Clinical Trial Details
— Status: Recruiting
Administrative data
NCT number |
NCT04632173 |
Other study ID # |
HERODOTUS |
Secondary ID |
|
Status |
Recruiting |
Phase |
|
First received |
|
Last updated |
|
Start date |
May 3, 2021 |
Est. completion date |
December 30, 2022 |
Study information
Verified date |
March 2022 |
Source |
Hellenic Cooperative Oncology Group |
Contact |
Amanda Psyrri, MD |
Phone |
+302105831664 |
Email |
psyrri237[@]yahoo.com |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational
|
Clinical Trial Summary
To develop an International registry on head and neck cancer patients infected with COVID-19
Description:
On 11 March, the World Health Organization (WHO) formally declared the corona virus
disease-19 (COVID-19) outbreak a pandemic. After the first cluster of cases emerged from
Wuhan, in China, at the end of 2019, up today almost 2 million cases of infections from
severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have been diagnosed across all
five continents in the last few months.By the end of February 2020 COVID-19 had already hit
Europe hard, particularly Italy, with 12462 confirmed cases according to the Istituto
Superiore di Sanità as of March 11th, and 827 deaths. Considering the high transmissibility
and the severe disease occurrence in a fraction of the population, healthcare systems face a
great challenge. The estimated risk of death varies, indeed from the 12% In China at the peak
of the epidemic, to ≈1% in less affected regions including Europe, USA, Australia, Latin
America, Iran, and Canada.COVID-19 morbidity and mortality have been linked to elderly age
and comorbidities, leading to a poorer outcome from the viral infection in frail patients,
more often resulting in hospitalization, intensive care unit admittance and need for invasive
tracheal intubation. Among 2 such individuals, cancer patients represent a large subgroup at
high risk of developing coronavirus infection and its severe complications. A recent
nationwide analysis in China demonstrated that, of 1590 COVID-19 cases from 575 hospitals, 18
had a history of cancer (1% vs 0.29% of cancer incidence in the overall Chinese population,
respectively), with lung cancer as the most frequent diagnosis. Patients with cancer were
observed to have a higher risk of severe events compared with patients without cancer (39 vs
8%; p = 0.0003). Moreover, cancer patients who underwent recent chemotherapy or surgery had a
higher risk of clinically severe events than did those not receive treatment. With the limit
of a small sample size, the authors concluded that patients with cancer might have a higher
risk of COVID-19, and poorer outcomes, than individuals without cancer. As a consequence,
they recommended considering an intentional postponement of adjuvant chemotherapy or elective
surgery for stable cancer in endemic areas. Nevertheless, as subsequently highlighted by
other authors, the true incidence of COVID-19 in patients with cancer would be more
informative in assessing whether such patients have an increased risk (and morbidity) from
this viral illness. Furthermore, COVID-19 pandemic has led to delay in cancer diagnosis and
modifications in cancer treatment to limit as much as possible the number of patients in
order to reduce the risks of contamination by the SARS-Cov-2 virus for both patients and the
caregivers. Arduino PG et al reported a substantial delay in oral cancer diagnosis in
north-west Italy due to COVID19 outbreak. In addition, the management of cancer patients is
modified during the COVID-19 pandemic including delays in surgery, delays and modification of
radiation treatment schedule. Cancer Societies have issued treatment guidelines of cancer
patients during COVID-19 which include treatment adjustments the impact of which is currently
unknown. In addition, the coexistence of COVID-19 and cancer may increase the incidence of
treatment complications such as postoperative thrombosis and pulmonary emboli. For COVID-19 +
thyroid cancer patients treated with tyrosine kinase inhibitors, treatment complications and
outcomes are very relevant clinical questions. Furthermore, the limited cancer patient
population described in this first report from the literature, was characterized by the lack
of individuals receiving anticancer immunotherapy. Indeed, only chemotherapy and surgery were
cited among treatments received by patients in the month prior to developing COVID-19. Maybe,
this could simply be due to the casualty of a small sample, or otherwise, it could suggest
that cancer patients receiving immunotherapy are less prone to develop COVID-19 or to be
admitted in hospital due to severe coronavirus symptoms. Currently, we are aware of the
probably higher incidence of misdiagnosed coronavirus infections compared with that reported
and updated every day; it is likely that a large portion of healthy and young population
develop COVID-19 with mild symptoms, not requiring hospital admittance and thus escaping the
laboratory confirmation of the disease.
Cancer patients undergoing treatment with anti-PD-1/PD-L1 currently used in everyday practice
to treat head and neck carcinoma constitute a growing oncological population. Their specific
susceptibility to bacterial or viral infections has not been investigated. Considering that
immunotherapy with Immune Checkpoint Inhibitors (ICI) is able to restore the cellular
immunocompetence, as it was previously suggested in the context of influenza infection, the
patient undergoing immune checkpoint blockade could be more immunocompetent than cancer
patients undergoing chemotherapy. In the recent weeks, in the countries heavily affected by
the COVID-19 outbreak, such as Italy, scientific associations recommended the prudential
postponing of active cancer treatments,especially for stable patients not needing urgent
interventions. On one hand, this recommendation could be reasonable for advanced cancer
patients receiving chemotherapy, with the risk of hematological toxicity and of worsening an
immunosuppressed status, thus favoring COVID-19 morbidity. On the other hand, some
oncologists are even currently wondering about the risk of administering ICI in the middle of
the COVID-19 outbreak, essentially due to two major concerns.
The first seems to be represented by the potential overlap between the coronavirus-related
interstitial pneumonia and the possible pneumological toxicity from anti-PD-1/PD-L1 agents.
Even if lung toxicity is not the most frequent adverse event of ICI, it can be life
threatening.
The overall incidence rate of ICI-related pneumonitis ranges from 2.5-5% with anti-PD1/PDL1
monotherapy to 7-10% with anti-CTLA-4/anti-PD-1 combination therapy. The dominant
radiological pattern of lung Immune-related Adverse Events (irAEs) is organizing
pneumonia,but ICI-related pneumonitis could exhibit a variety of patterns, also including
nonspecific interstitial pneumonitis. Despite being rarer than other irAEs, pneumonitis is
the most fatal Adverse Event (AE) associated with PD-1/PD-L1 inhibitor therapy, accounting
for 35% of treatment-related toxic deaths. Considering that underlying lung disease,
particularly including interstitial pneumopathy, is considered a risk factor for ICI-related
pneumonitis, it could be reasonable taking into account the risk of treating patients while
they are developing an initial form of COVID-19. The synergy between the two lung injuries,
despite only hypothetical, cannot be surely ruled out. Nevertheless, such an epidemiological
coincidence should not prevent the oncologist from offering a potentially effective and often
well-tolerated treatment even in the middle of the COVID-19 outbreak, since the duration of
the pandemic is still currently unpredictable. The second concern seems to be represented by
a possible negative interference of ICI in the pathogenesis of COVID-19. Cytokine-release
syndrome (CRS) is a phenomenon of immune hyperactivation typically described in the setting
of T cell-engaging immunotherapy, including Chimeric Antigen Receptor (CAR)-T cell therapy
but also anti-PD-1 agents. CRS is characterized by elevated levels of Interleukin (IL)-6,
Interferon (IFN)- γ and other cytokines, provoking consequences and symptoms related to
immune activation, ranging from fever, malaise and myalgias to severe organ toxicity, lung
failure and death. In parallel, one of the most important mechanisms underlying the
deterioration of disease in COVID-19 is represented by the cytokine storm, leading to acute
respiratory distress syndrome or even multiple organ failure. The cytometric analyses of
COVID-19 patients showed reduced counts of peripheral CD4 and CD8 T cells, while their status
was hyperactivated. In addition, an increased concentration of highly proinflammatory CCR6+
Th17 in CD4 T cells has been reported, and CD8 T cells were found to harbor high
concentrations of cytotoxic granules, suggesting that over activation of T cells tends to
contribute to the severe immune injury of the disease. Moreover, the pathological findings
associated with acute respiratory distress syndrome in COVID-19 showed abundant interstitial
mononuclear inflammatory infiltrate in the lungs, dominated by lymphocytes, once again
implying that the immune hyperactivation mechanisms are at least partially accountable for
COVID-19 severity. Considering these aspects, the hypothesis of a synergy between ICI
mechanisms and COVID-19 pathogenesis, both contributing to a counter-producing immune
hyperactivation, cannot be excluded. In spite of this fascinating rationale, we should
remember that ICI-induced CRS is a quite rare phenomenon as well as that the cytokine storm
is not an early event in the COVID-19 pathogenesis, indeed characterizing the late phase of
its most severe manifestation, occurring in a minority of patients. It is not likely that
cancer patients are still receiving ICI during this phase of the viral illness. Obviously, in
the current pandemic scenario, careful attention should be dedicated in delaying treatment
for those patients presenting flu-like symptoms at the time of the intended ICI treatment.
Considering this background, we propose a global registry to describe and monitor head and
neck cancer patients with COVID-19; identify factor associated with severe complications;
develop a tailored risk assessment strategy for head and neck cancer patients; and develop
treatment recommendations for head and neck cancer patients.