Covid-19 (New Coronavirus) Infection Clinical Trial
Official title:
Health-related Quality of Life (HRQOL) and Physical Performance in Individuals After COVID-19 Induced Hospitalisation and the Impact of a Standard Care Follow-up Program: a Longitudinal Observational Cohort Study
This study aims to observe the long-term health-related quality of life (HRQOL) and physical
performance in individuals hospitalized due to a COVID-19 infection. Therefore, data is
extracted from a study-site standard aftercare program which has been adjusted for this
patient population. This comprehensive aftercare program includes education sessions and
physical exercise. A second aim is to observe adherence and feasibility to the program and if
indicated compare the clinical data and outcomes from patients following the program with
patients denying to participate in guided exercise and education sessions.
It is expected that patients hospitalized due to COVID-19 infection show a reduction in
physical performance and HRQOL directly after discharge. The severity of illness is
hypothesized to be associated with a reduction as well in HRQOL and physical performance
after one-year post-discharge.
Currently, the U.S. National Library of Medicine (April 2nd) reports 282 studies registered
investigating the COVID-19 infection. According to the present knowledge the COVID-19, also
known as novel type Coronavirus or SARS-CoV-2 (severe acute respiratory
syndrome-Coronavirus-2), belongs to a large family of viruses consist-ing of hundreds of
variations and subtypes of this virus (World Health Organisation (WHO)/emergencies, April 2nd
2020). These types of virus' can cause respiratory and gastrointestinal symptoms ranging from
a mild cold to pneumonia. The clinical manifestation of this novel type of Coronavirus -
COVID-19 - was found to cause more severe pneumonia or severe acute respiratory syndrome such
as the acute respiratory distress syndrome (ARDS). According to the data of Arabi and
colleagues (2020) average age in Chinese affected individuals were 60, 40% had comorbid
conditions, 42% required invasive mechanical ventilation and the mortality rate was at 62%.
Epidemiological information from other countries is not yet published. According to the WHO
in the Europe Region, 503730 cases and 33617 deaths were reported since January 25th 2020. In
the 8,5 million populated countries of Switzerland, the number of confirmed cases raised to
23'574 and 756 deaths (Bundesamt für Gesundheit) Situationsbericht, April 9th). According to
this report, the incidence of infection and hospitalization is highest in individuals aged 50
and older with a higher presence registered in men. Nevertheless, a certain number of
affected individuals is between 20 and 50 years which is in accordance with the number
presented from large studies in China (50.7%-55.1%). Among the 23'674 positive tested 2730
are currently hospitalized. Among these 280 individuals require mechanically assisted
ventilation, meaning health care at an intensive care unit (status April 2nd).
In this acute situation of the pandemic, there is an enormous urge to finding a vaccine or
medications to release or prevent severe symptoms and complications due to the new virus.
Therefore, in the listed studies keen interest is on drug interventions to stop the expansion
of this virus. However, knowledge on long-term consequences of physical condition and
psychological state is unknown. Although, taking into account the clinical manifestation
observed in the severe cases negative long-term consequences have to be expected as described
in the following paragraph.
Up to date knowledge exist on the clinical manifestation which varies from asymptomatic to
severe disease with approximately 80% of the cases found to present an asymptomatic carrier.
Thus, about 13.8% to 35% is suffering a severe course including dyspnoea, respiratory
frequency ≥30/minute, desaturation of blood oxygen (≤93%) and or lung infiltrates >50% of the
lung within 24-48 hours. Further signs of hospitalized individuals are fever, cough, myalgia,
fatigue and sputum production. In literature, the clinical picture is described as bilateral
pneumonia or acute respiratory distress syndrome which leads to a severe organ failure of the
lung. These patients require oxygen therapy with invasive (17%) or non-invasive (14%)
mechanically assisted ventilation. And the higher probability of preloaded organ dysfunctions
due to co-morbidities most often high blood pressure (13%), diabetes (4-6%) and COPD (1-5%)
has to be taken into account.
According to the WHO report and Lai et al (2020) between 6.1% to 28%, respectively, were
found to be in a critical stage. Acute respiratory failure, septic shock and/ or multiple
organ failure defined this stage. According to a retrospective analysis from a large
population in Wuhan, these patients require intensive care with most of them presenting
(multi) organ failure with acute respiratory distress (ARDS, 67%), acute kidney injury (29%),
cardiac injury (23%), and liver dysfunction (29%). These patients require invasive or
non-invasive mechanical ventilation. The mortality rate for critically ill COVID-19 patients
varies from 1-4% to 4.3% according to large studies reported by Lai et al. (2020).
According to these statistics, about 4.3% of the 280 patients requiring intensive care in
Switzerland (n=12) would not survive. Taking the current number of 2730 hospitalised patients
reported above, these statistics result in about 2718 individuals surviving severe illness in
Switzerland. A critical point is the high risk of the length of stay on the ward as explained
in the following paragraph.
Patients in the severe and critical state are likely to suffer prolonged length of stay in
the hospital according to Lia et al. (2020) and Wang et al. (2020) (±21 days). Studies on
ARDS and critically ill patients led to strong evidence that prolonged length of stay,
particularly with prolonged mechanical ventilation, leads to a significant negative impact on
lung function, physical activity and emotional state. For example, from 109 patients suffered
an ARDS (age interquartile from 35 to 57) the 5 years follow up showed a relevant reduction
on physical condition (76% of the distance in the 6 Minute Walk Test (6MWT)) when compared to
age and sex-matched norm values. Interestingly, these deficits were found despite normal to
"near"-normal pulmonary function. A recent post-hoc analysis on 116 patients mechanically
ventilated for at least >24h showed that a longer duration of mechanical ventilation and
exposure to norepinephrine were associated with intensive-care-unit acquired weakness
(ICU-AW; defined as <48/100 on the Medical Research Council Score). Hatch et al. (2018) for
example found in their multicenter follow-up study, that 46% of the survivors of critical
illness suffered from anxiety, 40% from depression and 22% from post-traumatic stress
disorder (PTSD). In the specific population of ARDS survivors (n=74) numbers are slightly
lower ranging from moderate to severe depression in 16% and 23%, respectively and for anxiety
24% and 23% at 1 and 2 years, respectively. These findings on survivors of ARDS and critical
illness underline the assumption that survivors of a COVID-19 induced hospitalized will
suffer from physical and psychological long-term consequences.
In research on critical illness post-ICU, only moderate evidence and large risk of bias exist
on the effect of follow-up rehabilitation post-ICU. However, some qualitative studies support
the thought that patients might need additional care after discharge home. King et al. (2019)
investigated in their scoping review of qualitative studies the needs of critical illness
survivors and found that after discharge home patients had continuing information needs on
understanding their critical illness and coping with the long-term sequelae and stress.
These qualitative findings were underlined and supported by quantitative studies
investigating long-term effects in this population. In patients who suffered an acute
respiratory failure greatest change in physical function was found two months after
discharge. And in ICU survivors requiring one or more weeks of mechanical ventilation the
degree of disability one week after ICU discharge was predictive for physical and mental
recovery and mortality in the one-year follow up.
In contrast to the findings on critical illness aftercare programs were found having a
positive impact in a population with pulmonary disease. In survivors of ARDS due to severe
influenza, A pneumonitis an 8-week pulmonary rehabilitation program improved significantly
exercise capacity and quality of life improved significantly. And in patients with chronic
obstructive pulmonary disease (COPD), the American Thoracic Society recommends respiratory
rehabilitation early after discharge. Furthermore, according to the NICE guidelines
"Rehabilitation after critical illness in adults" patients with rehabilitation needs should
be seen two to three months after hospital discharge and should be reassessed to establish
health and social care needs.
Additionally, based on an expert consensus following questions are still unanswered and
considered as being relevant for the rehabilitation of these patients. Some examples are
listed below:
- "What proportion of COVID-19 survivors have (extra-pulmonary) physical, functional,
emotional and sociable treatable traits, justifying rehabilitation…?"
- "What types of patients will exist post-COVID-19 (e.g. good recovery, frailty,
persistent respiratory impairment) and in what proportion?"
- "What is the impact of a COVID-19-related prolonged ward stay on physical and emotional
functioning?
- What are the opportunities to intervene early, immediately post-acute hospital
discharge?
- For how long after hospital discharge are COVID-19 survivors contagious? The latter two
questions are cardinal to provide safe and feasible rehabilitation post-acute hospital
discharge. To present the feasibility and safety of the aftercare program developed and
conducted on the study site a short excurse on literature is provided.
Recent knowledge (published February 28 and 1st of April) from high impact journals give
following solid time frames on viral shedding according to the traceability of Covid-19 RNA.
Reverse transcription-polymerase chain reaction (RT-PCR) of virus RNA was used to measure the
quantity of virus RNA in both studies.
Wölfel and colleagues isolated the virus daily from sputum, pharyngeal swabs, and stool since
the first day of symptom onset. The samples were taken from individuals with mild to moderate
symptoms (e.g. symptoms of lung affection). Maximal viral load was found before 5 days in
these participants with the mild course being highest in stool and sputum. Based on their
findings authors state that being 10 days beyond symptoms and less than 100,000 viral RNA
copies per ml of sputum do have a little residual risk of infectivity, based on cell culture.
Ling et al., isolated viral RNA from 66 participants post-Covid-19 infection as well from the
stool, urine, and blood specimens during the convalescence. These samples were obtained from
patients who survived a severe course of infection. The longest duration from onset of
symptoms to first negative RT-PCR results for oropharyngeal swabs of convalescent patients
was 22 days.
Zhou et al. (2020) studied as well the viral shedding with the daily analysis using PCR of
Covid-19 throat swab specimens from 191 patients. For survivors, the duration of viral
shedding showed an interquartile range of 17 to 22 days in patients with severe disease
status (survivors). In summary, current knowledge shows the duration of viral traceability
and thus the risk of infection from 10 to 22 days in patients with mild and severe illness,
respectively. The average time to incubation found ranged from 5.2 to 12.5 days (Zhou et al.,
2020) and average hospital duration ranged from 7 to 15 days in the 425 patients from Wuhan.
Therefore, subtracting lowest period of incubation (5 days) from the maximal duration of
viral shedding (22 days) resulting in 17 days after first confirmed diagnose to be safe for
hospital on-site testing. Based on this data and adding the criteria 4 days without specific
COVID-19 symptoms (described in chapter 6.2.1), the committee developing the specific
aftercare program - from which data will be taken for this study - considered as safe and
feasible inviting patients post-acute hospital discharge when 14 days post diagnose and the
mentioned four days (total ≥18 days).
In summary, there is a lack of knowledge on long term consequences of physical, emotional and
quality of life outcomes. The similarity of clinical manifestation of the COVID-19 infection
with ARDS or/and critical illness leads to the consideration of evidence found in this
patient population. This evidence points out the high risk of long-term deficits on the
above-mentioned outcomes and the relevance of patient-tailored rehabilitation programs.
Therefore, we consider it as essential to gather and analyse data on short and long-term
quality of life and physical performance of patients after hospitalization due to COVID-19
infection.
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