R01AT011341
Project Grant
Overview
Grant Description
Mechanisms of Cannabidiol in Persons with MS: The Role of Sleep and Pain Phenotype - Abstract
Chronic pain affects 35-40% of people with chronic neurological conditions, including persons with Multiple Sclerosis (MS) - an autoimmune disease of the central nervous system affecting approximately 1 million Americans. Unfortunately, the analgesic effects of conventional treatments for pain in neurological conditions are limited. Cannabidiol (CBD, derived from Cannabis sativa) is a safe, promising complimentary therapy that is frequently used in combination with -9-tetrahydrocannabinol (THC) to treat pain in persons with MS (PWMS). However, the distinct analgesic mechanisms of CBD - relative to better-studied cannabinoid formulations such as THC or THC/CBD combinations (which carry abuse potential) - are not well understood, galvanizing the need for mechanistic research focused on CBD monotherapy.
Preliminary data from a nationwide study of PWMS conducted by the investigators suggest that CBD could independently exert analgesic effects through improved sleep, particularly among PWMS with nociplastic (centralized) pain. Investigations that now build upon these early findings could provide novel insight into mechanisms by which CBD induces analgesic effects and identify pain phenotypes that are most likely to be responsive to CBD for chronic pain.
This innovative, mechanistic study proposes to apply novel polysomnographic sleep stage analyses that extend beyond conventional polysomnography (PSG) measures and new features of sleep macrostructure derived from in-home actigraphy to assess aspects of sleep that could play key mechanistic roles in the analgesic effects of CBD. Our overarching goal is to apply these novel sleep assessment methods, coupled with validated pain phenotyping techniques, to uncover unique mechanistic associations between CBD, sleep, and analgesia in PWMS, compared to THC monotherapy, THC/CBD combination therapy, or placebo.
Persons with MS who experience chronic pain will undergo pain phenotyping with validated survey measures of nociplastic and neuropathic pain and randomized to CBD (Epidiolex®), THC (Dronabinol), THC/CBD combination, or placebo for 12 weeks. In-lab PSG and 14-day wrist-worn actigraphy will be collected at baseline and 12 weeks’ post-treatment. Changes in sleep microstructure (Aim 1; including sleep stage bout length, sleep stage transition probability, and entropy) and macrostructure (Aim 2; including sleep regularity, rhythmicity, timing, and duration) will be compared between cannabinoid and placebo groups, and pain phenotype will be assessed as a predictor of CBD-related changes in sleep. Aim 3 will assess the measures of sleep microstructure and macrostructure as mediators of analgesic response to CBD.
Data generated from this study will inform CBD research, across a spectrum of neurological and other chronic conditions, that can be applied to the development of precision-medicine approaches for chronic pain.
Chronic pain affects 35-40% of people with chronic neurological conditions, including persons with Multiple Sclerosis (MS) - an autoimmune disease of the central nervous system affecting approximately 1 million Americans. Unfortunately, the analgesic effects of conventional treatments for pain in neurological conditions are limited. Cannabidiol (CBD, derived from Cannabis sativa) is a safe, promising complimentary therapy that is frequently used in combination with -9-tetrahydrocannabinol (THC) to treat pain in persons with MS (PWMS). However, the distinct analgesic mechanisms of CBD - relative to better-studied cannabinoid formulations such as THC or THC/CBD combinations (which carry abuse potential) - are not well understood, galvanizing the need for mechanistic research focused on CBD monotherapy.
Preliminary data from a nationwide study of PWMS conducted by the investigators suggest that CBD could independently exert analgesic effects through improved sleep, particularly among PWMS with nociplastic (centralized) pain. Investigations that now build upon these early findings could provide novel insight into mechanisms by which CBD induces analgesic effects and identify pain phenotypes that are most likely to be responsive to CBD for chronic pain.
This innovative, mechanistic study proposes to apply novel polysomnographic sleep stage analyses that extend beyond conventional polysomnography (PSG) measures and new features of sleep macrostructure derived from in-home actigraphy to assess aspects of sleep that could play key mechanistic roles in the analgesic effects of CBD. Our overarching goal is to apply these novel sleep assessment methods, coupled with validated pain phenotyping techniques, to uncover unique mechanistic associations between CBD, sleep, and analgesia in PWMS, compared to THC monotherapy, THC/CBD combination therapy, or placebo.
Persons with MS who experience chronic pain will undergo pain phenotyping with validated survey measures of nociplastic and neuropathic pain and randomized to CBD (Epidiolex®), THC (Dronabinol), THC/CBD combination, or placebo for 12 weeks. In-lab PSG and 14-day wrist-worn actigraphy will be collected at baseline and 12 weeks’ post-treatment. Changes in sleep microstructure (Aim 1; including sleep stage bout length, sleep stage transition probability, and entropy) and macrostructure (Aim 2; including sleep regularity, rhythmicity, timing, and duration) will be compared between cannabinoid and placebo groups, and pain phenotype will be assessed as a predictor of CBD-related changes in sleep. Aim 3 will assess the measures of sleep microstructure and macrostructure as mediators of analgesic response to CBD.
Data generated from this study will inform CBD research, across a spectrum of neurological and other chronic conditions, that can be applied to the development of precision-medicine approaches for chronic pain.
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Ann Arbor,
Michigan
481082744
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the End Date has been extended from 05/31/26 to 04/30/27 and the total obligations have increased 376% from $701,512 to $3,338,085.
Regents Of The University Of Michigan was awarded
CBD Mechanisms in MS: Sleep & Pain Phenotype Study
Project Grant R01AT011341
worth $3,338,085
from National Center for Complementary and Integrative Health in August 2021 with work to be completed primarily in Ann Arbor Michigan United States.
The grant
has a duration of 5 years 8 months and
was awarded through assistance program 93.213 Research and Training in Complementary and Integrative Health.
The Project Grant was awarded through grant opportunity Mechanisms Underlying the Contribution of Sleep Disturbances to Pain (R01 Clinical Trial Optional).
Status
(Ongoing)
Last Modified 6/22/26
Period of Performance
8/15/21
Start Date
4/30/27
End Date
Funding Split
$3.3M
Federal Obligation
$0.0
Non-Federal Obligation
$3.3M
Total Obligated
Activity Timeline
Transaction History
Modifications to R01AT011341
Additional Detail
Award ID FAIN
R01AT011341
SAI Number
R01AT011341-4092885889
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Public/State Controlled Institution Of Higher Education
Awarding Office
75NY00 NIH National Center for Complementary & Integrative Health
Funding Office
75NY00 NIH National Center for Complementary & Integrative Health
Awardee UEI
GNJ7BBP73WE9
Awardee CAGE
03399
Performance District
MI-06
Senators
Debbie Stabenow
Gary Peters
Gary Peters
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| National Center for Complementary and Integrative Health, National Institute of Health, Health and Human Services (075-0896) | Health research and training | Grants, subsidies, and contributions (41.0) | $1,376,876 | 100% |
Modified: 6/22/26