Study design

In this retrospective cohort study of real-world data, we used mAb referral records provided by CDPHE, county COVID-19 hospitalization data, and demographic data on county population composition to address the study objectives of demonstrating the impact of the mAb Colorado dissemination strategies on mAb access, outcomes, and equity. We limited the timeframe of our analysis to November 2020–December 2021, when one or more mAbs were authorized and available for high-risk outpatients with COVID-19 in Colorado. In January 2022, the EUAs were revoked for two of three mAb products that had been available due to demonstrated lack of efficacy against the then-dominant omicron variant [Reference Aggarwal, Beaty and Bennett17]. Low supply of sotrovimab, the remaining effective mAb with an EUA, and availability of alternative treatments meant that doses were allocated and distributed in ways that differed from most of 2021.

Data sources

We compiled data from multiple sources and aggregated observations at the county-level each week from November 29, 2020 to December 26, 2021. Counts of mAb referrals over time came from CDPHE’s mAb Connector Tool, a HIPAA-compliant, REDCap-based form submission tool to enable clinicians to refer patients for mAb treatment. The connector tool form gathered patient-level qualifying information (mAb eligibility criteria), desired mAb treatment site, and a clinician identifier. The tool also included a list and a map of all treatment sites operating in the state (including both intravenous infusion sites and sites offering subcutaneous injection) that wished to be listed. Form submissions were automatically directed to the designated contact at the specified treatment location. This system served as a registry of referrals but did not track actual receipt of treatment. CDPHE personnel prepared a data extract for the study team consisting of weekly counts of referrals and unique referring clinicians for each treatment site. County-level hospitalization rates came from the US Department of Health and Human Services and are reported as the sum of the average number of reported patients currently hospitalized in an inpatient bed who have suspected or confirmed COVID-19 reported during the 7-day period in each hospital per county per 100,000 population [18]. COVID-19 case rates and counts came from the CDPHE COVID-19 County-Level Open Data Repository [19].

We explored multiple model specifications that included many different population-level characteristics as covariates, many of which were highly collinear. Due to small sample sizes and highly correlated covariates introducing noise or diluting/inflating the observed outcomes, the final model includes a limited number of covariates that conceptually were most likely to be associated with mAb referrals and that reflected the priority populations of the mAb Colorado dissemination strategies. These included county type (urban/rural/frontier), share of the population over age 65, by racial/ethnic group, and voting for the Republican presidential candidate in 2020. Fixed (time-invariant) county demographics came from the Colorado Department of Local Affairs, State Demography Office, and County Population Estimates (including urban/rural/frontier county designation). County voting patterns came from the 2020 Presidential Election Results from the Colorado Secretary of State [20,Reference Sehgal, Yue, Pope, Wang and Roby21].

Intervention

Our intervention consisted of a multi-level, comprehensive dissemination strategy with materials and messages designed for community and clinician audiences. The project also supported enhanced system capacity for mAb treatment through partnerships with health systems and influencing statewide policy change. For instance, the study team advocated to the state to implement mobile buses and enable self-referral, which was implemented in September 2021. These activities were designed in response to community and clinician feedback [Reference Hamer, Alasmar, Kwan, Wynia, Ginde and DeCamp11–Reference Kwan, Sobczak and Gorman13] and in partnership with local and state entities and departments of public health. Using community engagement studio methods [Reference Joosten, Israel and Williams22], we co-designed community-focused messages and materials for five key audiences: general community members, community members living in rural areas, community members with lower literacy, members of American Indian/Alaskan Native communities in Colorado, and Spanish-speaking community members [Reference Lin, Paykin, Halpern, Martinez-Cardoso and Kolak23–Reference Raine, Liu, Mintz, Wahood, Huntley and Haffizulla25]. These messages and materials were disseminated through the project website (www.mabcolorado.org), social media (both paid and unpaid), radio, postcards, flyers in local primary care clinics and emergency departments, and through Google search optimization. We also co-designed clinician-focused messages and materials, including a quick reference patient eligibility and referral checklist, an implementation blueprint, and PowerPoint presentations describing the strength of evidence and referral and implementation guidelines. These materials were distributed through a newsletter that reached more than 300 subscribers across the state, paper delivery to clinics by regional health connectors, and presentations to clinician audiences statewide including several well-attended webinars in partnership with ECHO Colorado [26]. Members of the mAb Colorado team conducted multiple state and national interviews with television and newspaper outlets, many of which were coordinated through the University of Colorado communication office. These dissemination activities launched in July 2021 and continued through fall of 2021.

Setting

To evaluate the overall impact of these dissemination strategies, we define a post-period (July 2021 and later) when the mAb project activities were actively being disseminated, though not always at regular intervals. Our cohort was defined as the 23 counties in Colorado with at least one mAb treatment site documented as active during the study period. In the comparative analyses of COVID-19 hospitalization rates, the comparison group consisted of the 41 Colorado counties without a mAb treatment site at any point during the study period.

Outcomes

We estimated models for multiple outcomes to address our study objectives: total mAb referrals, number of unique referring clinicians, and COVID-19 hospitalization rate (per 100,000 population). Total referrals and number of unique referring providers were direct indicators of the effectiveness of our dissemination strategies and are likely to have been affected by patient-, clinician-, and health-system-facing materials. Absent statewide patient-level data, we used county-level hospitalization rate as a proxy for population-level impact. Hospitalization rate is a distal measure of the effectiveness of having received treatment, one which we expect to have decreased as a result of the mAb Colorado efforts. To address questions of equity and examine communities prioritized by mAb Colorado dissemination strategies, we stratified on county and population characteristics. To examine differences by urbanicity, we stratified into urban versus rural and frontier counties combined (due to small numbers). To examine differences by race/ethnicity, we stratified on the share of the population identifying as Hispanic/Latinx, using 20.6% (the observed mean population share) as the threshold for high- versus low-Hispanic/Latinx population share.

Model specification

We estimated separate models to evaluate the multiple outcomes of interest. To evaluate the association between mAb Colorado dissemination strategies and total mAb referrals and unique referring clinicians by week, we used zero-inflated negative binomial models due to conditional overdispersion and the large number of zeros observed for the count outcomes [Reference Hardin and Hilbe27]. The zero-inflated model assumes two mechanisms, and thus two distinct groups of counties, with a zero value for the outcome. Specifically, there is one group of counties whose zero mAb referrals and referring clinicians are generated by the standard negative binomial distribution, and a second group of counties that were “always zeros” because they have zero probability of a mAb referral or a referring clinician count greater than zero; observations of zero mAb referrals or referring clinicians may come from either group. The always zeros here refer to counties with zero COVID-19 cases reported in a given week. These counties are distinct from those with COVID-19 cases but no referrals for mAbs. Zero-inflated negative binomial regression estimates the outcome in two parts that account for the generation of a zero through the two separate mechanisms. The final model specification was selected based on BIC. We favored a more parsimonious model to improve explainability and because of relatively small sample sizes.

For the comparative estimation of association between mAb Colorado dissemination strategies and COVID-19 hospitalization rates, we used a zero-inflated negative binomial model. The final model specification was selected on BIC. To allow for heterogeneous effects by time, we modeled “T” post-periods representing each week in July 2021 and later when the mAb Colorado strategies were being disseminated. The model was of the form:

$$\begin{gathered}{Y_{it}} = {\beta _0} + {\beta _1}Has\_sit{e_i} + \sum\limits_{j = 1}^T {{\beta _j}} Pos{t_{jt}} + \sum\limits_{j = 1}^T {{\lambda _j}} {\left( {Has\_site*Pos{t_j}} \right)_t} \\ \!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!+ {{X'}_i}\beta + {\eta _{it}} \\ \end{gathered}$$

where i indexed county at time t, Has_site is an indicator for presence of a mAb treatment site and Post is an indicator for each week in the post-period from July to December 2021. The effects of the mAb Colorado dissemination strategies by time are given by the coefficients λ_j. Thus, the treatment effect by time is a comparison of expected outcomes in each post-period j = 1 to T relative to the combined pre-period (November 2020–June 2021). X’ _i represents a vector of time-invariant county characteristics (county urbanicity, key population demographics); η denotes cluster robust standard errors at the county-level. Because the coefficients from the negative binomial models are not directly interpretable, we used predictive margins to obtain the predicted number of events for the cohort and comparison groups each week. We calculate the relative effect in the cohort counties by subtracting pre- from post-estimates for each county group, then taking the difference of those values (i.e., the within- and between-group differences for each week in the post-period). We account for the observation of hospitalization to be delayed after COVID-19 infection and treatment by including a 2-week lag for this outcome.

This study was approved as non-human subjects research (all data were either publicly available or aggregated at the county and week level) by the Colorado Multiple Institutional Review Board (#21-2872). All analyses were conducted using Stata v.16 (College Station, TX). We considered statistical significance at the p = 0.05 level using 2-sided tests of significance.