Oral Ketamine for Control of Chronic Pain in Children

Brief Summary

The study is a maximum tolerated dose finding study for oral, chronic, daily administration of oral ketamine (by mouth) in children with long-term daily pain.

Intervention / Treatment

  • Ketamine (DRUG)
    Drug will be given orally three times a day at doses escalating from 0.25mg/kg/dose to 1.5mg/kg/dose in cohorts of 3. Each subject will be administered study drug for 2 weeks.

Condition or Disease

  • Chronic Pain

Phase

  • Phase 1
  • Study Design

    Study type: INTERVENTIONAL
    Status: Completed
    Study results: No Results Available
    Age: 8 Years to 22 Years
    Enrollment: 12 (ACTUAL)
    Funded by: Other
    Allocation: Non-Randomized
    Primary Purpose: Treatment

    Masking

    Clinical Trial Dates

    Start date: May 01, 2011
    Primary Completion: Oct 01, 2012 ACTUAL
    Completion Date: Oct 01, 2012 ACTUAL
    Study First Posted: Jun 09, 2011 ESTIMATED
    Results First Posted: Feb 11, 2013 ESTIMATED
    Last Updated: Feb 11, 2013

    Sponsors / Collaborators

    Lead Sponsor: University of Rochester
    Responsible Party: N/A

    Pain control in children is a major concern when children have chronic diseases, such as cancer and sickle cell disease with frequent pain crises. Additionally, though the traditional pain medications of morphine and acetaminophen are regarded as safe and effective for pain control in children, there are few alternative therapies available when these medications are insufficient. Chronic pain (whether cancer or non-cancer pain) in children has few approved and well tolerated therapeutic options with proven efficacy.

    Ketamine is a medication that was first described in 1962\[1\]. It is an NMDA-R (N-methyl-D-aspartate-receptor) antagonist with dissociative amnestic and analgesic effects\[1-2\]. Ketamine is particularly successful as a dissociative amnestic for children in the emergent setting as it has little respiratory or cardiac impact, has a short half-life, and has fewer psychomimetic effects in the pediatric population than in adults\[1\]. Its function is via antagonism and reduction of NMDA-receptors in the afferent pain pathway. In effect, this decreases pain receptors and can dramatically reduce the need for narcotic pain medications for patients with chronic pain.

    Unfortunately, with such dissociative effects, ketamine has been a drug of abuse for decades\[1,3\]. Additionally, there is concern that ketamine may have long-term deleterious effects on cognition for those subjects chronically exposed to IV ketamine\[4\], especially children whose neural pathways may still be developing\[1,5\]. These effects may include difficulty with attention and working memory, though the effects appear to be short-term and reversible in adults. However, much of this data is derived from rodent or primate studies, and there is little evidence that there are long-term cognitive effects on humans chronically exposed to ketamine\[1\]. This lack of data is particularly impactful in the pediatric group.

    Ketamine has been evaluated as an analgesic medication for patients with chronic pain that is not resolved with narcotics and gabapentin. There are a number of case reports and small case series that suggest ketamine is a useful medication for control of chronic pain in adults\[2,4,6-8\]. Additionally, there are case studies that describe lasting (12 week) pain control in adults after 4-10 days of ketamine therapy\[7-8\]. However, there are, to date, little data that aid a pediatrician in determining if ketamine is a safe and effective option as a chronic, oral therapy for children with chronic pain.

    Overall, there are few proven safe and effective medications for use in chronic pain management for children. Ketamine is a well known medication with a well elaborated safety profile, when given intravenously and for short periods of time. There is, as above, emerging data that ketamine is useful for chronic pain control in adults. The question that remains to be answered is whether ketamine is a safe option for chronic use in children, whose brains are significantly more plastic and whose metabolism is different compared with those of adults.

    Participant Groups

    • The first three subjects were administered 0.25 mg/kg/dose oral ketamine.

    • The second group of three subjects were administered 0.5 mg/kg/dose oral ketamine.

    • The third group of three subjects were administered 1 mg/kg/dose oral ketamine.

    • The fourth group of three subjects were administered 1.5 mg/kg/dose oral ketamine.

    Eligibility Criteria

    Sex: All
    Minimum Age: 8
    Maximum Age: 22
    Age Groups: Child / Adult
    Healthy Volunteers: Yes

    Inclusion Criteria:

    * Subject, parent, or guardian willing and able to give informed consent
    * NRS for pain \>4
    * Chronic pain, which has been present for \>3 months, or persisting longer than is normal for the underlying diagnosis
    * Chronic pain related to diagnoses including but not limited to: cancer, rheumatologic disease, sickle cell anemia, cystic fibrosis, pancreatitis, and neuromuscular disease (e.g. Duchenne muscular dystrophy)
    * Able to tolerate and cooperate with neurocognitive assessment
    * Age 8-22 years old

    Exclusion Criteria:

    * If they are known or suspected to have drug dependence or addiction
    * History of psychiatric disorder such as depression, schizophrenia, or bipolar disorder
    * History of hypertension
    * Unable to cooperate with neurocognitive assessment
    * Chronic pain related to chronic abdominal pain syndrome
    * Known liver disease or elevation of AST or ALT greater than 3 times the upper limit of normal.
    * Previous intolerance or allergic reaction to ketamine
    * Pregnancy
    * Use of CYP3A4 inhibitors or inducers within the 2 week period prior the study drug administration or within 5 half-lives of the respective medication, whichever is longer, until study conclusion.
    * Consumption of grapefruit or grapefruit products from at least 2 weeks prior to study drug administration until study conclusion.

    Primary Outcomes
    • According to CTCae any dose causing grade 2 or worse toxicity will be an untolerated dose. Tolerability is defined as ability to take the medication for 2 weeks without having a grade 2 or worse toxicity.

    Secondary Outcomes
    • Baseline neurocognitive testing will be done before study drug is given. Subjects will be reassessed for any changes in neurocognitive scores at end of dosing (week 2) and at three weeks off study drug (week 14). Significant changes were measured at week 14 compared to baseline. Week 2 was measured to inform future studies. The neurocognitive scores are standardized scores with a mean of 100; low scores correlate with low neurocognitive function, while high scores correlate with high function. A significant change is defined as greater than or equal to 10% decrease in scores.

    • Pharmacokinetic testing will be done during chronic ketamine administration on subjects consenting to additional testing one week into study drug administration. This is to further describe the activity of ketamine in the blood of children when administered chronically and to enable comparison of any clinical effect or toxicity with steady state levels of ketamine in children.

    • Subjects will be assessed for clinically significant change in pain scores during and after study drug administration. Significant change in pain scores were determined at week 2, though week 14 scores were collected as well. Participants with a 2 point (or greater) decrease in pain scores compared to baseline were considered to have responded. The NRS scale was used, the scale ranges from 0-10, with 10 being the most pain.

    More Details

    NCT Number: NCT01369680
    Acronym: KETA-2011
    Other IDs: KETA-2011
    Study URL: https://clinicaltrials.gov/study/NCT01369680
    Last updated: Sep 29, 2023