Decoding the Clinical and laboratory Parameters of COviD -19 and Dengue Co-infection

Severe acute respiratory diseases caused by coronavirus disease 2019 (COviD-19) have caused infections around the world


iNtRODuCtiON
Coronavirus SARS-CoV-2 (COViD-19) is a respiratory disease that originated in December 2019 in the Wuhan district, Hubei Province, China.The disease was linked epidemiologically to a seafood market in the area which sold live animals.The etiological agent of CovId-19 was identified as SARS CoV2 in January 2020.The disease was declared a Public Emergency of International Concern on January 30, 2020, and was declared a global pandemic on March 11,  2020.As of September 25, 2021, india recorded a total of 300,000 active cases of CovId-19.4][5] Dengue is a disease which is commonly seen in tropical and subtropical regions and is caused by four serotypes of dengue virus.This disease is a public health problem similar to CovId-19 and is transmitted by the mosquito Aedes aegypti.Asian travellers are frequently afflicted by this infection.dengue cases increased in most countries during the COViD-19 pandemic.Countries such as Brazil, Thailand, and Ecuador have reported the most cases of dengue during the ongoing SARS CoV2 pandemic.Dengue viral infections have also increased in places which have previously not reported a single case of dengue.8][9] Dengue is one of the leading causes of mosquito borne diseases in Southeast Asia.
The most common clinical symptoms of CovId-19 are fever, fatigue, rashes, petechiae, and muscle pain.This resembles most endemic viral infections, making diagnosis of CovId-19 challenging and difficult.The Ministry of Health and Family Welfare in india has alerted all medical institutions about possible dengue outbreaks during rainy and post rainy seasons in areas showing high prevalence of CovId-19 infection.Though CovId-19 and dengue viral infection are similar in their clinical manifestations and laboratory parameters, including thrombocytopenia and leukopenia, they differ in their management a n d t r e a t m e n t m o d a l i t i e s .R e v e r s e transcription-polymerase chain reaction (RT-PCR) and enzyme-linked immunoassay (ELiSA) have become very important for differentiating between dengue and CovId-19 infection. 12,13The onset of the COViD-19 pandemic has caused fear in most countries regarding dengue outbreaks in their vulnerable population.Diagnosis and differentiation between the two diagnoses have been a challenge to the health system and have resulted in undue delay in treatment and implementation of isolation measures against both infections.

Demographic, clinical, and laboratory characteristics of COviD-19 and dengue viral co-infection
indonesia has recorded the highest number of cases of dengue and COViD-19 coinfection, followed by Pakistan and India.The diagnostic tests used for diagnosis of dengue are RT-PCR, ELiSA, and rapid serology kits, whereas RT-PCR and rapid diagnostic tests are used for CovId-19 diagnosis.Most co-infections have been seen in males and adults between the ages of 18-64 years.There has been a report of CovId-19 and dengue co-infection in a 6 year-old pediatric patient.The most common clinical features in patients with co-infection are fever, dyspnea, fatigue, headache, and cough.The other clinical manifestations are arthralgia, retro-orbital pain, photophobia, and anorexia.
The laboratory characteristics of CovId-19 with dengue co-infection are leukopenia, lymphopenia, thrombocytopenia, and elevated alanine transaminase levels.The other laboratory parameters seen in co-infection of these diseases are elevated C reactive protein (CRP), elevated D-dimer, elevated erythrocyte sedimentation rate, reduced hematocrit, reduced hemoglobin, and leukocytosis.Chest X-ray and computed tomography in these patients show ground glass opacities in most cases, followed by bilateral lung opacity or lung infiltrate.The average number of days for recovery in patients is 9-20 days.][16][17][18]

Similarities in the pathogenesis of COVID-19 and dengue viral infection
There are numerous similarities in the pathogenesis of SARS Cov2 infection and dengue viral infection.Thrombocytopenia, coagulation cascade, and plasma leakage are seen in both disease conditions.Plasma leakage is an important component in the pathogenesis of dengue, and is caused by immune mediators such as tumor necrosis factor (TNF), interferon gamma (iFN-γ), interleukin 6 (iL-6), and chemokines such as macrophage inhibition factor.Plasma leakage is also caused by elevated C-reactive protein and platelet dysfunction.Thrombocytopenia is caused by numerous factors in dengue infection.First, it can be caused by the interaction between endothelial cell surface proteins and nonstructural protein-specific antibodies.Second, interaction of platelets with endothelium, leukocytes, and monocytes facilitated by higher expression of E selectin and P selectin on endothelial cells infected by dengue virus can also result in thrombocytopenia.][21][22][23][24][25][26][27][28] in COViD-19, plasma leakage, vascular permeability, and disseminated intravascular coagulation are induced by overactivation of T cell function and immune mediators such as TNF, iFN-γ, iL-1, and iL-6, which are also responsible for the cytokine storm seen in this infection. 20Severity in COViD-19 is associated with increasing levels of CRP, which is produced by hepatocytes stimulated by inflammation.This in turn activates the classical complement pathway.The severity of COViD-19 infection is also associated with thrombocytopenia.COViD-19 causes endothelial cell damage, inhibits bone marrow growth, and induces apoptosis, which results in decreased hematopoiesis and thrombocytopenia.Autoimmune antibodies and immune complexes also facilitate destruction of platelets in COViD- 19  Coagulopathy is seen in both dengue and CovId-19 infections.Prothrombin time and partial thromboplastin time are elevated in both conditions.Other coagulation factors, such as prothrombin, antithrombin, a2antiplasmin, and factors II, v, vIII, IX and X, are not activated in dengue, but are activated in CovId-19.CovId-19 creates a hypercoagulable condition in the body and thus is associated with cerebrovascular accidents, stroke, myocardial infarction, and venous thromboembolism.[31][32][33]

Antibody-dependent enhancement in COVID-19 and dengue viral infection
Antibody-dependent enhancement (AdE) is seen both in CovId-19 and dengue infection.The presence of cross-linkages between the virus and antibody or complement component complexes causes internalization of the virus and increases the infectivity of granulocytic and monocytic cells in dengue viral infection.Homotypic dengue infection results in long-lasting immunity, but the neutralizing antibodies against the various other serotypes of dengue are short-lived.][36] COViD-19 produces a cytokine storm which leads to rapid viral replication, cell damage, uncontrolled pulmonary inflammation, downregulation of angiotensin converting enzyme 2, and AdE.Neutralizing antibodies against the spike protein produces a complex with SARS Cov2.The interaction between this complex and Fc receptors in the susceptible cells leads to AdE.This results in inflammation and replication of the virus in the lungs.][39][40][41]

Serological cross-reactions between COVID-19 and dengue viral infection
It is extremely difficult to differentiate CovId-19 and dengue in the first 24-48 h after onset of symptoms.Rapid serology tests have a short turnaround time and help in timely diagnosis of CovId-19.Cross-reactions between CovId-19 and dengue viral infections have been reported in a few studies.A Columbian study reported a decrease in the incidence of dengue infection with the rapid increase in COViD-19 cases in their country.This indicates the futility of using rapid antibody tests, especially lateral flow immunoassays, as point-of-care testing for CovId-19.RT-PCR is vital for the confirmation of CovId-19 and dengue viral infection in tropical and subtropical countries.]

CONCluSiON
It is a challenge to differentiate CovId-19 and dengue fever in places endemic to tropical arboviral infections due to the similarities in their clinical features and laboratory parameters.Serological cross reactions between the two infections cause undue delay in diagnosis and appropriate treatment.The need for RT-PCR to confirm the diagnosis of CovId-19 and dengue infections is paramount.CovId-19 and dengue viral co-infection can cause severe morbidity and mortality, and this article highlights the need for their accurate diagnosis and timely management.