Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05649189 |
| Other study ID # |
0122-21-EP |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
October 17, 2021 |
| Est. completion date |
March 15, 2022 |
Study information
| Verified date |
January 2024 |
| Source |
University of Nebraska |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
The purpose of this descriptive study is to examine telomere length between two groups of
people, those with and those without food addiction and identify possible relationships that
may play a role in food addiction, it's behaviors and consequences. Research subjects would
be adults age 19-70. They would be recruited from the Rural Nebraska Panhandle population.
All COVID precautions will be enforced. Human subjects safety plans will be in place for this
study.Eligibility: YaleFAS-2 Food Addiction Scale will be used to screen for presence or
absence of food addiction. AT a later time, Eligible persons will be given the research
consent form to read through and determine if they want to become a participant. If so, they
will be consented. The participants will then be assigned an identification number to
maintain confidentiality. Intervention: Participants will be given a Oragene saliva DNA
collection kit to use and return to investigators. Evaluation:The Oragene saliva DNA
collection kit will then be sent in for telomere length testing. Telomere Results will be
correlated with food addiction diagnoses and behaviors to identify potential relationships.
Follow up: Publication of results
Description:
Food Addiction is often accompanied by overweight/obesity and a host of co-morbidities. From
previous pilot studies, we have determined it is difficult to treat and behavioral
interventions have limited effectiveness. To better understand possible genetic relationships
with food addiction, a handful of researchers have begun to examine this proposed
relationship. A meta-analysis (Darrow et al., 2016) that reviewed the studies examining the
association between psychiatric disorders and telomere length involved 14,827 persons.
Additionally, Daubenmier et al. (2012) examined the relationships among stress, eating, and
metabolic factors with telomerase activity with 47 overweight/obese women. These studies lead
us to seek proof of concept, that there may be a relationship between food addiction and
telomere length and to better characterize persons with and without Food Addiction to enable
us to develop interventions specific to each group. In this pilot we will attempt to provide
additional scientific knowledge to confirm/support or negate the hypothesis that telomere
length may be related to/contributing to Food Addiction. Davis (2019) conducted a review of
literature involving food addiction and genetics. In the review, it is noted that thus far
there has been only one study that has assessed whether genetic determinants of food
addiction overlapped with drug addiction. Two loci (rs75038630 and 74902201) met
GW-significance. However, neither of those loci has previously been associated with eating
behaviors. We will examine telomere length in our pilot to provide additional evidence for
this gap in the knowledge.
The liquid saliva sample kit that will be used is the Oragene saliva DNA collection kit. See
following for more specific information.A 2 mL sample of liquid saliva will be obtained by
participants spitting into the Oragene saliva DNA collection kit (Genotek Inc. Ottawa, ON,
Canada) containing 1 mL of DNA stabilizing liquid. The samples will stored at room
temperature until processing for DNA extraction. The saliva samples will be shipped to a
laboratory at the University of California San Francisco where the telomere length will be
measured by using the monoplex quantitative polymerase chain reaction (qPCR) method. This
method has been validated against the Southern blot method. Stout et al. (2017) ran the
inter-assay variability test and found that the average coefficient of variation was 2.7% for
saliva DNA. Both the saliva collection kit and the telomere length measurement are used only
for research purposes (i.e., not commercially available). Stout et al. (2017) report that
salivary telomere length was correlated with whole blood telomere length (r = 0.56, p =
0.005).
