FROM THE NOSE TO KNEE: ENGINEERED CARTILAGE REGENERATES JOINTS
Human articular cartilage defects can be
treated with nasal septum cells. Researchers at the University and the
University Hospital of Basel report that cells taken from the nasal septum are
able to adapt to the environment of the knee joint and can thus repair
articular cartilage defects. The nasal cartilage cells' ability to self-renew
and adapt to the joint environment is associated with the expression of
so-called HOX genes. The scientific journal Science
Translational Medicine has
published the research results together with the report of the first treated
patients.
Cartilage lesions in
joints often appear in older people as a result of degenerative processes.
However, they also regularly affect younger people after injuries and
accidents. Such defects are difficult to repair and often require complicated
surgery and long rehabilitation times. A new treatment option has now been
presented by a research team lead by Prof. Ivan Martin, professor for tissue
engineering, and Prof. Marcel Jakob, Head of Traumatology, from the Department
of Biomedicine at the University and the University Hospital of Basel: Nasal
cartilage cells can replace cartilage cells in joints.
Cartilage cells from
the nasal septum (nasal chondrocytes) have a distinct capacity to generate a
new cartilage tissue after their expansion in culture. In an ongoing clinical
study, the researchers have so far taken small biopsies (6 millimeters in
diameter) from the nasal septum from seven out of 25 patients below the age of
55 years and then isolated the cartilage cells. They cultured and multiplied
the cells and then applied them to a scaffold in order to engineer a cartilage
graft the size of 30 x 40 millimeters. A few weeks later they removed the
damaged cartilage tissue of the patients' knees and replaced it with the
engineered and tailored tissue from the nose. In a previous clinical study
conducted in cooperation with plastic surgeons and using the same method, the
researchers from Basel recently already successfully reconstructed nasal wings
affected by tumors.
Surprising Adaption
The scientists
around first author Dr. Karoliina Pelttari were especially surprised by the
fact that in the animal model with goats, the implanted nasal cartilage cells
were compatible with the knee joint profile; even though, the two cell types
have different origins. During the embryonic development, nasal septum cells
develop from the neuroectodermal germ layer, which also forms the nervous
system; their self-renewal capacity is attributed to their lack of expression
of some homeobox (HOX) genes. In contrast, these HOX genes are expressed in
articular cartilage cells that are formed in the mesodermal germ layer of the
embryo.
"The findings
from the basic research and the preclinical studies on the properties of nasal
cartilage cells and the resulting engineered transplants have opened up the
possibility to investigate an innovative clinical treatment of cartilage
damage," says Prof. Ivan Martin about the results. It has already
previously been shown that the human nasal cells' capacity to grow and form new
cartilage is conserved with age. Meaning, that also older people could benefit
from this new method, as well as patients with large cartilage defects. While
the primary target of the ongoing clinical study at the University Hospital of
Basel is to confirm the safety and feasibility of cartilage grafts engineered
from nasal cells when transplanted into joint, the clinical effectiveness
assessed until now is highly promising.
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