J. Zeichen et al., The proliferative response of isolated human tendon fibroblasts to cyclic biaxial mechanical strain, AM J SP MED, 28(6), 2000, pp. 888-892
At the cellular level, dynamic strain plays a key role in cell stimulation
and organization of the extracellular matrix. Although positive effects of
physical strain on tendon tissue are well known, little knowledge exists on
how mechanical strain affects tendon cells. In this study, human tendon fi
broblasts from patellar tendon were cultured on silicone dishes. Subsequent
ly, cyclic biaxial mechanical strain was applied to the dishes for 15, 30,
and 60 minutes using a specially developed cell stretching system, After th
e fibroblasts were strained, cells were tested for proliferation at 6, 12,
and 24 hours. As a control, cells were grown on silicone dishes but did not
receive any strain. A biphasic response in proliferation was observed for
the 15- and 60-minute strain periods: at 6 hours and 24 hours there was mor
e proliferation than at 12 hours. After a strain duration time of 30 minute
s, a lower proliferation rate was measured compared with control levels. Th
is study shows that application of mechanical stress to tendon fibroblasts
resulted in an alteration of cellular proliferation depending on the stress
time. Our results may implicate future modifications in the treatment of l
igament and tendon injuries.