Mj. Selbach et al., Effects of elevated intraocular pressure on haemoglobin oxygenation in therabbit optic nerve head: A microendoscopical study, EXP EYE RES, 69(3), 1999, pp. 301-309
Intraocular pressure dependent reactions of optic nerve head vasculature an
d intracapillary haemoglobin oxygenation (HbO(2); oxygen saturation) were s
tudied in the center and at the rim of the rabbit optic nerve head (ONH) as
well as in the choroid. by a new combination of microendoscopy and simulta
neous haemoglobin spectrophotometry.
In 13 anesthetized albino rabbits the vasculature and the intracapillary Hb
-oxygenation were studied by a microendoscope which was introduced into the
eye bulb. Photometric measurements were performed via a beam splitter with
the Erlangen micro-lightguide spectrophotometer (EMPHO) from the center of
the endoscopic picture. The haemoglobin oxygenation was calculated by real
time analysis of the spectral curves. Intraocular pressure was elevated st
epwise from 20-80 mmHg.
At the rim of the optic nerve head the vascular diameters as well as the in
tracapillary HbO(2)-values were stable till an intraocular pressure of 60 m
mHg and decrease after IOP elevation to 70 and 80 mmHg. In contrast, in the
center of the optic nerve head and in the choroid these parameters decline
already from 40-50 mmHg on, At an IOP of 60 mmHg (P < 0.01) and 70 mmHg (P
< 0.05) HbO(2) is significantly Lower in the ONH center than at the rim, i
n the center and the choroid HbO(2) is well maintained between 20 and 40 mm
Hg. After pressure release at the end of the experiment HbO(2) increased to
94.3 +/- 4.6% trim) and 98.8 +/- 1.5% (center) of the initial value at 20
mmHg (difference not significant.
By the high spatial resolution of this new optical method we were able to d
emonstrate that the center of the optic nerve head is more sensitive to cha
nges in intraocular pressure than the optic nerve head rim. Thus, tissue da
mage after critical haemodynamic and oxygenation parameters seems more prob
able in the relatively poor perfused center of the ONH than in the overperf
used rim. (C) 1999 Academic Press.