Gumi-dong, Korea, Republic of
N-terminal Pro B-type Natriuretic Peptide and Vitamin D Levels as Prognostic Markers in COVID-19 Pneumonia
On 30 January 2020, World Health Organization (WHO) officially declared the COVID-19 epidemic as a public health emergency of international concern. An acute respiratory disease, caused by a novel coronavirus (SARS-CoV-2, previously known as 2019-nCoV), the coronavirus disease 2019 (COVID-19) has spread throughout China and received worldwide attention (Guo et al., 2020). As an emerging acute respiratory infectious disease, COVID-19 primarily spreads through the respiratory tract, by droplets, respiratory secretions, and direct contact (Li et al., 2020). Based on current epidemiological investigation, the incubation period is 1-14 days, mostly 3-7 days and the COVID-19 is contagious during the latency period (Jin et al., 2020). The common clinical manifestations included fever (88.7%), cough (67.8%), fatigue (38.1%), sputum production (33.4%), shortness of breath (18.6%), sore throat (13.9%), and headache (13.6%) [16]. In addition, a part of patients manifested gastrointestinal symptoms, with diarrhea (3.8%) and vomiting (5.0%) (Guan et al., 2020). B-type Natriuretic Peptide (BNP) is mainly synthesized and secreted by myocytes in the left ventricle (LV) as a response to myocytes stretched by pressure overload or volume expansion of the ventricle (Cao et al., 2019). In patients with Community Acquired Peumonia (CAP), NT-pro BNP levels are powerful predictors of adverse cardiac events. For patients with systemic inflammatory response syndrome (SIRS), Chen et al found that compared with non-SIRS patients, subjects with SIRS had a markedly higher level of B-type natriuretic peptide (BNP). Additionally, BNP level of more than 113 pg/mL was independent predictor of all-cause mortality in septic patients. Additionally, in 302 CAP patients, Christ-Crain et al confirmed that BNP levels increased with rising disease severity as classified by the pulmonary severity index (PSI) (p=0.01). Li et al confirmed that BNP could be used as a biomarker for evaluating the severity of CAP. They recommended BNP level of 299.0 pg/mL in predicting in-hospital mortality (sensitivity 67.5%, specificity 81.6%) (Zhang et al., 2016). In respiratory system conditions, such as influenza, vitamin D has wide-ranging and fundamental roles, including through: gene transcription via COVID-19 relevant VDR (Vitamin D Receptor) pathways; wider immune function; and airway epithelial cell tight-junction function and integrity. Further, studies suggest vitamin D supplementation may be protective in respiratory conditions, the effect being highly significant in 'D' deficient persons. It is hypothesized by Watkins, 2020 and Grant et al., 2020 that vitamin D insufficiency may significantly compromise, respiratory immune response function, greatly increasing risk of COVID-19 severity and mortality (Brown and Sarkar, 2020). Primary outcomes: This study is designed to assess the difference between level of NT-pro-BNP, and Vitmin D in moderate cases who progressed to severe or critically ill category compared to those who did not. Secondary outcomes: Assessment of any possible correlation between NT-pro-BNP and Vitamin D and the need for mechanical ventilation or mortality in COVID-19 infection. The study will be conducted on 100 COVID-19 confirmed patients Group (1): 50 mild to moderate cases (lung shadows without hypoxia and oxygen saturation >92%) who progressed to severe illness characterized by hypoxia necessitating oxygen therapy, or critical illness characterized by respiratory failure necessitating mechanical ventilation either invasive or non-invasive within their hospital stay. Group (2): 50 mild to moderate cases who did not show clinical progression and were discharged.
Phase
N/ASpan
27 weeksSponsor
Cairo UniversityRecruiting
Comparing the Diagnostic Sensitivity and Specificity of Pleural Fluid N-Terminal Pro B-type Natriuretic Peptide (NT-proBNP) and Other Biochemical Gradient Criteria in Distinguishing Heart Failure and Non-heart Failure Related Pleural Effusions (CENTRE Study)
Objective: To assess the discriminative properties of pleural fluid (PF) N-terminal-proB-type-natriuretic-peptide (NTproBNP) levels in identifying heart failure (HF)-associated pleural effusions (PE). Hypothesis to be tested: The PF NTproBNP levels are superior to existing methods including Light's criteria, serum/pleural fluid (S/PF) protein gradient, and albumin gradient, in identifying transudates and distinguishing between HF- and non-HF-associated PE. Design and subjects: A prospective case-control study involving patients with PE requiring thoracentesis, caused by hypervolaemia due to HF, diseases other than HF, and patients with pleural effusion without hypervolaemia. Patient characteristics, PF results and effusion aetiology will be analysed. Patient outcomes will be followed up to 3 months to confirm the aetiology of PE. Clinical management of patients will not be affected. Study instruments: PF of recruited patients will be analysed for albumin, protein, lactate dehydrogenase (LDH) levels and NTproBNP. The diagnosis of HF will be based on clinical features, serum NTproBNP and echocardiogram. Main outcome measures: The performance of PF NTproBNP level in identifying HF-associated PE. Data analysis: The PF NTproBNP level will be compared between effusions of different aetiologies. The optimal pleural fluid NTproBNP level with largest area under the receiver operating characteristic curve in identifying HF-associated PE will be determined. Performance of PF NTproBNP level in identifying HF-associated PE, and other biochemical criteria in identifying transudates will be compared. Echocardiographic findings will be correlated with the PF NTproBNP levels. Expected results: The diagnostic performance of PF NTproBNP will be significantly better in identifying HF-associated effusion than other biochemical criteria.
Phase
N/ASpan
127 weeksSponsor
Chinese University of Hong KongRecruiting