Brain tumor patients and COVID-19 vaccines: results of an international survey

Mathew R Voisin; Kathy Oliver; Stuart Farrimond; Tess Chee; Philip O’Halloran; Martin Glas; International Brain Tumour Alliance (IBTA) Senior Advisors; Gelareh Zadeh

doi:10.1093/noajnl/vdac063

. 2022 May 3;4(1):vdac063. doi: 10.1093/noajnl/vdac063

Brain tumor patients and COVID-19 vaccines: results of an international survey

Mathew R Voisin ¹, Kathy Oliver ^2,^✉, Stuart Farrimond ³, Tess Chee ⁴, Philip O’Halloran ^5,⁶, Martin Glas ^7,⁸; International Brain Tumour Alliance (IBTA) Senior Advisors ⁹, Gelareh Zadeh ¹⁰

PMCID: PMC9129166 PMID: 35707317

Abstract

Background

As the COVID-19 pandemic continues to unfold, the advent of multiple approved vaccines has led to a milestone in the fight against the virus. While vaccination rates and side effects are well established in the general population, these are largely unknown in patients with brain tumors. The purpose of this study was to determine if brain tumor patients and their caregivers have received a COVID-19 vaccine, and explore their thoughts and opinions on these vaccines.

Methods

An anonymous 31-question online survey available in 8 languages was conducted from June 30, 2021 to August 31, 2021. The survey was open to adult brain tumor patients over the age of 18 and included both categorical and open-ended questions. Descriptive statistics and modified thematic analyses were performed for all questions as appropriate.

Results

A total of 965 unique surveys were completed from 42 countries. The vast majority of both brain tumor patients and their caregivers have been vaccinated against COVID-19 (84.5% and 89.9%, respectively). No patient reported serious adverse events from any vaccine. Less than 10% of patients decided against receiving a vaccination against COVID-19, with the most common reason being concerns over the safety of the vaccine. Patients wanted more specific information on how COVID-19 vaccines might impact their future brain tumor treatment.

Conclusions

In conclusion, the majority of brain tumor patients and their caregivers have received COVID-19 vaccines with no major side effects. Patients want more information on how COVID-19 vaccines might directly impact their brain tumor and future management.

Keywords: brain tumor, COVID-19, patients, survey, vaccine

Key Points.

The majority of brain tumor patients and their caregivers have received COVID-19 vaccinations.
No major vaccination side effects were reported in this group.
Patients want more specific information on how COVID-19 vaccines might impact their future care.

Importance of the Study.

This is the first international survey completed with the purpose of determining if adult brain tumor patients and their caregivers have been vaccinated against COVID-19 and their thoughts and opinions on the vaccines. Overall, we had close to 1000 unique responses from over 40 countries when the survey was conducted in July and August of 2021. Results demonstrated that the vast majority of brain tumor patients and their caregivers have been vaccinated against COVID-19 with no major side effects reported. Less than 10% of patients decided against vaccination, with the main concern over the safety of COVID-19 vaccines. A common theme emerged of patients wanting more specific information on how these vaccines might interact with their brain tumor directly, or indirectly impact their future brain tumor treatment.

As the global COVID-19 pandemic continues, caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), there have been over 500 million confirmed cases of COVID-19, including over 6 million deaths as of April 19, 2022.¹ With the realization that vaccines could play an essential role in increasing immunity and preventing disease, a global vaccine race commenced in early 2020 with a focus on the development, manufacturing, and distribution of vaccines.² The ChAdOx1 nCoV-19 vaccine (AZD1222), also known as the Oxford University/AstraZeneca vaccine (brand name Vaxzevria), was the first COVID-19 vaccine to be developed.³ It was developed at the University of Oxford Jenner Institute in early 2020 and the university and AstraZeneca announced a global development agreement on April 30, 2020.³ Similarly, the BNT162b2 vaccine, commonly known as the Pfizer-BioNTech vaccine or brand name Comirnaty, began development early in 2020 as well.⁴ The third major vaccine, mRNA-1273 or the Moderna vaccine (brand name Spikevax), was developed in collaboration with the National Institutes of Health (NIH) in the United States in February of 2020 and the first patient in their Phase 1 study was dosed on March 16, 2020.⁵

On December 2, 2020, the United Kingdom became the first country to approve a COVID-19 vaccine, the Pfizer-BioNTech vaccine, for emergency use, after being tested in a large clinical trial.⁶ Similarly, the United States Food and Drug Administration (FDA) approved both Pfizer-BioNTech and the Moderna COVID-19 vaccines in December 2020 for emergency use authorization.⁷ The Pfizer-BioNTech vaccine went on to be the first vaccine to receive FDA approval on August 23, 2021 for individuals ages 16 and older.⁸ As of April 19, 2022, there are currently 195 vaccines in development, with 687 active vaccine trials in 75 different countries, including a majority of phase II and III trials.⁹ As of April 19, 2022, the World Health Organization (WHO) has approved 38 vaccines for use against COVID-19, with over 11 billion vaccine doses having already been administered worldwide.^1,9

While extensive vaccination research has been done and is ongoing, the vaccination status, impact, and programs affecting brain tumor patients worldwide were unknown. To better understand how brain tumor patients have been prioritized and responded to the emerging role of COVID-19 vaccination utility, the International Brain Tumour Alliance (IBTA) developed an anonymous international survey that was available for completion during July and August of 2021. This is the third international survey undertaken by the IBTA during the COVID-19 pandemic. The first 2 surveys, completed in 2020, examined the effects of the early COVID-19 pandemic on brain tumor patients, their caregivers, and brain tumor not-for-profits and charities.^10,11 The vaccines survey focused on adult brain tumor patients and their caregivers. The purpose of the study was to determine if this population has received any COVID-19 vaccine, and explore the experiences, side effects, thoughts, and opinions of vaccination in this unique population.

Methods

An anonymous online survey was developed by the IBTA as part of the continued work of the Society for Neuro-Oncology (SNO) COVID-19 Task Force. The 31-question survey was available in 8 languages (English, French, German, Italian, Japanese, Polish, Spanish, and Urdu) and included a mixture of both categorical and qualitative, open-ended questions. Informed consent was obtained from each participant prior to survey commencement. Translation support was provided by individual members of SNO, the international brain tumor patient advocacy community, and outside translation agencies. Table 1 lists all 31 questions included in the survey. The survey was globally disseminated to over 120 brain tumor charities and not-for-profits and brain tumor healthcare professionals to distribute to their patients. Responses were collected over 2 months from June 30, 2021 to August 31, 2021, inclusive. The survey was open to adult brain tumor patients over the age of 18 because at the time of the survey the majority of countries had not started vaccinating individuals under the age of 18. This was prior to countries providing COVID-19 booster/third dose vaccines. The data from this survey include only the first 2 vaccination doses.

Table 1.

Survey questions

Question	Number of responses (%)
I confirm that I am a person with a brain tumour, who is over 18 years old, and I agree to the terms and conditions stated above	965 (100)
What type of brain tumour do you have?	845 (87.6)
What grade of brain tumour have you been diagnosed with? (Tick all that apply if you have a mixed grade tumour)	845 (87.6)
When was your tumour diagnosed?	845 (87.6)
How old are you?	845 (87.6)
What country do you live in?	845 (87.6)
How would you describe your gender?	844 (87.5)
Do you have any other medical conditions apart from your brain tumour? Please select all that apply.	845 (87.6)
Have you ever had any type of COVID-19 test (because of symptoms or as a routine test even if you had no symptoms)?	774 (80.2)
If you have received any COVID vaccination, were you prioritised by your country’s government to receive these injections?	775 (80.3)
If you were prioritised by your country’s government to receive a COVID vaccine injection, on what basis was this? (Please select as many as apply)	736 (76.3)
Have you received your first COVID-19 vaccination?	775 (80.3)
If you have received a first COVID-19 vaccination, are you still worried that you might catch COVID-19?	765 (79.3)
If you have received your first COVID-19 vaccination, have you also received a second COVID-19 vaccination?	764 (79.2)
If you have received a second COVID-19 vaccination, are you still worried that you might catch COVID-19?	758 (78.5)
If you have had two doses of a COVID-19 vaccine (ie not the Johnson & Johnson vaccine which is only one dose), what was the time gap between the first and the second dose?	687 (71.2)
If you have received a COVID-19 vaccination (either a single dose or a first and second dose), which vaccine have you received?	692 (71.7)
Have you decided not to have any COVID-19 vaccines?	682 (70.7)
If “yes,” why?	283 (29.3)
At the time of receiving your first and/or second COVID-19 vaccination were you on active treatment for your brain tumour?	696 (72.1)
If you were on active treatment for your brain tumour when you received your first and/or second COVID-19 vaccination, what treatment was this (please select all that apply)?	614 (63.6)
If your treatment plan for a brain tumour has changed because you received a COVID-19 vaccination, please explain how this has changed.	603 (62.5)
If you experienced any side effects from your first COVID-19 vaccination, please tell us what they were—you may choose as many of the below options as you wish. If you have not received a first COVID-19 vaccination, please choose “Not applicable.”	692 (71.7)
If you experienced any side effects from your second COVID-19 vaccination, please tell us what they were—you may choose as many of the below options as you wish. If you have not received a second COVID-19 vaccination, please choose “Not applicable.”	687 (71.2)
Do you feel that you have received enough information about COVID-19 vaccinations?	697 (72.2)
Do you have any concerns about the COVID-19 vaccine programme in your country (for example distribution, equal access, timing between doses, safety, etc)?	695 (72)
If an annual COVID-19 vaccine was developed to guard against new COVID-19 strains or variants (much in the same way influenza vaccines are given each year) would you be prepared to receive this vaccine annually?	700 (72.5)
If you have a caregiver, has your caregiver received one or both doses of the COVID-19 vaccine?	690 (71.5)
If you have a caregiver, and your caregiver has received one or both doses of the COVID-19 vaccine, has this changed the way you do things together? For example, if you and your caregiver have received a COVID-19 vaccine, perhaps it’s now easier for your caregiver to go with you to medical appointments.	666 (69)
If you have a caregiver, has that person helped you fill in this survey?	677 (70.2)
With special regard to brain tumour patients and caregivers, do you have any other comments you would like to pass on to those responsible for vaccination programmes?	176 (18.2)

Open in a new tab

Responses were grouped into the following 5 categories: patient demographics, COVID-19 testing and vaccination status, vaccination programs, vaccination hesitancy and side effects, and caregiver vaccination status and views. Descriptive statistics were applied for all categorical questions. Open-ended, qualitative questions were reviewed using modified thematic analysis where overarching themes are extracted from the written answers.¹² This approach uses both open coding (fragments are grouped according to shared ideas) and axial coding (dominant ideas are organized into overarching themes).¹² All text responses for all questions were independently reviewed by 2 researchers to ensure accurate capture of overarching themes and ideas.

Results

Survey Responses and Patient Demographics

Overall, 965 unique surveys from adult brain tumor patients were completed from a total of 42 countries. The United States had the highest number of responses (20.1%, N = 170), followed by the United Kingdom (12.4%, N = 105) and Japan (11.4%, N = 96). All 42 countries with survey responses are listed in Table 2. The median age range of all patients completing the survey was 45–54 years old with 11.4% (N = 96) aged 65 years or older. A total of 60% of respondents were female (N = 506).

Table 2.

List of countries with survey responses

Country	Number of responses (%)
United States	170 (20.1)
United Kingdom	105 (12.4)
Japan	96 (11.4)
Australia	82 (9.7)
Canada	74 (8.8)
Denmark	61 (7.2)
Ireland	33 (3.9)
Netherlands	33 (3.9)
Italy	27 (3.2)
Singapore	24 (2.8)
New Zealand	22 (2.6)
Sweden	16 (1.9)
France	15 (1.8)
Germany	14 (1.7)
Israel	12 (1.4)
India	9 (1.1)
Poland	7 (0.8)
Norway	6 (0.7)
Zimbabwe	5 (0.6)
Pakistan	4 (0.5)
Austria	3 (0.4)
Belgium	3 (0.4)
China	2 (0.2)
Kenya	2 (0.2)
Portugal	2 (0.2)
Spain	2 (0.2)
Albania	1 (0.1)
Anguilla	1 (0.1)
Belarus	1 (0.1)
Benin	1 (0.1)
Bolivia (Plurinational State of)	1 (0.1)
Brazil	1 (0.1)
Cameroon	1 (0.1)
Croatia	1 (0.1)
Cyprus	1 (0.1)
Hungary	1 (0.1)
Romania	1 (0.1)
South Africa	1 (0.1)
South Sudan	1 (0.1)
Uruguay	1 (0.1)
Venezuela (Bolivarian Republic of)	1 (0.1)
Zambia	1 (0.1)
Total	845 (100)

Open in a new tab

Glioblastoma (GBM) was the most common brain tumor diagnosis at 24.6% (N = 208), followed by meningioma at 18.2% (N = 154) and astrocytoma at 12.7% (N = 107). Low-grade gliomas (grades 1 and 2) accounted for 38.7% (N = 327) of patients, while high-grade gliomas (grades 3 and 4) accounted for 43.9% (N = 371) with 22.4% (N = 189) unsure of the grade of their tumor. The majority of patients (61.4%, N = 519) were diagnosed within the past 5 years, 20.4% (N = 172) within the past year, while 18.5% (N = 156) received a brain tumor diagnosis over 10 years ago. Epilepsy was the most common medical comorbidity reported at 15.4% (N = 130), followed by hypertension (12.5%, N = 106), and depression (11%, N = 93).

COVID-19 Testing and Vaccination Status

At the time of the survey, 69% (N = 534) of patients had been tested for COVID-19 for any reason, including a routine test even if they were asymptomatic. Of those 534 patients who had been tested, a total of 6.2% (N = 33) tested positive. Overall, 84.5% (N = 655) of patients had received their first dose of any COVID-19 vaccine, 82.6% (N = 554) of those who were required to obtain a second dose of a COVID-19 vaccine (excluding the Johnson & Johnson single-dose vaccine) had also received their second dose. The most common vaccine received was the Pfizer/BioNTech at 53.3% (N = 369) followed by the Astra Zeneca/Oxford University vaccine at 15.3% (N = 106) and the Moderna vaccine at 13.4% (N = 93). A total of 12.3% of patients (N = 85) responded to this question that they had not yet received any vaccine, and 2.5% (N = 17) responded that they had received a mixture of vaccines for their first and second doses. A total of 28.6% (N = 219) of patients who had received a first dose of any COVID-19 vaccine responded that they were “not at all worried” about becoming infected with COVID-19, while 6.8% (N = 52) were still “very worried” that they still might become infected. These numbers were similar for patients who had received both doses of any COVID-19 vaccine, with 27.3% (N = 207) “not at all worried” and 4.6% “very worried” about still contracting COVID-19, despite having had 2 doses of vaccine. The survey did not explore whether or not the reported change in treatment plan was related to having received the vaccine.

For those who received a vaccine requiring 2 doses, the time delay between doses was less than 6 weeks for 50.9% (N = 264), 6 weeks for 14.5% (N = 75), and 12 weeks or longer in 13.5% (N = 70). In total, 26.4% (N = 156) were on active treatment for their brain tumor when they received the COVID-19 vaccine. At time of vaccination, the most common active treatment of patient respondents included chemotherapy at (49.1%, N = 107), followed by radiation (12.4%, N = 27). A total of 4.3% (N = 22) patients had a change in treatment plan after receiving their vaccine. The vast majority of the 22 patients who reported a change in treatment plan after receiving the vaccine described treatment schedule changes to chemotherapy and radiation schedules.

Vaccination Programs

Of those brain tumor patients who received their first 1 or 2 COVID-19 vaccinations, 55.2% (N = 428) were prioritized by their country’s government. From this question concerning vaccine prioritization, 101 patients (13%) reported they had not yet received any COVID-19 vaccine at the time of the survey. The most common reason reported in the survey for prioritization to receive the COVID-19 vaccine was a brain tumor diagnosis (30.8%, N = 227), followed by age (16.4%, N = 121), and other medical conditions (9.5%, N = 70). Free-text survey responses indicated that a more specific cause of being prioritized was that the patient was actively undergoing chemotherapy treatment. In total, 80.9% (N = 564) of patients who responded to the survey felt they had received sufficient information about the COVID-19 vaccines. Free-text responses from patients who felt they had received inadequate information included the common concern regarding the need for more information about potential COVID-19 vaccine side effects specifically on brain tumor patients and brain tumor treatments. Another common theme was the general need for more information on long-term vaccine side effects, and also specifically for brain tumor patients.

One brain tumor patient wrote: “There is little or no research on the general effectiveness/side effects on having any covid vaccine if you have an existing brain tumour. I’d like to know how the vaccines could affect my brain cancer and whether the neurological issues I experience as a result of my tumour might be affected or exacerbated by the vaccine.”

A total of 31.7% (N = 220) patients had concerns about the COVID-19 vaccination program in their home countries. The most common themes from the free-text responses to this question included vaccine distribution, prioritized groups, and vaccine safety. Some patients mentioned that their brain tumor diagnosis itself was not a reason for priority. Respondents were also frustrated about the changing/lengthening interval times between doses. If an annual COVID-19 vaccine was developed similar to the annual influenza vaccine, 85.1% (N = 596) of patients in the survey responded that they would opt to receive it. Of those who would not want to receive an annual vaccine, 2 major themes emerged from the free-text responses: a lack of trust in COVID-19 vaccines, and the feeling that the vaccine was unnecessary. Other responses mentioned that patients would want to reevaluate the need on a yearly basis.

Vaccination Hesitancy and Side Effects

A total of 7.5% (N = 51) patients responded that they have decided not to receive any COVID-19 vaccine. A total of 84 patients addressed various concerns about COVID-19 vaccines as reasons to not receive the vaccine. The most commonly cited vaccine concern was regarding the vaccine’s safety (52.4%, N = 44), followed by uncertainty about the vaccine’s efficacy (21.4%, N = 18). Some patients responding to the survey stated that they felt the vaccine was unnecessary (15.5%, N = 13). Free-text responses were divided into 2 themes: lack of trust in the vaccine and hesitancy due to brain tumor diagnosis and/or treatment.

One patient responded: “I’m worried about potential side effects as I have recently undergone treatment for my brain tumour. I support vaccination and intend to get vaccinated once more people in my country have been vaccinated and there is more research/data about the vaccines.”

Table 3 lists the reported side effects from brain tumor patients receiving any COVID-19 vaccine alongside information from the Centers for Disease Control and Prevention (CDC) collected from the general population receiving the Pfizer/BioNTech vaccine (the most common vaccine administered to brain tumor patients according to our survey).¹³ The most common side effects from receiving either the first or the second dose were pain in the arm (31.2%, N = 684), followed by tiredness (18.9%, N = 414) and headache 11.1%, N = 244). A total of 257 patients (11.7%) experienced no side effects from either the first or second dose of any vaccine. In the free-text area of these questions, no patient reported any major side effect from receiving any COVID-19 vaccination. Common themes around vaccination included temporary exacerbation of patients’ preexisting neurological symptoms, including numbness, headaches, and transient weakness.

Table 3.

Reported side effects from COVID-19 vaccinations

Side effect	Number of responses (%)			General population Side effect rate (%)
	First dose	Second dose	First + second dose	First + second dose
Pain in the arm	388 (34.3)	296 (27.8)	684 (31.2)	3536 (80.5)
Redness in the arm	42 (3.7)	33 (3.1)	75 (3.4)	227 (5.2)
Swelling in the arm	43 (3.8)	35 (3.3)	78 (3.6)	264 (6.1)
Tiredness	207 (18.3)	207 (19.5)	414 (18.9)	2332 (53.4)
Headache	117 (10.3)	127 (11.9)	244 (11.1)	2044 (46.8)
Muscle pain	80 (7.1)	86 (8.1)	166 (7.6)	1270 (29.3)
Chills	57 (5)	61 (5.7)	118 (5.4)	1058 (24.6)
Fever	35 (3.1)	59 (5.6)	94 (4.3)	832 (19)
Nausea	30 (2.7)	34 (3.2)	64 (2.9)	—
I had no side effects	132 (11.7)	125 (11.8)	257 (11.7)	—
Total	1131 (100)	1063 (100)	2194 (100)	4389 (100)

Open in a new tab

Caregiver Vaccination Status and Views

Overall, 37.4% (N = 258) of patients that completed the survey reported that they have a caregiver. Of those 258 patients with a caregiver, 89.9% (N = 232) of caregivers had received 1 or 2 doses of a COVID-19 vaccine at the time of this survey. A separate question asked if the brain tumor patient and their caregiver’s routine has changed since their caregiver received the COVID-19 vaccine (eg, was more freedom of movement outside the home available once the caregiver had also been vaccinated). A total of 89.8% (N = 212) reported that their routine had not changed after their caregiver received the vaccine. Free-text responses from those who responded that their routine has changed (3.6%, N = 24) reported that their caregiver was now able to accompany them to medical appointments or that the brain tumor patient and their caregiver went into stores or outside of the house more often than prior to vaccination. A total of 31.6% (N = 87) had their caregiver help them complete the survey.

Final Thoughts

The final survey question asked if there were any other comments patients would like to pass on to those responsible for vaccination programs. The overwhelming majority of responses focused on the perceived need for brain tumor patients and their caregivers to be prioritized for vaccination. A common theme was the desire for more transparent and clear information on vaccine safety to impact on brain tumor patients and their treatments. Patients reported struggling to find clear and reliable information about COVID-19 vaccine that is specifically relevant and applicable to them.

Discussion

This international survey on COVID-19 vaccinations in the brain tumor patient and caregiver population was completed over 2 months in July and August of 2021. During this time, the Delta variant was rapidly spreading around the globe and populations were still receiving their first or second doses of vaccinations. At the time of the survey, booster doses were not yet routinely being administered or available. In total, we received 965 unique survey responses from 42 countries. While this survey was limited to adult patients only, the overall makeup of respondents was very similar to the first global IBTA survey regarding the most common brain tumor diagnoses of GBM, meningioma, and lower-grade gliomas and medical comorbidities.¹¹

Overall, while the majority of respondents (69%) had been tested for COVID-19 at the time of the survey, only a small percentage (6%) of respondents had tested positive for COVID-19. In comparison, according to the CDC, the cumulative percent positivity in the United States for nucleic acid amplification tests at the time of the survey was 8.1% and was 9.5% as of February 27, 2022.¹⁴ Our survey did not clarify what percentage of COVID-19 testing performed was symptomatic vs asymptomatic or mandatory due to a hospital or clinic visit, but there does not seem to be a large discrepancy between the number of brain tumor patients that have tested positive for COVID-19 compared to the general population.

The vast majority of both brain tumor patients and their caregivers had received 1 or 2 doses of any COVID-19 vaccine at the time of the survey (84.5% and 89.9%, respectively). The rate of vaccination in brain tumor patients and their caregivers is higher than the general population rates of vaccination at the time of the survey for both the United States (58.7%) and the United Kingdom (80.8%).^14,15 The majority of brain tumor patients and their caregivers received the Pfizer/BioNTech vaccine (53.3%) which is in keeping with CDC and National Health Service (NHS) data on United States and the United Kingdom vaccination type.^14,16 There were no major side effects reported by respondents to any of the vaccine types. Minor side effects reported by brain tumor patients including both local and systemic appeared to be notably less than those reported by the general population (Table 3). Most brain tumor patients who had a 2-dose vaccine received their second dose within 6 weeks or less (65.4%) however approximately a quarter of brain tumor patients (26.4%) were on active treatment for their brain tumor when they received their COVID-19 vaccination, with most patients receiving chemotherapy when they were vaccinated. Recent research has highlighted that cancer patients on active treatment including chemotherapy are at a higher risk of a fatal outcome due to COVID-19 infection.¹⁷ While guidelines surrounding chemotherapy reinforce the safety of non-live vaccines during treatment, patients may be less likely to mount an optimal immune response necessary for full immunity.¹⁸

The majority of brain tumor patients (55.2%) were also prioritized by their government to receive a COVID-19 vaccine, with approximately one-third of respondents (30.8%) prioritized due to their brain tumor diagnosis. While our survey did not clarify whether all individuals with cancer in their countries were prioritized compared to specifically brain tumor patients only, there is an overwhelming agreement that individuals with cancer should be prioritized for COVID-19 vaccination.¹⁷ Despite this, almost one-third of respondents (31.7%) had concerns about the COVID-19 vaccination program in their country, including frustration on the changing interval timings between vaccine doses and vaccine prioritization. Some respondents mentioned that their brain tumor diagnosis itself was not prioritized, and indeed, subprioritization schedules for cancer patients have been described, including cancer stage, type, and other individual risk factors such as age.¹⁹

Overall, 7.5% of respondents had decided not to receive any COVID-19 vaccination at the time of the survey. As multiple questions asked if respondents had received the vaccine, there was some discrepancy in the number of patients that reported they had not received the vaccine due to variability in response rates for each question. Approximately 12%–13% of respondents had not yet received the vaccine, depending on the question (85–101 respondents). This discrepancy may have been due to respondents being able to choose which questions of the survey to answer. Of those 85–101 respondents who had not yet received any vaccination, at least half of them had actively chosen not to receive the vaccine (51 respondents), and 84 respondents mentioned concerns about COVID-19 mRNA vaccines specifically as a reason not to receive the vaccine. The largest concern stated by respondents choosing not to receive the vaccine was the safety of the vaccine. Another interesting and common response for vaccine hesitancy was the unknown effects of the vaccine on patients with brain tumors. This was a common theme throughout the free-text responses.

In comparing vaccine hesitancy rates from prior studies, a systematic review of global COVID-19 vaccine hesitancy published in 2021 reported that the majority of countries included in the study had vaccine hesitancy rates of 30% or less, with the United States having one of the highest vaccine hesitancy rates of 43.1%.²⁰ Previously published studies on blood cancer patients and individuals with cancer or other serious comorbid conditions found that vaccine hesitancy rates among these populations was 17% and 18.6%, respectively.^21,22

Overall, vaccine hesitancy rates among brain tumor patients were lower than both the general population and other high-risk groups, and respondents wanted more specific information on how COVID-19 vaccines might directly impact their brain tumor prognosis and treatment. Brain tumor patients also experienced no major side effects and fewer minor side effects than the general population. Respondents also largely focused on the need for brain tumor patients and their caregivers to be prioritized for vaccination and for more transparent information concerning vaccine safety and impact from healthcare professionals and the government.

Limitations

Similar to the first IBTA survey carried out in early 2020 and directed to brain tumor patients (adult and pediatric) and their caregivers, this survey consisted of self-selected volunteers and therefore, there may be response bias in these results. In this survey, it was not required for survey respondents to complete every question before submitting the survey, and because of this the response rate for each question is variable. Overall, the majority of questions had a response rate of 70%–80%, while other more particular questions such as those specific to patients with caregivers or those that had vaccine hesitancy returned a 30% response rate. In addition, there may have been selection bias because this survey was widely distributed through brain tumor charities and not-for-profits, and the patients and caregivers who completed the survey may not be representative of the entire population. The majority of responses came from countries including the United States, Western Europe, and Japan, and the results may not be reflective of all countries or regions. Furthermore, there is a chance that some people did not do the survey because they had yet to be vaccinated, which is also a form of selection bias. Those patients without a connection to a brain tumor charity or not-for-profit may not have been able to learn about and thereby choose to complete the survey. There may also have been challenges with informing patients from underserved and under-represented populations including ethnic minorities and low-income households about the existence and availability of the survey.

Conclusions

In conclusion, the majority of brain tumor patients and their caregivers worldwide have been vaccinated against COVID-19 with no major reported vaccine side effects. Despite this, there was still a large advocacy effort to continue prioritization of COVID-19 vaccination and timely delivery of vaccinations in brain tumor patients and their caregivers. The minority of patients who chose not to receive the vaccine were concerned with the vaccine’s safety and any potential direct and indirect effects the vaccine may have on brain tumors and brain tumor treatments. As we move into this current age of booster doses and novel variants, it is important to continue to research the effects of vaccines on brain tumors and patient care and advocate for these vulnerable populations most at risk of COVID-19.

Acknowledgments

We would like to sincerely thank our survey review group consisting of members of the SNO COVID-19 Task Force and the IBTA Senior Advisors; the over 120 brain tumor charities and not-for-profits together with a wide range of healthcare professionals around the world who disseminated the survey link to brain tumor patients, and our translators: Magda Magiera; Cristina Valencia Sanchez, MD; David Gritsch, MD; Komal Syed; Sufia Zamir; Laureline Gatellier, Gentaro Tajima, Yuko Moue, Nozomi Nonaka, and colleagues (Japan Association of Medical Translation for Cancer—JAMT); and Absolute Translations Ltd (London).

Contributor Information

Mathew R Voisin, Division of Neurosurgery, Department of Surgery, University of Toronto, Toronto, Ontario, Canada.

Kathy Oliver, International Brain Tumour Alliance (IBTA), Tadworth, UK.

Stuart Farrimond, International Brain Tumour Alliance (IBTA), Tadworth, UK.

Tess Chee, Department of Health Sciences, McMaster University, Hamilton, Ontario, Canada.

Philip O’Halloran, Department of Physiology and Medical Physics, Royal College of Surgeons in Ireland (RCSI), Dublin, Ireland; Department of Neurosurgery, Queen Elizabeth Hospital, Birmingham, UK.

Martin Glas, Division of Clinical Neurooncology, Department of Neurology and German Cancer Consortium (DKTK) Partner Site, University Hospital Essen, University Duisburg-Essen, Essen, Germany; German Innovation Alliance Cancer & Brain e.V., Berlin, Germany.

International Brain Tumour Alliance (IBTA) Senior Advisors, International Brain Tumour Alliance (IBTA), Tadworth, UK.

Gelareh Zadeh, Division of Neurosurgery, Department of Surgery, University of Toronto, Toronto, Ontario, Canada.

International Brain Tumour Alliance (IBTA) Senior Advisors:

Jean Arzbaecher, Carol Kruchko, Mary Ellen Maher, Chris Tse, Rosemary Cashman, Maureen Daniels, Christine Mungoshi, Sharon Lamb, Anita Granero, Mary Lovely, Jenifer Baker, and Sally Payne

Funding

While no specific funding supported this manuscript, the IBTA acknowledges that it does accept educational and nondirected grants for its work from a number of pharmaceutical and medical device companies. The IBTA also accepts a small number of donations from the general public and on occasion has been supported by private trusts/bequests. In 2021, the IBTA as a not-for-profit received a grant from Pfizer for its 2021 initiatives of which the brain tumour patients and vaccines survey was one of a number of projects undertaken during that year. For more information about the IBTA’s sponsorship policy and funders, please visit www.theibta.org.

Conflict of interest statement. None declared.

Authorship Statement. Design of the survey and question selection: K.O., S.F., IBTA Senior Advisors, and numerous brain tumor patient advocacy groups (PAGs) and healthcare professionals. Dissemination of survey: K.O., S.F., IBTA Senior Advisors, and healthcare professionals. Collection of all survey responses: K.O. and S.F. Analysis of all survey responses: M.R.V., T.C., and G.Z. Manuscript preparation: M.R.V., T.C., K.O., S.F., P.O., M.G., and G.Z. All authors read, edited, and approved the final manuscript.

References

1. World Health Organization (WHO). Coronavirus (COVID-19) Dashboard. 2022. https://covid19.who.int/. Accessed April 19, 2022.
2. Boseley S. The race to make a COVID-19 vaccine. Lancet. 2021;398(10303):832–833. [DOI] [PMC free article] [PubMed] [Google Scholar]
3. Voysey M, Clemens SA, Madhi SA, et al. Safety and efficacy of the ChAdOx1 nCoV-19 vaccine (AZD1222) against SARS-CoV-2: an interim analysis of four randomised controlled trials in Brazil, South Africa, and the UK. Lancet. 2021;397(10269):99–111. [DOI] [PMC free article] [PubMed] [Google Scholar]
4. Polack FP, Thomas SJ, Kitchin N, et al. Safety and efficacy of the BNT162b2 mRNA Covid-19 vaccine. N Engl J Med. 2020;383(27):2603–2615. [DOI] [PMC free article] [PubMed] [Google Scholar]
5. Moderna. Moderna’s Work on Our COVID-19 Vaccine. 2022. https://www.modernatx.com/modernas-work-potential-vaccine-against-covid-19. Accessed January 19, 2022.
6. Ledford H, Cyranoski D, Van Noorden R. The UK has approved a COVID vaccine—here’s what scientists now want to know. Nature. 2020;588(7837):205–206. [DOI] [PubMed] [Google Scholar]
7. Gee J, Marquez P, Su J, et al. First month of COVID-19 vaccine safety monitoring—United States, December 14, 2020–January 13, 2021. Morb Mortal Wkly Rep. 2021 Feb 26;70(8):283–288. [DOI] [PMC free article] [PubMed] [Google Scholar]
8. CDC. Pfizer-BioNTech COVID-19 Vaccine (Also Known as COMIRNATY) Overview and Safety.2022. https://www.cdc.gov/coronavirus/2019-ncov/vaccines/different-vaccines/Pfizer-BioNTech.html. Accessed April 19, 2022.
9. VIPER Group. COVID-19 Vaccine Tracker: Vaccines Candidates in Clinical Trials. 2022. https://covid19.trackvaccines.org/vaccines/. Accessed April 19, 2022.
10. Voisin MR, Oliver K, Farrimond S, et al. Brain tumors and COVID-19: the patient and caregiver experience. Neuro-oncol Adv. 2020;2(1):vdaa104. [DOI] [PMC free article] [PubMed] [Google Scholar]
11. Amidei C, Arzbaecher J, Maher ME, et al. The brain tumor not-for-profit and charity experience of COVID-19: reacting and adjusting to an unprecedented global pandemic in the 21st century. Neuro-Oncol Adv. 2021;3(1):vdaa166. [DOI] [PMC free article] [PubMed] [Google Scholar]
12. Strauss A, Corbin J.. Basics of Qualitative Research. Newbury Park, CA: Sage Publications; 1990. [Google Scholar]
13. CDC. Vaccines & Immunizations. Pfizer-BioNTech COVID-19 Vaccine Reactions & Adverse Events.2022. https://www.cdc.gov/vaccines/covid-19/info-by-product/pfizer/reactogenicity.html. Accessed April 12, 2022.
14. CDC. COVID Data Tracker.2022. https://covid.cdc.gov/covid-data-tracker/#datatracker-home. Accessed January 19, 2022.
15. GOV.UK. Coronavirus (COVID-19) in the UK: Vaccinations in United Kingdom.2022. https://coronavirus.data.gov.uk/details/vaccinations. Accessed April 12, 2022.
16. NHS. COVID-19 Vaccinations. 2022. https://www.england.nhs.uk/statistics/statistical-work-areas/covid-19-vaccinations/. Accessed January 19, 2022.
17. van der Veldt AA, Oosting SF, Dingemans AM, et al. COVID-19 vaccination: the VOICE for patients with cancer. Nat Med. 2021;27(4):568–569. [DOI] [PubMed] [Google Scholar]
18. Sudan A, Iype R, Kelly C, Iqbal MS. Optimal timing for COVID-19 vaccination in oncology patients receiving chemotherapy? Clin Oncol (R Coll Radiol). 2021;33(4):e222. [DOI] [PMC free article] [PubMed] [Google Scholar]
19. Rajan S, Akhtar N, Sharma S, Chakrabarti D, Kumar V. COVID-19 vaccination for cancer patients: evidence, priority, and practice. Vaccine. 2021;39(36):5075–5077. [DOI] [PMC free article] [PubMed] [Google Scholar]
20. Sallam M. COVID-19 vaccine hesitancy worldwide: a concise systematic review of vaccine acceptance rates. Vaccines. 2021;9(2):160–173. [DOI] [PMC free article] [PubMed] [Google Scholar]
21. Conti R, Akesson J, Weiss E, et al. COVID-19 Vaccine Hesitancy among Blood Cancer Patients . Leukemia & Lymphoma Society; 2021. https://www.lls.org/research/covid-19-vaccine-hesitancy-among-blood-cancer-patients. Accessed April 19, 2022. [Google Scholar]
22. Tsai R, Hervey J, Hoffman K, et al. COVID-19 vaccine hesitancy and acceptance among individuals with cancer, autoimmune diseases, or other serious comorbid conditions: cross-sectional, internet-based survey. JMIR Public Health Surveill. 2022;8(1):e29872. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0001] 1. World Health Organization (WHO). Coronavirus (COVID-19) Dashboard. 2022. https://covid19.who.int/. Accessed April 19, 2022.

[CIT0002] 2. Boseley S. The race to make a COVID-19 vaccine. Lancet. 2021;398(10303):832–833. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0003] 3. Voysey M, Clemens SA, Madhi SA, et al. Safety and efficacy of the ChAdOx1 nCoV-19 vaccine (AZD1222) against SARS-CoV-2: an interim analysis of four randomised controlled trials in Brazil, South Africa, and the UK. Lancet. 2021;397(10269):99–111. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0004] 4. Polack FP, Thomas SJ, Kitchin N, et al. Safety and efficacy of the BNT162b2 mRNA Covid-19 vaccine. N Engl J Med. 2020;383(27):2603–2615. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0005] 5. Moderna. Moderna’s Work on Our COVID-19 Vaccine. 2022. https://www.modernatx.com/modernas-work-potential-vaccine-against-covid-19. Accessed January 19, 2022.

[CIT0006] 6. Ledford H, Cyranoski D, Van Noorden R. The UK has approved a COVID vaccine—here’s what scientists now want to know. Nature. 2020;588(7837):205–206. [DOI] [PubMed] [Google Scholar]

[CIT0007] 7. Gee J, Marquez P, Su J, et al. First month of COVID-19 vaccine safety monitoring—United States, December 14, 2020–January 13, 2021. Morb Mortal Wkly Rep. 2021 Feb 26;70(8):283–288. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0008] 8. CDC. Pfizer-BioNTech COVID-19 Vaccine (Also Known as COMIRNATY) Overview and Safety.2022. https://www.cdc.gov/coronavirus/2019-ncov/vaccines/different-vaccines/Pfizer-BioNTech.html. Accessed April 19, 2022.

[CIT0009] 9. VIPER Group. COVID-19 Vaccine Tracker: Vaccines Candidates in Clinical Trials. 2022. https://covid19.trackvaccines.org/vaccines/. Accessed April 19, 2022.

[CIT0010] 10. Voisin MR, Oliver K, Farrimond S, et al. Brain tumors and COVID-19: the patient and caregiver experience. Neuro-oncol Adv. 2020;2(1):vdaa104. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0011] 11. Amidei C, Arzbaecher J, Maher ME, et al. The brain tumor not-for-profit and charity experience of COVID-19: reacting and adjusting to an unprecedented global pandemic in the 21st century. Neuro-Oncol Adv. 2021;3(1):vdaa166. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0012] 12. Strauss A, Corbin J.. Basics of Qualitative Research. Newbury Park, CA: Sage Publications; 1990. [Google Scholar]

[CIT0013] 13. CDC. Vaccines & Immunizations. Pfizer-BioNTech COVID-19 Vaccine Reactions & Adverse Events.2022. https://www.cdc.gov/vaccines/covid-19/info-by-product/pfizer/reactogenicity.html. Accessed April 12, 2022.

[CIT0014] 14. CDC. COVID Data Tracker.2022. https://covid.cdc.gov/covid-data-tracker/#datatracker-home. Accessed January 19, 2022.

[CIT0015] 15. GOV.UK. Coronavirus (COVID-19) in the UK: Vaccinations in United Kingdom.2022. https://coronavirus.data.gov.uk/details/vaccinations. Accessed April 12, 2022.

[CIT0016] 16. NHS. COVID-19 Vaccinations. 2022. https://www.england.nhs.uk/statistics/statistical-work-areas/covid-19-vaccinations/. Accessed January 19, 2022.

[CIT0017] 17. van der Veldt AA, Oosting SF, Dingemans AM, et al. COVID-19 vaccination: the VOICE for patients with cancer. Nat Med. 2021;27(4):568–569. [DOI] [PubMed] [Google Scholar]

[CIT0018] 18. Sudan A, Iype R, Kelly C, Iqbal MS. Optimal timing for COVID-19 vaccination in oncology patients receiving chemotherapy? Clin Oncol (R Coll Radiol). 2021;33(4):e222. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0019] 19. Rajan S, Akhtar N, Sharma S, Chakrabarti D, Kumar V. COVID-19 vaccination for cancer patients: evidence, priority, and practice. Vaccine. 2021;39(36):5075–5077. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0020] 20. Sallam M. COVID-19 vaccine hesitancy worldwide: a concise systematic review of vaccine acceptance rates. Vaccines. 2021;9(2):160–173. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CIT0021] 21. Conti R, Akesson J, Weiss E, et al. COVID-19 Vaccine Hesitancy among Blood Cancer Patients . Leukemia & Lymphoma Society; 2021. https://www.lls.org/research/covid-19-vaccine-hesitancy-among-blood-cancer-patients. Accessed April 19, 2022. [Google Scholar]

[CIT0022] 22. Tsai R, Hervey J, Hoffman K, et al. COVID-19 vaccine hesitancy and acceptance among individuals with cancer, autoimmune diseases, or other serious comorbid conditions: cross-sectional, internet-based survey. JMIR Public Health Surveill. 2022;8(1):e29872. [DOI] [PMC free article] [PubMed] [Google Scholar]

PERMALINK

Brain tumor patients and COVID-19 vaccines: results of an international survey

Mathew R Voisin

Kathy Oliver

Stuart Farrimond

Tess Chee

Philip O’Halloran

Martin Glas

Gelareh Zadeh

Abstract

Background

Methods

Results

Conclusions

Key Points.

Importance of the Study.

Methods

Table 1.

Results

Survey Responses and Patient Demographics

Table 2.

COVID-19 Testing and Vaccination Status

Vaccination Programs

Vaccination Hesitancy and Side Effects

Table 3.

Caregiver Vaccination Status and Views

Final Thoughts

Discussion

Limitations

Conclusions

Acknowledgments

Contributor Information

Funding

References

ACTIONS

PERMALINK

RESOURCES

Cite

Add to Collections

PERMALINK

Brain tumor patients and COVID-19 vaccines: results of an international survey

Mathew R Voisin

Kathy Oliver

Stuart Farrimond

Tess Chee

Philip O’Halloran

Martin Glas

Gelareh Zadeh

Abstract

Background

Methods

Results

Conclusions

Key Points.

Importance of the Study.

Methods

Table 1.

Results

Survey Responses and Patient Demographics

Table 2.

COVID-19 Testing and Vaccination Status

Vaccination Programs

Vaccination Hesitancy and Side Effects

Table 3.

Caregiver Vaccination Status and Views

Final Thoughts

Discussion

Limitations

Conclusions

Acknowledgments

Contributor Information

Funding

References

ACTIONS

PERMALINK

RESOURCES

Similar articles

Cited by other articles

Links to NCBI Databases