Evaluation of Acute and Subacute Effects of Nicotine Free Electronic Cigarette(NCFE) Vapors

Sponsor

University of Miami (Other)

Overall Status

Terminated

CT.gov ID

NCT02585791

Collaborator

James and Esther King Biomedical Research Program (Other)

Enrollment

Location

Arms

33.6

Actual Duration (Months)

0.9

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

This aim will examine the acute and subacute exposures to electronic cigarette (EC) vapor generated from e-liquids without nicotine (NFEC) on life-time non smokers subjects by measuring changes in nasal ion transport and TGF-β levels. Nasal ion transport will be assessed by nasal potential difference (NPD). Tumor growth factor (TGF)-β levels (mRNA and protein by ELISA) will be assessed on nasal cells and lavages.

Condition or Disease	Intervention/Treatment	Phase
Healthy Lifetime Non-smokers	Other: Propylene Glycol Other: vegetable glycerin Other: PG+VG	N/A

Detailed Description

The recent introduction of electronic cigarettes (ECs) to provide habitual smokers a source of nicotine without the need to inhale tobacco smoke is thought to reduce toxicity to airway epithelial cells. The use of ECs decreases use of traditional cigarettes diminishes nicotine withdrawal symptoms leads to opposite effects on exhaled NO levels compared to tobacco and may diminish stimulation of reward centers in the brain leading to less dependence due to the lack of other tobacco-derived chemicals. The manufacturers of ECs tout comparative safety as a reason to switch from traditional tobacco cigarettes to their products. However the dearth of data supporting this claim led the FDA to issue warning letters to these companies. For now, the World Health Organization recommends against EC use until ECs have been properly evaluated. On the other hand, the American Association of Public Health Physicians support the use of ECs as a means of "Harms Reduction" since ECs provide nicotine without the myriad of other toxic chemicals produced from burning tobacco. These recommendations are mostly due to theoretical considerations and expert opinion. Due to the novelty of the ECs, many concerns of their safety on health and long-term nicotine addiction remain unanswered due to a lack of studies that comprehensively evaluate their toxicity in the airways.

Moreover, ECs produce vapor mainly from propylene glycol (PG) or vegetable glycerin (VG) that are blended at different concentrations, making comprehensive testing more difficult.

The lack of consistent results demands a full evaluation of EC toxicity in the airway even when nicotine is not inhaled.

In our laboratory using cultures of primary normal human bronchial epithelial(NHBE) cells (either differentiating or fully differentiated) exposed to EC vapor or an equivalent volume of filtered air we have demonstrated that EC vapor can be delivered to fully differentiated NHBE cells and that high, but realistic puff numbers decrease ciliary beat frequency (CBF) as well as Large, Ca2+-activated K+ channels (BK channel) (the pore forming α subunit KCNMA1) and Forkhead box protein (FOXJ)-1 expression. We also have preliminary data of smoke exposure in vitro and in vivo, showing a negative effect of cigarette smoke and nicotine on parameters of mucociliary clearance (MCC) and nasal potential difference (NPD), a way to assess ion transport in vivo. These changes occurred in a TGF-β-dependent manner.

This study is designed to evaluate the airway toxicity of NFECs (Aim 2.1 of the project "Adverse effects of inhaled nicotine from tobacco and e-cigarettes").

PRIMARY ENDPOINT As the primary endpoint, we will assess the consequences of vaping EC liquid with no nicotine (NFEC) on cystic fibrosis transmembrane (CFTR)- and calcium-activated chloride channel (CaCC)-mediated chloride conductance in lifetime non-smokers using nasal potential difference (NPD) measurements.

We will use NPD as a primary endpoint because changes in most clinical parameters will only be seen after months or even years of exposure. For that particular reason, there is a recent surge to find alternative biomarkers that may be used as surrogate endpoints in shorter clinical trials. Since NPD directly measures the changes in ion transport expected to influence MCC and therefore overall outcome and since changes of NPD measurements are indirectly linked to lung function changes and MCC in trials with cystic fibrosis (CF) patients, we believe that NPD lends itself as a reasonable surrogate for MCC for this study.

SECONDARY ENDPOINTS Nasal nitric oxide and TGF-ß levels in nasal lavage and cells will be also collected to correlate with the changes on NPD results after exposure to NFEC.

STUDY DESIGN This aim will examine whether acute and subacute exposures to NFEC vapors have adverse effects on lifetime non-smokers by measuring changes in nasal ion transport and TGF-β levels. Nasal ion transport will be assessed by nasal potential difference (NPD), which measures the voltage potential resulting from epithelial ion fluxes (both Na+ absorption and Cl- and K+ secretion at the mucosal surface in vivo. In normal airway epithelia, Na+ absorption is the primary ion transport activity so that the resulting airway surface potential difference is negative with reference to the interstitium. Ion transport across nasal epithelia is representative for findings in distal airways. We also believe that NPD is a reasonably sensitive biomarker for this study as discussed below. Therefore, we will evaluate the acute effects of NFEC vapor generated from the nicotine-carrier system ("e-liquid" without nicotine) and the subacute effect after a 7-days exposure to the NFEC.

Since the major difference between the ECs is the amount of vapor produced per puff, we will focus on a commonly used mini and mid-sized EC: Halo (The Halo company, USA) and eGo-T® (Joyetech Co., Ltd., ShenZhen China), and examine different vapor fluids or "e-liquids" (100% PG, 50% PG/50% VG and 100% VG) without nicotine.

Study Design

Study Type:

Interventional

Actual Enrollment :

30 participants

Allocation:

Randomized

Intervention Model:

Single Group Assignment

Masking:

Single (Participant)

Primary Purpose:

Other

Official Title:

EVALUATION OF ACUTE AND SUBACUTE EFFECTS OF NICOTINE FREE ELECTRONIC CIGARETTE (NFEC) VAPORS -Aim 2.1 of "Adverse Effects of Inhaled Nicotine From Tobacco and E-cigarettes".

Actual Study Start Date :

Feb 22, 2017

Actual Primary Completion Date :

Nov 11, 2019

Actual Study Completion Date :

Dec 11, 2019

Arms and Interventions

Arm	Intervention/Treatment
Experimental: vape NFEC containing 100% PG Subjects will then be instructed how to use the NFEC (eGo-T® with light emitting diode (LED) display) for 1 week of regularly vaping NFEC containing 100% Propylene Glycol . Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 mAh battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.	Other: Propylene Glycol inhaled Propylene Glycol (PG) by vaporing
Experimental: vape 100% vegetable glycerin -VG Subjects will then be instructed how to use the NFEC (eGo-T® with LED display) for 1 week of regularly vaping NFEC containing 100% VG. Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 mAh battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.	Other: vegetable glycerin inhaled vegetable glycerin (VG) by vaporing
Experimental: vape PG+VG Subjects will then be instructed how to use the NFEC (eGo-T® with LED display) for 1 week of regularly vaping NFEC containing 50% PG and 50% VG. Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 milliamp hours (mAh) battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.	Other: PG+VG inhaled PG+VG by vaporing

Arm

Intervention/Treatment

Experimental: vape NFEC containing 100% PG

Subjects will then be instructed how to use the NFEC (eGo-T® with light emitting diode (LED) display) for 1 week of regularly vaping NFEC containing 100% Propylene Glycol . Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 mAh battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.

Other: Propylene Glycol

inhaled Propylene Glycol (PG) by vaporing

Experimental: vape 100% vegetable glycerin -VG

Subjects will then be instructed how to use the NFEC (eGo-T® with LED display) for 1 week of regularly vaping NFEC containing 100% VG. Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 mAh battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.

Other: vegetable glycerin

inhaled vegetable glycerin (VG) by vaporing

Experimental: vape PG+VG

Subjects will then be instructed how to use the NFEC (eGo-T® with LED display) for 1 week of regularly vaping NFEC containing 50% PG and 50% VG. Subjects will be given the eGo-T®, which contains a 1.2 ml refillable cartridge and a 1100 milliamp hours (mAh) battery with an LED display to record the number of puffs. Subjects will be asked to puff 100x per day (equivalent to ~10-11 cigarettes) for 7 days. We will accept a vaping range of 80-120 times a day.

Other: PG+VG

inhaled PG+VG by vaporing

Outcome Measures

Primary Outcome Measures

changes on nasal potential difference (NPD) measurements [before and after 7 days of vapor]
NPD will be measured at baseline and 7 days after the vapor

Secondary Outcome Measures

changes on nasal nitric oxide [before and after 7 days of vapor]
Nitric oxide will be measured at baseline and 7 days after the vapor
changes on TGF-ß levels in nasal lavage [before and after 7 days of vapor]
TGF-ß will be measured at baseline and 7 days after the vapor

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Yes

Inclusion Criteria:

INCLUSION CRITERIA:

Subjects will be over 18 years of age.
Healthy life-time non-smokers

Exclusion Criteria:

Presence of airflow obstruction (COPD, asthma, bronchiectasis)
Other concomitant inflammatory pulmonary disorders
Subjects with known pulmonary malignancies within 5 years
Subjects with prior thoracic surgery
Subjects with respiratory infection that required use of oral corticosteroids and/or antibiotics within the prior 3 months
Subjects with allergies to study medications
Subjects incapable of providing informed consent.

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	University of Miami School of Medicine	Miami	Florida	United States	33136

Sponsors and Collaborators

University of Miami
James and Esther King Biomedical Research Program

Investigators

Principal Investigator: Michael Campos, MD, University of Miami

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Michael Campos, MD, Associate Professor, University of Miami

ClinicalTrials.gov Identifier:

NCT02585791

Other Study ID Numbers:

20150373

First Posted:

Oct 23, 2015

Last Update Posted:

Jan 14, 2020

Last Verified:

Jan 1, 2020

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Keywords provided by Michael Campos, MD, Associate Professor, University of Miami

electronic cigarette

airway inflammation

nasal potential difference

Additional relevant MeSH terms:

Glycerol

Study Results

No Results Posted as of Jan 14, 2020