Radioimmunotherapy Allison Spencer July 27, 2006.

Slides:



Advertisements
Similar presentations
Carcinogen - an agent known to cause cancer.
Advertisements

Understand broad treatment strategies in the treatment of tumors.
Presenters: Maria Maqsood ξ Sania Munir Cancer Immunotherapy.
Frank P. Dawry.
Metals in Medicine Dr Steve Archibald Department of Chemistry University of Hull SWOSU 26 th May 2009.
Chapter 9 Slides PART 2 Cellular Reproduction. 2 Interphase Prophase Metaphase Anaphase Telophase Name the Mitotic Stages:
Also known as lymphoplasmacytic lymphoma A rare type of non-Hodgkin lymphoma WM affects lymphoplasmacytic (LPL) Cells B-Cells LPL Cells Plasma Cells Abs.
THE GENETIC OF CANCER Increased mitosisTumor formation Tumor suppression gene Hyperactive growth TranslocationPoint mutationAmplification Normal growth.
GROUP 5 Monoclonal Antibodies for Cancer Treatment.
Andrea Janeš Mentor: A. Žmegač Horvat
Chapter 19 Cancer and the Immune System Dr. Capers.
Radioisotopes in Medicine
Radiotherapy revision WHAT IS RADIOTHERAPY? Internal Radiotherapy a radioactive source is inserted into the tumour OR a radioactive substance is ingested/injected.
Introduction to Nuclear Medicine
Nuclear Medicine Olivia Nicholson Sannhi Pham Alex Bynum Ryan Hadfeild Olivia Nicholson.
By Shanna Redwing Click To Advance. Cancer Type Estimated New Cases Estimated Deaths Skin(Nonmelanoma)>1,000,000
Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
New Developments in Cancer Treatment Dulcinea Quintana, MD.
A tumor showing angiogenesis
Regulating the Cell Cycle
 Identify different options of cancer therapy.  Most cancers are treated with a combination of approaches.
Monoclonal Antibodies Aims: Must be able to define the term monoclonal antibody. Should be able to outline the possible uses of monoclonal antibodies.
9 Radionuclide therapy.
Chapter 21 Cancer and the Immune System Dr. Capers
GENETIC ENGINEERING AND CANCER: WHERE ARE WE? RIKI SHENKAR.
Expressing Surface Proteins to Target Cancer Cells Joe and Bobby.
Training Module 3 – Version 1.1 For Internal Use Only ® Radiation Therapy 
Section 10.3 (Pg ): Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
CANCER. Cancer: Caused by a mutation in a gene that codes for a checkpoint protein. The cell loses control over cell division and so divides at a rapid.
Honors Biology 2016 What is Cancer?. I. What is Cancer? A. Normally, cells are forced to undergo programmed cell death when: DNA is damaged Replication.
Progress in Cancer Therapy Following Developments in Biopharma
5.3 Regulation of the Cell Cycle Cell cycle regulation is necessary for healthy growth.
Cancer Therapies DNA microarrays are used to assess the relative expression of thousands of genes simultaneously—relative expression means that.
Cancer Immunotherapy Presented by Md. Farhadur Rahman Phase A Student Department of Microbiology BSMMU.
T Cells Lacey Jeong. What is a T Cell?? Thymus cell – produced and processed by the thymus gland Lymphocyte (white blood cell) – protect body from infection.
CANCER THERAPY  Surgery  Radiation Therapy  Chemotherapy  Stem Cell Transplant  Immunotherapy  Targeted Therapy  Hormone Therapy  Precision Medicine.
Ch.10-3 Regulating the Cell Cycle. POINT > Identify 3 reasons cells divide POINT > Describe the role of cyclins in cell division POINT > Identify other.
ABIRA KHAN TUMOR MARKERS & CANCER TREATMENT. TUMOR MARKERS Biological substances synthesized and released by cancer cells or produced by the host in response.
Treatment for Cancer. Surgery Treatment and prognosis depend on severity and spread of the cancer Treatment and prognosis depend on severity and spread.
Statistics (from the National Institutes of Health) on average, in the US, people have a 2 in 5 lifetime risk of developing cancer second leading cause.
Radiation Therapy. Definition Radiation therapy is one of many types of cancer treatments that uses beams of extreme energy to kill cancer cells. Radiation.
Uses for Radioactive Isotopes
Understanding Radiation Therapy Lecturer Radiological Science
Campos M et al. Proc EHA 2013;Abstract B2009.
Campos M et al. Proc EHA 2013;Abstract B2009.
10.3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
Globular Protein Made of amino acid chains
chimeric antigen receptor T-cell therapy for ALL
10.3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
by Jennifer Couzin-Frankel
Radioisotopes in Medicine
Regulating the Cell Cycle
Monoclonal Antibodies
10.3 Regulating the Cell Cycle
Sec Notes Cell Cycle Continued.
Ch.10-3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
10.3 Regulating the Cell Cycle
Cancer Treatment.
Cell Growth and Division
Radiation and the Human Body Unit Byers and Griffeth
Cell Growth and Division
Human cancer immunotherapy strategies targeting B7-H3 A, blockade of B7-H3 with blocking mAbs neutralizes inhibitory signaling in its unidentified receptor(s)
Presentation transcript:

Radioimmunotherapy Allison Spencer July 27, 2006

Radioimmunotherapy Uses the body’s immune system to deliver toxic radiation to cancerous cells Special combination of factors: Tumor antigen targeting Monoclonal antibodies Radionuclides Localized treatment

Bio 101: Antigens Molecules that stimulate an immune response Proteins or polysaccharides on cell surfaces Many different types –Tumor Antigens Tumor Associated Tumor Specific

Bio 101: Antibodies Large, Y shaped proteins Identify and neutralize antigens –Induce apoptosis –Cell cycle redistribution Multiple antibodies for every antigen

Monoclonal Antibodies Highly specific Clones of single cell Fuse B cell and tumor cell Screen for antibody production

Radioimmunotherapy Adds a radioactive molecule to a monoclonal antibody (MoAb) Yttrium 90 labeled MoAb

Non-Hodgkin’s Lymphoma 58,870 cases will be diagnosed in th leading cause of cancer death Traditionally treated with: –Chemotherapy –External beam therapy –Immunotherapy

RIT and Non-Hodgkin’s Lymphoma Specific antigen targeted: CD20 –Tumor associated –Does not shed or internalize Isotopes used: –Yttrium-90:half life 64 hours, beta emitter –Iodine-131:half life 8 days, alpha and gamma –Vary in conjugation

Process of Attack 90 Y Cancerous B Cell

Advantages of RIT Precision of treatment –Less damage to healthy tissue Irradiation of nearby, unbound cells Patient comfort –1 hour intravenous procedure –Y-90 outpatient administration Unbound cells receive toxic radiation

RIT Success in NHL With traditional treatments: –Low grade kills ~95% of patients in first 5 years –Aggressive kills ~50% of patients in first 5 years Yttrium-90 labeled Zevalin: –80% overall response rate with Y-90 Zevalin –34% complete response –32% still in remission 3-4 years later

Radioimmunotherapy Allison Spencer

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.