Smoking Cessation Support in the Context of Other Social and Behavioral Needs in Community Health Centers

Connection to Health for Smokers (CTHS)

CTHS included 5 core components: 1) an electronic patient health survey of smoking behaviors and social and behavioral needs, 2) a summary report for the patient and health educator to use as a tool for identifying needs and concerns, 3) an interactive goal-setting process that takes place between the patient and the health educator, which may include smoking cessation, cutting down on smoking, or working on other needs before trying to quit smoking, 4) an interactive motivational action planning process to address and support the goal selected, with structured computerized guidance for the patient and health educator including consideration of social and behavioral contextual needs and a printed action plan with arrangements for smoking cessation medication as needed, and 5) postvisit automated text messages linked to the action plan, with documented telephone or in person counseling from the health educator at least twice over a 10-week period following the intervention. A description of CTHS has been published elsewhere.¹³

Enhanced Standard Program (ESP)

We worked with our clinical partners to gather existing smoking cessation resources already used in their health system and created ESP, assembling them in a way that would have structural similarities to CTHS. ESP thus included the following 5 components: 1) an electronic patient health survey restricted to assessments of smoking behaviors, 2) a summary report for the patient and health educator to use as a tool to set goals for smoking cessation, 3) an educational video about the risks of smoking and the challenges of smoking cessation, 4) a booklet for the health educator to review with the patient and for the patient to take home and arrangements for smoking cessation medication as needed, and 5) telephone and in person follow up as needed.

Patient Reported Data

As part of the baseline assessment, participants in both intervention arms self-reported their: age, gender, ethnicity, height, weight, smoking history, number of days in the past month smoked, number of cigarettes per day on days smoked, time to first cigarette, other tobacco products used, history of quit attempts, plan to quit in the next 30 days (yes/no), plan to quit in the next 6 months (yes/no), and confidence in being smoke free in the next 6 months (0 to 10 scale).¹⁴ We further categorized a plan to quit in the next 30 days as “preparation,” plan to quit in the next 6 months as “contemplation” and no plan to quit as “precontemplation,” according to the Prochaska stages of change model.^15,16 As part of the CTHS program only, participants additionally reported on aspects of behavioral and social risks including: (1) depression symptoms as assessed by the Patient Health Questionnaire (PHQ2, range 0 to 6, and if PHQ2 ≥ 3 followed by PHQ-8 excluding the question about suicidality, range 0 to 24);^17,18 perceived general health (poor/fair vs good/very good/excellent); alcohol binge drinking more than 4 drinks in a day more than once a month (yes/no) and illegal drug use or use of narcotic prescription medication for nonmedical purposes in last year (yes/no); general life stress in the last week (yes/no); social isolation (talk to someone you feel close to ≤2 times/week); and current experience of social risks (yes/no) in each of the following areas: food insecurity, housing instability, limited access to health care due to transportation or cost, feeling unsafe at home, feeling unsafe in the community, or having utilities disconnected in the last year. CTHS smoking action plan data were electronically captured in a structured format to record: type of action plan, specific actions and goals, as well as smoking triggers and strategies to avoid, cope with, or escape from these triggers.¹⁹ Between 10 and 16 weeks after meeting with the health educator, patient participants in both arms were contacted by the clinic staff and research team and invited to repeat the smoking cessation questions, with additional questions to establish number, type, and duration of quit attempts, as well as the amount of time since the last cigarette at the time of follow-up. Change in weekly number of cigarettes was calculated between baseline and follow-up was calculated to report: (1) Any evidence of cutting back (≤ 1 or more cigarettes), (2) the percentage of cigarettes cut back, and (3) ≥50% cutting back (yes/no). Carbon monoxide breath testing was performed on a subsample of patients to confirm self-reported smoking status at follow-up.

Electronic Health Record

The electronic health record (EHR) for participants was reviewed by the research coordinator for the active intervention period (baseline visit to 16-week follow-up) and key data elements were extracted and coded in a structured dataset in REDCap software (projectredcap.org). Abstracted chart measures included participant tobacco outcome measures that mirrored the survey data to further augment understanding of smoking quit attempts, evidence of cutting back, and smoking status at follow-up (≥10 weeks post enrollment). In addition, the process measures of number of patient ambulatory care medical appointments during the intervention follow-up period (yes/no ≥2 appointments during the 0 to 10 week period in accordance with the study procedure) and prescription of any tobacco cessation products (yes/no) were recorded.

Qualitative Interviews

To assess intervention feasibility and acceptability we conducted brief (20 to 40 minute) qualitative interviews. We interviewed clinic administrators at each site who were directly responsible for supervising the health educators (n = 5). We interviewed health educators at each site with experience administering each program to at least 5 patients (n = 5). We interviewed patient participants individuals in both arms until reaching saturation (n = 31). Patient participants were asked a series of questions focusing on their overall motivation for participating in the study, their experience engaging with the program, and satisfaction with level of support they were offered to achieve their goals. They were also asked to identify potential program improvements. CHC health educators and administrators were asked to answer questions informed by the Consolidated Framework for Implementation Research (CFIR) and the Adoption, Implementation and Maintenance components of the RE-AIM program evaluation framework.^20,21 Specifically, health educators were asked questions about the training they received, their experiences implementing the 2 program including challenges they experienced, and lessons learned. Administrators were asked about the value of the programs to their clinic and to patients, as well as program feasibility and sustainability.

Quantitative Analysis

Descriptive statistics, χ² tests, and 1-way ANOVAs were computed for baseline patient measures, initially testing for differences between: (1) intervention arms and (2) those with and without follow-up data available (see Table 1). To balance patient reported information while maximizing use of available data, participant self-reported smoking status and outcome data were used as the primary data source for smoking outcomes where available, and supplemented with EHR derived data where participant self-report data were not available. Data that were not available from either self-report or EHR for an individual were conservatively coded as “no quit attempt” and/or “continued smoking.” to reflect no change in smoking status or outcome. Linear and logistic regression analyses examined intervention group differences on smoking process and status outcomes. In addition to unadjusted models, models were adjusted for covariates based on baseline group differences and/or associations with outcomes from the extant literature (see Table 2).

Logistic regression analyses further examined constructs associated with improvement in the 2 primary outcomes: (1) making ≥1 quit attempt and (2) smoking abstinence at follow-up for 7 or more days. Variables based on extent literature included in Step 1 included baseline: age, gender, race, daily smoker status, number of cigarettes per day, confidence in being smoke free in 6 months, and intervention group. Additional baseline variables of interest were examined in individual models in Step 2: education level, body mass index (BMI), stages of change, use of e-cigarettes/vaping, use of other tobacco products, and time to first cigarette (< vs ≥ 30 minutes). Number of clinical follow-up appointments (≥2 vs <2) and prescription of a nicotine product during the intervention period were examined in Step 3 in addition to variables in Step 1 and variables significant at Step 2 (P < .05), with variables from Step 2 and 3 reaching statistical significance included in a final multivariate model. Finally, potential interactions between intervention group and variables in Steps 1 to 3 were selected a priori and explored for any differential pattern of associations with the primary smoking outcomes. (see Table 3)

Qualitative Analyses

Patient participant, health educator, and clinic administrator interviews were audio recorded, transcribed with removal of identifiers, and analyzed using research tools available at dedoose.com. Three researchers (MP, JT, KY) participated in independent review of the transcripts, with at least 2 members of the research team reviewing and taking notes on each individual transcript. Using an iterative process, emergent themes from each group of interviews were identified, classified, and summarized across the prespecified domains of inquiry described above, according to methods described by Morgan and Nico.²²