases177 (23 participants) Cutaneous Metastasis | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Phase 1/2 Dose-Rising, Safety, Tolerability and Efficacy Study of Topical SOR007 for Cutaneous Metastases Study Phase: Phase 1/2 Study Objectives: To evaluate the safety, tolerability and preliminary efficacy of SOR007 (in different concentrations) Study design: Interventional, Non-Randomized, Sequential Assignment, open-label, dose-rising Study dates: Study start date: January 31, 2018; Study end date: April 29, 2020 Study Status: completed |
Arms: 1. SOR007 0.15% (Uncoated Nanoparticle Paclitaxel) Ointment 2. SOR007 1.0% (Uncoated Nanoparticle Paclitaxel) Ointment 3. SOR007 2.0% (Uncoated Nanoparticle Paclitaxel) Ointment Intervention Drug: Uncoated Nanoparticle Paclitaxel) Ointment |
Brief Summary To study a topical nanoparticle paclitaxel ointment (SOR007) for the treatment of cutaneous metastases from non-melanoma cancer in adults. Primary Outcome Measures 1. Incidence of treatment emergent adverse events Secondary Outcome Measures 1. Difference in total area of eligible lesion(s) in the treatment area 2. Objective clinical response 3. Reduction in pain at the treatment area 4. Pharmacokinetic parameter – AUC 5. Pharmacokinetic parameter – Cmax 6. Pharmacokinetic parameter – Tmax |
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XI. PET Study With [89Zr]-Df-CriPec® Docetaxel178 (7 participants) Solid Tumor | ||
| Selected Study Details | Arms and Interventions | Brief Description and Outcome Measures |
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Official Study Title: A Clinical Phase I, Open-label, PET Study With [89Zr]-Df-CriPec® Docetaxel in Patients With Solid Tumours to Assess Biodistribution and Tumour Accumulation of [89Zr]-Df-CriPec® Docetaxel Study Phase: Phase 1 Study Objectives: To assess biodistribution and tumour accumulation of the drug administered. Study design: Open Label, Single Group Assignment Study dates: Study start date: April 1, 2018; Study end date: May 8, 2020 Study Status: completed |
Arms: 1. [89Zr]-Df-CriPec® docetaxel |
Study with administration of [89Zr]-Df-CriPec® docetaxel in patients with solid tumours to assess biodistribution and tumour accumulation of the drug given. Primary Outcome Measures Detection (visual) of [89Zr]-Df-CriPec® docetaxel in tumour lesions Visual detection (absent/present) of tumor uptake Detection (quantitative) of [89Zr]-Df-CriPec® docetaxel in tumour lesions Secondary Outcome Measures Dosimetry of [89Zr]-Df-CriPec docetaxel based on activity concentration and biodistribution Optimal time point for PET imaging after [89Zr]-Df-CriPec® docetaxel administration Linearity between [89Zr]-Df-CriPec® docetaxel and total docetaxel Biodistribution of low dose dose [89Zr]-Df-CriPec® docetaxel before and after administration of therapeutic dose of CriPec® docetaxel. |
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XII. A Sunscreen Based on Bioadhesive Nanoparticles179 (13 participants) Melanoma; UV Ray Skin Damage | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: Assessing the Safety and Efficacy of Multifunctional Skin-adhesive Nanoparticles for UV Protection in Humans Study Phase: Phase 1 Study Objectives: To evaluate the duration of protection and efficacy of a bioadhesive nanoparticle sunscreen Study design: Randomized, double blinded, parallel assignment Study dates: Study start date: July 17, 2017 Study end date: August 18, 2017 Study Status: completed |
Arms: 1. UV filtering agent and bioadhesive nanoparticles (BNPs) 2. Standard Sunscreen consisting of padimate O (7%) and oxybenzone (3%). 3. Sham Comparator: A placebo strips with no UV filtering 4. Control, no agent applied. |
Brief Summary: Study assesses the safety, sun protection factor (SPF) characteristics, and the duration of protection. Primary Outcome Measures Skin Reaction assessed by examination (evidence of irritation, inflammation, follicular occlusion). |
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XIII. NU-0129 in Treating Patients With Recurrent Glioblastoma or Gliosarcoma Undergoing Surgery180 (8 participants) Gliosarcoma; Recurrent Glioblastoma | ||
| Selected Study Details | Arms and Interventions | Brief description and Outcome Measures |
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Official Study Title: A Phase 0 First-In-Human Study Using NU-0129: A Spherical Nucleic Acid (SNA) Gold Nanoparticle Targeting BCL2L12 in Recurrent Glioblastoma Multiforme or Gliosarcoma Patients Study Phase: Phase 0 Study Objectives: PRIMARY OBJECTIVES: I. To assess the safety of i.v. administration of NU-0129 SECONDARY OBJECTIVES: I. To assess serum drug concentration II. To verify intratumoral penetration of NU-0129. III. To verify the feasibility of administering NU-0129 as a standard treatment for recurrent glioblastoma multiforme or gliosarcoma. TERTIARY OBJECTIVES: I. To analyze Bcl2L12 expression levels II. Progression free survival and overall survival at 6 months; overall response rate. Study design: Interventional, Open Label, Single Group Assignment Study dates: Study start date: May 25, 2017; Study end date: August 19, 2020 Study Status: completed |
Arms: 1. Experimental treatment (NU-0129) Intervention: 1. Laboratory Biomarker Analysis 2. Pharmacological Study |
Brief Summary: The aim of this study is to evaluate the safety of the administered drug, NU-0129, (via application of nucleic acids arranged on the surface of a small spherical gold nanoparticle) in patients with recurrent glioblastoma multiforme or gliosarcoma. The researchers expect that targeting the Bcl2L12 gene with NU-0129 will stop cancer cells from growing. Primary Outcome Measures Incidence of Adverse Events Secondary Outcome Measures 1. Drug concentration in blood 2. Biodistribution of NU-0129 in tumor tissue (concentration of particles in various parts of the tumors). 3. Feasibility of administering NU-0129 as a standard treatment |