Clinical Trials Logo
  1. Home
  2. Lung Neoplasm
  3. NCT00638625

Correlation of X-ray and Pathology With Needle Biopsy of Lung Tumors

Lung Neoplasm Clinical Trial

Official title:
Pilot Study of Radiologic-Pathologic Correlation in Lung Tumors Based on Core Needle Biopsy

Clinical Trial Summary

The purpose of this study is to compare the features that the pathologist sees, when examining a lung tumor under the microscope, to the way that the tumor appears on the computed tomography (CT) scan. Features of the tumor may include abnormal blood vessels and areas in which tumor cells are dying. The samples that are taken during the needle biopsy contain information from one small part of the tumor. The investigators believe that they can show where in the tumor the samples came from, based on the CT scans during the biopsy procedure. If the investigators can accurately determine where in the tumor their samples came from, they can compare the features of that part of the tumor, as seen on the CT images, to the features of that part of the tumor as seen under the microscope. This research study also will give the investigators an idea of how much the biopsy samples are distorted in the process of preparing them for examination under the microscope.

Clinical Trial Description

Newer cross-sectional imaging methods allow improved visualization of anatomic detail—for example, high-resolution CT has a spatial resolution of less than 1 mm in all 3 dimensions. These imaging methods also provide a limited amount of physiologic information—for example, tumor perfusion as demonstrated by enhancement with intravenous contrast agents. Radiologic-pathologic correlation in the current era gives us the opportunity to work on a finer spatial scale and to take advantage of the additional physiologic information. Pathologic assessment of tissue has evolved at the same time. Tissue can be stained in the traditional way for microscopic evaluation but newer tools such as immunohistochemistry and, most recently, methods of molecular biology can be applied as well.

We are interested in radiologic-pathologic correlation in lung tumors. Tumors are known to be heterogeneous; we want to develop an approach that will allow us to explore their spatial organization. We cannot rely on surgical resection to provide tissue for pathologic evaluation, because the majority of lung lesions never come to resection. For example, only ~15% of lung cancer patients are surgical candidates. The remainder would be lost to the classical approach that depends on surgery. Percutaneous needle biopsy provides an alternative means of tissue sampling. This is a safe, effective and commonly used way to obtain samples of tissue ("core samples") from any given lung mass. The pathologist can process these core samples in the same way as a surgical specimen. ;

Study Design

Observational Model: Cohort, Time Perspective: Prospective

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT00638625
Study type Observational
Source State University of New York - Upstate Medical University
Contact
Status Withdrawn
Phase N/A
Start date January 2010
Completion date February 2011
View Details
See also
  Status Clinical Trial Phase
Recruiting NCT05078918 - Comprehensive Care Program for Their Return to Normal Life Among Lung Cancer Survivors N/A
Completed NCT04508270 - Significance of Early Mobilization After VATS-L
Active, not recruiting NCT03667716 - COM701 (an Inhibitor of PVRIG) in Subjects With Advanced Solid Tumors. Phase 1
Completed NCT05469425 - Home-based Preoperative Exercise Training for Lung Cancer Patients Undergoing Surgery N/A
Recruiting NCT05046067 - Feasibility Study of Anatomical Modeling for Image Guided Thoracic Surgery N/A
Terminated NCT03090880 - Prophylaxis of Venous Thromboembolism in Advanced Lung Cancer (PROVE) Phase 3
Recruiting NCT05596760 - Promoting Goals-of-Care Discussions for Patients With Memory Problems and Their Caregivers N/A
Completed NCT02498860 - Efficacy and Safety of Adjuvant Pemetrexed Plus Cisplatin for Adenocarcinoma of Lung Phase 2
Completed NCT02952261 - Application of 3D Printing Technique in Small Pulmonary Nodule Localization N/A
Not yet recruiting NCT06024538 - Role of Cancer-associated Fibroblast, MDSCs and Immune Cell Interplays in the Resistance of Non-small Cell Lung Cancer to Anti-PD1/PD-L1 Therapies
Recruiting NCT02965300 - The Value of VOCs Analysis in Exhaled Breath for Pulmonary Benign and Malignant Lesion Diagnosis N/A
Completed NCT02616211 - An Integrated Approach to Treating Recurrent Thoracic Carcinomas Resistant to Tyrosine Kinase Inhibitors
Recruiting NCT00765986 - Pilot Study of 18F-FAZA in Assessing Early Functional Response in Patients With Inoperable Non Small Cell Lung Cancer Undergoing Radiotherapy or Chemo-radiotherapy N/A
Completed NCT03320044 - Early Diagnosis of Small Pulmonary Nodules by Multi-omics Sequencing
Recruiting NCT03655015 - Patient-derived Organoid Model and Circulating Tumor Cells for Treatment Response of Lung Cancer
Completed NCT03741868 - Symptom Burden and Unmet Supportive Care Needs in Lung Cancer Patients Undergoing First or Second Line Immunotherapy
Not yet recruiting NCT05179408 - Telerehabilitation Following Lung Cancer N/A
Completed NCT03749512 - NLCR in Prediction of the Grade of Lung Tumor.
Recruiting NCT03664843 - Circulating Tumor DNA Longitudinal Monitoring in Stage III-IV Lung Cancer Patients
Completed NCT01261507 - Reader Study of DeltaView™ Chest Radiograph Software N/A