Sufentanil: Biological Mechanisms, Surgical Applications and Side Effects

February 21, 2020

Sufentanil is a potent synthetic opioid drug that is a derivative of fentanyl.1 Sufentanil was developed in the early 1970s as a highly potent version of fentanyl, used for intravenous anesthesia.2 Since then, prescription of sufentanil has broadened to include epidural and sublingual forms.3 Sufentanil is commonly sold under the brand names Dsuvia (a sufentanil sublingual tablet) or Sufenta (a sufentanil citrate injection).3 Because of its role in pain management and anesthesia, anesthesiology professionals should be familiar with sufentanil’s biological mechanisms, applications and side effects.

The molecular formula of sufentanil is C22H30N2O2S,4 though it can also take the salt form of sufentanil citrate, which is C28H38N2O9S.5 Sufentanil and its salt form exert their actions by binding selectively to m-opioid receptors in the brain and spinal cord.3 As m-opioid receptors are G-protein-coupled receptors, sufentanil’s binding affects the behavior of G-proteins in neurons.3 This leads to biochemical chain of reactions that causes decreased neural signaling and reduced neurotransmitter release, which contribute to sufentanil’s analgesic effects.3 Sufentanil undergoes metabolism by CYP3A4 enzymes in the liver.6 Unlike opioids such as morphine or hydromorphone, sufentanil has no active metabolites.7 Its inactive metabolites are excreted in urine and feces.6 Sufentanil is highly liphophilic, which allows for quick absorption of the drug by bodily tissues and rapid distribution around the body.7 It is more lipid soluble than fentanyl and alfentanil, which are other commonly used opioid drugs.8 More than 90 percent of sufentanil is protein bound, which is responsible for its small volume of distribution and short duration of action.8

Sufentanil has unique uses in anesthesiology due to its more rapid onset of action, quicker distribution and elimination and greater potency than fentanyl.1 Like other opioids, sufentanil has dose-dependent effects that allow it to be used as an adjunct in anesthesia, in balanced anesthesia and as a primary anesthetic agent.3 Depending on the purpose, sufentanil can be administered intravenously, epidurally, sublingually or even intranasally.3,9 Intranasal sufentanil can be used during the preoperative period to induce sedation.9 Intravenous sufentanil can be provided during surgery in high anesthetic doses or in lower doses as a supplement to other anesthetics.1 Additionally, epidural sufentanil serves as an analgesic during labor and vaginal delivery.1,3 In its sublingual form, sufentanil provides acute pain management in adults,3 particularly during the postoperative period.6 Sufentanil and other fentanyl analogs have advantages over morphine, meperidine and inhalational anesthetics because they produce hypnosis and repress hemodynamic responses to surgery without producing cardiovascular depression.10 Therefore, sufentanil can be useful for anesthesia in major cardiovascular procedures and analgesia for situations requiring pain management.3

Because sufentanil has no active metabolites, it has a decreased risk of unwanted side effects when compared to other opioid drugs.6,7 However, sufentanil can cause nausea, vomiting, itching and urinary retention,11 as well as reduced gastrointestinal motility.12 Other side effects include depression of the cough reflex, hypotension and slow heart rate.3 Its high protein binding leads to slower elimination from the body than other opioids, which makes it possible for plasma drug concentrations to increase even after discontinuation.13 Similar to other opioids, overdose of sufentanil can cause respiratory depression.13 Furthermore, sufentanil has addictive properties, especially in its injected form.4

Sufentanil is a synthetic opioid that is more potent than its analog, fentanyl. Sufentanil acts on opioid receptors in the brain to reduce neuronal activity and lower the release of neurotransmitters. It has a quicker onset and shorter duration of action than fentanyl, and can be used for analgesia or anesthesia. Sufentanil can be administered intranasally, intravenously, epidurally or sublingually. Like other opioid drugs, sufentanil has adverse effects such as nausea, vomiting, itching, hypotension, slow heart rate and even respiratory depression or death. Sufentanil should be prescribed sparingly given its abuse potential.

1.         Monk JP, Beresford R, Ward A. Sufentanil. A review of its pharmacological properties and therapeutic use. Drugs. 1988;36(3):286–313.

2.         Niemegeers CJ, Schellekens KH, Van Bever WF, Janssen PA. Sufentanil, a very potent and extremely safe intravenous morphine-like compound in mice, rats and dogs. Arzneimittel-Forschung. 1976;26(8):1551–1556.

3.         Sufentanil. DrugBank February 10, 2020; https://www.drugbank.ca/drugs/DB00708.

4.         Sufentanil. PubChem Database. Web: National Center for Biotechnology Information; 2020.

5.         Sufentanil citrate. PubChem Database. Web: National Center for Biotechnology Information; 2020.

6.         Sindt JE, Jenkinson RH. 18—Nonintravenous Opioids. In: Hemmings HC, Egan TD, eds. Pharmacology and Physiology for Anesthesia (Second Edition). Philadelphia: Elsevier; 2019:354–368.

7.         Sufentanil. AcelRx Pharmaceuticals 2013; https://www.acelrx.com/technology/sufentanil.html.

8.         Koyyalagunta D. Chapter 113—Opioid Analgesics. In: Waldman SD, Bloch JI, eds. Pain Management. Philadelphia: W.B. Saunders; 2007:939–964.

9.         Chapter 9—Sublingual, Transdermal, and Intranasal Sedation. In: Malamed SF, ed. Sedation (Sixth Edition): Mosby; 2018:125–133.

10.       Rosow CE. Sufentanil citrate: A new opioid analgesic for use in anesthesia. Pharmacotherapy. 1984;4(1):11–19.

11.       Krames ES, Harb M. Chapter 33—The Rational Use of Intrathecal Opioid Analgesics. In: Krames ES, Peckham PH, Rezai AR, eds. Neuromodulation. San Diego: Academic Press; 2009:441–455.

12.       National Cancer Institute. Sufentanil citrate. In: National Institutes of Health, ed. NCI Drug Dictionary 2020.

13.       Anderson BJ, Lerman J, Coté CJ. 7—Pharmacokinetics and Pharmacology of Drugs Used in Children. In: Coté CJ, Lerman J, Anderson BJ, eds. A Practice of Anesthesia for Infants and Children (Sixth Edition). Philadelphia: Elsevier; 2019:100–176.e145.