The Use of Morphine in Pain Management

Use of Morphine in Pain Management

July 27, 2024
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Morphine sulfate is FDA-approved for managing moderate to severe pain, whether acute or chronic, making it a cornerstone in pain management. It is particularly beneficial in palliative care, active cancer treatment, and addressing vaso-occlusive pain in sickle cell crises. Beyond its approved use, morphine is also utilized off-label for various painful conditions.

This overview details its indications, types of morphine and its side effects, morphine interaction, and morphine warnings. This comprehensive approach guides healthcare providers in optimizing patient therapy for effective pain relief.

 

Indications

Morphine sulfate is FDA-approved for treating moderate to severe acute or chronic pain, and it is primarily used in pain management to provide significant relief to patients. It is particularly beneficial in palliative care, active cancer treatment, and addressing vaso-occlusive pain during sickle cell crises. Morphine is also widely used off-label for various pain conditions.

In emergency departments, it is administered for musculoskeletal pain, abdominal pain, chest pain, arthritis, and even headaches when other treatments have been ineffective.

While rarely used for procedural sedation, in certain cases physicians may combine a low dose of morphine with benzodiazepine-like lorazepam for minor procedures.

 

Mechanism of Action

Morphine the archetypal opioid analgesic, serves as the standard against which other pain medications are measured. Like its counterparts, morphine exhibits an affinity for delta, kappa, and mu-opioids receptors. Its primary analgesic action occurs through binding to mu-opioid receptors in both the central nervous system and peripheral nervous system. This binding activates descending inhibitory pathways in the CNS and inhibits nociceptive afferent neurons in the PNS, resulting in reduced transmission of pain signals overall.

 

Common Types of Morphine with Formulation and Method of Administration

  1. Immediate-Release Oral Formulations: These are typically in tablet or liquid form and are designed to provide quick relief from pain when taken orally. Examples include immediate-release morphine tablets and oral solutions.
  2. Extended-Release Formulations: Also known as sustained-release or controlled-release formulations, these are designed to release morphine gradually over an extended period, providing longer-lasting pain relief with less frequent dosing. Examples include morphine extended-release tablets and capsules.
  3. Injection: Morphine can be administered intravenously or intramuscularly for rapid onset of action often used in acute pain management in hospital settings.
  4. Rectal Suppositories: Morphine suppositories are available for rectal administration and are useful when oral or IV routes are not feasible or preferred.
  5. Transdermal Patch: This is a specialized formulation that delivers morphine through the skin over an extended period, typically 72 hours per patch, providing continuous pain relief. It is often used for chronic pain management.

 

Pharmacokinetics

The oral absorption of morphine is unreliable because of high and variable first-pass metabolism, oral bioavailability is 1/6th to 1/4th of the parenterally administered drug. About 30% is bound to plasma proteins. Distribution is wide, and concentration in the liver, spleen, and kidney is higher than in plasma. Only a small fraction enters the brain rather slowly.

Morphine freely crosses the placenta and can affect the fetus more than the mother. It is primarily metabolized in the liver by glucuronide conjugation.

Morphine-6-glucuronide is an active metabolite that accumulates during chronic dosing and contributes to analgesia, despite its restricted passage across the blood-brainer barrier. Another metabolite morphine-3-glucuronide has neuroexcitatory properties. Plasma t1/2 of morphine averages 2-3 hours. The effect of parenteral dose morphine is noncumulative. Small amounts may persist due to enterohepatic circulation.

 

Morphine Interaction

Phenothiazines, tricyclic antidepressants, MAO inhibitors, amphetamine, and neostigmine potentiate morphine and other opioids, either by retarding its metabolism or by a pharma dynamic interaction at the level of central neurotransmitters.

Morphine retards the absorption of many orally administered drugs by delaying gastric emptying.

 

Adverse Effects of Morphine

Common side effects of morphine use include constipation, which occurs due to stimulation of mu-opioid receptors in the myenteric plexus, leading to inhibited gastric emptying and reduced bowel motility. Additionally, central nervous system depression, nausea, vomiting, and urinary retention are frequently observed.

Respiratory depression is a serious concern, especially postoperatively, necessitating close. Other reported effects include light-headedness, sedation, and dizziness.

To mitigate nausea and vomiting, morphine is often administered with antiemetics like ondansetron in emergency departments.

Morphine may also induce euphoria, dysphoria, agitations, dry mouth, anorexia, and biliary tract spasms, prompting caution in patients with suspected biliary tract pathology.

Cardiovascular effects such as flushing, bradycardia, hypertension, and syncope can also occur. Additionally, morphine use may lead to pruritis, urticaria, edema, and various skin rashes.

 

Contraindications of Morphine

Morphine is a highly effective medication when used appropriately, but there are specific situations where its use is strongly contraindicated. Extreme caution is warranted in cases of severe respiratory depression and exacerbations of asthma, as morphine can further suppress respiratory drive.

It should also be avoided in patients with a known hypersensitivity reaction, and if such a reaction occurs morphine must be immediately discontinued.

Concurrent use of monoamine oxidase inhibitors is contraindicated due to their additive effects with morphine, which can lead to severe hypotension, serotonin syndrome, or increased respiratory depression.

Gastrointestinal obstruction is another critical contraindication.

Many clinicians consider a history of substance misuse, particularly opioid abuse, as a contraindication to morphine use, though this remains a controversial topic. However, most agree that pain management is essential and recognize the availability of alternative analgesics to opioids.

 

Frequently Asked Questions (FAQs)

Q1. What are some side effects of morphine used?

Ans. Morphine can cause side effects such as constipation, nausea, vomiting, dizziness, sedation, and in some cases, respiratory depression (slow or shallow breathing). It can lead to pruritis, urticaria and skin rashes.

 

Q2. When should medical attention be sought while using morphine?

Ans. Seek immediate medical attention if you experience severe side effects such as difficulty breathing, chest pain, or signs of allergic reaction such as rash, or trouble breathing.

 

Q3. Can it interact with other medications?

Ans. Yes, morphine can interact with a variety of medications. Particularly it should not be used with monoamine oxidase inhibitors due to the risk of severe hypotension and serotonin syndrome. It may also interact with other pain relievers, nonsteroidal anti-inflammatory drugs, anabolic steroids, and illegal drugs, potentially altering their effects or increasing the risk of side effects.

 

Q4. What are the withdrawal symptoms associated with morphine?

Ans. Withdrawal symptoms from morphine can include restlessness, muscle and bone pain, insomnia, diarrhea, vomiting, cold flashes, and involuntary leg movements. These symptoms can be uncomfortable but are not usually life-threatening if managed properly.

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