COVID Clinical Trial
Official title:
Application of Umbilical Cord Mesenchymal Stem Cells as Adjuvant Therapy for Critically-Ill COVID-19 Patients
Novel Coronavirus (2019nCoV) or Severe Acute Respiratory Syndrome-Coronavirus-2 (SARS-CoV-2)
that causes Coronavirus Disease 2019, or known as Covid-19 has recently become a global
health emergency since it was first detected in Wuhan, the People Republic of China in
December 2019. Since then, the prevalence has rapidly increased worldwide. In Indonesia, by
the end of April 2020, around 10,000 patients have been tested positive for Covid-19
infection, with a case fatality rate of around 8%.
The pathogenesis of Covid-19 is still under investigation and to our understanding, ACE2
receptors in the alveoli serve as the binding site of the S-protein of envelope spike virus
of SARS-CoV-2. TMPRSS2 enzyme aids the fusion between cell membrane and capsid of the virus,
allowing penetration of virus into the cell. Vesicles containing virion fuse with cell
membrane and released as new virions. Cytopathic effect of the virus and its ability to
overcome immune response determines the degree of infection.
Differences in immunological profile among degrees of severity of Covid-19 may vary
especially for the number of pro-inflammatory cytokines such as tumor necrosis factor alpha
(TNF-α), interleukin (IL)-1, IL-6, IL-8, leukemia-inhibiting factors (LIF), immunological
markers such as CXCR3+CD4+, CXCR3+CD8+ T cell and CXCR3+ NK cells, implying the ongoing
cytokine storm. The previous studies also found increasing number for infection markers such
as procalcitonin, ferritin, and C-reactive protein. The decreasing number of
anti-inflammatory cytokines in such as IL-10 also supports this finding.
Previous studies have shown immunomodulating and anti-inflammatory capacity of the
mesenchymal stem cells (MSCs). MSCs contributed to the shifting of pro-inflammatory Th2 into
anti-inflammatory Th2. One of the most recent study on the usage of MSCs on Covid-19 patients
showed increased expression of leukemia inhibitory factor (LIF), which give rise to
inhibitory effect of T lymphocyte and natural killer (NK) cell population. Vascular
epithelial growth factor (VEGF) is found increasing following MSCs administration, which
indicates the ability to improve the disrupted capillaries due to SARS-Cov-2 infection. The
ability of MSCs in differentiating to alveolar cells is proven by the presence of SPM and
SPC2, surfactant proteins produced by type II alveolar cells. MSCs are unable to be infected
by SARS-CoV-2 since they don't have ACE2 receptors and TMPRSS2 enzyme.
Status | Recruiting |
Enrollment | 40 |
Est. completion date | September 2020 |
Est. primary completion date | August 2020 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 95 Years |
Eligibility |
Inclusion Criteria: - Patients aged 18-95 years old - Confirmed for diagnosis of Covid-19 through RT-PCR from nasopharyngeal swab and/or bronchoalveolar lavage for patients under intubation - Laboratory results showed leukopenia and lymphopenic - Chest radiography shows pneumonia appearance and/or ground-glass opacity on chest CT-Scan - Patients/their families are willing to sign the informed consent Exclusion Criteria: - History of malignancy - Pregnant, or show positive result on pregnancy test - Patients was/are currently participating in other clinical trials within the last 3 months |
Country | Name | City | State |
---|---|---|---|
Indonesia | Universitas Indonesia Hospital | Depok | West Java |
Indonesia | Persahabatan General Hospital | Jakarta | DKI Jakarta |
Indonesia | Sulianti Saroso Center for Infectious Disease | Jakarta | DKI Jakarta |
Indonesia | Cipto Mangunkusumo General Hospital | Jakarta Pusat | DKI Jakarta |
Lead Sponsor | Collaborator |
---|---|
Indonesia University |
Indonesia,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Clinical improvement: Presence of dyspnea | Assessing whether the patients still have dyspnea, one of cardinal symptoms of Covid-19, assessed from the respiratory rate | 15 days | |
Primary | Clinical improvement: presence of sputum | Assessing whether the patients still have productive cough, one of cardinal symptoms of Covid-19, assessed from lung auscultation | 15 days | |
Primary | Clinical improvement: fever | Assessing the presence of fever from measurement of body temperature checking, assessed on daily basis | 15 days | |
Primary | Clinical improvement: ventilation status | Assessing whether the patients still require ventilation, one of cardinal symptoms of ARDS in Covid-19, assessed from patients' ability during ventilation weaning phase | 15 days | |
Primary | Clinical improvement: blood pressure | Assessing the patients' blood pressure on daily basis | 15 days | |
Primary | Clinical improvement: heart rate | Assessing the patients' heart rate on daily basis | 15 days | |
Primary | Clinical improvement: respiratory rate | Assessing the patients' respiratory rate on daily basis | 15 days | |
Primary | Clinical improvement: oxygen saturation | Assessing the patients' oxygen saturation on daily basis | 15 days | |
Secondary | General laboratory outcome from leukocyte level | Assessing the changes in total leukocyte upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from lymphocytes level | Assessing the changes in lymphocytes level upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood pH | Assessing the changes in blood pH level upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood level of CO2 | Assessing the changes in blood pH level upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood base excess level | Assessing the changes in blood base excess level upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood oxygen partial pressure | Assessing the changes in blood oxygen partial pressure upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood level of HCO3 | Assessing the changes in blood level of HCO3 upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from blood level of O2 saturation | Assessing the changes in blood level of O2 saturation upon MSCs administration, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from level of CRP | Assessing the changes in level of CRP, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from level of SGOT/SGPT (AST/ALT) | Assessing the changes in laboratory parameter, consist of SGOT/SGPT (AST/ALT) level, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from the level of ureum/creatinine level | Assessing the changes in laboratory parameter, consist of ureum/creatinine level, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from the level of eGFR | Assessing the changes in laboratory parameter, consist of eGFR, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from the level of sodium | Assessing the changes in level of sodium, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from the level of potassium | Assessing the changes in level of potassium, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from the level of chloride | Assessing the changes in level of chloride, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Changes in procalcitonin level | Assessing the changes in procalcitonin level to assess the anti-inflammatory properties of MSCs, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from albumin level | Assessing the changes in albumin level, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | General laboratory outcome from total bilirubin level | Assessing the changes in total bilirubin level, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Changes in D-Dimer level | Assessing the changes in D-Dimer to assess the anti-inflammatory properties of MSCs, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Changes in fibrinogen level | Assessing the changes in fibrinogen to assess the anti-inflammatory properties of MSCs, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Cardiac changes from troponin level | Assessing the changes in troponin level to assess the anti-inflammatory properties of MSCs and their effect in cardiac remodelling, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Cardiac changes from NT proBNP level | Assessing the changes in NT proBNP to assess the anti-inflammatory properties of MSCs and their effect in cardiac remodelling, assessed prior to and 1st day after implantation, then once every 3 days post implantation | 15 days | |
Secondary | Changes in Leukemia Inhibiting Factor | Assessing the changes in leukemia inhibiting factor (LIF) to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of IL-6 | Assessing the changes in level of IL-6 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of IL-10 | Assessing the changes in level of IL-10 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of vascular endothelial growth factor (VEGF) | Assessing the changes in vascular endothelial growth factor (VEGF) to assess the effect of growth factors in the MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of ferritin | Assessing the changes in level of ferritin to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of CXCR3 | Assessing the changes in level of CXCR3 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of CD4 | Assessing the changes in level of CD4 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of CD8 | Assessing the changes in level of CD8 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Changes in level of CD56 | Assessing the changes in CD56 to assess the anti-inflammatory properties of MSCs, assessed prior to implantation and on the 7th day post-implantation | 7 days | |
Secondary | Radiologic Improvement from Chest X-Ray/CT Scan | Assessing the changes in radiology examination (Chest X-Ray/CT Scan) for any increased in lung infiltration or ground glass opacity, assessed prior to implantation and once every 3 days post-implantation | 15 days |
Status | Clinical Trial | Phase | |
---|---|---|---|
Terminated |
NCT04558125 -
Low-Dose Tenecteplase in Covid-19 Diagnosed With Pulmonary Embolism
|
Phase 4 | |
Recruiting |
NCT04410510 -
P2Et Extract in the Symptomatic Treatment of Subjects With COVID-19
|
Phase 2/Phase 3 | |
Active, not recruiting |
NCT04420676 -
Synbiotic Therapy of Gastrointestinal Symptoms During Covid-19 Infection
|
N/A | |
Completed |
NCT04419025 -
Efficacy of N-Acetylcysteine (NAC) in Preventing COVID-19 From Progressing to Severe Disease
|
Phase 2 | |
Completed |
NCT04425317 -
Detection of SARS-CoV-2 in Follicular Fluid and Cumulus-oocyte-complexes in COVID-19 Patients
|
N/A | |
Completed |
NCT04395911 -
Safety and Efficacy of SCD in AKI or ARDS Patients Associated With COVID-19 Infections
|
N/A | |
Withdrawn |
NCT04456426 -
Characteristics of Patients With COVID-19 in Meta State, Colombia
|
||
Completed |
NCT04526769 -
Detecting SARS-CoV-2 in Tears
|
||
Completed |
NCT04425720 -
Use of Remote Monitoring for COVID-19 Patient
|
N/A | |
Suspended |
NCT04385771 -
Cytokine Adsorption in Patients With Severe COVID-19 Pneumonia Requiring Extracorporeal Membrane Oxygenation
|
N/A | |
Completed |
NCT04419610 -
RAS and Coagulopathy in COVID19
|
Early Phase 1 | |
Completed |
NCT04546581 -
Inpatient Treatment of COVID-19 With Anti-Coronavirus Immunoglobulin (ITAC)
|
Phase 3 | |
Completed |
NCT04435327 -
Lung Damage Caused by SARS-CoV-2 Pneumonia (COVID-19)
|
||
Terminated |
NCT04530448 -
Coronavirus Induced Acute Kidney Injury: Prevention Using Urine Alkalinization
|
Phase 4 | |
Not yet recruiting |
NCT04524156 -
COVID-19 : Transcutaneous pO2 and pCO2 as Predictive Factors for Acute Respiratory Destress Syndrome in Patients Affected With SARS-Cov-2
|
N/A | |
Completed |
NCT04441710 -
Caregiver Serological Monitoring Extended Secondarily to Patients With the SARS-CoV-2 Coronavirus
|
||
Completed |
NCT04357834 -
WAVE. Wearable-based COVID-19 Markers for Prediction of Clinical Trajectories
|
||
Not yet recruiting |
NCT04392427 -
New Antiviral Drugs for Treatment of COVID-19
|
Phase 3 | |
Terminated |
NCT04614025 -
Open-label Multicenter Study to Evaluate the Efficacy of PLX-PAD for the Treatment of COVID-19
|
Phase 2 | |
Completed |
NCT04402957 -
LSALT Peptide vs. Placebo to Prevent ARDS and Acute Kidney Injury in Patients Infected With SARS-CoV-2 (COVID-19)
|
Phase 2 |