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A multi-centre Australian trial with four arms aims to evaluate several different immune modulating drugs for prevention and treatment of COVID-19 specifically in the cancer population.
ARM 1 is evaluating the effect of interferon-alpha (vs placebo) on the incidence of COVID-19 infection in cancer patients with no COVID-19 infection or no known COVID-19 positive contacts.
ARM 2 is evaluating the effect of interferon-alpha (vs placebo) on the incidence of COVID-19 infection in cancer patients with confirmed exposure to COVID-19 virus.
ARM 3 is evaluating the effect of Selinexor (vs placebo) on the incidence of COVID-19 infection in cancer patients with moderate COVID-19 infection.
ARM 4 is evaluating the effect of Lenzilumab (vs placebo) on the treatment of COVID-19 infection in cancer patients with severe COVID-19 infection.
Participants may become eligible and transition to different arms and treatments if they become exposed to COVID-19 or are hospitalised with an active moderate/severe COVID-19 infection.
It is hoped this research will provide insight into the best practice for prevention and treatment of COVID-19 in cancer patients as emerging standard of care measures are not always suitable to this especially vulnerable population.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| prophylaxis | Experimental | This study arm (arm 1) is evaluating the effect of interferon-alpha on the incidence of COVID-19 infection in cancer patients with no COVID-19 infection or no known COVID-19 positive contacts. Participants in this study arm are randomly allocated (by chance) to one of two groups. One group will receive daily interferon-alpha intranasal spray for 3 months while the other group will receive a daily placebo intranasal spray for 3 months. Participants will be followed during the 3-month treatment for incidence of COVID-19 and other respiratory infections. |
|
| Post-Exposure Prophylaxis | Experimental | This study arm (arm 2) is evaluating the effect of interferon-alpha on the incidence of COVID-19 infection in cancer patients with confirmed exposure to COVID-19 virus. Participants in this study arm are randomly allocated (by chance) to one of two groups. One group will receive daily interferon-alpha intranasal spray for 7 days (at a higher dose than arm 1) while the other group will receive a daily placebo intranasal spray for 7 days Participants will be followed for 28 days for incidence of COVID-19 and other respiratory infections. |
|
| Moderate COVID-19 infection | Experimental | This study arm (arm 3) is evaluating the effect of Selinexor on the incidence of COVID-19 infection in cancer patients with moderate COVID-19 infection. Participants in this study arm are randomly allocated (by chance) to one of two groups. One group will receive oral Selinexor 3 times a week for 2 weeks while the other group will receive oral placebo 3 times a week for 2 weeks Participants will be followed for 60 days to assess effectiveness and safety. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Interferon alfa | Drug | intranasal spray |
| |
| Measure | Description | Time Frame |
|---|---|---|
| Incidence of COVID-19 in cancer patients using interferon-alpha as prophylaxis without known positive contact with COVID-19 (COVID-19 confirmed by qPCR from respiratory swab) | Incidence of COVID-19 in cancer patients using interferon-alpha as prophylaxis without known positive contact with COVID-19 (COVID-19 confirmed by qPCR from respiratory swab) | 3 months from baseline. |
| incidence of any upper or lower community acquired respiratory viral infection assessed using local standard of care testing | incidence of any upper or lower community acquired respiratory viral infection (define as identification of respiratory viruses such as coronavirus other than SARS-CoV-2, influenza, parainfluenza, respiratory syncytial virus, rhinovirus, adenovirus, human metapneumovirus). assessed using local standard of care testing (e.g. respiratory swabs, saliva and/or blood) | 3 months from baseline. |
| incidence of COVID-19 when Interferon alpha is given as post-exposure prophylaxis with a known positive contact or exposure with COVID-19. COVID-19 confirmed by qPCR from respiratory swab . | incidence of COVID-19 when Interferon alpha is given as post-exposure prophylaxis with a known positive contact or exposure with COVID-19. COVID-19 confirmed by qPCR from respiratory swab . | 28 days from baseline |
| incidence of any upper or lower community acquired respiratory viral infection assessed using local standard of care testing | incidence of any upper or lower community acquired respiratory viral infection (define as identification of respiratory viruses such as coronavirus other than SARS-CoV-2, influenza, parainfluenza, respiratory syncytial virus, rhinovirus, adenovirus, human metapneumovirus). Assessed using local standard of care testing (e.g. respiratory swabs, saliva and/or blood) | 28 days from baseline |
| incidence of death and/or need for invasive or non-invasive ventilation. assessed using medical records |
| Measure | Description | Time Frame |
|---|---|---|
| ARM 1: Duration of acute respiratory/ILI symptoms in case of confirmed respiratory infection during the study period. Assessed using patient symptom Diary PRO tool | ARM 1, secondary endpoint 1 Duration of acute respiratory/ILI symptoms in case of confirmed respiratory infection during the study period. (composite either COVID-19 or other respiratory viral infection). assessed using a take-home PRO specifically developed and approved for this study entitled "patient symptom Diary". in combination with any relevant medical records. |
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Inclusion Criteria:
ARM 1:
ARM 2
ARM 3 1. Age equal to or greater than 18 years of age. 2. Any haematological or solid tumour 3. Current or within the last 12 months received cancer related treatment such as chemotherapy, radiotherapy or targeted small molecule, cellular therapy or immune-modulating therapy 4. Signed written and verbal informed consent 5. Laboratory confirmation of SARS-CoV-2 by PCR as per local laboratory assays 6. Hospitalised 7. Symptoms of COVID-19 such as:
Fever equal to or greater than 38 degrees Celsius OR
Tachypnoea respiratory rate equal to or greater than 20 breaths/min OR
Pulse Oxygen saturation (SpO2) equal to or less than 94% 8. Concurrent standard of care antimicrobials, antivirals are allowed. 9. Female and male patients of child bearing potential will use highly effective contraception. In female child bearing potential participants a negative urine pregnancy test will be required.
ARM 4
Exclusion Criteria:
ARM 1
ARM 2
ARM 3
Unable to take oral medication
Any known allergic reactions to selinexor or concomitant medication-related contra-indications to selinexor.
Severe critical COVID-19 infection defined as:
In the opinion of the investigator and primary oncologist, participation in the study would not be in the best interests of the participant
Severe renal impairment defined as creatinine clearance (CrCL) < 20ml/min as calculated using the Cockcroft Gault formula
Severe hepatic impairment defined as aspartate transaminase (AST) or alanine transaminase (ALT) > 5 x upper limit of normal (ULN)
ARM 4
1. Invasive mechanical ventilation or extracorporeal membrane oxygenation (ECMO) 2. History of pulmonary alveolar proteinosis (PAP). 3. Women of childbearing potential who are pregnant or breastfeeding. 4. Known hypersensitivity to lenzilumab or any of its components. 5 .Use of any FDA-approved anti-IL-6 therapy (eg. tocilizumab, sarilumab, siltukimab), anti-IL-1 therapy (eg. anakinra, canakinumab) or kinase inhibitor (eg.baracitinib, ibrutinib, acalabrutinib) therapy to treat COVID-19 within 8 weeks prior to randomization. Any live vaccine within 8 weeks prior to randomisation. Note that subjects receiving other FDA-approved immunomodulators to treat underlying autoimmune disorders such as rheumatoid arthritis, psoriasis, ankylosing spondylitis, asthma, chronic obstructive pulmonary disease, atopic dermatitis, multiple sclerosis, etc. would not be excluded. Participants on corticosteroids or dexamethasone are not excluded from the study. Note: Participants on convalescent plasma, remdesivir and/or hydroxychloroquine with or without azithromycin are not excluded from the study.
6. Use of GM-CSF agents (e.g., sargramostim) within 8 weeks prior to randomisation.
7. Expected survival < 24h in the opinion of the investigator. 8. Any condition that, in the opinion of the investigator, is likely to interfere with the safety and efficacy of the study treatment or puts the subject at unacceptably high risk from the study.
9. Participation in another interventional study of COVID-19
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Westmead Hospital | Westmead | New South Wales | 2145 | Australia | ||
| St Vincent's Hospital |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 40874769 | Derived | Yong MK, Thursky K, Crane M, Spelman T, Mahar RK, Simpson JA, Scott AM, Harrison SJ, Szer J, Pellegrini M, Lingaratnam S, Pang KC, Tennakoon S, Sim BZ, Blyth E, Gan HK, Quach H, McIntosh MP, Page H, Woolstencroft R, Slavin M. Interferon-alpha Nasal Spray Prophylaxis Reduces COVID-19 in Cancer Patients: A Randomized, Double-Blinded, Placebo-Controlled Trial. Clin Infect Dis. 2026 Feb 25;82(2):e208-e216. doi: 10.1093/cid/ciaf409. | |
| 34473343 |
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the study uses a SMART design. (sequential multiple arm randomised trial) meaning that participants can enter into the study and progress through the subsequent arms if they meet the additional eligibility criteria (for instance, pre-covid > post exposure > develop moderate infection > infection becomes severe) it is important to note that participants can enter into the study at any point and do not have to transition into the other arms
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double blinding from central system.
| Severe COVID-19 infection | Experimental | This study arm (arm 4) is evaluating the effect of Lenzilumab on the treatment of COVID-19 infection in cancer patients with severe COVID-19 infection. Participants in this study arm are randomly allocated (by chance) to one of two groups. One group will receive intravenous Lenzilumab over 24 hours while the other group will receive placebo intravenously over 24 hours. Participants will be followed for 60 days to assess effectiveness and safety. |
|
| Selinexor |
| Drug |
oral tablet |
|
| Lenzilumab | Drug | intravenous infusion |
|
composite outcome: incidence of death and/or need for invasive or non-invasive ventilation. assessed using medical records |
| 60 days from baseline |
| time to clinical improvement or discharge from hospital assessed using medical records | time to clinical improvement (defined as a two point reduction in clinical progress ordinal scale) or discharge from hospital, whichever occurs first. assessed using medical records | 28 days from baseline |
| 120 days from baseline |
| ARM 1: Time to diagnosis of COVID-19 in case of confirmed COVID-19 diagnosed during the study period (days). Assessed using patient medical records | ARM 1, secondary endpoint 2 Time to diagnosis of COVID-19 in case of confirmed COVID-19 diagnosed during the study period (days). Assessed using patient medical records | 120 days from baseline |
| ARM 1: Time to diagnosis of other respiratory viral infection in case of confirmed other respiratory viral infection diagnosed during the study period (days). assessed using patient medical records | ARM 1, secondary endpoint 3. Time to diagnosis of other respiratory viral infection in case of confirmed other respiratory viral infection diagnosed during the study period (days). assessed using patient medical records | 120 days from baseline |
| ARM 1: Illness severity in case of confirmed COVID-19 diagnosed during the study period using WHO clinical progression scale | ARM 1, secondary endpoint 4 Illness severity in case of confirmed COVID-19 diagnosed during the study period, defined as the maximal score on the World Health Organization (WHO)'s clinical progression scale ranging from 0 (uninfected) to 10 (death) | 120 days from baseline |
| ARM 1: Incidence of unplanned all-cause hospital admission during the study period. assessed using medical records | ARM 1, secondary endpoint 5 Incidence of unplanned all-cause hospital admission during the study period. Composite measure: duration of hospital stay if outcome met. assessed using medical records | 120 days from baseline |
| ARM 1: Incidence of unplanned infection-related hospital admission during the study period. assessed using medical records | ARM 1, secondary endpoint 6 Incidence of unplanned infection-related hospital admission during the study period. Composite measure: duration of hospital stay if outcome met. assessed using medical records | 120 days from baseline |
| ARM 1: Incidence of sero-conversion of SARS-CoV-2 at the end of the study period. assessed using qPCR | ARM 1, secondary endpoint 7 Incidence of sero-conversion of SARS-CoV-2 at the end of the study period. assessed using qPCR | 120 days from baseline |
| ARM 1: Incidence of death from any cause during the study period. assessed using patient medical records | ARM 1, secondary endpoint 8 Incidence of death from any cause during the study period. assessed using patient medical records | 120 days from baseline |
| ARM 1: Incidence of testing for COVID-19 during the study period. assessed using medical records | ARM 1, secondary endpoint 9 Incidence of testing for COVID-19 during the study period. Composite measure: frequency of testing if outcome is met. assessed using medical records | 120 days from baseline |
| ARM 2 Duration of acute respiratory symptoms in case of confirmed COVID-19 diagnosed during the study period. assessed with PRO and medical records. | ARM 2: secondary outcome 1. Duration of acute respiratory symptoms in case of confirmed COVID-19 diagnosed during the study period (days). assessed using a take-home PRO specifically developed and approved for this study entitled "patient symptom Diary". in combination with any relevant medical records. | 28 days from baseline |
| ARM 2: Time to diagnosis of COVID-19 in case of confirmed COVID-19 diagnosed during the study period (days). assessed using medical records | ARM 2: secondary outcome 2. Time to diagnosis of COVID-19 in case of confirmed COVID-19 diagnosed during the study period (days). assessed using medical records | 28 days from baseline |
| ARM 2: Illness severity in case of confirmed COVID-19 diagnosed during the study period. assessed using WHO clinical progression scale. | ARM 2: secondary outcome 3. Illness severity in case of confirmed COVID-19 diagnosed during the study period, defined as the maximal score on the World Health Organization (WHO)'s clinical progression ordinal scale ranging from 0 (uninfected) to 10 (death) | 28 days from baseline |
| ARM 2: Incidence of unplanned all-cause hospital admission during the study period. assessed using medical records. | ARM 2: secondary outcome 4. Incidence of unplanned all-cause hospital admission during the study period. assessed using medical records. | 28 days from baseline |
| ARM 2: Incidence of unplanned infection-related hospital admission during the study period. assessed using medical records | ARM 2: secondary outcome 5 Incidence of unplanned infection-related hospital admission during the study period. assessed using medical records | 28 days from baseline |
| ARM 2: Incidence of seroconversion of SARS-CoV-2 at the end of the study period. assessed using qPCR. | ARM 2: secondary outcome 6 Incidence of seroconversion of SARS-CoV-2 at the end of the study period. assessed using qPCR. | 28 days from baseline |
| ARM 2: Incidence of testing for COVID-19 during the study period assessed using medical records | ARM 2: secondary outcome 7. Incidence of testing for COVID-19 during the study period. Composite measure: frequency of testing if outcome is met. assessed using medical records | 28 days from baseline |
| ARM 3: Time to clinical improvement assessed using medical records. | ARM 3: secondary outcome 1 Time to clinical improvement defined as
| 60 days from baseline |
| ARM 3: Illness severity of COVID-19, defined as the maximal score on the World Health Organization (WHO)'s clinical progression ordinal scale | ARM 3: secondary outcome 2. Illness severity of COVID-19, defined as the maximal score on the World Health Organization (WHO)'s clinical progression ordinal scale ranging from 0 (uninfected) to 10 (death) | 60 days from baseline |
| ARM 3: change to clinical condition assessed with Karnofsky Performance score | ARM 3: secondary outcome 3 change to clinical condition assessed with Karnofsky Performance score | 60 days from baseline |
| ARM 3: Time to progression to severe COVID-19, defined by WHO ordinal scale | ARM 3: secondary outcome 4. Time to progression to severe COVID-19, defined by WHO ordinal scale | 60 days from baseline |
| ARM 3: Time to all-cause mortality | ARM 3: secondary outcome 5 Time to all-cause mortality | 60 days from baseline |
| ARM 3:Duration of hospitalisation assessed using medical records | ARM 3: secondary outcome 6. Duration of hospitalisation. assessed using medical records | at discharge or day 60 whichever is sooner |
| ARM 3: Duration of COVID-19 symptoms assessed using patient reported symptom diary. | ARM 3: secondary outcome 7 Duration of COVID-19 symptoms assessed using a take-home PRO specifically developed and approved for this study entitled "patient symptom Diary". in combination with any relevant medical records. | 60 days from baseline |
| ARM 3: Duration of oxygen supplementation (days). assessed using medical records. | ARM 3: secondary outcome 8. Duration of oxygen supplementation (days). assessed using medical records. | 60 days from baseline |
| ARM 3: change in nasopharyngeal SARS-CoV-2 viral load shedding (assessed via qPCR) | ARM 3: secondary outcome 9 change in nasopharyngeal SARS-CoV-2 viral load shedding (assessed via qPCR) | 60 days from baseline |
| ARM 3: Safety and tolerability of selinexor using relevant medical records | ARM 3: secondary outcome 10. Safety and tolerability of selinexor defined as listing and documentation of frequency and severity of adverse effects. Outcome assessed using any/all of medical records, patient reported, vital signs, ECG, imaging, other investigative procedure as per standard local practice. | 60 days from baseline |
| ARM 3: incidence of changes in blood results relevant to clinical improvement assessed using medical records | ARM 3: secondary outcome 11. composite outcome: incidence of changes in blood results relevant to clinical improvement.
| 60 days from baseline |
| ARM 4: Incidence of all cause death by day 28 and 60 | ARM 4: secondary outcome 1 Incidence of all cause death by day 28 and 60 assessed using medical records | day 28 from baseline and day 60 from baseline |
| ARM 4: Time to all-cause mortality | ARM 4: secondary outcome 2 Time to all-cause mortality assessed using medical records | any time up to 60 days from baseline |
| ARM 4: Illness severity of COVID-19, defined as the maximal score on the World Health Organization (WHO)'s clinical progression ordinal scale | ARM 4: secondary outcome 3 - composite outcome: Illness severity of COVID-19, defined as the maximal score on the World Health Organization (WHO)'s clinical progression ordinal scale ranging from 0 (uninfected) to 10 (death)
| any time up to 60 days from baseline |
| ARM 4: Incidence of ARDS assessed using medical records | ARM 4: secondary outcome 4 Incidence of ARDS. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: incidence of HLH. assessed using medical records | ARM 4: secondary outcome 5 incidence of HLH. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: Duration of hospitalisation. assessed using hospital medical records. | ARM 4: secondary outcome 6 Duration of hospitalisation. assessed using hospital medical records. | at discharge or by day 60 whichever is sooner |
| ARM 4: Proportion discharged from hospital. assessed using medical records | ARM 4: secondary outcome 7 Proportion discharged from hospital. assessed using medical records | at discharge |
| ARM 4: Incidence of mechanical ventilation up to day 28. assessed using medical records | ARM 4: secondary outcome 8. Incidence of mechanical ventilation up to day 28. assessed using medical records | any time up day 28 from baseline |
| ARM 4: Ventilator-free days and proportion who did not receive invasive mechanical ventilation. assessed using medical records | ARM 4: secondary outcome 9 composite outcome: Ventilator-free days and proportion who did not receive invasive mechanical ventilation. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: Organ failure free days and proportion who did not develop organ failure. assessed using medical records. | ARM 4: secondary outcome 10. composite outcome: Organ failure free days and proportion who did not develop organ failure. assessed using medical records. | any time up to 60 days from baseline |
| ARM 4: Incidence and duration of ICU admission. assessed using medical records | ARM 4: secondary outcome 11 composite outcome: Incidence and duration of ICU admission. assessed using medical records | at discharge or by day 60 from baseline. |
| ARM 4: incidence and duration of supplemental oxygen use. assessed using medical records | ARM 4: secondary outcome 12 composite outcome: incidence and duration of supplemental oxygen use. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: Time to clinical improvement defined as National Early Warning Score 2 (NEWS2) of <2 maintained for 24 hours. | ARM 4: secondary outcome 13. Time to clinical improvement defined as National Early Warning Score 2 (NEWS2) of <2 maintained for 24 hours. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: incidence of non-invasive ventilation. assessed using medical records | ARM 4: secondary outcome 14 incidence of non-invasive ventilation. assessed using medical records | any time up to 60 days from baseline |
| ARM 4: number of participants alive and off oxygen at day 60. assessed using medical records. | ARM 4: secondary outcome 15. composite outcome: number of participants alive and off oxygen at day 60. assessed using medical records. | any time up to 60 days from baseline |
| ARM 4: proportion of participants who had improved oxygenation for >48 hours. assessed using medical records | ARM 4: secondary outcome 16 proportion of participants who had improved oxygenation for >48 hours. assessed using medical records | any time up to 28 days from baseline |
| ARM 4: Incidence of adverse events based on the national cancer institute CTCAE v5. Assessed using medical records | ARM 4: secondary outcome 17 Incidence of adverse events based on the national cancer institute CTCAE v5. Assessed using medical records | any time up to day 28 from baseline. |
| ARM 4: incidence of SAEs based on NCI CTCAE v5 assessed using medical records | ARM 4: secondary outcome 18 incidence of SAEs based on NCI CTCAE v5 assessed using medical records | any time up to 28 days from baseline. |
| ARM 4: change in nasopharyngeal SARS-CoV-2 viral load shedding. assessed using qPCR. | ARM 4: secondary outcome 19 change in nasopharyngeal SARS-CoV-2 viral load shedding. assessed using qPCR. | any time up to day 60 from baseline |
| Fitzroy |
| Victoria |
| 3065 |
| Australia |
| Peter MacCallum Cancer Centre | Melbourne | Victoria | 3000 | Australia |
| Royal Melbourne Hospital | Melbourne | Victoria | 3052 | Australia |
| Austin Health | Melbourne | Victoria | 3084 | Australia |
| Derived |
| Kreuzberger N, Hirsch C, Chai KL, Tomlinson E, Khosravi Z, Popp M, Neidhardt M, Piechotta V, Salomon S, Valk SJ, Monsef I, Schmaderer C, Wood EM, So-Osman C, Roberts DJ, McQuilten Z, Estcourt LJ, Skoetz N. SARS-CoV-2-neutralising monoclonal antibodies for treatment of COVID-19. Cochrane Database Syst Rev. 2021 Sep 2;9(9):CD013825. doi: 10.1002/14651858.CD013825.pub2. |
| ID | Term |
|---|---|
| D009369 | Neoplasms |
| D000086382 | COVID-19 |
| ID | Term |
|---|---|
| D011024 | Pneumonia, Viral |
| D011014 | Pneumonia |
| D012141 | Respiratory Tract Infections |
| D007239 | Infections |
| D014777 | Virus Diseases |
| D018352 | Coronavirus Infections |
| D003333 | Coronaviridae Infections |
| D030341 | Nidovirales Infections |
| D012327 | RNA Virus Infections |
| D008171 | Lung Diseases |
| D012140 | Respiratory Tract Diseases |
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| ID | Term |
|---|---|
| D016898 | Interferon-alpha |
| C585161 | selinexor |
| C000710968 | lenzilumab |
| ID | Term |
|---|---|
| D007370 | Interferon Type I |
| D007372 | Interferons |
| D016207 | Cytokines |
| D036341 | Intercellular Signaling Peptides and Proteins |
| D010455 | Peptides |
| D000602 | Amino Acids, Peptides, and Proteins |
| D011506 | Proteins |
| D001685 | Biological Factors |
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