Fixation of biological tissues with a naturally occurring crosslinking agent: Fixation rate and effects of pH, temperature, and initial fixative concentration
Hw. Sung et al., Fixation of biological tissues with a naturally occurring crosslinking agent: Fixation rate and effects of pH, temperature, and initial fixative concentration, J BIOMED MR, 52(1), 2000, pp. 77-87
In an attempt to overcome the cytotoxicity problem of the glutaraldehyde-fi
xed tissues, a naturally occurring crosslinking agent (genipin) was used by
our group to fix biological tissues. The study was intended to investigate
the rate of tissue fixation by genipin. Glutaraldehyde was used as a contr
ol. In addition, the degrees of tissue fixation by genipin at different pHs
(pH 4.0, pH 7.4, pH 8.5, or pH 10.5), temperatures (4 degrees C, 25 degree
s C, 37 degrees C, or 45 degrees C), and initial fixative concentrations (0
.250%, 0.625%, or 1.000%) were examined. The results obtained revealed that
the rate of tissue fixation by glutaraldehyde was significantly faster tha
n that by genipin. The degree of tissue fixation by genipin may be controll
ed by adjusting its fixation duration or fixation conditions. The order in
degree of tissue fixation by genipin at different pHs, from high to low, wa
s: at nearly neutral pH (pH 7.4 or pH 8.5) > at basic pH (pH 10.5) > at aci
dic pH (pH 4.0). The degrees of tissue fixation by genipin at different tem
peratures were about the same, except for that at 4 degrees C. In contrast,
the initial fixative concentration did not seem to affect the degree of ti
ssue fixation by genipin, if only the amount of genipin in the fixation sol
ution was sufficient to complete tissue fixation. The concentrations of gen
ipin in the aqueous solutions at different pHs, temperatures, and initial f
ixative concentrations tended to decrease with time with or without the occ
urrence of tissue fixation. This indicated that genipin was not stable in t
he aqueous solution. The instability of aqueous genipin was more remarkable
with increasing pH or temperature. The results obtained in this study may
be used to optimize the fixation process for developing bioprostheses fixed
by genipin. (C) 2000 John Wiley & Sons, Inc.