Safety, tolerability, pharmacokinetics, and pharmacodynamic effects of naloxegol at peripheral and central nervous system receptors in healthy male subjects: A single ascending-dose study
This randomized, double‐blind, placebo‐controlled, ascending‐dose, crossover study evaluated single oral doses of naloxegol (NKTR‐118; 8, 15, 30, 60, 125, 250, 500, and 1000 mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS...
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| Published in | Clinical pharmacology in drug development Vol. 4; no. 6; pp. 434 - 441 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Blackwell Publishing Ltd
01.11.2015
Wiley Subscription Services, Inc |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2160-763X 2160-7648 2160-7648 |
| DOI | 10.1002/cpdd.206 |
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| Abstract | This randomized, double‐blind, placebo‐controlled, ascending‐dose, crossover study evaluated single oral doses of naloxegol (NKTR‐118; 8, 15, 30, 60, 125, 250, 500, and 1000 mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS) effects of intravenous morphine, and pharmacokinetics. Healthy men were randomized 1:1 to naloxegol or naloxegol‐matching placebo administered with morphine and lactulose in a 2‐period crossover design. Periods were separated by a 5‐ to 7‐day washout. Assessments included safety, tolerability, orocecal transit time (OCTT), pupillary miosis, and pharmacokinetics. The study was completed by 46 subjects. The most common adverse events were somnolence, dizziness, headache, and nausea. Greater reversal of morphine‐induced delay in OCTT occurred with increasing naloxegol dose, demonstrating dose‐ordered antagonism of morphine's peripheral gastrointestinal effects. Forty‐four subjects showed no reversal of pupillary miosis; 2 showed potential partial reversal at 250 and 1000 mg, indicating negligible antagonism of morphine's CNS effects at doses ≤ 125 mg. Rapid absorption, linear pharmacokinetics up to 1000 mg, and low to moderate between‐subject pharmacokinetic variability was observed. The pharmacokinetics of morphine or its glucuronide metabolites were unaltered by concurrent naloxegol administration. Naloxegol was generally safe and well tolerated at single doses up to 1000 mg. |
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| AbstractList | This randomized, double-blind, placebo-controlled, ascending-dose, crossover study evaluated single oral doses of naloxegol (NKTR-118; 8, 15, 30, 60, 125, 250, 500, and 1000 mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS) effects of intravenous morphine, and pharmacokinetics. Healthy men were randomized 1:1 to naloxegol or naloxegol-matching placebo administered with morphine and lactulose in a 2-period crossover design. Periods were separated by a 5- to 7-day washout. Assessments included safety, tolerability, orocecal transit time (OCTT), pupillary miosis, and pharmacokinetics. The study was completed by 46 subjects. The most common adverse events were somnolence, dizziness, headache, and nausea. Greater reversal of morphine-induced delay in OCTT occurred with increasing naloxegol dose, demonstrating dose-ordered antagonism of morphine's peripheral gastrointestinal effects. Forty-four subjects showed no reversal of pupillary miosis; 2 showed potential partial reversal at 250 and 1000 mg, indicating negligible antagonism of morphine's CNS effects at doses ≤ 125 mg. Rapid absorption, linear pharmacokinetics up to 1000 mg, and low to moderate between-subject pharmacokinetic variability was observed. The pharmacokinetics of morphine or its glucuronide metabolites were unaltered by concurrent naloxegol administration. Naloxegol was generally safe and well tolerated at single doses up to 1000 mg.This randomized, double-blind, placebo-controlled, ascending-dose, crossover study evaluated single oral doses of naloxegol (NKTR-118; 8, 15, 30, 60, 125, 250, 500, and 1000 mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS) effects of intravenous morphine, and pharmacokinetics. Healthy men were randomized 1:1 to naloxegol or naloxegol-matching placebo administered with morphine and lactulose in a 2-period crossover design. Periods were separated by a 5- to 7-day washout. Assessments included safety, tolerability, orocecal transit time (OCTT), pupillary miosis, and pharmacokinetics. The study was completed by 46 subjects. The most common adverse events were somnolence, dizziness, headache, and nausea. Greater reversal of morphine-induced delay in OCTT occurred with increasing naloxegol dose, demonstrating dose-ordered antagonism of morphine's peripheral gastrointestinal effects. Forty-four subjects showed no reversal of pupillary miosis; 2 showed potential partial reversal at 250 and 1000 mg, indicating negligible antagonism of morphine's CNS effects at doses ≤ 125 mg. Rapid absorption, linear pharmacokinetics up to 1000 mg, and low to moderate between-subject pharmacokinetic variability was observed. The pharmacokinetics of morphine or its glucuronide metabolites were unaltered by concurrent naloxegol administration. Naloxegol was generally safe and well tolerated at single doses up to 1000 mg. This randomized, double-blind, placebo-controlled, ascending-dose, crossover study evaluated single oral doses of naloxegol (NKTR-118; 8, 15, 30, 60, 125, 250, 500, and 1000 mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS) effects of intravenous morphine, and pharmacokinetics. Healthy men were randomized 1:1 to naloxegol or naloxegol-matching placebo administered with morphine and lactulose in a 2-period crossover design. Periods were separated by a 5- to 7-day washout. Assessments included safety, tolerability, orocecal transit time (OCTT), pupillary miosis, and pharmacokinetics. The study was completed by 46 subjects. The most common adverse events were somnolence, dizziness, headache, and nausea. Greater reversal of morphine-induced delay in OCTT occurred with increasing naloxegol dose, demonstrating dose-ordered antagonism of morphine's peripheral gastrointestinal effects. Forty-four subjects showed no reversal of pupillary miosis; 2 showed potential partial reversal at 250 and 1000 mg, indicating negligible antagonism of morphine's CNS effects at doses ≤ 125 mg. Rapid absorption, linear pharmacokinetics up to 1000 mg, and low to moderate between-subject pharmacokinetic variability was observed. The pharmacokinetics of morphine or its glucuronide metabolites were unaltered by concurrent naloxegol administration. Naloxegol was generally safe and well tolerated at single doses up to 1000 mg. This randomized, double-blind, placebo-controlled, ascending-dose, crossover study evaluated single oral doses of naloxegol (NKTR-118; 8, 15, 30, 60, 125, 250, 500, and 1000mg), a PEGylated derivative of naloxone, for safety and tolerability, antagonism of peripheral and central nervous system (CNS) effects of intravenous morphine, and pharmacokinetics. Healthy men were randomized 1:1 to naloxegol or naloxegol-matching placebo administered with morphine and lactulose in a 2-period crossover design. Periods were separated by a 5- to 7-day washout. Assessments included safety, tolerability, orocecal transit time (OCTT), pupillary miosis, and pharmacokinetics. The study was completed by 46 subjects. The most common adverse events were somnolence, dizziness, headache, and nausea. Greater reversal of morphine-induced delay in OCTT occurred with increasing naloxegol dose, demonstrating dose-ordered antagonism of morphine's peripheral gastrointestinal effects. Forty-four subjects showed no reversal of pupillary miosis; 2 showed potential partial reversal at 250 and 1000mg, indicating negligible antagonism of morphine's CNS effects at doses ≤125mg. Rapid absorption, linear pharmacokinetics up to 1000mg, and low to moderate between-subject pharmacokinetic variability was observed. The pharmacokinetics of morphine or its glucuronide metabolites were unaltered by concurrent naloxegol administration. Naloxegol was generally safe and well tolerated at single doses up to 1000mg. |
| Author | Kugler, Alan R. Bui, Khanh Sostek, Mark Medve, Robert A. Butler, Kathleen Eldon, Michael A. |
| Author_xml | – sequence: 1 givenname: Michael A. surname: Eldon fullname: Eldon, Michael A. email: MEldon@nektar.com organization: Nektar Therapeutics, CA, San Francisco, USA – sequence: 2 givenname: Alan R. surname: Kugler fullname: Kugler, Alan R. organization: AstraZeneca, MA, Cambridge, USA – sequence: 3 givenname: Robert A. surname: Medve fullname: Medve, Robert A. organization: Nektar Therapeutics, CA, San Francisco, USA – sequence: 4 givenname: Khanh surname: Bui fullname: Bui, Khanh organization: AstraZeneca, DE, Wilmington, USA – sequence: 5 givenname: Kathleen surname: Butler fullname: Butler, Kathleen organization: AstraZeneca, DE, Wilmington, USA – sequence: 6 givenname: Mark surname: Sostek fullname: Sostek, Mark organization: AstraZeneca, MD, Gaithersburg, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/27137715$$D View this record in MEDLINE/PubMed |
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| Keywords | pharmacokinetics pharmacokinetic/pharmacodynamic modeling chronic pain naloxegol opioid-induced constipation |
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| References | Bui K, She F, Sostek M. The effects of mild or moderate hepatic impairment on the pharmacokinetics, safety, and tolerability of naloxegol. J Clin Pharmacol. 2014; 54(12):1368-1374. Benyamin R, Trescot AM, Datta S, et al. Opioid complications and side effects. Pain Physician. 2008; 11(2 suppl):S105-120. Kraft MD. Emerging pharmacologic options for treating postoperative ileus. Am J Health Syst Pharm. 2007; 64(20 suppl 13):S13-S20. Diggory RT, Cuschieri A. The effect of dose and osmolality of lactulose on the oral-caecal transit time determined by the hydrogen breath test and the reproducibility of the test in normal subjects. Ann Clin Res. 1985; 17(6):331-333. Panchal SJ, Müller-Schwefe P, Wurzelmann JI. Opioid-induced bowel dysfunction: prevalence, pathophysiology and burden. Int J Clin Pract. 2007; 61(7):1181-1187. Cherny N, Ripamonti C, Pereira J, et al. Strategies to manage the adverse effects of oral morphine: an evidence-based report. J Clin Oncol. 2001; 19(9):2542-2554. Jorge JM, Wexner SD, Ehrenpreis ED. The lactulose hydrogen breath test as a measure of orocaecal transit time. Eur J Surg. 1994; 160(8):409-416. Liu M, Wittbrodt E. Low-dose oral naloxone reverses opioid-induced constipation and analgesia. J Pain Symptom Manage. 2002; 23(1):48-53. Holzer P, Ahmedzai SH, Niederle N, et al. Opioid-induced bowel dysfunction in cancer-related pain: causes, consequences, and a novel approach for its management. J Opioid Manag. 2009; 5(3):145-151. Brock C, Olesen SS, Olesen AE, et al. Opioid-induced bowel dysfunction: pathophysiology and management. Drugs. 2012; 72(14):1847-1865. Chey WD, Webster L, Sostek M, et al. Naloxegol for opioid-induced constipation in patients with noncancer pain. N Engl J Med. 2014; 370(25):2387-2396. Schmidt H, Lotsch J. Pharmacokinetic-pharmacodynamic modeling of the miotic effects of dihydrocodeine in humans. Eur J Clin Pharmacol. 2007; 63(11):1045-1054. Webster L, Chey WD, Tack J, et al. Randomised clinical trial: the long-term safety and tolerability of naloxegol in patients with pain and opioid-induced constipation. Aliment Pharmacol Ther. 2014; 40(7):771-779. Bell TJ, Panchal SJ, Miaskowski C, et al. The prevalence, severity, and impact of opioid-induced bowel dysfunction: results of a US and European Patient Survey (PROBE 1). Pain Med. 2009; 10(1):35-42. Brown J, Setnik B, Lee K, et al. Effectiveness and safety of morphine sulfate extended-release capsules in patients with chronic, moderate-to-severe pain in a primary care setting. J Pain Res. 2011; 4:373-384. Swegle JM, Logemann C. Management of common opioid-induced adverse effects. Am Fam Physician. 2006; 74(8):1347-1354. Chou R, Fanciullo GJ, Fine PG, et al. Clinical guidelines for the use of chronic opioid therapy in chronic noncancer pain. J Pain. 2009; 10(2):113-130. Bui K, She F, Sostek M. The effects of renal impairment on the pharmacokinetics, safety, and tolerability of naloxegol. J Clin Pharmacol. 2014; 54(12):1375-1382. Kalso E, Edwards JE, Moore RA, McQuay HJ. Opioids in chronic non-cancer pain: systematic review of efficacy and safety. Pain. 2004; 112(3):372-380. Holzer P. Non-analgesic effects of opioids: management of opioid-induced constipation by peripheral opioid receptor antagonists: prevention or withdrawal? Curr Pharm Des. 2012; 18(37):6010-6020. Webster L, Dhar S, Eldon M, et al. A phase 2, double-blind, randomized, placebo-controlled, dose-escalation study to evaluate the efficacy, safety, and tolerability of naloxegol in patients with opioid-induced constipation. Pain. 2013; 154(9):1542-1550. 2012; 72 2004; 112 1985; 17 2006; 74 2009; 10 1994; 160 2002; 23 2001; 19 2012; 18 2014; 370 2007; 61 2008; 11 2015 2009; 5 2013; 154 2007; 63 2007; 64 2011; 4 2014; 40 2014; 54 e_1_2_8_17_1 e_1_2_8_18_1 e_1_2_8_13_1 e_1_2_8_14_1 Diggory RT (e_1_2_8_19_1) 1985; 17 e_1_2_8_15_1 e_1_2_8_16_1 Jorge JM (e_1_2_8_20_1) 1994; 160 Swegle JM (e_1_2_8_9_1) 2006; 74 e_1_2_8_2_1 e_1_2_8_5_1 e_1_2_8_4_1 Brown J (e_1_2_8_23_1) 2011; 4 Holzer P (e_1_2_8_3_1) 2009; 5 e_1_2_8_7_1 e_1_2_8_6_1 e_1_2_8_8_1 e_1_2_8_10_1 e_1_2_8_21_1 e_1_2_8_11_1 e_1_2_8_22_1 e_1_2_8_12_1 |
| References_xml | – reference: Chou R, Fanciullo GJ, Fine PG, et al. Clinical guidelines for the use of chronic opioid therapy in chronic noncancer pain. J Pain. 2009; 10(2):113-130. – reference: Bui K, She F, Sostek M. The effects of mild or moderate hepatic impairment on the pharmacokinetics, safety, and tolerability of naloxegol. J Clin Pharmacol. 2014; 54(12):1368-1374. – reference: Webster L, Dhar S, Eldon M, et al. A phase 2, double-blind, randomized, placebo-controlled, dose-escalation study to evaluate the efficacy, safety, and tolerability of naloxegol in patients with opioid-induced constipation. Pain. 2013; 154(9):1542-1550. – reference: Schmidt H, Lotsch J. Pharmacokinetic-pharmacodynamic modeling of the miotic effects of dihydrocodeine in humans. Eur J Clin Pharmacol. 2007; 63(11):1045-1054. – reference: Chey WD, Webster L, Sostek M, et al. Naloxegol for opioid-induced constipation in patients with noncancer pain. N Engl J Med. 2014; 370(25):2387-2396. – reference: Holzer P. Non-analgesic effects of opioids: management of opioid-induced constipation by peripheral opioid receptor antagonists: prevention or withdrawal? Curr Pharm Des. 2012; 18(37):6010-6020. – reference: Kalso E, Edwards JE, Moore RA, McQuay HJ. Opioids in chronic non-cancer pain: systematic review of efficacy and safety. Pain. 2004; 112(3):372-380. – reference: Liu M, Wittbrodt E. Low-dose oral naloxone reverses opioid-induced constipation and analgesia. J Pain Symptom Manage. 2002; 23(1):48-53. – reference: Benyamin R, Trescot AM, Datta S, et al. Opioid complications and side effects. Pain Physician. 2008; 11(2 suppl):S105-120. – reference: Brown J, Setnik B, Lee K, et al. Effectiveness and safety of morphine sulfate extended-release capsules in patients with chronic, moderate-to-severe pain in a primary care setting. J Pain Res. 2011; 4:373-384. – reference: Swegle JM, Logemann C. Management of common opioid-induced adverse effects. Am Fam Physician. 2006; 74(8):1347-1354. – reference: Diggory RT, Cuschieri A. The effect of dose and osmolality of lactulose on the oral-caecal transit time determined by the hydrogen breath test and the reproducibility of the test in normal subjects. Ann Clin Res. 1985; 17(6):331-333. – reference: Kraft MD. Emerging pharmacologic options for treating postoperative ileus. Am J Health Syst Pharm. 2007; 64(20 suppl 13):S13-S20. – reference: Cherny N, Ripamonti C, Pereira J, et al. Strategies to manage the adverse effects of oral morphine: an evidence-based report. J Clin Oncol. 2001; 19(9):2542-2554. – reference: Holzer P, Ahmedzai SH, Niederle N, et al. Opioid-induced bowel dysfunction in cancer-related pain: causes, consequences, and a novel approach for its management. J Opioid Manag. 2009; 5(3):145-151. – reference: Panchal SJ, Müller-Schwefe P, Wurzelmann JI. Opioid-induced bowel dysfunction: prevalence, pathophysiology and burden. Int J Clin Pract. 2007; 61(7):1181-1187. – reference: Bell TJ, Panchal SJ, Miaskowski C, et al. The prevalence, severity, and impact of opioid-induced bowel dysfunction: results of a US and European Patient Survey (PROBE 1). Pain Med. 2009; 10(1):35-42. – reference: Jorge JM, Wexner SD, Ehrenpreis ED. The lactulose hydrogen breath test as a measure of orocaecal transit time. Eur J Surg. 1994; 160(8):409-416. – reference: Brock C, Olesen SS, Olesen AE, et al. Opioid-induced bowel dysfunction: pathophysiology and management. Drugs. 2012; 72(14):1847-1865. – reference: Bui K, She F, Sostek M. The effects of renal impairment on the pharmacokinetics, safety, and tolerability of naloxegol. J Clin Pharmacol. 2014; 54(12):1375-1382. – reference: Webster L, Chey WD, Tack J, et al. Randomised clinical trial: the long-term safety and tolerability of naloxegol in patients with pain and opioid-induced constipation. 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| Snippet | This randomized, double‐blind, placebo‐controlled, ascending‐dose, crossover study evaluated single oral doses of naloxegol (NKTR‐118; 8, 15, 30, 60, 125, 250,... This randomized, double-blind, placebo-controlled, ascending-dose, crossover study evaluated single oral doses of naloxegol (NKTR-118; 8, 15, 30, 60, 125, 250,... |
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| SubjectTerms | Administration, Oral Adolescent Adult Central Nervous System - drug effects Central Nervous System - metabolism Central Nervous System - physiopathology chronic pain Cross-Over Studies Dose-Response Relationship, Drug Double-Blind Method Gastrointestinal Transit - drug effects Healthy Volunteers Humans Linear Models Male Middle Aged Miosis - chemically induced Miosis - metabolism Miosis - physiopathology Models, Biological Morphinans - administration & dosage Morphinans - adverse effects Morphinans - pharmacokinetics Morphine - adverse effects Morphine - antagonists & inhibitors naloxegol Narcotic Antagonists - administration & dosage Narcotic Antagonists - adverse effects Narcotic Antagonists - pharmacokinetics Nervous system Netherlands opioid-induced constipation Peripheral Nervous System - drug effects Peripheral Nervous System - metabolism Peripheral Nervous System - physiopathology pharmacokinetic/pharmacodynamic modeling pharmacokinetics Polyethylene Glycols - administration & dosage Polyethylene Glycols - adverse effects Polyethylene Glycols - pharmacokinetics Receptors, Opioid, mu - antagonists & inhibitors Receptors, Opioid, mu - metabolism Young Adult |
| Title | Safety, tolerability, pharmacokinetics, and pharmacodynamic effects of naloxegol at peripheral and central nervous system receptors in healthy male subjects: A single ascending-dose study |
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