1 / 18

Why the Need?

Fluorescent In Situ Hybridization (FISH) to Identify Genetic Changes in Fine Needle Biopsy of Lung Lesions Prepared by Jin Jen NCI. Why the Need?. Spiral CT screening is highly sensitive for detecting lung cancers in patients at high risk.

ossie
Download Presentation

Why the Need?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Fluorescent In Situ Hybridization (FISH) to Identify Genetic Changes in Fine Needle Biopsy of Lung Lesions Prepared by Jin JenNCI

  2. Why the Need? • Spiral CT screening is highly sensitive for detecting lung cancers in patients at high risk. • Spiral CT plus fine needle biopsy increases the diagnostic rate of accurate diagnoses but a portion of the cases are undetermined. • Molecular markers might be used to assist clinical diagnosis by detecting the presence of specific chromosomal amplifications.

  3. How it is Possible? • Tumors are highly genetically unstable. • Tumor related changes often are reflected at the chromosome level and are, by definition, specific to tumors. • Genetic analyses can be done in very small tissues and are not subject to the method of detection.

  4. Minimal Chromosome Probes That Can Detect Most Lung Cancers (n = 84)

  5. Method to Identify Genetic Changes in FNAs by FISH Identify and prepare BAC probes unique to specific chromosomal regions Protease digestion of biopsy samples and isolate nuclei Hybridization with fluorescently labeled BAC probes Visualize under fluorescent microscope for Ch. copy number changes Correlate copy number changes with cytological/pathological findings and clinical outcome

  6. Detecting Lung Cancer in FNA-obtained Spiral CT Identified Lung Lesions • Probes Labeling: 1q and 5q (green) 8q and 3q (red) nuclei (blue) Samples: 20 paraffin embedded FNA samples 20 formalin fixed biopsies. • All samples have pathology and clinical information. • 20 malignant • 10 benign specific • 10 benign non-specific

  7. Sample 503 (Normal Lung) Green: 5p Red: 8q Normal samples often show 2 signals/cells representing their diploid status.

  8. Sample 577 (Normal Lung) Green: 5p, 2 signals/cell Red: 8q, 2 signals/cell

  9. Cornell Sample: JJ001 Green: 1q, 5 signals Red: 3q, 4 signals Green: 5p, 9 signals

  10. Sample: JJ003 Green: 1q, 6 signals Red: 3q, 4 signals A case is considered neoplastic or tumor when 5 or more signals were observed in a cell by one or more probes.

  11. Sample: JJ005 Green: 1q, 8 signals Red: 3q, 12 signals

  12. Sample JJ006 Green: 1q, 4 signals Red: 3q, 5 signals Green: 5p, 4 signals Red: 8q, 5 signals

  13. Sample: JJ010 Red: 8q, 6 signals Green: 5p, 5 signals

  14. Sample: JJ011 Green: 1q, 2 signals Red: 3p, 6 signals

  15. Sample: JJ012 Green: 1q, 2 signals Red: 3p, 2 signals Green: 5p, 2 signals Red: 8q, 2 signals

  16. Sample: JJ014 Green: 1q, >7 signals Red: 3p, 2 signals

  17. Sample: JJ017 Green: 5p, 10 signals Red: 8q, 7 signals

  18. Sample: JJ018 Green: 5p, 3 signals Red: 8q, 6 signals Green: 5p, 6 signals Red: 8q, 9 signals

More Related