Multiple Myeloma Clinical Trial
Programmed Environmental Illumination (PEI) of Hospital Rooms to Prevent/Reduce Cancer-Related Fatigue
Summary
A sample of 60 patients scheduled for HSCT in the treatment of MM will be recruited in the weeks to months prior to their hospitalization. Light therapy incorporating ambient Programmed Environmental Illumination (PEI) will be used in patient hospital rooms (during scheduled transplant) to control cancer-related fatigue (CRF). The FDA has certified that light therapy, like that used in this study, is a low-risk intervention. When admitted to the hospital for a stem cell transplant, there will be a light fixture in the hospital room which the researchers will be testing to see how it may affect cancer related fatigue, sleep quality, and other negative side effects often seen with the transplant and subsequent treatment. The light fixture will turn on and off by itself in the morning. There are two treatment arms used in the study, each of the arms uses different light intensities. The study treatment received, i.e. which of the two lights, will be chosen by chance, like flipping a coin. There is an equal chance of being given each study treatment. Participants will not be told which study treatment they are getting until after the study is completed. Each light will be turned on from 7 AM to 10AM every day during transplantation. While in the hospital, assessment of fatigue, sleep activity, depression, circadian rhythms, and quality of life will continue through the course of hospitalization (14-21 days of treatment, to determine immediate impact of sPI), then repeat at one month and three months post-discharge follow-ups (to determine lasting effects). Outcomes will be assessed through standardized scales (e.g., FACIT-Fatigue Scale) and objective measures (e.g., actigraphy, daysimeter for light monitoring, melatonin from urine collection, blood inflammatory markers, all explained below). This trial will: 1) be the first randomized clinical trial (RCT) to investigate the effects of sPI to prevent CRF and other biopsychosocial side effects of transplant; 2) focus on a distinct, relatively homogenous patient population (MM-HSCT patients) with high prevalence of CRF; and 3) explore possible circadian rhythm mediation via melatonin analysis and blood analysis. This investigation will have major public health relevance as it will determine if an inexpensive and low patient burden intervention (sPI) is able to control fatigue associated with medical illnesses and related problems.
Eligibility Criteria
Inclusion Criteria:
Who will undergo their first autologous HSCT procedure as treatment for multiple myeloma
AND:
Who are currently 21 years of age or older
English language proficient
Able to provide informed consent
Exclusion Criteria:
Under age 21
Previous HSCT procedure (autologous or allogeneic)Pregnancy
Eye Diseases which limit the ability of light to be processed (e.g., untreated cataracts, severe glaucoma, macular degeneration, blindness, pupil dilation problems or retina damage)
Secondary cancer diagnosis within the last 5 years
Severe sleep disorders (e.g., Narcolepsy)
History of bipolar disorder or manic episodes (which is a contra-indication for light treatment)
Severe psychological impairment (e.g., hospitalization for depressive episode in the past 12 months)
Previous use of light therapy to alleviate fatigue or depressive symptoms
Check Your Eligibility
Let’s see if you might be eligible for this study.
What is your age and gender ?
There is 1 Location for this study
New York New York, 10029, United States
How clear is this clinincal trial information?

Please confirm you are a US based health care provider:
Yes, I am a health care Provider No, I am not a health care providerSign Up Now.
Take Control of Your Disease Journey.
Sign up now for expert patient guides, personalized treatment options, and cutting-edge insights that can help you push for the best care plan.