3447 Effects of intranasal ketamine on uncontrolled cancer related pain

Abstract

OBJECTIVES/SPECIFIC AIMS: If intranasal ketamine can be utilized for pain control in cancer patients, this could provide them with superior analgesia and better quality of life, without the risk of significant respiratory depression associated with opioid medications. We seek to obtain preliminary data via a clinical trial addressing safety, feasibility, and utility of this novel technique for the treatment of persistent uncontrolled cancer pain. These findings would be an important initial step towards testing the effectiveness of intranasal ketamine as a non-opioid medication for cancer pain used as potential maintenance outpatient therapy. These initial findings would be applied to a subsequent trial to determine the effectiveness and associated toxicities of ketamine in a larger sample of cancer patients, and address the compelling need to identify new, successful management therapies for cancer pain. Specific Aims: 1. To evaluate (pharmacodynamic) effects of NAS ketamine on Patient Reported Outcomes (PROs), such as pain scores, side effects, depression, quality of life, and functional status. A clinical trial will be conducted where NAS ketamine will be given to a sample of patients with cancer related pain. Patient Reported Outcomes (PROs), such as pain scores, depression, quality of life, and functional status will be noted on Numerical Pain Rating Scale (NPRS), Montgomery Asberg Depression Rating Scale (MADRS), and Edmonton Symptom Assessment (ESAS), Eastern Cooperative Oncology Group (ECOG) and Patient Reported Outcome Measurement Information System (PROMIS) scales respectively. 1. To measure pharmacokinetics of NAS ketamine through analysis of ketamine and its metabolite norketamine to determine pharmacokinetic properties. During this clinical trial blood samples will be drawn at specified intervals and sent for analysis. 3. To determine opioid sparing effect of NAS ketamine. Opioid use will be measured by documenting use of rescue medications prior to and during the study and by evaluating total opioid consumption prior to and during the study. METHODS/STUDY POPULATION: Study sample: In the search for improved therapies for chronic cancer pain, medications with novel mechanisms of action have been sought. One such promising pharmacologic approach is ketamine. We specifically intend to measure utility of ketamine in patients with pain related to cancer or cancer treatment. Ketamine has shown to reverse central sensitization and opioid tolerance in rat models. Since ketamine is Scheduled III in United States and has abuse potential, we do not intend for ketamine to replace opioids, but use in patients who have failed opioid therapy. Since the investigators of the study practice at Emory, subjects will be from oncology and pain clinics (the supportive oncology clinic, oncology clinics, the pain clinic and Acute Pain Service) at Emory. The trial will be conducted at the Phase 1 Unit of the Winship Cancer Institute (WCI) at Emory. Subjects may be identified and contacted via telephone with information about the study prior to their next clinic appointment in order to allow time for them to consider the study. Eligibility criteria: Patients will be eligible to participate if they are: 1. Adults with uncontrolled cancer related pain a. Male and female subjects at least 18 years of age. b. Patients with uncontrolled pain related to cancer or cancer treatment. c. Uncontrolled pain will be defined as i. pain which persists for more than 7 days and is rated >/=4 on NPRS, and/or ii. use of breakthrough medication more than 4 times in 24 hours d. Failed other pain medications such non-steroidal anti-inflammatories such as ibuprofen, acetaminophen, opioids such as tramadol, hydrocodone, oxycodone etc. and antineuropathics such as gabapentin. 2. Able to provide informed consent a. Patients who are able to understand written and verbal English. Patients will be excluded from the study if they have any of the following: 1. Conditions increasing the risk of side effects from ketamine a. Conditions not safe due to cardiovascular effects of ketamine i. Presence of severe cardiac disease-EF <15% in patients with known history of cardiac disease ii. Uncontrolled Stage 2 hypertension or greater (systolic blood pressure > 160 and/or diastolic blood pressure >100) iii. Baseline tachycardia, HR >100 b. Conditions not safe due to potential effect of ketamine on intracranial and intraocular pressure i. Presence of elevated ICP ii. Uncontrolled glaucoma c. Presence of uncontrolled depression or other psychiatric comorbidity with psychosis 2. Conditions not safe due to potential side effects reported in ketamine abusers a. History of liver disease b. History of interstitial cystitis 3. Conditions where delivery of intranasal medications may be unreliable a. Active allergic or infectious rhinitis b. Patients with lesions of nasal mucosa 4. Conditions where fetus may be exposed to ketamine in utero (ketamine is category C medication) a. Pregnant women, nursing mothers and women of childbearing potential not using contraception known to be highly effective. b. Highly effective contraception methods include combination of any two of the following: Use of oral, injected or implanted hormonal methods of contraception or; Placement of an intrauterine device (IUD) or intrauterine system (IUS); Barrier methods of contraception: condom or occlusive cap (diaphragm or cervical/vault caps) with spermicidal foam/gel/film/cream/ vaginal suppository; Total abstinence; Male/female sterilization. 5. Conditions with medication abuse potential a. Illicit substance abuse within the past 6 months b. Documented history of medication abuse/misuse (e.g. Unsanctioned dose escalation, broken opioid agreement etc.) 6. Conditions where ketamine metabolism may be altered, resulting in erroneous dose response relationship a. Clinical requirement for medications that are concurrent inducers or strong inhibitors of CYP3A4. CYP3A4 substrates are allowed. (Ketamine is metabolized by CYP3A4) Study sample limitations: Subject factors that may affect the final resultant study sample of subjects with full data for analysis. 1. Subjects who may not get pain relief with ketamine may not follow up and resulting incomplete data not eligible for analysis that may erroneously enhance positive effect of ketamine on pain relief. To account for this effort will be made to document the reason for lack of follow-up by contacting patient via telephone or at next scheduled clinic visit within Emory Healthcare. 2. Since patients coming to Emory are typically insured, the study will not adequately capture indigent population. It is not the intention of the current study to investigate differences in pain characteristics or responses of patients with insurance vs indigent population and will need to be addressed via future trials. Since this is a single center trial, the results of this trial might lack external validity required to support widespread changes in practice. This will be a pilot trial to figure out likely most efficacious dose. If this trial is successful, a multi-site randomized clinical trial will be conducted next. Primary Study Measures Primary exposure Intranasal Ketamine for cancer related pain Ketamine is an FDA approved anesthetic with amnesic, analgesic, dissociative, and sedative properties. It is unique among anesthetic agents in that it does not depress cardiovascular and respiratory systems. Ketamine is a noncompetitive, antagonist of N-methyl-D-aspartate (NMDA) receptors that blocks the NMDA channel in the open state by binding to the phencyclidine (PCP) site located within the lumen of the channel. Antagonism of NMDA receptors produces antinociception of persistent or neuropathic pain in animal models and analgesia in pain states in humans. The NMDA receptor is believed to play a role in the development of opioid tolerance and ketamine has been shown in a rat model to prevent fentanyl-induced hyperalgesia and subsequent acute morphine tolerance 5. Ketamine also interacts at a number of other receptor sites to block pain. Some of these sites include voltage-sensitive calcium channels, depression of sodium channels, modulation of cholinergic neurotransmission, and inhibition of uptake of serotonin and norepinephrine. Ketamine also interacts with kappa and mu opioid receptors; however, in humans, naloxone, an opioid antagonist, does not antagonize the analgesic effects of ketamine. Safety and efficacy of ketamine as an anesthetic and analgesic agent is well-documented 2-4. Ketamine is not labeled by the FDA as an analgesic agent. Low (subanesthestic) doses of ketamine have minimal adverse impact upon cardiovascular or respiratory function but produce analgesia and modulate central sensitization, hyperalgesia, and opioid tolerance. Cancer pain, especially in end stages, can be very complicated and is mediated by a variety of pathways: visceral, nociceptive, neuropathic and central. If ketamine can be utilized for pain in end stage cancer patients, this could provide them with superior analgesia and better quality of life, without the risk of significant respiratory depression associated with opioid medications. One of the challenges that we face with ketamine is the route of administration. The most common route is intravascular or intramuscular. Although it has been given orally and rectally, the bioavailability of ketamine when given via these routes is limited to 20-30%. Intranasal (NAS) administration has advantages of being needle free method of administration with potential for outpatient therapy. It lacks hepatic first pass effect resulting in higher bioavailability compared to oral route. Large surface area, uniform temperature, high permeability and extensive vascularity of the nasal mucosa facilitate rapid systemic absorption of intranasal administered drugs 6. In the pilot trial conducted by the study investigators, single dosage of intranasal ke