Morphine Tolerance as a Function of Ratio Schedule: Response Requirement or Unit Price?

Hughes, Christine E.; Sigmon, Stacey C.; Pitts, Raymond C.; Dykstra, Linda

doi:10.1901/jeab.2005.35-04

Cited by 7 publications

(9 citation statements)

References 34 publications

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“…That is, tolerance was related to schedule size. Therefore, this study extends findings typically associated with ratio schedules of reinforcement (Hughes & Branch, 1991;Hughes, et al, 2005;Nickel & Poling, 1990;Nickel, et al, 1993;van Haaren & Anderson, 1994) to RIFI schedules of reinforcement.…”

Section: Discussionsupporting

confidence: 74%

“…One possible interpretation of these findings is that the equal magnitude of tolerance across components was due to the low, but comparable response requirements. Consistent with such a view is that in experiments with ratio schedules, tolerance was evident with small response requirements, but not with larger requirements (e.g., Hughes & Branch, 1991;Hughes, et al, 2005;Nickel, et al, 1993;van Haaren & Anderson, 1994). The results of the current study cast doubt on that view, because the response requirement was held at two for all schedules, and the resulting tolerance was nevertheless modulated by schedule duration.…”

Section: Discussionsupporting

confidence: 54%

“…Like the study by Hoffman et al (1987), in which a multiple fixed-ratio schedule was used, the PRP under the current RIFI schedules was (1) directly related to the time to the next reinforcement, and (2) inversely related to the overall rate of reinforcement. These are necessary features of all ratio schedules, and are common to arrangements that have consistently yielded parameter-related tolerance (e.g., Hughes & Branch, 1991;Hughes, et al, 2005;Nickel, et al, 1993;Nickel & Polling, 1990;van Haaren & Anderson, 1994). Further, neither of these relationships is present in FI or variable-interval (VI) schedules (except in the relatively rare cases where the pause exceeds the interval value), schedules under which parameter-related tolerance is typically not obtained.…”

Section: Discussionmentioning

confidence: 97%

“…With daily presession administration of a dose of cocaine that decreased response rates, tolerance to these behavioral effects developed under the FR 5 schedule, but did so less or not at all under the larger value FR schedules. This finding may be referred to as scheduleparameter-related tolerance, and has been obtained in a variety of species (Hughes & Branch, 1991;van Haaren & Anderson, 1994), with different drug types (Hughes et al, 2005;Nickel & Poling, 1990), and with different types and values of ratio schedules (Branch, 1990;Nickel et al, 1993;Yoon & Branch, 2004). These findings have led to subsequent studies attempting to clarify behavioral mechanism(s) involved in producing scheduleparameter-related tolerance.…”

Section: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _mentioning

confidence: 87%

“…Previous research has illustrated that environmental circumstances may play a significant role in the development of tolerance (for reviews see Branch, 1991;Carlton, 1983;Stewart & Badiani, 1993;Wolgin, 1989). For example, contingencies of reinforcement can influence drug tolerance (e.g., Branch, 1990;Hoffman, Branch, & Sizemore, 1987;Hughes & Branch, 1991;Hughes, Sigmon, Pitts, & Dykstra, 2005;Nickel, Alling, Kleiner, & Poling 1993;Pinkston & Branch, 2004;van Haaren & Anderson, 1994;Yoon & Branch, 2004). As an illustration, Hoffman et al (1987) studied the development of tolerance to effects of cocaine on behavior under a multiple fixed-ratio (FR) schedule with FR values of 5, 25, and 125 (FR 50 for one subject).…”

mentioning

confidence: 99%

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Tolerance to Effects of Cocaine on Behavior Under a Response‐initiated Fixed‐interval Schedule

Weaver

Branch

2008

J Exper Analysis Behavior

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Tolerance to effects of cocaine can be modulated by schedules of reinforcement. With multiple ratio schedules, research has shown an inverse relationship between ratio requirement and amount of tolerance that resulted from daily administration of the drug. In contrast, tolerance to the effects of cocaine on behavior under multiple interval schedules generally has developed regardless of interval value. Under interval schedules reinforcement depends on the animal making one response following a time interval. Thus, as time to respond increases, the time to reinforcement decreases. On the other hand, fixed ratio schedules require a specified number of responses to be made prior to reinforcement. Therefore, delaying the initiation of responding does not coincide with a significant decrease in the time to reinforcement. In the current experiment, 6 pigeons were trained to respond under a threecomponent multiple schedule, with a different tandem fixed-ratio 1 fixed-interval schedule in each component. The multiple schedule required one response, which was followed by one of three fixedinterval values (5, 15, or 60 s). Thus, the multiple schedule was interval-like because after the fixed-ratio 1, only one more response was required for reinforcement, but it was also ratio-like because the length of the pause at the beginning of each interreinforcer interval affected the time until the next reinforcer. Acute administration of cocaine generally resulted in dose-dependent decreases in responding. Chronic (i.e., daily) administration of a rate-decreasing dose resulted in tolerance patterns similar to those usually obtained with multiple ratio schedules. That is, the magnitude of tolerance was related inversely to schedule size. These results suggest that delay to reinforcement from the initial response may play a role in the development of schedule-parameter-related tolerance.Key words: cocaine, tolerance, fixed-interval schedules, fixed-ratio schedules, tandem schedules, key peck, pigeonsDrug tolerance is characterized by three features: (1) it often occurs after repeated or prolonged exposure, (2) it is revealed as a loss of effect relative to the drug's initial impact, and (3) in most cases, more of the substance is required to attain the initial effect (Carlton, 1983;Rang, Dale, Ritter, & Moore, 2003). Tolerance can be illustrated as a shift to the right of the dose-response function, and has been implicated as a contributing factor to drug abuse and is also of concern for clinical therapeutics (O'Brien, 2001).Previous research has illustrated that environmental circumstances may play a significant role in the development of tolerance (for reviews see Branch, 1991;Carlton, 1983;Stewart & Badiani, 1993;Wolgin, 1989). For example, contingencies of reinforcement can influence drug tolerance (e.g., Branch, 1990;Hoffman, Branch, & Sizemore, 1987;Hughes & Branch, 1991;Hughes, Sigmon, Pitts, & Dykstra, 2005;Nickel, Alling, Kleiner, & Poling 1993;Pinkston & Branch, 2004;van Haaren & Anderson, 1994;Yoon & Branch, 2004). As an ...

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Section: Discussionsupporting

confidence: 74%

Section: Discussionsupporting

confidence: 54%

Section: Discussionmentioning

confidence: 97%

Section: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _mentioning

confidence: 87%

mentioning

confidence: 99%

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Tolerance to Effects of Cocaine on Behavior Under a Response‐initiated Fixed‐interval Schedule

Weaver

Branch

2008

J Exper Analysis Behavior

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Tolerance to cocaine's effects following chronic administration of a dose without detected effects on response rate or pause

Minervini

Branch

2013

J Exper Analysis Behavior

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To observe tolerance to drug effects on operant behavior, the dose that researchers have often selected for chronic administration is one that disrupts, but does not abolish, responding. Some evidence suggests that tolerance may develop after chronic administration of relatively smaller doses. The purpose of the present experiment was to assess systematically effects of chronic administration of a dose without detected effect on responding. Specifically, response rates and postreinforcement pauses of five pigeons key pecking under a three-component multiple fixed-ratio schedule of food reinforcement were observed under chronic cocaine administration. We evaluated the effects of a range of doses (1.0 mg/kg to 17.0 mg/kg) during acute administration. The largest dose that failed to alter responding acutely then was administered chronically (1.0 mg/kg for one pigeon, 3.0 mg/kg for three pigeons, and 5.6 mg/kg for one pigeon). After 30 consecutive sessions of chronic administration, smaller and larger doses occasionally were substituted for the chronic dose. Pigeons then received presession saline administration for 30 consecutive sessions, and the postchronic effects of the series of doses on responding were determined. All subjects developed tolerance to doses of cocaine that initially had caused large decreases in rate, with the magnitude of the effects varying across components of the multiple schedule and subjects. Specifically, tolerance generally was greatest in the components with smaller ratios. Following postchronic saline administration, tolerance was usually diminished. Overall, the results demonstrate that under these conditions, repeated experience with disruptive effects of cocaine on food-maintained responding is not a necessary factor in the development of tolerance.

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Cocaine and automaintained responding in pigeons: Rate-reducing effects and tolerance thereto with different durations of food delivery

Durgin

Porter

Bradley

et al. 2009

Pharmacology Biochemistry and Behavior

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Morphine Tolerance as a Function of Ratio Schedule: Response Requirement or Unit Price?

Cited by 7 publications

References 34 publications

Tolerance to Effects of Cocaine on Behavior Under a Response‐initiated Fixed‐interval Schedule

Tolerance to Effects of Cocaine on Behavior Under a Response‐initiated Fixed‐interval Schedule

Tolerance to cocaine's effects following chronic administration of a dose without detected effects on response rate or pause

Cocaine and automaintained responding in pigeons: Rate-reducing effects and tolerance thereto with different durations of food delivery

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