Deanna L. Buck scite author profile

Conditioning-specific reflex modification (CRM) occurs when classical conditioning modifies responding to an unconditioned stimulus (US) in the absence of a conditioned stimulus (CS). Three experiments monitored rabbit nictitating (Oryctolagus cuniculus) membrane unconditioned responses to 5 intensities and 4 durations of periorbital electrical stimulation before and after CS or US manipulation. CRM occurred after 12 days of CS-US pairings but not following unpaired CS/US presentations or restraint. CRM survived CS-alone and CS/US-unpaired extinction of the conditioned response (CR) but not presentations of the US alone, although CRs remained intact. Thus, CRs could be weakened without eliminating CRM and CRM could be weakened without eliminating CRs. Data indicate CRM is a reliable, associative effect that is more than a generalized CR and may not be explained by habituation, stimulus generalization, contextual conditioning, or bidirectional conditioning.

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Conditioning-specific reflex modification of the rabbit (Oryctolagus cuniculus) nictitating membrane response: Generality and nature of the phenomenon.

Buck¹,

Seager²,

Schreurs³

2001

Behavioral Neuroscience

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Conditioning-specific reflex modification (CRM) occurs when classical conditioning modifies responding to an unconditioned stimulus in the absence of a conditioned stimulus. This form of reflex modification suggests that learning modifies the unconditioned reflex pathway. Rabbit (Oryctolagus cuniculus) nictitating membrane responses to 5 intensities and 3 durations of airpuff (AP) or periorbital electrical stimulation (ES) were monitored before and after conditioning. AP tests detected strong CRM after conditioning with ES and modest levels of CRM after conditioning with AP. After conditioning with AP, ES tests failed to detect CRM. After conditioning with a stronger AP, CRM was again detected by AP tests. CRM is a general phenomenon but is more readily detected after training with a relatively aversive stimulus; thus, it may be a function of level of arousal.

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Working Memory Deficits following Traumatic Brain Injury in the Rat

Hamm

Temple

Pike

et al. 1996

Journal of Neurotrauma

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This study was designed to examine working memory following fluid-percussion traumatic brain injury (TBI) using the Morris water maze (MWM). Rats were injured (n = 9) at a moderate level of central fluid percussion injury (2.1 atm) or were prepared for injury but did not receive a fluid pulse (sham injury) (n = 10). On days 11-15 postinjury, working memory was assessed using the MWM. Each animal received 8 pairs of trials per day. For each pair of trials, animals were randomly assigned to one of four possible starting points and one of four possible escape platform positions. On the first trial of each pair, rats were placed in the maze facing the wall and were given 120 sec to locate the hidden escape platform. After remaining on the goal platform for 10 sec, they were placed back into the maze for the second trial of the pair. The platform position and the start position remained unchanged on this trial. After the second trial, the animal was given a 4 min intertrial rest. Between pairs of trials, both the start position and the goal location were changed. Analyses of the latency to reach the goal platform indicated that sham-injured animals performed significantly better on the second trial than on the first trial of each pair. However, injured animals did not significantly differ between first and second trial goal latencies on any day. These results indicate that injured animals have a profound and enduring deficit in spatial working memory function on days 11-15 after TBI.

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Effect of Tetrahydroaminoacridine, a Cholinesterase Inhibitor, on Cognitive Performance Following Experimental Brain Injury

Pike

Hamm

Temple

et al. 1997

Journal of Neurotrauma

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An emerging literature exists in support of deficits in cholinergic neurotransmission days to weeks following experimental traumatic brain injury (TBI). In addition, novel cholinomimetic therapeutics have been demonstrated to improve cognitive outcome following TBI in rats. We examined the effects of repeated postinjury administration of a cholinesterase inhibitor, tetrahydroaminoacridine (THA), on cognitive performance following experimental TBI. Rats were either injured at a moderate level of central fluid percussion TBI (2.1+/-0.1 atm) or were surgically prepared but not delivered a fluid pulse (sham injury). Beginning 24 h after TBI or sham injury, rats were injected (IP) daily for 15 days with an equal volume (1.0 ml/kg) of either 0.0, 1.0, 3.0, or 9.0 mg/kg THA (TBI: n = 8, 8, 10, and 7, respectively, and Sham: n = 5, 7, 8, 7, respectively). Cognitive performance was assessed on Days 11-15 after injury in a Morris water maze (MWM). Analysis of maze latencies over days indicated that chronic administration of THA produced a dose-related impairment in MWM performance in both the injured and sham groups, with the 9.0 mg/kg dose producing the largest deficit. The 1.0 and 3.0 mg/kg doses of THA impaired MWM performance without affecting swimming speeds. Thus, the results of this investigation do not support the use of THA as a cholinomimetic therapeutic for the treatment of cognitive deficits following TBI.

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Kuzirian

Epstein²,

Buck³

et al. 2001

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Hermissenda CNS, immunolabeled for the memory protein calexcitin showed significant immunostaining over background in the B-photoreceptor cells of the eye. The degree of staining correlated positively with the number of Pavlovian training events experienced by the animals and the degree of Pavlovian conditioning induced. The training regime consisted of exposing animals to light (conditioned stimulus, CS) paired with orbital rotation (unconditioned stimulus, US). In animals that exhibited the conditioned response, calexcitin immunolabeling was more intense than was found for naive (unconditioned) animals or animals given the CS and US in random sequence. Animals exposed to lead (maintained in 1.2 ppm lead acetate) at a dosage known to impair learning in children, showed reduced learning and less intense calexcitin staining whether the CS and US were paired or given randomly. However, the levels were still higher than that of naive animals. Immuno-electron microscopy indicated that the labeling was predominantly within calcium sequestering organelles such as the endoplasmic reticulum, and to lesser extent within mitochondria, and photopigments. The calexcitin density after a short-term memory (STM) regime was the same whether measured 5 minutes after conditioning (when STM was evidenced by foot contraction) or 90 minutes later when no recall was detected. The staining density was also similar to the levels found 5 minutes after long-term memory (LTM) conditioning. However, the LTM regime produced a greater calexcitin intensity at 90 minutes when the memory had been consolidated. This learning-specific increase in calexcitin is consistent with the previously implicated sequence of molecular events that are associated with progressively longer time domains of memory storage.

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Deanna L. Buck

Conditioning the unconditioned response: Modification of the rabbit's (Oryctolagus cuniculus) unconditioned nictitating membrane response.

Conditioning-specific reflex modification of the rabbit (Oryctolagus cuniculus) nictitating membrane response: Generality and nature of the phenomenon.

Working Memory Deficits following Traumatic Brain Injury in the Rat

Effect of Tetrahydroaminoacridine, a Cholinesterase Inhibitor, on Cognitive Performance Following Experimental Brain Injury

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