Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06177158 |
| Other study ID # |
vaping effect on biomarkers |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
December 20, 2023 |
| Est. completion date |
June 20, 2024 |
Study information
| Verified date |
December 2023 |
| Source |
University of Baghdad |
| Contact |
Abdulrahman Khazaal, B.D.S |
| Phone |
+9647830155200 |
| Email |
abd.alaa2205[@]codental.uobaghdad.edu.iq |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
To evaluate the level of proinflammatory cytokines in individual vaping electronic cigarette
in gingivitis patients.
Can vaping affects the proinflammatory cytokines level in diseased individuals?
Group I: cigarette smoker with gingivitis. Group II: electronic cigarette smoker with
gingivitis. Group III: non-smoker with gingivitis.
participants will be asked to perform oral hygiene instructions.
measurement of inflammatory biomarkers MMP8 and MMP9 base line and after intervention will be
done.
Description:
Periodontal diseases are defined as an inflammatory process associated with bacterial
activity and mediated by the host's immunologic response (Armitage, 1999; Tonetti et al.,
2018). Gingivitis, a reversible form of periodontal disease, is initially characterized by
gingival inflammation cause by bacterial colonization forming the biofilm (Armitage, 1999;
Tonetti et al., 2018). Cigarette smoking is a classical risk factor for both periodontal and
peri-implant tissue damage (Sgolastra et al., 2013). It has been shown that patients who
smoke suffer from more severe forms of periodontitis (Javed et al., 2013).
Disease progression is directly related to the frequency of smoking, where heavy smokers show
more severe forms of the disease compared to light smokers (Tonetti et al., 2018). Different
studies categorize the frequency of smoking differently but according to one review, smoking
less than 9 cigarettes per day is considered light, and more than 31 is considered heavy
smoking (Johnson & Guthmiller, 2000). Smoking also impacts the response to periodontal
treatment; smokers show only 50%-75% improvement in their clinical parameters after scaling
and root planing compared to non-smokers (Tonetti et al., 2018).
Another study analyzed the effects of cigarette smoking on periodontal parameters and found
significant increases in plaque index, pocket depth, and clinical attachment loss levels in
cigarette smokers compared to non-smokers (Javed et al., 2017). It has been evidenced that
tobacco smoking results in a proinflammatory effect by stimulating the secretion of specific
cytokines and radical oxygen species (ROS) that play a role in the destruction of periodontal
tissues (Katz et al., 2005) Electronic cigarettes (e-cigs) are battery-operated handheld
devices, in which an e-liquid (contain ning nicotine and sometimes artificial flavors such as
menthol, coffee, candy, butter and fruits) is heated by a heating element releasing a
chemical-filled aerosol for inhalation (Sundar et al., 2016).
In the United States (U.S.), the use e-cigs is escalating predominantly in younger adults
(Delnevo et al., 2015). Vaping without nicotine still proposes risks of exposure to the
chemicals that are released in the heating process of the device, such as aluminum, copper,
and lead (Gaur & Agnihotri, 2019). E-cigarettes also pose a hazard for traumatic injuries.
Blast injuries caused by battery explosion are also an associated risk, mainly in countries
where there is no regulation on the manufacture and safety of e-cigarettes (Kite et al.,
2016).
Focusing on a correlation between oral health and vaping, a recent study showed that
e-cigarette exposure-mediated carbonyl stress leads to increased levels of prostaglandin-E2
and cyclooxygenase-2 in human gingival epithelium compared to control (Lerner et al., 2015)
Several studies analyzed the impact of vaping on periodontal parameters and found increased
levels of plaque index, pocket depth, clinical attachment loss, and marginal bone loss in
vaping groups compared to non-smokers (Al-Aali et al., 2018) Despite all the evidence that
smoking can negatively affect the periodontal tissues, there is still little evidence about
the impact of vaping(Figueredo et al., 2020).
So, the research question of current study will be: can vaping affect the level of
proinflammatory cytokines in diseased samples.
Aim To evaluate the level of proinflammatory cytokines in individual vaping electronic
cigarette in gingivitis patients.
Rationale Vaping can affect the periodontal health in many ways, a better understanding about
the impact of vaping on periodontal health could pave the way to develop a better treatment
plan for those patients.
Research Hypothesis
Null hypothesis: vaping has no effect on the proinflammatory cytokines level in diseased
individuals.
Alternative hypothesis vaping affects the proinflammatory cytokines level in diseased
individuals.
Methodology
Settings:
The study will be conducted at College of Dentistry/University of Baghdad / Iraq the study
will be started at December 2023 till June 2024.
Adherence Printed follow-up schedule cards with reminder calls or messages will be utilized
to remind the participants twice daily for brushing and using the intervention. Furthermore,
the patient instructed to bring the container of mouth wash and interdental aids at the end
point therapy.
Saliva collection and analysis Saliva will be collected as previously described before
clinical examination (Zhang, Y et al, 2021). Participants will be asked to refrain from
eating, drinking, or engaging in oral hygiene procedures for at least two hours prior saliva
collection. Then, participants will rinse their mouths with tap water for 30 s approximately
10 min prior to saliva collection and will be asked to expectorate into sterile tubes while
sitting in an upright position until collecting 3 ml of unstimulated saliva. The
quantification of the biomarker in saliva will be assayed using enzyme-linked immunoassay
(ELISA).
