Exporting Tissue Engineering


Professor György K.B. Sándor from the Finland Distinguished Professor Program or FiDiPro believes that tissue engineering has the ability to become a new global export item.

FiDiPro is a joint funding program of the Academy of Finland and Tekes (the Finnish Funding Agency for Technology and Innovation) that enables top researchers to do work in Finland for a fixed period of time.

Sándor is a Canadian professor who specializes in oral and maxillofacial surgery who has participated in FiDIPro. Sandor’s research program examines bone regeneration, hyperbaric oxygen, tissue regeneration, and stem cells. He works at the BioMediTech research institute which is run by the University of Tampere and the Tampere University of Technology. BioMediTech is an innovation center that combines biomedical research with new technologies.

The goal of Sándor’s research program is to produce bone and cartilage by means of tissue engineering techniques that grow tissue-derived stem cells. Some people are missing bone at birth as a result of a developmental disorder, or, in some cases, bone defects from accidents, and various inflammatory diseases can cause bone loss. Particular surgeries that require bone removal can also cause bone loss,

Tissue engineering can produce tailored, living spare parts for human beings. If the protocols and methods of tissue engineering can be up-scaled appropriately, it could become the third alternative form of treatment alongside more traditional forms of treatment for such conditions that include surgery and drug treatments.

“Tissue-derived stem cells can be isolated from the patient’s own tissue. In that way, they will not cause a rejection reaction. Compared to tissue stem cells, human embryonic stem cells have a greater ability to differentiate into different cell types, In practice, that means that all cell types can be used,” Sándor said.

Sandor noted that Finland is a forerunner in developing bone engineering techniques. “At the moment expertise in the field is concentrated in Finland, but it also generated global interest in other medically advanced countries,” said Sándor .

In the near future, large numbers of patients might travel to Finland to receive tissue engineering-based treatments. As such forms of treatment increase and are perfected, expertise in tissue engineering can be exported for use on a larger scale.

“We have proven with more than 20 clinically successful operations that tissue engineering works,” Sándor said.

Sándor considers the research community in Tampere to be unique when it comes to the way it is run and functions. One of the key reasons why Sandor decided to stay and continue his research in Finland even after his experience with FiDiPro came to an end.

“In the field, BioMediTech is a unique concentration of researchers and expertise. In the Pirkanmaa region, also the cooperation between research, industry, and administration works well. That enables efficient decision-making which, in turn, contributes to the creation of new innovations,” he said.

“Cooperation with colleagues is smooth too. That was the determining factor in my decision to stay in Finland. Each day is like a new adventure.”

Published by

mburatov

Professor of Biochemistry at Spring Arbor University (SAU) in Spring Arbor, MI. Have been at SAU since 1999. Author of The Stem Cell Epistles. Before that I was a postdoctoral research fellow at the University of Pennsylvania in Philadelphia, PA (1997-1999), and Sussex University, Falmer, UK (1994-1997). I studied Cell and Developmental Biology at UC Irvine (PhD 1994), and Microbiology at UC Davis (MA 1986, BS 1984).