Acuity and contrast sensitivity of the bluegill sunfish and how they change during optic nerve regeneration.

Spatial vision was studied in the bluegill sunfish, Lepomis macrochirus (9.5-14 cm standard length) to assess the limitations imposed by the optics of the eye, the retinal receptor spacing and the retinotectal projection during regeneration. Examination of images formed by the dioptric elements of the eye showed that spatial frequencies up to 29 c/ degrees could be imaged on the retina. Cone spacing was measured in the retina of fresh, intact eyes. The spacing of rows of double cones predicted 3.4 c/degrees as the cutoff spatial frequency; the spacing between rows of single and double cones predicted 6.7 c/degrees. Contrast sensitivity functions were obtained psychophysically in normals and fish with one regenerating optic nerve. Fish were trained to orient to gratings (mean luminance = 25 cd/m2) presented to either eye. In normals, contrast sensitivity functions were similar in shape and bandwidth to those of other species, peaking at 0.4 c/degrees with a minimum contrast threshold of 0.03 and a cutoff at about 5 c/degrees, which was within the range predicted by cone spacing. Given that the optical cutoff frequency exceeds that predicted by cone spacing, it is possible that gratings could be detected by aliasing with the bluegill's regular cone mosaic. However, tests with high contrast gratings up to 15 c/ degrees found no evidence of such detection. After crushing one optic nerve in three trained sunfish, recovery of visual avoidance, dorsal light reflex and orienting to gratings, were monitored over 315 days. At 64-69 days postcrush, responses to gratings reappeared, and within 2-5 days contrast sensitivity at low (0.15 c/degrees) and medium (1.0 c/ degrees) spatial frequencies had returned to normal. At a high spatial frequency (2.93 c/degrees) recovery was much slower, and complete only in one fish.

A comparison of memory for verbal and non-verbal material in schizophrenia.

Verbal memory impairment has been well explored in schizophrenia, but it is unclear whether findings relate to the type of material to be learned or the component process required by the memory task. Also, sparse data on non-verbal memory also open the question of how well schizophrenia patients encode this material. We tested whether episodic memory performance in schizophrenia varies as a function of stimulus material (verbal/non-verbal) and determined the integrity of various component memory processes. Memory tests that differ in stimulus material (words, California Verbal Learning Test, CVLT; designs, Biber Figure Learning Test-Extended, BFLT-E) yet produce similar memory component measures were used. Subjects were 28 neuroleptic-medicated inpatients with a diagnosis of chronic schizophrenia. Results showed that both verbal and non-verbal memory performance was impaired relative to age-matched controls. Learning and recall measures were most severely impaired, with memory storage problems and impairment in recognition memory evident. On the verbal task, the relative sparing of recognition memory suggested retrieval processes, in addition to encoding processes, were disrupted. On the non-verbal task, the deficits appeared more limited to encoding. Therefore, while the operational integrity of components such as encoding were compromised regardless of material, retrieval processes showed material-specific effects. To the degree verbal and non-verbal memory functions can be lateralized in the brain, these data support the possibility of deficits in both right and left hemisphere declarative memory systems in schizophrenia.

Information-processing characteristics of explicit time estimation by patients with schizophrenia and normal controls.

The information-processing characteristics of time estimation have not been well-documented. This research investigated explicit time estimation to test whether (1) it can occur "automatically" and (2) the cognitive function generally known as "working memory" predicts accuracy of time estimation. Data on two tasks requiring explicit time judgement (time interval estimation and production) are reported for a sample of 43 normal, healthy controls and 19 inpatients with chronic schizophrenia. Each task was given in a standard (passing time interval is unfilled) and dual-task format (interval is filled by oral reading). Multivariate analysis of variance suggested that for both patients' and the normal controls' time estimation accuracy was (1) highly sensitive to whether a passing interval was filled with a concurrent activity such as reading and (2) predictable on the basis of age, education, and working memory skills. Also, the effect of the dual-task manipulation did vary as a function of psychosis for the Time Interval Production task. The data suggest that procedures for explicit time judgements do not occur automatically and utilize controlled processes such as working memory.

Recovery of contrast sensitivity during optic nerve regeneration in fish.

Psychophysical experiments on goldfish and sunfish studied the recovery time course of visual contrast detection during optic nerve regeneration. The results showed delayed recovery of detection of positive as compared to negative contrasts, and of high as compared to low spatial frequencies. The findings are related to previous electrophysiological and anatomical results in the fish retinotectal system.