Clinical Trial Details
— Status: Withdrawn
Administrative data
| NCT number |
NCT04179617 |
| Other study ID # |
Pro00103010 |
| Secondary ID |
|
| Status |
Withdrawn |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 2021 |
| Est. completion date |
December 2021 |
Study information
| Verified date |
September 2020 |
| Source |
Duke University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
To date the majority of experimental tobacco regulatory science has focused specifically on
the impact of possible tobacco product standards (e.g. limiting e-cigarette flavor) on the
use of the single tobacco product targeted by the standard (e.g. e-cigarettes) among
individuals who primarily or solely use the targeted product (e.g. vapers). Whereas this
"single target" approach has yielded a large amount of actionable evidence, it has also
resulted in a significant gap in the regulatory science evidence base for two reasons: First,
the focus on single tobacco product users has resulted in very little evidence regarding the
impact of possible new product standards among multiple tobacco product (MTP) users. MTP
users make up a sizeable proportion (30-40%) of the tobacco using population and individuals
who use e-cigarettes (EC) and combusted cigarettes (CC) comprise the largest MTP using group
(40% of MTP users). A lack of data on this population means that estimates of the impact of
new product standards on public health are incomplete.
Despite some data derived from hypothetical tasks, little experimental research exists to
evaluate how potential tobacco regulations might impact the use of other tobacco products in
addition to the targeted product. It is critical to anticipate how potential restrictions on
the EC market may impact EC and other tobacco product-such as CC-use.
In the proposed research, we will recruit young adult (age 21-29) dual EC/CC users evaluate
the demand for participants' usual brand CC as compared to EC that vary in nicotine content
(e.g., 5% vs. 3% pods). Participants will engage in a validated concurrent choice task in
which they will work for fixed doses of EC vapor or CC smoke in exchange for expended effort.
In addition, we will seek to answer this question in samples of dual EC and CC
users-individuals who, because they regularly use both EC and CC, are most vulnerable to
changes in the appeal of EC and CC brought about by a product standard limiting EC flavors.
Description:
The Food and Drug Administration (FDA) can enact tobacco product standards. Under the Family
Smoking Prevention and Tobacco Control Act (FSPTCA), the FDA Secretary has the authority to
"adopt tobacco product standards… if the Secretary finds that a tobacco product standard is
appropriate for the protection of the public health" based on evidence of the "risks and
benefits to the population as a whole…". To date, substantial tobacco regulatory science
(TRS) research has been conducted to inform new standards, including research on the impact
of the nicotine content in CC and e-cigarettes (EC) products.
Significant gaps exist in the extant TRS knowledge base. Despite the large amount of
actionable evidence generated to date, most TRS has taken a "single target" approach.
Research has focused on the impact of possible tobacco product standards (e.g., nicotine
reduction in CC) on the use of the single tobacco product targeted by the standard (i.e., CC)
among individuals who primarily or solely use the targeted product (i.e., CC smokers). This
approach has resulted in significant gaps in the TRS evidence base in two important ways:
First, the focus on single tobacco product users has resulted in little evidence regarding
the impact of new product standards on multiple tobacco product (MTP) users. MTP constitute
30-40% of the tobacco using population; dual EC and CC users comprise 44% of MTP users
(Preliminary Studies). As such, dual EC/CC users represent a substantial minority of tobacco
product users. A lack of data on this population means that estimates of the potential impact
of new product standards on public health are incomplete.
Second, regulations targeting one product will likely impact other tobacco products, as well.
In our recent work, we present evidence that any two tobacco products vary in the degree to
which they substitute for one another and hypothesize that new standards targeting one
product may have "off-target" effects impacting the appeal and use of other products. This is
the central premise of this research. We hypothesize that the degree of substitution between
two products varies, at least in part, as a function largely of product characteristics (e.g.
flavor, nicotine strength). For instance, prior research (and Preliminary Studies) indicate
that the availability of flavored e-liquid may determine the degree to which EC serve as a
substitute for CC among both current and former CC users, suggesting that a limit on e-liquid
flavors would reduce EC substitutability for CC.
Finally, the size of the dual EC/CC using population and degree of substitutability between
EC and CC products have important implications for determining the population health impact
of new standards for tobacco products. There is general agreement that EC and CC exist along
a continuum of risk with combusted products (including CC) exposing the user to greater
amounts of toxicants relative to non-combusted products (including EC). Thus, it is possible
that two individuals, both of them dual EC/CC users, have similar levels of nicotine
dependence and nicotine exposure, but very different toxicant exposure due to differences in
the relative amounts of EC and CC used. Putatively then, new product standards that alter the
appeal and use of either EC or CC can similarly increase or decrease toxicant exposure by
changing the amount of each product used.
We propose that changes in one product (e.g., EC) can result in changes in the appeal and use
of another product (e.g., CC), thus altering the degree to which one substitutes for
another-a research question that has received comparatively little attention, but is critical
for informing FDA regulation. We will systematically and experimentally evaluate the: a) the
smoking and vaping topography and appeal of participants' usual brand (UB) CC and JUUL EC
that vary in nicotine content (Aim 1); b) effects of limiting EC nicotine content on
preferences for users' usual brand of CC (Aim 2); and c) potential moderators of product
preferences (Aim 3).
JUUL brand EC are of particular interest for a number of reasons. JUUL-a pod-based EC-entered
the U.S. market in 2015, and has skyrocketed in popularity. As of 2018, JUUL had 72% of the
U.S. EC market share-a 453% increase over 2016. JUUL provides similar nicotine delivery to CC
and can be used discreetly. Finally, these low wattage systems are typically used with
e-liquids containing nicotine salts, which allow for e-liquid with higher nicotine
concentrations to be consumed with less harshness than freebase nicotine. The increasing
popularity of JUUL EC, along with their potential for significant nicotine delivery,
highlights the need for research concerning this product. We also propose to conduct this
research among a sample of dual JUUL EC and CC users-individuals who, because they regularly
use both JUUL EC and CC, are most vulnerable to changes in the appeal of JUUL EC and CC
brought about by a product standard limiting EC nicotine content.
