Office of Research

Howard Hosick

• Home
• Vice President for Research
• For Faculty
• For Students
• For Industry Partners
• Faculty Profiles
• Research Units

Biological Sciences
Bone Research at the Interface of Cancer Biology and Engineering Science

Download a printable PDF

Dr. Howard Hosick’s current research focuses on understanding two issues related to skeletal biology: how cells function to repair bone defects, and how surrogate ceramic structures that mimic bone structure can be used to remove dangerous cells from circulation. The cell types used to date include osteoblasts (bone cells) and cancer cells. Dr. Hosick has found that these cells interact with specific substrata in different ways. Surfaces composed of collagen gels, charged plastic surfaces, and ceramics evoke different patterns of replication, differentiation, and adhesion in osteoblasts. These features of cell/substrate interactions have been quantitated using several techniques including cell replication assays, scanning electron microscopy, and confocal microscopy. Dr. Hosick is also collaborating with a group of ceramics engineers to refine methods for repair of spinal-column damage. Ceramic implant constructs are being colonized with osteoblasts, and these bone-producing cells should in turn produce bone proteins that repair bone lesions, thus restructuring the skeletal architecture.

These studies also serve as a platform for development of procedures to prevent the bone destruction caused by metastatic breast cancer cells. These invasive cells erode bone, a debilitating and very painful process. Dr. Hosick’s research group has developed a totally new strategy for managing this problem by making use of decoy ‘bones’ constructed from porous ceramics, which mimic the features of real bone. Metastatic cells adhere almost instantly to the surrogate bone, effectively removing them from circulation. Studies are now under way to optimize such adhesion, for example by developing porous ceramic filters with large surface areas to which these dangerous cells will adhere most avidly. Dr. Hosick’s team envisions an external filtration system through which blood would flow and be purged of cancer cells before returning to circulation, essentially as done during kidney dialysis.

---

Contact Information
Howard Hosick, Ph.D.
Professor
School of Biological Sciences

Washington State University
PO Box 644236
Pullman, WA 99164-4236

Telephone: 509-335-3035
E-mail: hosick@wsu.edu

Health and Life Sciences

• Amit Dhingra
• David Kramer
• Bernd Markus Lange
• Dorrie Main
• Pat Okubara
• Sanja Roje

• Wendy Brown
• Mark Dybdahl
• William Snyder
• Andrew Storfer

• Michael Alfaro
• Dean Glawe
• Howard Hosick
• Sylvia Oliver
• Buel D. Rodgers
• Bernard J. Van Wie

• Sayed Daoud
• Linda Eddy
• Amy G. Mazur
• Mike Morgan
• David Pietz
• Francis Pierce

---

Dr. Howard Hosick is a professor in the Washington State University School of Biological Sciences. He received his doctorate from U.C. Berkeley in muscle cell function and then studied at the Karolinska Institute in Stockholm, learning techniques in molecular biology which resulted in several highly cited papers. Dr. Hosick has since pursued research on cancer cell biology, supported by several funding agencies. His program is cross-disciplinary in nature with other research groups, which has greatly facilitated the group’s rate of progress in understanding cancer. His honors include the H.S. Boyce Award for Cancer Research, the Shell Foundation Faculty Development Award, a Fogarty Senior International Fellow, the Honors College Faculty of the Year, and the T. Lutz Teaching Award. He has chaired grant review panels for the National Science Foundation, the American Cancer Society, and the Army Breast Cancer Program, and is a regular editor and reviewer of scholarly journals.

Office of Research, PO Box 641033, Washington State University, Pullman, WA, 99164-1033, 509-335-9141, Contact Us