Covid-19 and Diabetes in West of Algeria
Coronavirus InfectionsDiabetes Mellitus4 moreBy Jan 7, 2020, Chinese scientists had isolated a novel coronavirus, from patients with virus-infected pneumonia. The WHO designated later this virus as COVID-19 (coronavirus disease 2019). This exponential pandemic coronavirus infection is responsible for severe forms in 15 to 20%, for critical ill requiring ventilation in 5% and for mortality in 2%. Algeria was part of the 13 top priority countries identified by WHO based on their direct links and volume of travel to the infected provinces in China. It is known that some predisposing conditions lead to a worse outcome with coronavirus. In China, the overall case-fatality rate was 2.3%, but was higher in patients with diabetes (7.3%). In Italy, the most common comorbidities associated with death from COVID-19 were hypertension (73.8%) and diabetes (33.9%). The US Centers for Disease Control and Prevention suggests diabetes is the most common comorbidity in COVID-19 cases. In the largest cohort NHS England study, death from COVID-19 was strongly associated with uncontrolled diabetes (after full adjustment, HR 2.36). The West Algerian CORODIAB-13 study aims is (1) to assess the prevalence of diabetes among hospitalized patients with Covid-19, (2) to describe the phenotypic characteristics of patients with diabetes, and (3) to identify the parameters specific to the diabetic which are associated with severe forms. In the future, this study will provide answers for two main questions Why diabetics are more at risk of developing Covid-19 infection? Why diabetics are at high risk of developing severe forms?
Evaluation of Novel Diagnostic Tests for COVID-19
Acute DiseaseCoronavirus1 moreCOVID-19 (also known as Coronavirus) originated in the Wuhan China and has since spread to at least 159 countries around the world. It was declared a pandemic by the World health organisation on the 11th of March 2020. The cases in the United Kingdom continue to increase exponentially with up to 5 683 people diagnosed as on the 22nd of March 2020. It is estimated that 1 in 5 people diagnosed will require hospital admission and 1 in 20 intensive care treatment. By developing and improving diagnostic testing, we can accurately diagnose infected cases to triage appropriate treatments, identify individuals for quarantine in order to prevent transmission and obtain information regarding patient's immune systems. At present, the diagnostic test is a highly specific method of genetic amplification called 'Reverse Transcription - Polymerase Chain Reaction' or RT-PCR, which allows detection of very small amounts of genetic mutations caused by the COVID-19 virus. However, this method must be completed in highly specialised facilities, which are few and far between, increasing time to diagnosis (currently 48-72 hours), increasing exposure to non-infected individuals, and overburdening the analysing facilities. The ideal solution is a point of care (POC) test that can give results immediately. This study aims to harness the point of care technology of the SAMBA II device (Diagnostics for the Real World Ltd.), which is a CE-marked device that has been used with success in the identification of Human Immunodeficiency Virus (HIV), by amplifying genetic material without the need to increase and decrease temperatures during the amplification process. In the COVIDx study, 200 patients meeting the Public Health England's (PHE) inpatient definition of having suspected COVID-19 will be approached, consented and a sample from throat and nasal swab (combined) or tracheal fluid taken and tested using the SAMBA II method. A combination of the standard PHE RT-PCR and an additional validated laboratory PCR technique will be used as a control in line with standard clinical practice. Patients will undergo an additional serum tests on existing samples as made available after routine clinical assessments to monitor antibody response. Patients will be followed for clinical outcomes at 28 days post-admission.
Active Monitoring And Determinants of Incidence Infection of COVDI-19
Coronavirus Infection7. Objectives To apply e-health methods to perform active monitoring and assess determinants of incident Infection of COVID-19 in a hospital population. 8. Study design Prospective, Single-centre, observational clinical study. 9. Disease or disorder under study Healthy people in risk of COVID-19 infection. 10. Main variable. Symptoms related to infection caused by SARS-Cov2. 11. Study population and total number of patients Men and women in general god health status aged between 18 and 80 years that currently are employees of Hospital de La Princesa . 12. Duration of treatment Each subject will be monitored, since its recruitment, for a period of 12 weeks. 13. Timetable and expected date of completion The overall duration of the study is estimated at about 6 months, from patient recruitment to the last data recorded by last subject. The aim is to carry out this study from March 2020 onwards.
Outcomes of Surgery in COVID-19 Infection: International Cohort Study (CovidSurg)
COVID-19Coronavirus1 moreCovidSurg will capture real-world international data, to determine 30-day mortality in patients with COVID-19 infection who undergo surgery. This shared international experience will inform the management of this complex group of patients who undergo surgery throughout the COVID-19 pandemic, ultimately improving their clinical care.
Acute Respiratory Failure and COVID-19 in Real Life
Coronavirus InfectionsRespiratory Failure1 moreIn December 2019 a new kind of virus was identified in China as the responsible of severe acute respiratory syndrome (SARS) and interstitial pneumonia. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) quickly spread around the world and in February 2020 became a pandemia in Europe. No pharmacological treatment is actually licensed for the SARS-CoV2 infection and at the current state of art there is a lack of data about the clinical management of the coronavirus 2019 disease (COVID-19). The aim of this observational study is to collect the data and the outcomes of COVID-19 patients admitted in the H. Sacco Respiratory Unit treated according to the Standard Operating Procedures and the Good Clinical Practice.