Patient Preferences for Attributes of Biologic Treatments in Moderate to Severe Asthma: A Discrete Choice Experiment Study.

Purpose: Multiple biologics are available for moderate to severe asthma. Given the important relationship between patient engagement in healthcare decision-making and health outcomes, patient preference is an increasingly important consideration. This study elicited patients' preferences for attributes of biologic therapies for moderate to severe asthma. Patient and
Methods: A discrete choice experiment (DCE) questionnaire was designed to collect data from an existing survey panel of adults with moderate to severe asthma in the United States. Patients were asked to select their preferred hypothetical treatment from profiles with varying attributes related to efficacy, safety, and administration convenience. Conditional logit regression models were used to quantify patient preferences.
Results: Of 301 eligible patients who completed the survey, the mean age was 46.7±15.1 years and 71.8% were female. Patients had asthma for 22.5±16.3 years on average, and most (97.3%) had experienced ≥1 asthma attack in the past 12 months. Among treatment attributes examined, patients most valued the absence of a black box warning for the risk of a life-threatening allergic reaction, effectiveness of reducing severe asthma exacerbations, and improvement in lung function (all p < 0.001). Home administration setting for subcutaneous injections (vs doctor's office/clinic) (p = 0.009) and ability of a biologic to treat additional chronic condition(s) (p < 0.05) were also considered important. Dosing frequency and type of injection device were not significant factors.
Conclusion: Patients with moderate to severe asthma valued efficacy and safety over convenience attributes when selecting biologic treatments. Awareness of these preferences can facilitate patient-physician shared decision-making when managing moderate to severe asthma in clinical practice.

Introduction

Asthma is a common, chronic respiratory disease, affecting millions of people in the United States (US). Patients with moderate to severe asthma may experience frequent respiratory symptoms and exacerbations, reversible airflow obstruction, bronchial hyper-responsiveness, and airway inflammation which, if not well-controlled, can lead to substantial morbidity, impaired health-related quality of life, and potentially asthma-related mortality.1–3 The majority (~70%) of patients with moderate to severe asthma have Type 2 inflammation that is often characterized by eosinophilia, increased fractional concentration of exhaled nitric oxide, or allergen-driven asthma.4–7 Inhaled corticosteroids (ICS), long-acting beta agonists (LABA), and leukotriene-modifying agents are the standard of care for the treatment of moderate to severe asthma. However, many patients still fail to have sustained symptom control, and long-term use of systemic corticosteroids is associated with harmful side effects.8,9

With the availability of biologic therapies that specifically target antibodies, inflammatory molecules, or cell receptors, the clinical management of patients with moderate to severe asthma who are inadequately controlled on ICS + additional controllers has substantially improved.4 As of 2022, six biologics have been approved by the US Food and Drug Administration (FDA) for patients with severe or uncontrolled asthma, and the majority of these medications are delivered via subcutaneous injection.10 These biologics include anti-immunoglobulin E therapy (omalizumab) and inhibitors of interleukin 5 (IL-5; mepolizumab and reslizumab), the IL-5 receptor (benralizumab), the IL-4 receptor (dupilumab), and thymic stromal lymphpoietin (tezepelumab). With the increasing number of treatment options available, an appreciation of treatment preferences from the patient perspective can improve patient engagement and inform patient-physician shared decision-making. The Global Initiative For Asthma (GINA)4 emphasizes the importance of patient preferences during a clinical evaluation, because it has implications on the partnership between the patient and the clinician, the adherence behavior to the treatment and ultimately the clinical outcomes of these patients.

Given the evolving treatment landscape for patients with moderate to severe asthma, we conducted a discrete choice experiment (DCE) survey study (INvestigate preferenceS for and wIllinGness to trade for attributes of moderate to severe astHma Treatments [INSIGHT]) to better understand preferences for clinical benefits, risks, and administration-related attributes of subcutaneous biologic therapies, among patients with self-reported moderate to severe asthma in the US.

Methods

Study Population

Study participants consisted of adults with self-reported moderate to severe asthma in the US. All participants were recruited from an existing voluntary panel of patients as members of a well-established market research firm, Schlesinger Group, with a global presence for health-care surveys. Patients were eligible for the survey if they met the following criteria: (1) were at least 18 years of age; (2) had moderate or severe asthma (meeting at least one of the following criteria in the past 12 months, as informed by the GINA4 and clinical input: use of ICS plus at least one additional controller [eg, LABA, leukotriene modifiers, tiotropium] and asthma exacerbation [ie, requiring an oral steroid burst, urgent care/emergency department visits, or hospitalization], or oral corticosteroid [OCS] use for at least 60 days, or use of any FDA-approved biologic therapies); and (3) were literate in English. In line with the empirical recommendation by the International Society for Pharmacoeconomics and Outcomes Research Good Research Practices for Conjoint Analysis Task Force,11 the target sample size for the DCE was 300 participants. All participants provided informed consent and confirmed eligibility to participate in the study prior to proceeding with the survey. This study was conducted in accordance with the Helsinki Declaration of 1964 and its later amendments and was granted an exemption from a full review by the New England Institutional Research Board. The determination of exemptions is based on the nature of the study; studies based on surveys (such as presented herein), interviews, or focus groups, are eligible for exemption.

Survey Design

The survey was designed to collect information on patient characteristics and preferences for biologic treatments from patients with self-reported moderate to severe asthma. The survey collected information on participants’ demographics (age, sex, race/ethnicity, level of education, and employment status), asthma-related treatment history and disease status (past-year asthma attacks, Asthma Control Test [ACT]), general health status, and comorbidities. Treatment history included use of biologics, ICS, LABA, ICS/LABA combination, long-acting muscarinic antagonists, leukotriene modifiers, OCS, short-acting beta agonists (SABA), treatment with an add-on short course of OCS, and asthma-related healthcare resource use (emergency department visits, urgent care visits, and hospitalizations). An add-on short-course of OCS was defined as add-on corticosteroid pills for three days or longer in patients not on maintenance steroids, or a short course of add-on steroid pills for three days or longer at two times or higher than usual dose, for patients on maintenance steroids. The ACT is a self-administered questionnaire that assesses the frequency of shortness of breath, general asthma symptoms, use of rescue medications, impact of asthma on daily functioning, and overall self-assessment of asthma control. Scores range from 5 (poor control) to 25 (complete control), and a score of <20 indicates uncontrolled asthma.12,13

Patient Preferences

The second part of the survey consisted of questions pertaining to patient preferences for subcutaneous biologic injections for asthma, designed using the DCE approach. Treatment attributes and associated levels used in this study were informed by a targeted literature review of biologic treatments that had been approved for moderate to severe asthma by the US FDA at the time of this study, along with input from clinical experts and patients. The FDA drug labels, Phase 3 clinical trial publications, and literature on the experiences of patients with moderate to severe asthma, along with consultation with clinical experts (one round of interview with a clinical expert and one round of survey discussion with another) informed the initial selection of the key attributes and the associated levels, focusing on efficacy, safety, and convenience. The relevance and importance of the attributes and levels were further informed through 1-on-1 phone discussions with ten patients who met the same eligibility criteria. During the interviews, patients provided feedback on relevance, relatability, and interpretability of the attributes. The finalized seven attributes, each with two to four levels (Table 1), were broadly related to treatment efficacy (ie, effects on reducing severe asthma attacks and improving lung function), other clinical benefits or risks (ie, treating additional chronic condition[s]), presence or absence of a black box warning for the risk of a life-threatening allergic reaction, or convenience of a subcutaneous biologic treatment for asthma (ie, subcutaneous injection frequency, type of injection device, and setting for having subcutaneous injection).

Table 1

List of Treatment Attributes and Levels Associated with Biologics Used to Treat Asthma

Attributes	Levels
Effect on severe asthma attacks	Five severe attacks in two years reduced to fourFive severe attacks in two years reduced to threeFive severe attacks in two years reduced to twoFive severe attacks in two years reduced to one
Lung function improvement (increases how much you can breathe out in 1 second after a deep inhalation, in mL)	No change150 mL increase300 mL increase450 mL increase
Treat additional chronic condition(s)	Does not treat any additional conditionsCan treat 1 additional conditionCan treat 2 additional conditionsCan treat 3 additional conditions
Black box warning issued by the FDA for the risk of a life-threatening allergic reaction	The FDA issues a black box warningNo black box warning issued by the FDA
Frequency of subcutaneous injections	Once every weekOnce two weeksOnce every monthOnce every two months
Type of device used for subcutaneous injections	Auto-injectorPre-filled syringe
Setting for subcutaneous injections	HomeClinic/doctor’s office

Abbreviation: FDA, Food and Drug Administration.

A brief tutorial was designed using layman language and visual aids to provide a basic description for each of the treatment attributes used and familiarize participants with the concept of choosing a preferred treatment profile between two options on a choice card. The tutorial was debriefed with the patients and revised as needed based on feedback. In the final survey, the participants would review the tutorial before proceeding to complete the DCE questions.

Sixteen choice cards, each showing two hypothetical treatment profiles, were generated based on a balanced and efficient design, using the SAS (SAS Institute, Cary, NC, US) DCE macro package. An example choice card is displayed in Figure 1. The 16 choice cards were randomly divided into two blocks to reduce response burden. Each block also included two additional choice cards to evaluate internal validity and consistency of participants’ responses. Study participants were randomly assigned to one of the two blocks, such that the number of participants within each block was balanced. All choice cards were randomized in the order of appearance during the survey.

Figure 1

Example of a DCE choice card.

Statistical Analysis

Participants’ demographics, medical and treatment history, asthma-related disease status, health status, and comorbidities were summarized using relative frequencies for categorical variables, and means, medians, and standard deviations (SDs) for continuous variables.

Conditional logit regression models were used to analyze patient preferences, and regression coefficients and 95% confidence intervals for preference weights were reported. Categorical attributes were modeled using dummy coding. A multiplicative interaction term between injection device type and frequency of injection was included in the model as these two attributes were hypothesized to be conceptually related (eg, preference for the frequency of injections may vary depending upon the type of injection device); in such cases, interaction terms are recommended.14,15

Regression coefficients were also used to assess the relative importance of treatment attributes in participants’ preference decisions among all attributes and among attributes that were significantly associated with treatment preference. To facilitate the interpretation, the relative importance of treatment efficacy outcomes was quantified as follows: 60% reduction in the frequency of severe asthma attacks (an efficacy estimate found in clinical trials)16,17 and 250 mL improvement in lung function (an improvement that is considered moderately better by patients).18 The relative importance of an attribute in participants’ treatment choices was estimated by dividing the difference in part-worth utilities between selected levels of an attribute by the sum of the part-worth utility differences across all attributes. A p-value of 0.05 was used to determine statistical significance. All analyses were performed using SAS (SAS Institute, Cary, NC, US).

Results

Study Population Characteristics

A total of 301 adults with self-reported moderate to severe asthma met the study inclusion criteria and completed the survey (12.5% of those adults with a self-reported asthma who accessed the survey invitation). Participants’ characteristics and general health status are summarized in Table 2, and their clinical and treatment histories are summarized in Table 3. The mean ± SD age of the participants was 46.7 ± 15.1 years, 71.8% were female, and the majority were white/Caucasian (80.1%) and non-Hispanic (85.7%) (Table 2). At the time of the survey, approximately one-third (33.2%) of participants had quit smoking and 41.2% had never smoked (Table 2). On average, participants had multiple chronic comorbidities (mean ± SD: 3.4 ± 2.6), and the most frequently reported comorbidity was anxiety/depression (54.8%) followed by overweight/obesity (34.9%), gastroesophageal reflux disease (33.6%), and hypertension (31.9%) (Table 3). Allergic inflammatory conditions were also common, including atopic dermatitis (17.6%), allergic urticarial (16.3%), chronic rhinosinusitis with nasal polyps (5.3%), and eosinophilic esophagitis (3.3%). In the past 12 months, the majority (97.3%) of participants had experienced at least one asthma attack, with a mean ± SD of 6.4 ± 9.3 attacks. The mean ± SD ACT score was low (14.0 ± 4.5), indicative of poor asthma symptom control, with the majority of participants (85.4%) having uncontrolled asthma (ACT < 20).

Table 2

Demographic Characteristics of Survey Participants

	N=301
Age (years), mean ± SD [median]	46.7 ± 15.1 [46.0]
Female, n (%)	216 (71.8%)
Race, n (%)a
Black or African American	41 (13.6%)
White or Caucasian	241 (80.1%)
Otherb	17 (5.6%)
Preferred not to answer	2 (0.7%)
Ethnicity, n (%)
Hispanic	42 (14.0%)
Non-Hispanic	258 (85.7%)
Preferred not to answer	1 (0.3%)
Highest level of formal education, n (%)
No high school diploma	4 (1.3%)
High school diploma or equivalent	41 (13.6%)
Some college or associate’s degree	101 (33.6%)
College graduate/bachelor’s degree	111 (36.9%)
Advanced degree	44 (14.6%)
Insurance, n (%)a
Commercial insurance	164 (54.5%)
Public insurance	141 (46.8%)
Unknown/other	9 (3.0%)
No insurance	15 (5.0%)
Employment status, n (%)a
Paid employee, full-time	125 (41.5%)
Paid employee, part-time	32 (10.6%)
Self-employed	24 (8.0%)
Disabled	41 (13.6%)
Not workingc	76 (25.2%)
Student	8 (2.7%)
Smoking status, n (%)
Currently smoking	77 (25.6%)
Quit smoking	100 (33.2%)
Never smoked	124 (41.2%)
Current general health status, n (%)
Excellent	13 (4.3%)
Very good	61 (20.3%)
Good	119 (39.5%)
Fair	86 (28.6%)
Poor	22 (7.3%)

Notes: aPatients were allowed to select more than one option. bOther included Asian or Pacific Islander, Native American/American Indian or Alaska Native, or multiple races or other. cNot working included respondents who were retired, unemployed and looking, unemployed and not looking, and homemaker/housewife/househusband.

Abbreviation: SD, standard deviation.

Table 3

Clinical Characteristics and Treatment History of Participants in the Past 12 Months

	N=301
Number of chronic comorbidities, mean ± SD [median]	3.38 ± 2.6 [3.00]
Chronic comorbidities, n (%)a
Anxiety/depression	165 (54.8%)
Overweight/obesity	105 (34.9%)
Gastroesophageal reflux disease	101 (33.6%)
Hypertension	96 (31.9%)
Diabetes (Type 1 or Type 2)	79 (26.2%)
Chronic pulmonary disease (eg COPD)	63 (20.9%)
Atopic dermatitis	53 (17.6%)
Allergic urticarial	49 (16.3%)
Obstructive sleep apnea	40 (13.3%)
Cancer	31 (10.3%)
Heart disease (eg heart attack)	25 (8.3%)
Chronic rhinosinusitis with nasal polyps	16 (5.3%)
Cerebrovascular disease (eg stroke, transient ischemic attack)	13 (4.3%)
Chronic kidney disease	11 (3.7%)
Eosinophilic esophagitis	10 (3.3%)
Peripheral artery disease	7 (2.3%)
Other diseases	67 (22.3%)
Self-reported number of asthma attacks, mean ± SD [median]b	6.4 ± 9.3 [3.0]
At least one asthma attack in past 12 months, n (%)b	293 (97.3%)
Time since last asthma attack (months), mean ± SD [median]	3.7 ± 3.8 [2.2]
Age at first asthma diagnosis (years), mean ± SD [median]	24.2 ± 16.3 [23.8]
Years with asthma diagnosis, mean ± SD [median]	22.5 ± 15.4 [20.4]
ACT score, mean ± SD [median]c	14.0 ± 4.5 [14.0]
Uncontrolled (ACT < 20)	257 (85.4%)
Controlled (ACT ≥ 20)	44 (14.6%)
Treatments received for asthma, n (%)
ICS/LABA	248 (82.4%)
SABA	224 (74.4%)
OCS (regularly or as needed)d	186 (61.8%)
As needed	89 (47.9%)
Regularly	70 (37.6%)
Regularly with additional add-on as needed	27 (14.5%)
Leukotriene modifiers	130 (43.1%)
ICS	122 (40.5%)
LAMA	52 (17.3%)
Biologics	36 (12.0%)
LABA	23 (7.6%)
At least one add-on short course OCS for asthma, n (%)	269 (89.4%)
At least one emergency departments visit for asthma, n (%)	161 (53.5%)
At least one urgent care visit for asthma, n (%)	186 (61.8%)
At least one hospitalization for asthma, n (%)	116 (38.5%)

Notes: aParticipants were allowed to select more than one option. bAn asthma attack episode was defined as a period of time when the participant experienced worsening of asthma symptoms leading to a short course of add-on steroid pills, urgent care visit, emergency department visit, or hospitalization. cThe ACT is comprised of five component questions, each rated on a scale of 1–5 (1: All the time; 2: Most of the time; 3: Some of the time; 4: A little of the time; 5: None of the time). The composite ACT score ranges from 5–25, with higher scores indicating poorer asthma control. dProportions of the 186 participants who reported treatment with OCS in past 12 months.

Abbreviations: ACT, Asthma Control Test; COPD, chronic obstructive pulmonary disease; ICS, inhaled corticosteroids; LABA, long-acting beta-2-agonists; LAMA, long-acting muscarinic antagonists; OCS, oral corticosteroids; SABA, short-acting beta-2-agonist; SD, standard deviation.

Among these participants, the most common asthma treatments received in the past 12 months were ICS/LABA (82.4%), SABA (74.4%), and OCS used regularly or as needed (61.8%) (Table 3). Only 12% of the participants had received a biologic for asthma in the past 12 months, while the majority (89.4%) received at least one add-on short course of OCS. For health-care resource use, 61.8%, 53.5%, and 38.5% had at least one asthma-related urgent care visit, emergency department visit, and hospitalization, respectively, in the past 12 months.

Preferences for Asthma Treatment

Among the participants, 80.4% replied with consistent responses to the pair of consistency questions. Overall, patients strongly preferred attributes related to greater levels of reduction in the frequency of severe asthma attacks, greater levels of improvement in lung function, and no black box warning issued by the FDA for the risk of a life-threatening allergic reaction (all p < 0.001) (Table 4). Participants preferred treatments administered at home rather than at a doctor’s office or clinic (p = 0.009) and those that could also treat one or more additional chronic conditions over those that did not have such a benefit (all p < 0.05). Dosing frequency and the type of device used for the subcutaneous injections did not significantly affect participants’ preferences for asthma treatments.

Table 4

Preferences for Attributes of Biologic Treatments for Asthmaa

Treatment Attributes	Coefficient	95% CI	P-value
Effect on severe asthma attacks (per 20% reduction in the number of attacks per two years)	0.190	(0.14, 0.24)	<0.001	***
Lung function improvement (per 50 mL of improvement in FEV1)	0.074	(0.06, 0.09)	<0.001	***
Treat additional chronic condition(s)
Can treat 1 additional condition vs does not treat any additional conditions (reference)	0.198	(0.02, 0.37)	0.026	*
Can treat 2 additional conditions vs does not treat any additional conditions (reference)	0.220	(0.07, 0.37)	0.004	**
Can treat 3 additional conditions vs does not treat any additional conditions (reference)	0.271	(0.10, 0.44)	0.002	**
Black box warning issued by the FDA
No black box warning issued vs the FDA issued a black box warning (reference)	0.640	(0.54, 0.74)	<0.001	***
More frequent subcutaneous injections (per week)	−0.004	(−0.04, 0.03)	0.836
Type of device used for subcutaneous injections
Auto-injector vs pre-filled syringe (reference)	0.151	(−0.10, 0.41)	0.246
Interaction between type of device (auto-injector) and more frequent subcutaneous injections	−0.013	(−0.07, 0.05)	0.676
Setting for having subcutaneous injections
Home vs clinic/doctor’s office (reference)	0.133	(0.03, 0.23)	0.009	**

Notes: *p-value <0.05, **p-value <0.01, ***p-value <0.001. aOf 301 participants, 242 (80.4%) replied with consistent responses to the test-retest questions.

Abbreviations: CI, confidence interval; FDA, Food and Drug Administration; FEV1, forced exhalation volume in one second.

Attributes’ Relative Importance

The relative importance of the treatment attributes as a result of the choices made in the DCE questions is illustrated in Figure 2. Across all the attributes, treatment efficacy (severe asthma attack reduction and lung function improvement) accounted for close to half of the choice decision weight while absence/presence of a black box warning accounted for 31% of the weight. The next most important attributes to patients were the ability to treat three chronic conditions (vs no additional chronic conditions; 13.1%) and the ability to administer a subcutaneous injection at home (vs at a doctor’s office/clinic; 6.4%). The combination of having bi-monthly over weekly subcutaneous injections using an auto-injector (vs prefilled syringe) had a minimal impact on the treatment decision (4.1%).

Figure 2

Relative importance of all attributesa of biologic treatments for asthma.

Discussion

Research has shown that patient engagement in healthcare decisions reflecting their treatment preferences can improve adherence to treatment regimens and lead to better clinical outcomes.19–21 GINA guidelines also recommend that the choice of treatment should account for patient preferences, in addition to risk factors and practical considerations.4 Using DCE, a well-established preference research methodology, our study surveyed a large sample of US adults with self-reported moderate to severe asthma to assess key attributes that may influence their preferences for subcutaneous biologic therapies. Most of the existing DCE studies in patients with asthma date back a decade or more and include attributes that are no longer relevant to newer biologics treatments, such as hygiene of an inhaler mouthpiece, while more recent DCE studies have evaluated a limited set of attributes.22–24 With an increasing number of biologic treatment options available for moderate to severe asthma, a better understanding of patient preferences to facilitate shared decision-making is needed.

The population in our study was primarily composed of participants with uncontrolled asthma (85.4%), with only 12% who had received a biologic therapy for asthma in the past 12 months. Compared to the recent real-world studies in patients with severe asthma (ie, the SARP III cohort25 and the ARIETTA study6), our sample was relatively younger (mean age 47 vs 50 years and median age 46 vs 54 years, respectively), and had higher proportions of women (72% vs 67% in both studies), former smokers (33% vs not reported and 18%, respectively), and white/Caucasian patients (80% vs 67% and 89%, respectively).26,27 The proportion of patients who self-reported at least one asthma-related urgent care visit (61.8%), emergency department visit (53.5%), or hospitalization (38.5%) in the past 12 months reflect the large proportion of patients in the present cohort with uncontrolled moderate to severe asthma. The findings are generally similar to those of a claims database analysis by Suruki et al which reported that 53.7% of US patients with uncontrolled severe asthma experienced at least one exacerbation (asthma-related emergency department visits, hospitalization, or oral corticosteroid use) in their 12-month study period.28 In addition, a study by Griswold et al found that 73% of patients with asthma presenting across 83 US emergency departments had at least one emergency department visit in the past year.29 However, a more recent US claims database analysis by Burnette et al reported lower rates among US patients with severe uncontrolled asthma—26.2% of had an asthma-related emergency department visit and 6.3% had a hospitalization in their 12-month study period (may potentially be related to the availability of more biologics for these patients in recent years).30

It is worth noting that among the participants with moderate to severe asthma in our survey, slightly over half had self-reported anxiety or depression. Depression has been previously noted as a common comorbid condition among patients with asthma and is closely correlated with symptom control.31,32 Furthermore, symptoms of anxiety and depression are associated with non-adherence to medications, including both intentional and unintentional non-adherent behaviors.33,34 Therefore, an in-depth understanding of patient characteristics and their preferences for various features of biologic treatments could assist healthcare providers in an informed shared decision-making. This, in turn, may improve treatment adherence and ultimately result in better adherence and downstream treatment outcomes for these patients.

We found that both treatment efficacy attributes (reduction of severe asthma attacks and lung function improvement) were very important in preference decisions. This finding is corroborated by other DCE studies on asthma treatment preferences.23,24 For example, the study by Johansson et al found that the most important attribute for asthma treatments was the number of symptom-free-days per month.24 Similarly, the study by Lloyd et al reported that the reduction of severe asthma attacks and the number of days per week without symptoms were the most important attributes.23 The current study findings are expected given the large number of patients with uncontrolled asthma (85.4%), who may have a strong desire for effective treatments and consider efficacy as a key factor in determining their treatment preference.

With the increasing complexity in clinical management of moderate to severe asthma, particularly when patients have multiple comorbidities, clearly informing benefits and risks of treatment options can provide additional aid for treatment decision. This study’s finding of the strong influence of a black box warning for the risk of a life-threatening allergic reaction on patient preference is unsurprising as asthma itself is an allergic chronic inflammatory disorder. Interviews with patients revealed that patients desired full information about the medication choices and wanted to be made aware of important pros and cons. Some patients had the awareness already and pointed out the value of having the knowledge for the risk of triggering a life-threatening allergic reaction for a balanced consideration.

Additionally, some of the convenience factors (eg, the ability of a therapy to treat one or more additional chronic conditions and an at-home setting for administering subcutaneous injections) were also considered important from a patient’s perspective. The desire to co-treat additional conditions is reasonable considering many patients with asthma have other respiratory or allergic/immune-mediated comorbid conditions.35,36 For patients with such comorbidities, a treatment that can target multiple chronic conditions would be preferable. To a slightly lesser extent, participants preferred being able to administer a subcutaneous injection at home rather than at the clinic or doctor’s office. This finding is likely explained by the inconvenience of traveling to and waiting at the physician’s office, which could lead to more disruption in daily routines. In addition, an at-home administration setting avoids the cost of an outpatient visit or co-pay, reducing the associated financial burden on the patient as well as barriers to treatment. However, the preference for the location of administration varies across studies and is likely to be tied to the route and ease of administration of the biologic. For example, one study found that a roughly equal number of survey participants with asthma preferred biologic administration at home (46%) vs in a healthcare practitioner’s office or clinic (54%).22 While our study only recruited patients in the US, other considerations affecting patients’ preference could be the characteristics of the national or regional health insurance system and the type of reimbursement for biologics.

Based on the literature and input from clinical experts and patients, our study included attributes of biologics for asthma in three categories: treatment efficacy, clinical benefits and risks, and convenience. Among these categories, treatment efficacy and clinical risks were the most important factors in survey participants’ treatment decisions, followed by additional clinical benefit. While the administration setting for the subcutaneous injection mattered to participants, the type of subcutaneous injection device and administration frequency were the only non-significant factors found in our study, indicating that participants did not consider these attributes as important when making a treatment choice decision. Having a holistic appreciation of an individual’s preference could facilitate an informative dialogue between patients and physicians in finalizing the management plan for asthma control.

Incorporating patient perspectives has become increasingly important for the development of new therapies and guiding treatment decisions in clinical practice. For a chronic disease without a cure, such as moderate to severe asthma, maintenance therapies that can suade patients to adherence to treatment is of paramount importance for maintaining disease control, avoiding poor outcomes, and reducing costly healthcare encounters. Our study serves as the initial attempt in quantifying preferences of patients with severe or uncontrolled asthma when navigating biologic treatment options. As the understanding of the mechanism of asthma and treatment mode of action further deepens, continued research is warranted to further appreciate patients’ preferences along with the evolving landscape of complex treatment options.

The findings from our study should be interpreted in consideration of several limitations. First, as with all DCE studies, the preferred choices for hypothetical treatments for asthma do not necessarily reflect the asthma treatments the participants may have received in the real world. Second, attributes in our study were identified based on clinical importance and convenience of treatment management through literature review while taking into account the inputs from clinical experts and patients. However, some of the attributes may not be intuitively comprehensible for patients, for example, the concepts of lung function and FDA black box warning. On the other hand, with the proven effectiveness of the advanced therapies, improvement in lung function (as measured by forced expiratory volume in one second [FEV1]) has become one of the key endpoints assessed in clinical trials. Practically, FEV1 can have a direct impact on a person’s wellbeing, which is the emphasis in patient-centric care. A prior study demonstrated that the average minimal “patient perceivable improvement” for FEV1 is 230 mL.18 To facilitate the interpretation of the lung function concept to be more relatable to patients, the tutorial provided the context to the participants to help them make an informed choice decision:

Many asthma patients have trouble breathing. A breathing test can help measure how easy or difficult it is to get air in and out of your lungs. New treatments could increase how much you can breathe out in 1 second after a deep inhalation, as measured in milliliters (mL). For reference, one cup is about 250 mL. For many asthma patients, a 250 mL increase would be a noticeable improvement.

The wording was reviewed and debriefed with the patients to ensure the interpretability and relatability before the survey fielded for data collection.

Similar efforts were made for the interpretability of the FDA black box warning from the patient perspective. The final description on black box warning was shown as follows:

Some people can be allergic to certain medications. In rare occasions, such allergic reactions to a medication can be serious or even lead to death, thus requiring close monitoring and immediate treatment. When there is reasonable evidence that a drug has been associated with a serious life-threatening adverse event, the FDA issues the black box warning. It is the strictest warning by the FDA to particularly alert doctors to consider benefits and risks when they prescribe the medication. While all medications provide full disclosure, some new asthma treatments may have been associated with reports of severe allergic reactions even after 1 year on treatment. The FDA issues the black box warning for such a medication because of these reports.

The wording was also reviewed and debriefed with the patients to ensure the interpretability and relatability before the survey fielded for data collection.

Third, we conducted 1-on-1 interviews with 10 patients with moderate to severe asthma in the US. However, given the heterogeneity of the disease manifestations and variability in treatment strategies that the patients had experienced, the finalized attributes and levels may not be as comprehensive as we would wish to. In order to manage the response burden, not all attributes that could potentially influence preference decisions were included in our choice card design (eg, participant’s knowledge of asthma and treatments, insurance, out of pocket expenses). Future research could consider these and other attributes of biologic treatments for asthma to help form a deeper understanding of patient preferences. Fourth, participant eligibility was determined using self-reported information (eg, occurrence of asthma attacks in the past 12 months) and may be subject to recall bias. In particular, as the cohort largely comprised patients with uncontrolled asthma and survey answers were self-reported, health-care resource use such as urgent care, emergency department visit, or hospitalization based on a recall over the past 12 months may not be entirely accurate. To help minimize potential recall bias, we provided clear explanations and definitions for terms or events (eg, asthma attacks) that may have subjective interpretation and allowed participants unlimited time to answer the screening questions. Lastly, we included any patient with self-reported moderate to severe asthma to reflect such a patient profile in the real world; patients may or may not have prior experiences with biologic therapies and some patients had chronic pulmonary disease. In addition, in our participant sample, approximately 20% patients indicated having chronic pulmonary disease, which could include chronic obstructive pulmonary disease (not captured specifically). The generalizability of the study findings would warrant caution.

Conclusions

Adults with moderate to severe asthma highly value the safety and efficacy of the treatments while concern less in terms of convenience/administrative characteristics. With multiple biologic therapy options available for patients with moderate to severe asthma in the US, a deeper understanding of patients’ preferences for treatments can play an important role in shared decision-making and impact adherence to these treatments as well as health outcomes. In the current era of patient-centric care, these findings provide supportive evidence to healthcare providers and policy makers to appreciate patients’ preferences in asthma biologic treatment management.