Rheumatoid Arthritis Clinical Trials in Philadelphia

Showing 601-620 of 1,834 trials

Panobinostat and Stereotactic Radiation Therapy in Treating Patients With Brain Tumors

NCT01324635

This is an open label phase I clinical trial with two arms, representing single and fractionated radiation therapy (Figure 4.1). Within each arm the radiation dose is pre-determined and not escalated. Panobinostat will be administered orally 3 times a week for 2 weeks. Panobinostat will be dose-escalated independently in each arm. There is no intra-patient dose escalation. Recurrent gliomas (Arm A) will be treated according to the Jefferson protocol for re-irradiation, 10 fractions each of 3.5Gy delivered over 2 weeks. Panobinostat will be administered orally three times a week for 2 weeks, starting on day 1 or 2 of radiation therapy. High-grade meningiomas (Arm A) will be treated with 6 weeks/30 fractions of fractionated radiation therapy, to a total dose of between 54 Gy and 60 Gy in fractions of either 1.8Gy or 2Gy. Panobinostat will be administered orally three times a week for 2 weeks, starting on the day of 1st fraction of radiation. Large brain metastases (Arm B) will be treated with a single fraction of radiosurgery. Panobinostat will be administered orally three times a week for 2 weeks, starting on the day of radiation. The radiosurgery may be delivered by either LINAC, gamma-knife, cyber-knife or tomotherapy technology.

Recurrent GliomaHigh-grade MeningiomaBrain Metastasis

Sidney Kimmel Comprehensive Cancer Center at Thomas Jefferson University17 participantsStarted May 2012

Philadelphia, Pennsylvania, United States

COMPLETEDPHASE1< 1 mile

Alimta, Carboplatin and Radiation Therapy for Non Small Cell Lung Cancer

NCT00330044

To determine the safety of Alimta when used with chemoradiation in inoperable non small cell lung cancer

Inoperable Non Small Cell Lung Cancer

Sidney Kimmel Comprehensive Cancer Center at Thomas Jefferson University18 participantsStarted Apr 2006

Philadelphia, Pennsylvania, United States

COMPLETEDPHASE1< 1 mile

Pilot Immunotherapy Trial for Recurrent Malignant Gliomas

NCT01550523

This human Phase I trial involves taking the patient's own tumor cells during surgical craniotomy, treating them with an investigational new drug (an antisense molecule) designed to shut down a targeted surface receptor protein, and re-implanting the cells, now encapsulated in small diffusion chambers the size of a dime in the patient's abdomen within 24 hours after the surgery. Loss of the surface receptor causes the tumor cells to die in a process called apoptosis. As the tumor cells die, they release small particles called exosomes, each full of tumor antigens. It is believed that these exosomes as well as the presence of the antisense molecule work together to activate the immune system against the tumor as they slowly diffuse out of the chamber. This combination product therefore serves as a slow-release antigen depot. Immune cells are immediately available for activation outside of the chamber because a wound was created to implant these tumor cells and a foreign body (the chamber) is present in the wound. The wound and the chamber fortify the initial immune response which eventually leads to the activation of immune system T cells that attack and eliminate the tumor. By training the immune system to recognize the tumor, the patient is also protected through immune surveillance from later tumor growth should the tumor recur. Compared to the other immunotherapy strategies, this treatment marshalls the native immune system (specifically the antigen presenting cells, or dendritic cells) rather than engineering the differentiation of these immune cells and re-injecting them. Compared to traditional treatment alternatives for tumor recurrence, including a boost of further radiation and more chemotherapy, this treatment represents potentially greater benefit with fewer risks. This combination product serves as a therapeutic vaccine with an acceptable safety profile, which activates an anti-tumor adaptive immune response resulting in radiographic tumor regression.

Malignant Glioma of Brain

Sidney Kimmel Comprehensive Cancer Center at Thomas Jefferson University13 participantsStarted Feb 2012

Philadelphia, Pennsylvania, United States

Panobinostat and Stereotactic Radiation Therapy in Treating Patients With Brain Tumors

Alimta, Carboplatin and Radiation Therapy for Non Small Cell Lung Cancer

Pilot Immunotherapy Trial for Recurrent Malignant Gliomas

Rheumatoid Arthritis Trials in Other Cities

COVID-19 VaccinE Response in Rheumatology Patients

The ENERGY 3 Study: Evaluation of Efficacy and Safety of INZ-701 in Children With ENPP1 Deficiency

A Clinical Study to Evaluate Safety and Performance of PEEK-OPTIMA™ HA Enhanced Interbody Cages in the Lumbar Spine

Pasireotide (SOM230) With or Without Everolimus in Treating Patients With Hormone Resistant, Chemotherapy Naive Prostate Cancer

Biomarkers in the Brain Oxygen Optimization in Severe Traumatic Brain Injury Trial

Linking Endotypes and Outcomes in Pediatric Acute Respiratory Distress Syndrome

Reduced Intensity Chemotherapy and Radiation Therapy Before Donor Stem Cell Transplant in Treating Patients With Hematologic Malignancies

AltaValve Pivotal Trial

DALY II USA/ MB-CART2019.1 for DLBCL

Study of REM-422 in Patients With AML or Higher Risk MDS

Visualization of the STN and GPi for DBS

Prophylaxis and Treatment of COVID-19

Clinical Trial Readiness to Solve Barriers to Drug Development in FSHD

Open-Label Extension: Tolerability and Effects of ALK-001 on Stargardt Disease (TEASE)

A Study of Copanlisib Combined With Rucaparib in Patients With Metastatic Castration-resistant Prostate Cancer

A Phase 1/2, First-in-Human Dose Escalation/Expansion Study to Evaluate the Safety, Tolerability and Preliminary Efficacy of a Subretinal Injection of SB-007 in Subjects With Stargardt Disease (STGD1)

Phase 2b Study of MBS2320 in Participants With Methotrexate-Refractory RA

Other Conditions in Philadelphia