新澳门六合彩内幕信息

Engineered Bone Marrow Shows Promise for Developing Cancer Treatment

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A network of purple and red dots against a pinkish background, interspersed with clear circular areas.
Human bone marrow under the microscope. 新澳门六合彩内幕信息 Davis researchers have developed engineered bone marrow, which can be used to study treatments for osteosarcoma, one of the deadliest cancers in humans and dogs. (Getty Images)

A groundbreaking material 鈥 engineered bone marrow (eBM) 鈥 has the potential to improve treatment for , a malignant bone cancer with low survival rates. A new study involving  新澳门六合彩内幕信息 Davis researchers published in the describes eBM鈥檚 potential. This includes helping researchers learn how bone marrow cells affect osteosarcoma growth, testing cancer therapeutics, and potentially personalizing treatment.

Osteosarcoma is a type of cancer that grows within bone and bone marrow. In 25% of patients, it spreads to the lungs. It鈥檚 the most common primary bone cancer in children and adolescents, usually affecting children under age 13. Survival rates are low: less than a 25% 5-year survival rate for children with metastatic cancer. Despite advancements for many other cancer types, osteosarcomes treatments have remained largely unchanged for the past four decades.

鈥淭he way we鈥檝e previously studied osteosarcoma progression has been insufficient,鈥 said , professor of and at 新澳门六合彩内幕信息 Davis and the corresponding author on the paper. Leach is also the Lawrence J. Ellison Endowed Professor of Musculoskeletal Research.

Bone marrow is complex tissue with cells that can affect a tumor鈥檚 growth. However, researchers usually study osteosarcoma in flat, artificial cultures that fail to mimic the tumor environment, or mouse models with many variables that scientists can鈥檛 control. These models have limited the advancement of effective osteosarcoma treatments.

鈥淲e believe that if we can do a better job of studying how these tumor cells grow and respond to drugs, we can cut down on challenging, critical cases where tumors leave the bone, go to the lungs, and have a devastating effect on patients,鈥 Leach explained.

To advance osteosarcoma research and treatment, an interdisciplinary team of researchers from 新澳门六合彩内幕信息 Davis and developed and studied eBM. Bone marrow taken from a patient will collapse outside of the body, thereby limiting the biological relevance of the research. However, eBM maintains its integrity and provides a life-like medium to grow osteosarcoma cells. Scientists can use eBM to explore how bone marrow influences cancer growth and how osteosarcoma treatments influence cells in a realistic environment.

Multiple potential benefits of eBM

One potential use for eBM is personalized therapy for individual patients. Finding the right cancer treatment early on can lead to better patient outcomes. With eBM, there鈥檚 the potential to biopsy and culture an individual鈥檚 tumor and determine an effective treatment before starting a regimen.

鈥淪cientifically, I鈥檓 incredibly excited,鈥 Leach said. 鈥淚 collaborate with outstanding clinicians who work every day to treat kids with osteosarcoma and other cancers that originate or metastasize to the bone. It鈥檚 a privilege to work on improved options for research with this team.鈥

Coauthor and  Chair sees the exciting clinical applicability of eBM. 鈥淓ngineered bone marrow maintains tremendous fidelity in creating a native microenvironment to understand how osteosarcoma develops, as well as how it behaves during metastasis to bone tissue,鈥 he said.

Engineered bone marrow may also help improve osteosarcoma treatment for dogs. Currently, the main option for removing tumors in pets is limb amputation.

is a study coauthor and dual Doctor of Veterinary Medicine/Ph.D. candidate at 新澳门六合彩内幕信息 Davis. 鈥淭his work is very exciting because it lays the foundation for a technology that could be used to help veterinary and human patients alike,鈥 Griffin said. 鈥淏y providing a realistic bone marrow niche for study in the traditional lab setting, it opens doors for new discoveries.鈥

Other authors include Steven W. Thorpe, Thomas P. Coonan, Isabel S. Sagheb and Gabriela G. Loots, of 新澳门六合彩内幕信息 Davis; and Aimy Sebastian, Nicholas R. Hum of Lawrence Livermore National Laboratory.

Media Resources

(PNAS)

 (新澳门六合彩内幕信息 Davis Health)

 (新澳门六合彩内幕信息 Davis Health)

Jen DeMoss is a freelance writer covering higher education, health care, finance, and sustainability. 

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