A new type of personal sampler for gases in air, originally reported from this laboratory, has been adapted to measurement of NO2. The sampler depends on the transfer of NO2 by diffusion to a triethanolamine coated collector at the sealed end of a tube; the open end of the tube is exposed to the test environment. The devices are accurate, light, simple to use and have very good shelf life before and after sampling.
The effects of changes in serum osmolarity on the rate and osmolarity of bulk flow of fluid into the cerebral ventricles and on cortical white and grey matter water content were studied in cats. Bulk flow rates and osmolarities were measured during ventriculocisternal perfusion both before and after intravenous infusion of glucose solutions. Infusions of glucose in concentrations greater than 6% decreased fluid bulk flow rate and its osmolarity. Glucose in concentrations less than 6 percent increased fluid bulk flow rate and decreased its osmolarity. Bulk flow rate and serum osmolarity were found to be linearly related with a coefficient of osmotic flow of minus 0.835 mul/min per mOsm/l. At the extremes of induced serum osmolarities, (290 and 360 mOsm/l) bulk flow rate was either increased by 120 percent or completely inhibited. Effluent osmolarity also increased proportionately to serum osmolarity (0.338 mOsm/l per mOsm/l). When compared to controls, cortical grey and white matter water content increased by 1.9 percent and 2.9 percent, respectively, when the infused glucose concentration was 2.5 percent or less, and decreased by 1.8 percent and 2.9 percent when the concentration was 10 percent or more. The results of these experiments suggest that the increased bulk flow comes from the brain, rather then directly from the blood.
The transport kinetics across the plasma-aqueous and plasma-vitreous barriers were studied in normal and long-term streptozotocin-diabetic rats, using trace amounts of [14C]-L-glucose and [3H]-3-O-methyl-D-glucose. The former is passively transported while the latter uses the same transport-facilitating system as D-glucose. Transport rates of L-glucose were significantly higher in the diabetic rats, with ocular entry rates from the plasma being increased by 69% across both barriers. Thus, the data indicate that in experimental diabetes the passive permeability of the blood-ocular barriers is significantly increased. By contrast, calculated transport rate constants for 3-O-methyl-D-glucose, when adjusted for the hyperglycemia and the increased passive glucose movement, are not altered in the diabetic animal. Nevertheless, there is actually more mass D-glucose movement due to the prevailing hyperglycemia. The present study suggests that although streptozotocin diabetes alters plasma-ocular glucose transport, there is no direct impairment of glucose carrier function. Alterations in transport occurred at both ocular barriers, suggesting that involvement is general and that both the retinal pigment epithelium and the ciliary epithelium may be affected by the diabetes. It is unknown whether the increase in passive movement is related to the prevailing hyperglycemia or to insulin deficiency or other unknown factors.
Cerebral blood flow was measured by the indicator fractionation technique in normal, acute hydrocephalic, chronic compensated hydrocephalic and craniectomized hydrocephalic cats. In the five normal cats the mean total brain blood flow was 136.1 ml/min/100 g dry weight. The six acute hydrocephalic animals demonstrated a relatively uniform 22% reduction in total blood flow. In eight chronic hydrocephalic cats CBF increased to the point where there was only an overall 7% decrease. In three hydrocephalic and craniectomized cats the CBF was reduced by 30.6%. In the acute phases there was a decrease in the number of blood vessels. Chronic compensated hydrocephalic brains had somewhat more vessels than the normal, whereas the craniectomized, massively hydrocephalic brain had a dramatic increase in both the number and caliber of blood vessels. These results clearly demonstrate that in acute obstructive hydrocephalus in cats, there is a significant decrease in CBF. The blood vessels revert to normal in shunted cats.
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