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Health Sciences > Pathology > Tumor Pathophysiology and Transport Phenomena
 Tumor Pathophysiology and Transport Phenomena  posted by  duggu   on 11/25/2007  Add Courseware to favorites Add To Favorites  
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Abstract/Syllabus:

Jain, Rakesh, HST.525J Tumor Pathophysiology and Transport Phenomena, Fall 2005. (Massachusetts Institute of Technology: MIT OpenCourseWare), http://ocw.mit.edu (Accessed 09 Jul, 2010). License: Creative Commons BY-NC-SA

Lab rat with tumor visualization window apparatus on its back.

This tumor visualization window allows scientists to gain insight into the physiological barriers against cancer treatments. (Figure by MIT OCW, after Dr. Rakesh Jain.)

Course Highlights

This course features a selection of lecture notes and samples of student work on the assignments page.

Course Description

Tumor pathophysiology plays a central role in the growth, invasion, metastasis and treatment of solid tumors. This class applies principles of transport phenomena to develop a systems-level, quantitative understanding of angiogenesis, blood flow and microcirculation, metabolism and microenvironment, transport and binding of small and large molecules, movement of cancer and immune cells, metastatic process, and treatment response.

Syllabus

 
 

Description

Tumor pathophysiology plays a central role in the growth, invasion, metastasis and treatment of solid tumors. This class applies principles of transport phenomena to develop a systems-level, quantitative understanding of angiogenesis, blood flow and microcirculation, metabolism and microenvironment, transport and binding of small and large molecules, movement of cancer and immune cells, metastatic process, and treatment response.

Requirements

There are no exams in this class, but there is a substantial term paper. Each student must prepare an in-class presentation on his or her paper, and the last two days of class are devoted to these presentations.

Calendar


LEC # TOPICS LECTURERS
1 Delivery of Molecular Medicine to Tumors I: Vascular Transport and the Normalization Hypothesis R. K. Jain (HMS/MGH)
2 Delivery of Molecular Medicine to Tumors II: Interstitial and Lymphatic Transport R. K. Jain (HMS/MGH)
3 Controlled Release of Drugs to Tumors R. Langer (MIT)
4 Role of Bone Marrow-Derived Cells in Cancer D. Duda (HMS)
5 Rules for Making Human Tumors R. Weinberg (MIT)
6 Angiogenesis and Anti-angiogenesis P. D'Amore (HMS/SERI)
7 Metastasis M. Moses (HMS/CH)
8 Extracellular Matrix R. Kalluri (HMS/BIDMC)
9 Mathematical Modeling of Drug Delivery and Metastasis L. Munn (HMS/MGH)
10-11 Class Presentations  
 

 




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