UMLS:C0278080 - FACTA Search

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Query: UMLS:C0278080 (physical dependence)
1,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats were given daily injections of increasing doses of morphine sulfate (40-100 mg/kg, s.c.), for 4 days. Twenty hours after the last injection of morphine, the animals received bilateral injections of naloxone (1-10 micrograms) into the substantia nigra, ventral tegmental area or sites 2 mm rostral, caudal or dorsal to the site in the nigra. Withdrawal signs were monitored for 20 min after the intracerebral injection. Naloxone administered into the nigra in morphine-dependent rats produced dose-dependent significant increases in wet dog shakes, irritability to touch, teeth chattering, diarrhea and locomotion, compared to morphine-dependent animals that received injections of saline into the nigra. The injection of naloxone (3 micrograms) into the ventral tegmental area of morphine-dependent animals, produced irritability to touch and diarrhea, compared to morphine-dependent controls that received saline in this region of the brain. Significant differences in withdrawal signs were observed between morphine-dependent animals, that received injections of naloxone (3 micrograms) into the nigra and those that received naloxone (3 micrograms) into the ventral tegmental area or rostral or caudal sites. No differences between the substantia nigra and the dorsal sites were observed. However, withdrawal symptoms were produced by injections of naloxone into the substantia nigra and ventral tegmental area, even when the guide cannulae were angled to avoid penetration of sites dorsal to these regions of the brain. Naloxone, injected into the ventral midbrain of non-dependent animals, produced no signs of withdrawal. These studies suggest that the ventral midbrain mediates physical dependence on morphine.
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PMID:Evidence that physical dependence on morphine is mediated by the ventral midbrain. 259 60

The effects of noscapine and chlorpheniramine on physical dependence liability and antitussive activity of dihydrocodeine, a narcotic antitussive, were studied. For developing physical dependence, male Sprague-Dawley rats were treated with dihydrocodeine (DC), noscapine (N), and chlorpheniramine (CP) singly or simultaneously admixed with food (drug-admixed food method (DAF): DC: 0.125, N: 0.25, CP: 0.05 mg/g of food, for 7 days) or were intermittently medicated for 3 days at one-hour intervals through an implanted intravenous cannula (infusion method: DC: 0.5-2, N: 1-4, CP: 0.2-0.8 mg/kg x 24 times/day). Subsequently, rats were treated with naloxone (0.5 mg/kg, sc) and checked for withdrawal signs during 3 hours. Naloxone-precipitated body weight loss of DC was suppressed by simultaneous administration of N or CP. In combined group of DC, N, and CP, withdrawal signs, such as body weight loss, body shakes, and diarrhea, were more remarkably suppressed. Papaverine, the same kind of spasmolytic as N, was tested by the same schedule of DAF. Papaverine did not suppress the naloxone-precipitated withdrawal signs of DC. These results suggest that suppressive effect of N is not due to its spasmolytic action. On the other hand, the cough reflex was induced by electric stimulation in guinea pigs and the fifty percent of antitussive dose (AtD50) was estimated in order to evaluate the influence of N and CP on antitussive effect of DC. N and CP did not change the antitussive effect of DC. These results may suggest that N and CP suppress the development of physical dependence of DC without diminishing the pharmacological effects of DC.
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PMID:[The effects of noscapine and chlorpheniramine on physical dependence and antitussive activity of dihydrocodeine]. 321 81

Sprague-Dawley male rats were intoxicated with morphine, using an ingestion method where exposed and control rats received equivalent amounts of calories and nutrients. The degree of physical dependence on morphine was demonstrated by studying and quantifying abstinence symptoms after withdrawal or after administration of opiate antagonists. The aims of the study were (1) to further enlighten the specificity and validity of the intoxication method concerning physical dependence, and (2) to determine whether some of the abstinence signs might be of value to facilitate quantitation of the degree of physical dependence on morphine, with diet and fluid intake being maintained under control. Withdrawn rats showed a decreased fluid diet intake and a body weight loss, the latter partly due to anorexia. Other mild abstinence signs were irritation, tremor and some motor excitation. The body weight loss during the first day of morphine withdrawal was proportional to the accumulated drug dose (between 25 and 300 mg morphine PO/kg b.wt.). However, prolonged morphine treatment on one dose (340 mg/kg b.wt.) did not reinforce the body weight changes caused by morphine withdrawal. The succeeding weight gain some days after morphine withdrawal was not entirely dependent on the amount of fluid diet intake. Methadone was shown to partially block the decrease in diet intake and the weight loss seen during morphine withdrawal. The naloxone-precipitated withdrawal symptoms were motor excitation, cholinergic signs, body weight loss, diarrhoea and decreased diet intake. The weight loss 2 hr after naloxone administration to long-term intoxicated rats was proportional to the naloxone dose.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Aspects of abstinence after morphine ingestion. 365 10

The characteristics of an analog of tetrapeptide dermorphin (H-Tyr-D-Arg-Phe-Sar-OH), [D-Arg2, Sar4]-dermorphin (1-4) were examined in comparison with morphine by the appearance of typical withdrawal signs upon cessation of administration or treatment with naloxone, an opioid antagonist. The dose of [D-Arg2, Sar4]-dermorphin (1-4) or morphine in the physical dependence test can be quantified by determining the ED50 to inhibit the tail-flick response to thermal stimuli. Doses from 8 to 64 times the ED50 doses were employed in the subcutaneous injection schedules. The cessation of [D-Arg2, Sar4]-dermorphin (1-4) or naloxone treatment was largely without effect on body weight, in contrast to a marked loss of weight in morphine-dependent rats. The tetrapeptide failed to substitute for morphine in morphine-dependent rats. The physical dependence of [D-Arg2, Sar4]-dermorphin (1-4) was revealed by the behavioral signs of withdrawal precipitated by naloxone. However, the scores of lacrimation, diarrhea and urination were much lower in chronically tetrapeptide-treated rats than in morphine-treated rats, though the score of teeth chatter was higher. These findings indicate that [D-Arg2, Sar4]-dermorphin (1-4) may differ from morphine in physical dependence.
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PMID:Physical dependence of a dermorphin tetrapeptide analog, [D-Arg2, Sar4]-dermorphin (1-4) in the rat. 394 63

Although the morphine withdrawal syndrome has been well described in the rat, a syndrome having similar characteristics has not been demonstrated following chronic methadone treatment. In this study we describe the behavioral effects produced by naloxone (4 mg/kg sc) following 72 hours of continuous iv infusion of methadone, (12.2 micrograms/kg/min), morphine (12.2 to 97.9 micrograms/kg/min) or saline. The cessation of methadone or morphine but not saline treatment followed by naloxone resulted in graded signs including wet dog shakes, escape attempts, self-stimulation and body weight loss and quantal signs including diarrhea, ear blanching, exophthalmos, ptosis, tachypnea and teeth chattering. These results indicate that this mode of methadone administration produces physical dependence characterized by a morphine-like withdrawal syndrome in the rat.
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PMID:Methadone induced physical dependence in the rat. 653 54

The drug-admixed food method was applied to ICR strain mice for studying development of physical dependence on morphine. Mice were treated with morphine-admixed food of increasing concentration (1, 2 and 3 mg/g food) every third day for 9 days. During the treatment, the mice did not show any signs of toxicity. Plasma and brain morphine levels were quantitatively related to the morphine concentration in drug-admixed food. The plasma morphine level showed a circadian rhythm, and the level was higher than 0.15 microgram/ml throughout the day. The morphine-treated mice manifested body weight loss, diarrhea and ptosis from 4 hr after morphine withdrawal and showed maximum body weight loss at 12 hr. In the naloxone-precipitated test, jumping and body shakes were observed in mice treated with morphine-admixed food (2 mg/g food) at least for 1 day. Moreover, in mice treated with morphine (2 mg/g food) for 3 days, marked jumping and body shakes and some writhing were observed after naloxone administration. These results suggest that the drug-admixed food method has advantages of easily and rapidly inducing the physical dependence on morphine in mice without causing toxicity and death.
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PMID:Induction of physical dependence on morphine in mice by the drug-admixed food method. 653

The developmental process of physical dependence on codeine has been explored in rats treated with codeine-admixed food (0.5 mg/g food) during 1 to 7 days. In rats treated with codeine for more than 2 days, body weight loss was markedly observed after the abrupt codeine withdrawal. The intensity and time course of body weight loss increased according to the duration of codeine treatment. After the codeine withdrawal, behavioral signs such as diarrhea, ptosis and vocalization were observed. In the naloxone-precipitated withdrawal test, rats treated with codeine for 1 day manifested a loss of body weight after naloxone challenge, and the intensity of body weight loss increased according to the duration of codeine treatment. After naloxone injection, the codeine-treated rats showed abnormal behaviors such as diarrhea, ptosis, teeth chattering , salivation, body shakes, vocalization, nose bleed, irritability, lacrimation and writhing. The total score, evaluated by the ranking system for precipitated withdrawal behaviors, was correlated with the duration of codeine treatment. These results suggest that naloxone-precipitated withdrawal signs are powerful in comparison with that after codeine withdrawal, and the weight loss is a common index for quantitative assessment of physical dependence on narcotics in the natural and naloxone-precipitated withdrawal tests. It is concluded that the drug-admixed food ingestion method has the advantage of rapidly inducing a high degree of physical dependence on codeine.
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PMID:Induction of physical dependence on codeine in the rat by drug-admixed food ingestion. 653 1

A comparison of several methods for developing physical dependence to morphine was made. Male Sprague-Dawley rats were treated with morphine-admixed food (drug-admixed food, DAF; 0.5 and 1 mg/g food), morphine slow release emulsion (SRE; 75, 100 and 150 mg/kg) and morphine (75 mg) pellets. In the SRE and pellet methods, the typical signs of morphine toxicity, such as catatonia, exophthalmos and shallow respiratory movements, were observed 15-20 min after the treatment and these signs were maintained for 14-18 hr. In rats treated with SRE and pellets, plasma morphine levels reached a maximum 1 day after the morphine treatment, and subsequently decreased, while plasma morphine levels in rats treated with DAF increased treatment period-dependently. Withdrawal signs precipitated by naloxone (3 mg/kg, sc) in rats treated with DAF, SRE and pellets were characterized by loss of body weight, shaking, vocalization, diarrhea, ptosis, tooth-chattering, nose bleed, salivation and lacrimation. Naloxone-precipitated withdrawal signs reached a maximum 1-2 days after treatment with SRE and pellets, and were correlated with the duration of DAF treatment. Rats treated with DAF, SRE (150 and 225 mg/kg) and pellets for 3 days, manifested loss of body weight, diarrhea etc. after the morphine withdrawal. Maximum body weight loss in each group was 7-10% at 1-2 days after the morphine withdrawal. It was thus, concluded that physical dependence on morphine can be induced rapidly by these three methods. However, the SRE and pellet methods induced morphine toxicity and it was difficult to maintain physical dependence on morphine in these rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Comparison of three methods of inducing physical dependence to morphine in rats using short-term medication]. 654 77

1. The development process of physical dependence on and tolerance to morphine has been explored in rats treated with morphine-admixed food (0.5 mg/g of food) during 1 to 7 days. 2. In the morphine-treated animals, body weight loss was observed after the abrupt morphine withdrawal. 3. Intensity and time course of the weight loss were correlated to the morphine treatment. 4. On the other hand, the morphine-treated rats showed abnormal behaviors, such as diarrhea, ptosis, teeth chattering, salivation, body shakes, vocalization, nose bleed, irritability, aggression, lacrimation and writhing upon naloxone injection. 5. Loss of body weight, measured 3 hours after naloxone injection, was also correlated to the duration of morphine treatment. 6. Tolerance to the analgesic effect of morphine developed within one day in rats treated with morphine-admixed food. 7. The drug-admixed food ingestion method has the advantage of rapidly inducing a high degree of physical dependence and tolerance without causing morbidity or lethality in animals. It also eliminates the need for excessive handling of animals.
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PMID:Development of physical dependence on and tolerance to morphine in rats treated with morphine-admixed food. 668 88

IV phencyclidine (PCP) self-administration was studied in five rhesus monkeys. The animals were given 23 h per day access with each respose producing an injection. For the first seven sessions saline was made contingent on responding. For the next 30 sessions responses produced 0.01 mg/kg PCP and for the next 20 sessions responses produced 0.05 mg/kg PCP. Withdrawal signs and symptoms were evaluated every 4 h during the subsequent saline-access period. All animals responded for 0.01 mg/kg injections at rates higher than their initial saline rates. Response rates decreased but total PCP intake increased during access to the higher dose. The levels of PCP self-administered resulted in severe intoxication. Evidence for physical dependence development was obtained. The symptoms emerged within 4--8 h after access was terminated, peaked at 12--16 h, and subsided by 24--48 h. The syndrome could be reversed by IV PCP administration. The most common symptoms were vocalizations, hyperresponsivity, bruxism, oculomotor hyperactivity, and diarrhea. During withdrawal the animals refused preferred food. In some of the animals piloerection, tremors, ear and facial twitches, and priapism occurred. Rhythmic abdominal contractions and emesis were seen in one subject and convulsive activity was seen in one subject.
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PMID:Continuous-access phencyclidine self-administration by rhesus monkeys leading to physical dependence. 677 35

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