Persistent Ethnicity-Associated Disparity in Antitumor Effectiveness of Immune Checkpoint Inhibitors Despite Equal Access

We reviewed response to immune checkpoint inhibitors (ICI) of 207 patients with diagnoses of lung or head and neck cancer treated with chemotherapy/ICI combination therapy and ICI monotherapy between 2015 and 2020 at one of three clinical pavilions associated with the Dan L. Duncan Comprehensive Cancer Center at Baylor College of Medicine (Houston, TX). Two of these pavilions (Harris Health System and the Michael E. DeBakey Veterans Affairs Medical Center) serve large minority populations and provide equal access to care regardless of means. 174 patients had a diagnosis of lung cancer (non–small cell or small cell) and 33 had a diagnosis of head and neck squamous cell carcinoma (HNSCC). 38% self-identified as Black, 45% as non-Hispanic White, and 18% as Hispanic. The objective response rate (ORR) was similar for patients with lung cancer (35.057%) and HNSCC (30.3%; P = 0.894). The ORR for Hispanic and Black patients was lower compared with non-Hispanic White patients (H 27.0%, B 32.5%, W 38.7%; H vs. W P = 0.209; B vs. W P = 0.398). When considering only patients treated with ICI monotherapy, the ORR for Hispanic patients dropped further to 20.7% while the ORR of Black and non-Hispanic White patients remained about the same (B 29.3% and W 35.9%, H vs. W P = 0.133; B vs. W P = 0.419). Immune-related adverse events were the lowest in the Hispanic population occurring in only 30% of patients compared with 40% of patients in the Black cohort and 50% of the non-Hispanic White cohorts. Significance: To our knowledge, this report is the first to compare ICI effectiveness within a diverse patient population with a substantial Black and Hispanic NSCLC and HNSCC patient population treated in the context of equal access to care. The data presented in this article suggests reduced effectiveness of ICI monotherapy in Hispanic patients and thereby underscores the need for improved access and representation of racial/ethnic minority patients in ICI clinical trials. Watch the interview with Jan O. Kemnade, MD, PhD, and Vlad C. Sandulache, MD, PhD, corecipients of the inaugural Cancer Research Communications Award for Outstanding Journal Article: https://vimeo.com/992993122

Given the limited data available regarding ICI effectiveness in minority patients, some investigators have attempted to address this issue by comparing the safety and efficacy of ICI treatment for NSCLC in real world populations.Ayers and colleagues found a trending survival benefit in African Americans treated with ICI in a cohort consisting of 30% African Americans (HR 0.6; P = 0.062) (25), while Nazha and colleagues reported no difference in overall survival with ICI treatment in African-Americans (P = 0.84; ref. 28).Data on Hispanic patients, now the largest minority population in the United States is lacking from all studies to date, whether prospective or retrospective (29).
The Harris Health System (HHS) and the Michael E. DeBakey Veterans Affairs Medical Center (MEDVAMC) in Houston, TX provide tertiary cancer care for a diverse patient population (e.g., HHS-57% Hispanic, 25% African American, 10% White, and 8% other) providing equal access to Harris County residents or Veterans, respectively, regardless of insurance status or financial means.We retrospectively analyzed oncologic outcomes for patients with NSCLC and HNSCC treated with PD-1 and PD-L1 ICIs at these equal access institutions in order to determine whether racial and/or ethnic disparities are present.

Patient Population
Following approval from Baylor College of Medicine (BCM), HHS and MED-VAMC Institutional Review Boards, we performed a retrospective analysis of patients with a diagnosis of NSCLC or HNSCC between 2015 and 2020.Patients had either locally recurrent disease for which definitive local therapy (surgery or radiation) was no longer an option or metastatic disease.Patients receiving adjuvant immunotherapy as part of a definitive treatment strategy were excluded from the analysis.All collection and analysis of the current data was performed in a manner consistent with existing standards for clinical research (Declaration of Helsinki, US Federal Policy for the Protection of Human Subjects).Patient race/ethnicity (self-identified and listed in the electronic medical record), age, gender, tobacco and alcohol exposure, tumor characteristics, treatment history, ICI toxicities, response to ICI, PD-L1 status, ECOG performance status, and BMI were collected and analyzed.Tumor histology, stage (T, N, M classifications), number of metastases, radiation treatment, and chemotherapy treatment were collected through review of the electronic medical records.Inclusion criteria included: (i) primary NCSLC or HNSCC, (ii) tissue diagnosis at the participating institutions, (iii) treatment delivery at the participating institutions, (iv) treatment with ICI or ICI plus conventional cytotoxic chemotherapy.Patient response to ICI was determined by review of surveillance imaging (PET/CT, CT, or MRI; using official radiologist/nuclear medicine reading) following ICI treatment to determine complete response, partial response, stable disease, or progressive disease.Routine images were reviewed for each patient up to death or loss to follow up (LTFU) to determine best overall response.Best overall objective response rate (ORR) was determined by calculating the number of patients attaining a complete response or a partial response and dividing by the total patient population.PD-L1 status was ascertained from clinical records using companion testing for ICIs for those patients with lung cancer for which data was available and reported as percentage of viable tumor cells expressing the protein.

Statistical Analysis
To assess the efficacy of ICIs with as few patient-and disease-intrinsic confounders as possible, we chose ORR as the primary endpoint for comparison.Associations between identified clinical, biological and pathologic variables were determined by two-sided χ 2 tests.Statistical calculations were performed with Prism (Graphpad Software LLC Version 9.1.2).For all statistics, P values were considered to be statistically significant if below a threshold of 0.05 (two-sided).

Data Availability Statement
The data generated in this study are available within the article and its Supplementary Data files.

Patient and Disease Characteristics
We analyzed data for 174 lung and 33 head and neck cancer patients receiving either ICI therapy alone or in combination with chemotherapy across all three treatment pavilions at BCM.As the goal of our study was to compare treatment responses of the Black and Hispanic patient population to those of the White patient population, Table 1 details the patient demographics and disease characteristics categorized by these three different racial/ethnic cohorts (Table 1, Supplementary Table S1).A slight majority of the patients were non-Hispanic White (45%) followed closely by Black patients (37%) while the Hispanic cohort constituted 18% of the study population.The three cohorts were generally evenly matched among the detailed patient and disease characteristics with significant differences found in three categories among the entire cohort and two categories among the ICI monotherapy cohort.Specifically, the Hispanic population consisted of fewer smokers compared with the White population (P = 0.0002) and had more sites of metastatic disease compare to the White patients (P = 0.032).The White population reported more alcohol consumption than Black patients (P = 0.0378; Supplementary Fig. S1A-S1C).These differences were also present in the cohort of patients that received ICI monotherapy, except for alcohol intake, which was similar between the various racial/ethnic cohorts (Supplementary Fig. S2A and S2B).

Treatment Characteristics
Treatment characteristics were well matched among the racial/ethnic cohorts (Table 1).About 20% of patients among each cohort received ICI in combination with chemotherapy.40% of the patients in each cohort received ICI as first line treatment for recurrent or metastatic disease.Both Hispanic and Black patients were subject to less radiation treatment (definitive or palliative) than White patients (P = 0.032 and P = 0.027, respectively; Supplementary Fig. S3A).
The ICI monotherapy patient population also showed similar treatment characteristics among the three racial/ethnic groups (Supplementary Table S1).Only 20% of these patients received ICI monotherapy in the first-line setting.Also, only the Hispanic population was subject to significantly less radiation therapy (definitive or palliative) than the White population in this treatment cohort (P = 0.026; Supplementary Fig. S3B).

Overall Population Responses
Treatment responses were first calculated for the entire cohort and compared by disease type.ORR was approximately 30% for the entire 207 patient cohort and was similar between the NSCLC and HNSCC patient cohorts (Fig. 1A).
Overall, the response rates were similar between the cohorts that received ICI monotherapy and ICI in combination with chemotherapy (Fig. 1B).PD-L1 status was available for slightly more than half of NSCLC patients reviewed (Table 1).As expected, a PD-L1 status of 50% or more was associated with a significantly (P = 0.0086) higher ORR compared to a PD-L1 less than 50% in the population of patients receiving ICI monotherapy (Fig. 1C).Given some significant differences in patient, disease, and treatment characteristics between the racial cohorts noted above, we calculated ORRs for each of these differences separately to assure they did not confound the ORR analysis of the racial cohorts detailed below.ORRs did not differ significantly for any of the disparate characteristics described in either the entire study cohort or the ICI monotherapy cohort (Supplementary Figs.S4 and S5).p16 status of oropharyngeal cancers had no discernible impact on response as only one out of nine cancers showed a response to therapy (Supplementary Table S2).

Responses by Race/Ethnicity
ORR in Hispanic patients was lower than that of Black and non-Hispanic White patients (27.0%compared with 32.5% and 38.7%, respectively) though these differences were not statistically significant compared with the non-Hispanic White patient population (Fig. 2A).When patients receiving chemo and ICI combination therapy were removed from the analysis, the ORR of the Hispanic cohort decreased further while the response rate of Black and White patients remained about the same.Only 20.7% of Hispanic patients treated with ICI monotherapy had a response while the ORR for Black and non-Hispanic White was seen in only 55.2% and 56.4% of Black and non-Hispanic White patients, respectively.No complete responses (CR) were observed in the Hispanic ICI monotherapy cohort and only one patient treated with combination immunotherapy and chemotherapy achieved a CR.Black and non-Hispanic White patients treated with ICI monotherapy had a CR rate of 5.2% and 14.1%, respectively (Fig. 2B).Interestingly, all the CRs in the Black and non-Hispanic White populations were in patients treated with ICI monotherapy.

Responses by PD-L1 in NSCLC
We assessed ORR in NSCLC patients using a combination of PD-L1 status and race/ethnicity.Again, as expected, Black and non-Hispanic White patients with a PD-L1 of 50% or greater exhibited a high ORR of over 65% when treated with ICI monotherapy while only 29% of Hispanic patients responded.(Fig. 3A).This ORR dropped drastically to approximately 20% or below for tumors with PD-L1 less than 50% (Fig. 3B and C).Paradoxically, 50% of Hispanic patients with a PD-L1 0% exhibited a partial response (Fig. 3).

Immune-related Adverse Events
Adverse events thought to be related to immunotherapy (irAEs) were analyzed for the ICI monotherapy cohort.Approximately 40% of Black and 50% non-Hispanic White patients experienced irAEs of any grade.However, less than 30% of Hispanic patients developed any irAEs which was significantly less (P = 0.0109) than non-Hispanic White patients (Fig. 4A).We assessed the frequency of severe irAEs defined as toxicities resulting in systemic steroid administration, temporary cessation of ICI therapy, or permanent cessation of therapy among the three racial/ethnic cohorts.Approximately 15% to 20% of patients, regardless of race/ethnicity, experienced severe irAEs with about 10% of patients, again regardless of race/ethnicity, requiring a complete cessation of therapy (Supplementary Table S3).Given the shared mechanism of ICI irAEs and antitumor immunity, we hypothesized that the presence of toxicity would predict positive response to ICIs.While patients experiencing at least one irAE in the ICI monotherapy cohort had a higher ORR than those patients exhibiting no irAEs (36% vs. 27%, respectively) this difference was not statistically significant (Fig. 4B) Finally, while a higher percentage of Hispanic patients was treated with pembrolizumab compared with White patients, and patients treated with pembrolizumab exhibited less irAEs, neither of these differences were statistically significant suggesting that the observed irAE disparity was unrelated to ICI type (Supplementary Figs.S6 and S7).

Discussion
Although racial disparities persist across multiple solid tumor histologies in the U.S. population at large, individual institutional studies have been able to demonstrate equivalence in the setting of equal access.Our previous work in HNSCC has shown that both HHS and the MEDVAMC are able to generate equivalent oncologic outcomes for patients that is consistent with data from other institutions (30)(31)(32)(33)(34).These data would suggest that cancer outcome disparities at a population level are likely driven primarily by socioeconomic status, unequal access to timely and high-quality healthcare, and other social factors.Indeed, retrospective studies have shown that race strongly correlates to HNSCC disease stage at presentation, with Blacks presenting more often with advanced locoregional disease or with metastatic disease (19).Similarly, for HNSCC some have suggested that reduced survival in Black patients is a function of differential distribution of low-risk and high-risk disease [as a function of human papillomavirus (HPV)] status (18).However, contradicting these assertions are data which indicate that even when HPV status is accounted for, Black patients with HNSCC and to a lesser degree Hispanic patients demonstrate reduced survival compared with their counterparts (35).
Other biological factors have also been considered.Ramakodi and colleagues identified ancestry related single nucleotide polymorphisms (SNP) in the DNA polymerase beta gene which may impact response to conventional chemoradiation strategies used for both HNSCC and NCSLC in the curative intent setting (36).Differential SNP distribution may be compounded by differential somatic mutation distribution in some patients with HNSCC to further impede treatment response and reduce survival (37).Transcriptional data from African-American patients demonstrates race-related shifts in both tumor metabolism and DNA repair across multiple disease sites including HNSCC and other smoking-related malignancies (38).
Taken together these data highlight an outstanding question for clinicians and patients alike: are Black and Hispanic patients likely to derive the same benefit from ICIs once access is established?Certainly, the scarcity of minority patients in prospective clinical trials and the lack of consistently reported race-based response data prevents a definitive answer using level I data.It is therefore critical that continued attempts to answer this question be made in the real-world, post-approval setting.This study offers retrospective data from our academic institution experience that represents the more diverse patient population that may be encountered in an urban center.Overall, our data are encouraging for Black patients.Not only are response rates comparable with those of White patients, but overall toxicity appears to be similar.Despite reports that show ICI enhances OS in Hispanics when compared with chemotherapy (39), our findings are concerning, particularly given the low rate of complete response.This lower response rate paralleled by a lower rate of irAEs suggests the potential for reduced effectiveness of this agent class.This report is the first showing potential decreased ICI effectiveness in a substantial Hispanic NSCLC and HNSCC patient population and our findings will need to be validated in additional series.Specifically, to better understand this finding, future studies will need to be enriched for patients treated with ICI monotherapy.Furthermore, it will be essential to determine what other factors might contribute to the altered effectiveness of ICI in Hispanics.Studies have suggested that the efficacy of ICI in various cancer types may be impacted by multiple factors including the use of antibiotics (40,41), the gut microbiome, mutational burden, infections, and exercise (42,43).Thus, future studies will also be needed to assess the impact of additional factors on racial/ethnic disparities in ICI therapy.
We acknowledge the limitations of our study which include its retrospective nature, cohort size, limited availability of PD-L1 data for the patients with NSCLC, and absence of detailed socio-economic/cultural cohort data.Sample size in particular limits our ability to identify confounders using multivariate analysis, though we did identify significant differences among our racial/ethnic cohorts and have shown that these do not impact response rates (Supplementary Figs.In conclusion, this retrospective cohort study identifies a potential signal of decreased ICI-response in Hispanic lung cancer and HNSCC patients.Coupled with a significantly lower irAE rate for Hispanic patients, the data suggest a possible underlying mechanistic reason for this disparity.However, the exact causes remain unclear and may be linked to differences equally as disparate ranging from variations in intrinsic tumor biology and immunology, genetics and epigenetics to extrinsic socio-economic and cultural (e.g., diet, exercise, medication exposure, etc.) factors.Expanding the investigation of this outcome and its causes is an imperative next step in the effort to improve outcomes for Hispanic patients with lung and head and neck cancer and will serve to broaden our understanding of factors impacting ICI response.

FIGURE 4
FIGURE 4Immune-related adverse events (irAE) within the entire treatment cohort.A, Overall irAE rate as a function of race/ethnic group.B, ORR as a function of irAE for the ICI monotherapy cohort.PR, partial response; SD, stable disease; PD, progressive disease.

TABLE 1
Patient and treatment characteristics (Continued on the following page )

TABLE 1
Patient and treatment characteristics (Cont'd ) a P < 0.05 for Hispanic vs. White.b P < 0.05 for Black vs. White.
(46)5).Sample size may also be responsible for the high response rate noted in our HNSCC cohort which is almost double what was reported in two landmark clinical trials (15% trial cohort vs. 30% study cohort) whereas the lung cohort was only slightly higher than trial results (25% trial cohort vs.As such, we consider it imperative that NCI-designated CCCs that serve predominantly minority populations form a closer network designed for data sharing, specimen banking and research integration.Within such a network, it is important to support biobanking and genotyping efforts that will allow us to develop biologically focused analyses of interactions between ancestry and treatment response.These analyses may help to elucidate the effects of socio-economic/cultural/environmental factors compared with biological differences which, even in the context of equal access to care, are not adequately parsed out.Furthermore, patient diversity in these efforts is especially important as major existing bio-response databases predominantly consist of White population of European ancestry(46).Combined with national efforts such as those exemplified by the Million Veteran Program which seeks to elucidate the health impacts of genetics, lifestyle, and military exposure, such a network could help better understand how to serve and advance the health of our patients