Constipation Like
loperamide and other opioids, morphine acts on the
myenteric plexus in the intestinal tract, reducing gut motility, and causing constipation. The gastrointestinal effects of morphine are mediated primarily by
μ-opioid receptors in the bowel. By inhibiting gastric emptying and reducing propulsive
peristalsis of the intestine, morphine decreases the rate of intestinal transit. Reduction in gut secretion and increased intestinal fluid absorption also contribute to the constipating effect. Opioids also may act on the gut indirectly through tonic gut spasms after inhibition of
nitric oxide generation. This effect was shown in animals when a nitric oxide precursor,
L-arginine, reversed morphine-induced changes in gut motility.
Hormone imbalance Clinical studies consistently conclude that morphine, like other opioids, often causes
hypogonadism and
hormone imbalances in chronic users of both sexes. This side effect is
dose-dependent and occurs in both therapeutic and recreational users. Morphine can interfere with menstruation by suppressing levels of
luteinizing hormone. Multiple studies suggest the majority (perhaps as many as 90%) of chronic opioid users have opioid-induced hypogonadism. This effect may cause the increased likelihood of
osteoporosis and
bone fracture observed in chronic morphine users. Studies suggest the effect is temporary. , the effect of low-dose or acute use of morphine on the endocrine system is unclear.
Effects on human performance Most reviews conclude that opioids produce minimal impairment of human performance on tests of sensory, motor, or attentional abilities. However, recent studies have been able to show some impairments caused by morphine, which is not surprising, given that morphine is a central nervous system
depressant. Morphine has resulted in impaired functioning on critical flicker frequency (a measure of overall CNS arousal) and impaired performance on the
Maddox wing test (a measure of the deviation of the visual axes of the eyes). Few studies have investigated the effects of morphine on motor abilities; a high dose of morphine can impair finger tapping and the ability to maintain a low constant level of
isometric force (i.e. fine motor control is impaired), though no studies have shown a correlation between morphine and gross motor abilities. In terms of
cognitive abilities, one study has shown that morphine may negatively impact
anterograde and
retrograde memory, but these effects are minimal and transient. Overall, it seems that acute doses of opioids in non-tolerant subjects produce minor effects in some sensory and motor abilities, and perhaps also in
attention and cognition. The effects of morphine will likely be more pronounced in opioid-naive subjects than in chronic opioid users. In chronic opioid users, such as those on Chronic Opioid Analgesic Therapy (COAT) for managing severe,
chronic pain, behavioural testing has shown normal functioning on perception, cognition, coordination, and behaviour in most cases. One 2000 study analysed COAT patients to determine whether they were able to safely operate a motor vehicle. The findings from this study suggest that stable opioid use does not significantly impair abilities inherent in driving (this includes physical, cognitive, and perceptual skills). COAT patients showed rapid completion of tasks that require the speed of responding for successful performance (e.g.,
Rey Complex Figure Test) but made more errors than controls. COAT patients showed no deficits in visual-spatial perception and organization (as shown in the
WAIS-R Block Design Test) but did show impaired immediate and short-term visual memory (as shown on the Rey Complex Figure Test – Recall). These patients showed no impairments in higher-order cognitive abilities (i.e., planning).
Reinforcement disorders Addiction Morphine is a highly
addictive substance. Multiple studies, including one by
The Lancet, ranked morphine/heroin as the #1 most addictive substance, followed by
cocaine at #2,
nicotine #3,
barbiturates at #4, and
ethanol at #5. In controlled studies comparing the physiological and subjective effects of
heroin and morphine in individuals formerly addicted to opiates, subjects showed no preference for one drug over the other. Equipotent, injected doses had comparable action courses, with heroin crossing the
blood–brain barrier slightly quicker. No difference in subjects' self-rated feelings of
euphoria, ambition, nervousness, relaxation, or drowsiness.
Tolerance Several hypotheses are given about how tolerance develops, including opioid receptor
phosphorylation (which would change the receptor conformation), functional decoupling of receptors from
G-proteins (leading to receptor desensitization), μ-opioid receptor internalization or receptor down-regulation (reducing the number of available receptors for morphine to act on), and upregulation of the
cAMP pathway (a counterregulatory mechanism to opioid effects) (For a review of these processes, see Koch and Hollt).
Dependence and withdrawal Cessation of dosing with morphine creates the prototypical opioid withdrawal syndrome, which, unlike that of
barbiturates,
benzodiazepines,
alcohol, or
sedative-hypnotics, is not fatal by itself in otherwise healthy people. Acute morphine withdrawal, along with that of any other opioid, proceeds through a number of stages. Other opioids differ in the intensity and length of each, and weak opioids and mixed agonist-antagonists may have acute withdrawal syndromes that do not reach the highest level. As commonly cited, they are: •
Stage I, 6 h to 14 h after last dose: Drug craving, anxiety, irritability, perspiration, and mild to moderate
dysphoria •
Stage II, 14 h to 18 h after last dose:
Yawning, heavy
perspiration, mild
depression,
lacrimation,
crying, headaches, runny nose, dysphoria, also intensification of the above symptoms, "yen sleep" (a waking trance-like state) •
Stage III, 16 h to 24 h after last dose: Increase in all of the above,
dilated pupils,
piloerection (goose bumps), muscle twitches,
hot flashes, cold flashes, aching bones and muscles,
loss of appetite, and the beginning of intestinal cramping •
Stage IV, 24 h to 36 h after last dose: Increase in all of the above including severe cramping,
restless legs syndrome, loose stool,
insomnia, elevation of blood pressure,
fever, increase in frequency of breathing and tidal volume,
tachycardia (elevated pulse),
restlessness, nausea •
Stage V, 36 h to 72 h after last dose: Increase in all of the above, fetal position, vomiting, free and frequent liquid diarrhea, weight loss of 2 kg to 5 kg per 24 h, increased
white cell count, and other blood changes •
Stage VI, after completion of above: Recovery of appetite and normal bowel function, beginning of transition to
post-acute withdrawal symptoms that are mainly psychological, but may also include increased sensitivity to pain,
hypertension,
colitis or other gastrointestinal afflictions related to motility, and problems with weight control in either direction In advanced stages of withdrawal, ultrasonographic evidence of pancreatitis has been demonstrated in some patients and is presumably attributed to spasm of the pancreatic
sphincter of Oddi. The withdrawal symptoms associated with morphine addiction are usually experienced shortly before the time of the next scheduled dose, sometimes within as early as a few hours (usually 6 h to 12 h) after the last administration. Early symptoms include watery eyes, insomnia, diarrhea, runny nose, yawning,
dysphoria, sweating, and, in some cases, a strong drug craving. Severe headache, restlessness,
irritability, loss of appetite, body aches, severe abdominal pain, nausea and vomiting, tremors, and even stronger and more intense drug craving appear as the syndrome progresses. Severe depression and vomiting are common. During the acute withdrawal period, systolic and diastolic blood pressures increase, usually beyond premorphine levels, and heart rate increases, which have potential to cause a heart attack, blood clot, or stroke. Chills or cold flashes with goose bumps alternating with flushing (hot flashes), kicking movements of the legs, Severe pains in the bones and muscles of the back and extremities occur, as do muscle spasms. At any point during this process, a suitable narcotic can be administered that will dramatically reverse the withdrawal symptoms. Major withdrawal symptoms peak between 48 h and 96 h after the last dose and subside after about 8 to 12 days. Sudden discontinuation of morphine by heavily
dependent users who are in poor health is rarely fatal. Morphine withdrawal is considered less dangerous than alcohol, barbiturate, or benzodiazepine withdrawal. The psychological dependence associated with morphine
addiction is complex and protracted. Long after the physical need for morphine has passed, addicts will usually continue to think and talk about the use of morphine (or other drugs) and feel strange or overwhelmed coping with daily activities without being under the influence of morphine. Psychological withdrawal from morphine is usually a long and painful process. Addicts often experience severe depression, anxiety, insomnia, mood swings, forgetfulness, low
self-esteem,
confusion,
paranoia, and other psychological problems. Without intervention, the syndrome will run its course, and most of the overt physical symptoms will disappear within 7 to 10 days including psychological dependence. A high probability of relapse exists after morphine withdrawal when neither the physical environment nor the behavioral motivators that contributed to the abuse have been altered. Testimony of morphine's addictive and reinforcing nature is its relapse rate. Users of morphine have one of the highest relapse rates among all drug users, ranging up to 98% in the estimation of some medical experts. == Toxicity ==