Enhancing Fluorogold-based neural tract tracing.

Background: Fluorogold (FG) is used by many groups to retrogradely trace nervous system pathways. Fluorogold, while a robust tracer, also is neurotoxic and causes tissue damage at the injection site and leads to motor deficits.

New Method: In the current study, we describe a method for enhancing FG-uptake using Triton™ and an overall procedure for reducing FG-related tissue damage while still allowing effective quantification.

Changes in soleus muscle function and fiber morphology with one week of locomotor training in spinal cord contusion injured rats.

The purpose of this study is two-fold: (1) to examine skeletal muscle function in a rat model of midthoracic contusion spinal cord injury (SCI) and (2) to evaluate the therapeutic influence of a short bout (1 week) of treadmill locomotor training on soleus muscle function (peak force, fatigability, contractile properties, fiber types), size (fiber area), and motor deficit and recovery (BBB scores) after SCI. The rats were injured with a moderate T8 spinal cord contusion and were assigned to either receive treadmill locomotor training (TM), starting 1 week after SCI for 5 consecutive days (20 min/trial, 2 trials/day) or not to receive any exercise intervention (no TM). Locomotor training resulted in a significant improvement in overall locomotor function (32% improvement in BBB scores) when compared to no TM.

Cellular localization and enzymatic activity of cathepsin B after spinal cord injury in the rat.

Mechanical spinal cord injury (SCI) initiates a cascade of pathochemical and pathophysiological events, collectively known as the secondary injury. There has been a long-standing interest in understanding the activation and involvement of proteases in this secondary injury process. Several proteases including the calpains, caspases and matrix metalloproteinases are activated by perturbations to the spinal cord and have been linked to cell death following SCI and in other models of CNS disease and insult.

Induction of manganese superoxide dismutase in acute spinal cord injury.

Free radical-mediated mechanisms of cellular damage have been implicated in the early stages of spinal cord injury (SCI). Manganese superoxide dismutase (MnSOD) is a potent scavenger of superoxide radicals and likely serves an important cytoprotective role in preventing cellular damage after SCI. We have evaluated the expression of MnSOD to address its role during the early events of SCI using a well-established rat contusion model.

Cortisol up-regulates corticotropin releasing factor gene expression in the fetal ovine brainstem at 0.70 gestation.

Glucocorticoids are important for the development of the central nervous system. In the ovine fetus, increased levels of plasma cortisol at term provide a stimulus to initiate parturition. CRF is central to this event in that it is one of the main modulators of the hypothalamic-pituitary-adrenal (HPA) axis.

Analysis of severe photoreceptor loss and Morris water-maze performance in aged rats.

In a study of aging and memory in 25-27-month-old albino rats, performance on a Morris water maze was found to be dependent on the structural integrity of the retina. Generally, as expected, 'learners' had intact retinas, while 'non-learners' had retinas with severe photoreceptor loss and a non-continuous outer nuclear layer, consisting of scattered cell nuclei. However, contrary to this general correlation between learning ability and photoreceptor presence, some learners had severely degenerated retinas and occasionally, non-learners had photoreceptor populations that apparently were comparable to those of learners.

Water maze performance of aged Sprague-Dawley rats in relation to retinal morphologic measures.

The spatial learning ability of aged male and female Sprague-Dawley rats was assessed using the Morris water maze. To determine the influence of age-related visual deficits on performance levels, retinal morphologic measures were correlated with water maze performance for each rat. Rats were first trained on the water maze task at 21 months of age and were retrained 3 or 4 times at 6-week intervals.

Corticotropin releasing factor mRNA and peptide levels are differentially regulated in the developing ovine brain.

The regulation of CRF mRNA and protein in the developing ovine brain has been studied to assess the hypothesis that CRF is differentially regulated in the hypothalamus (Hypo), hippocampal-amygdala complex (H & A), frontal cerebral cortex (FCC) and brainstem (BS). We used a quantitative RNase protection assay and radioimmunoassay to determine mRNA and peptide concentrations, respectively, from the last third of gestation until term (i.e.

Significance of gaseous microemboli in the cerebral circulation during cardiopulmonary bypass in dogs.

Background: Gaseous microemboli during cardiac surgery may damage the brain by reducing cerebral blood flow (CBF). We examined whether the incidence of gaseous microemboli during 150-minute hypothermic (28 degrees C) cardiopulmonary bypass (CPB) adversely affects CBF (radioactive microspheres).

Methods And Results: Thirty anesthetized dogs were placed on CPB using bubble oxygenators with 50% O2 (n = 10) or 100% O2 (n = 10) to produce a wide range in the number of gaseous microemboli or membrane oxygenators with 50% O2 (n = 10) to avoid microemboli.

Melatonin increases photoreceptor susceptibility to light-induced damage.

Melatonin is an indolamine hormone synthesized in the retina and pineal gland. It is thought to act as a paracrine neurohormone in the mammalian retina. Pinealectomy has been shown to protect photoreceptors from light-induced damage, and melatonin treatment has been reported to increase the degree of photoreceptor damage in albino rats.

Cerebral perfusion during canine hypothermic cardiopulmonary bypass: effect of arterial carbon dioxide tension.

Cerebral blood flow (radioactive microspheres), intracranial pressure (subdural bolt), and retinal histopathology were examined in 20 dogs undergoing 150 minutes of hypothermic (28 degrees C) cardiopulmonary bypass to compare alpha-stat (arterial carbon dioxide tension, 40 +/- 1 mm Hg; n = 10) and pH-stat (arterial carbon dioxide tension, 61 +/- 1 mm Hg; n = 10) techniques of arterial carbon dioxide tension management. Pump flow (80 mL.kg-1.

Dietary restriction does not alter retinal aging in the Fischer 344 rat.

In the present study, the effects of long-term dietary restriction (60% of the calories in the ad lib diet, beginning at 16 weeks of age) on quantitative morphometric measures and histopathologic indications of aging have been investigated in the retina of Fischer 344 male rats. The animals were maintained by the NIA Biomarkers Program, National Center for Toxicological Research. Group size ranged from 8 to 15 rats.

Water deprivation protects photoreceptors against light damage.

Photoreceptor cell death after light-damage and during aging in rats is associated with the hormonal status of the animal, as well as other environmental and intrinsic factors. Restricted caloric intake extends the life of rodents and is usually accompanied by a reduction in water consumption. In this study, male and female rats were placed on restricted water intake for either 3 or 7 days to induce dehydration.

Scleral calcification and photoreceptor cell death during aging and exposure to chronic stress.

Male and female Fischer 344 rats of three different ages (12, 18, and 25 months) have been examined for the presence of photoreceptor (PR) cell loss and for occurrence of scleral cartilage and bone formation. In addition, male and female rats, aged 11 months at the beginning of the experiments, were exposed to chronic stress for either 0.5, 2, 4, or 6 months.

Hydroxyindole-O-methyltransferase in rat retinal bipolar cells: persistence following photoreceptor destruction.

The presence of hydroxyindole-O-methyltransferase (HIOMT) activity and localization of HIOMT immunoreactivity was examined in albino rat retinas following photoreceptor destruction. Male Sprague-Dawley rats were exposed to high intensity fluorescent light for 4 consecutive days, then placed on a 14:10 h light:dark cycle for two weeks to allow for phagocytic removal of damaged cells from the retina. Histologic examination revealed almost complete destruction and removal of all photoreceptors.

Neuroendocrine aspects of cerebral aging.

In their study of the neuroendocrine aspects of cerebral aging the authors review the effect of glucocorticoids, their participation in the mechanisms of neuronal loss and their beneficial and destructive effects. They discuss the treatment strategies for showing the destructive aspects of aging and the effect of acetyl-L-carnitine in rats. They conclude that age-related degeneration of neural tissue is the complex result of multiple factors which synergize to cause neural destruction, including endogenous excitatory amino acids, calcium ions, endogenous proteolytic enzymes, free radicals and circulating glucocorticoids.

Effects of acute and chronic stress on the neural retina of young, mid-age, and aged Fischer-344 rats.

Male Fischer-344 rats at 5 (young), 11 (mid-age) and 18 (aged) months of age were exposed either to a single, 1-h period of acute stress, or to daily 4-h periods (chronic) of escapable footshock stress for 6 months, and subsequently allowed a one month interval without stress. The influence of age and exposure to stress on the neural retina was examined by histopathologic and morphometric methods. Age changes in the retina of unstressed control animals included reduction in the thickness of the outer nuclear layer (ONL; photoreceptor nuclei) and of the retina, especially in the peripheral areas.

Gender and chronic stress effects on the neural retina of young and mid-aged Fischer-344 rats.

Young (5 months) and mid-aged (11 months) male and female Fischer rats were exposed to daily (5 days/week) chronic escapable foot-shock stress for 6 months. Following a subsequent 1-month rest period, by which time the animals were 12 and 18 months old, neural retinas were evaluated histopathologically and morphometrically. A significant reduction in the thickness of the retina occurred in the mid-aged, as compared to the young animals.

Photically-induced retinal damage in diabetic rats.

The present study examines the interaction of light damage to the retina and streptozotocin (SZ)-induced diabetes in male and female rats during the early development of the disease, when changes occur in the blood-retinal barrier and in pigment cell membranes. Exposure of rats to low illuminance was used to determine the relationship between photically-induced cell death and diabetes. Other groups of animals were exposed to a greater illuminance for shorter time periods (24 hours) in attempts to identify a specific post-treatment day for the effect of diabetes.

Neuronal damage in the rat retina after chronic stress.

Long-term exposure to escapable foot shock has been used to determine if chronic stress influences neuronal cell death in the retina of albino and pigmented rats. Histopathologic and morphometric approaches analyzed changes in photoreceptors and neurons of the bipolar and ganglion cell layers of the retina. Albino Fischer rats when exposed to chronic stress for 4-8 h daily for 1 week to 6 months, developed severe retinal damage, as compared to unstressed control retinas, with reduction in photoreceptor and bipolar neurons, particularly in the superior central retina.

The diurnal susceptibility of rat retinal photoreceptors to light-induced damage.

Exposure of albino rats to high intensity light results in rapid, graded loss of photoreceptors. The hormonal status and age of an animal at the time of exposure affect the severity of light-induced retinal damage. The adrenal axis and pituitary hormones (prolactin) have been demonstrated previously to affect the degree of cell death in the retina.

Effect of morphine on 3H-thymidine incorporation in the subependyma of the rat: an autoradiographic study.

Following morphine treatment, an autoradiographic study investigated the uptake of 3H-thymidine by the subependymal cells in the rat brain. 3H-thymidine was administered subcutaneously to adult, male Sprague-Dawley rats 30 minutes after saline or morphine (19 mg/kg) injection. The animals were sacrified 1 hour after 3H-thymidine administration.

Chronologic analysis of variations in retinal damage in two strains of rats after short-term illumination.

In order to determine whether an optimal period existed for evaluating retinal photodamage in rats, a chronologic analysis was made of quantifiable changes in the outer nuclear layer (ONL) and retinal thicknesses in Sprague-Dawley (SD) and Wag/Rij rats after a single, 24 hr exposure to fluorescent light. A gradual reduction in ONL and retinal thicknesses occurred between postexposure days 0 and 10 and appeared to stabilize by day 14 in both strains. The percent difference in both ONL and retinal thickness in unexposed and exposed rats was greater in Wag/Rij than in SD rats.

Patterns of radioactivity in the eyes of rats after injection of iodinated prolactin.

The present study involves the intracardial injection of iodinated ovine prolactin into albino rats and the autoradiographic demonstration of patterns of isotopic incorporation into ocular tissues, including the retina, choroid coat and ciliary body. Control procedures include the utilization of competitive hormonal binding, a comparison of the radioactive pattern in eyes after the injection of iodinated beef serum albumen and an autoradiographic evaluation of the thyroid glands of all groups. The competitive uptake of iodinated prolactin into ocular tissues also was examined by liquid scintillation spectrometry.