Objectives Our study aimed to identify the factors influencing the delay in SARS-CoV-2 RNA negative conversion. Methods A cohort study including COVID-19 patients admitted to the Tunisian national containment center was conducted. The follow-up consisted of a weekly RT-PCR test. Multivariate Cox regression analysis was performed to determine independent predictors associated to negative RNA conversion. Results Among 264 patients included, the median duration of viral clearance was 20 days (IQR (Interquartile Range), 17–32). The shortest and longest durations were nine and 58 days, respectively. Associated factors to negative conversion of viral RNA, were symptoms such as fatigue, fever and shortness of breath (HR (Hazard Ratio): 0.600; 95% CI: 0.401-0.897) and face masks use when exposed to COVID-19 cases (HR: 2.006; 95%CI:1.247-3.228). The median time to RNA viral conversion was 18 days (IQR, 16-21) when using masks vs 23 days (IQR, 17-36) without wearing masks, and 24 days (IQR, 18-36) for symptomatic patients vs 20 days (IQR, 16-30) for asymptomatic ones. Conclusion Our results revealed that during SARS-CoV-2 infection, having symptoms delayed viral clearance, while wearing masks accelerated this conversion. These factors should be harp on consideration for the strategy of isolating infected patients.
BackgroundWe aimed to describe diagnosed acute coronary syndrome (ACS) and its care management and outcomes in emergency departments (EDs) and to determine related cardiovascular risk factors (CVRFs).MethodsWe conducted a cross sectional multicenter study that included 1173 adults admitted to EDs for acute chest pain (ACP) in 2015 at 14 sites in Tunisia. Data included patients’ baseline characteristics, diagnosis, treatment and output.ResultsACS represented 49.7% of non-traumatic chest pain [95% CI: 46.7–52.6]; 74.2% of ACS cases were unstable angina/non-ST-segment-elevation myocardial infarction (UA/NSTEMI). Males represented 67.4% of patients with ACS (p < 0.001). The median age was 60 years (IQR 52–70). Emergency medical service transportation was used in 11.9% of cases. The median duration between chest pain onset and ED arrival was two hours (Inter quartile ranges (IQR) 2–4 h). The age-standardized prevalence rate was 69.9/100,000 PY; the rate was 96.24 in men and 43.7 in women. In the multivariable analysis, CVRFs related to ST segment elevation myocardial infarction were age correlated to sex and active smoking. CVRFs related to UA/NSTEMI were age correlated to sex, familial and personal vascular history and type 2 diabetes. We reported 27 cases of major adverse cardiovascular events (20.0%) in patients with STEMI and 36 in patients with UA/NSTEMI (9.1%).ConclusionHalf of the patients consulting EDs with ACP had ACS. Emergency medical service transportation calls were rare. Management delays were acceptable. The risk of developing an UA/NSTEMI was equal to the number of CVRFs + 1. To improve patient outcomes, it is necessary to increase adherence to international management guidelines.
Novel coronavirus disease (COVID-19) caused by severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) has become a public health emergency of international concern. This was first emerged in Wuhan, Hubei Province, China, and then has become widespread all over the world. We report 3 cases (2 imported cases and 1 local case) with documented viral shedding (based on reverse transcription-polymerase chain reaction (RT-PCR) testing) of SARS-CoV-2 for 55, 59 and 63 days. Viral shedding duration was defined as the date of return from the COVID-19 pandemic countries for imported cases and from the first positive RT-PCR test for local cases, up to the second negative nasopharyngeal RT-PCR swab. These cases demonstrate that viral shedding after COVID-19 diagnosis can be prolonged.
Background: Few randomized controlled trials have examined the efficacy time of smoking cessation in hospitalized patients with acute coronary syndrome, either during hospitalization or after discharge. Aims: To assess smoking cessation rates at 24 weeks among patients with acute coronary syndrome. Group A had begun nicotine replacement therapy during hospitalization, and Group B after discharge. We also determined factors predicting success. Methods: We conducted a randomized controlled trial in the . Participants were randomly assigned to the above 2 groups. The endpoint assessment was smoking abstinence at 24 weeks, defined as self-reported abstinence in the past week, confirmed by measured exhaled carbon monoxide (CO) ≤ 8 ppm. We analysed data by intention to treat. We used a binary logistic regression model to determine factors predicting abstinence. Results: All participants were male and mean (standard deviation) age was 55 (11) years. At 24 weeks there was no significant difference in smoking cessation rate between the 2 groups: 54.5% [95% confidence interval (CI): 44.7-64.3%] in Group A and 45.5% (95% CI: 35.7-55.3%) in Group B (P = 0.81). High level of nicotine dependence [odds ratio (OR): 0.72; 95% CI: 0.54-0.96) and good compliance during follow-up (OR: 6.56; 95% CI: 2.07-20.78) were predictive factors for abstinence. Conclusions:Smoking cessation rate after acute coronary syndrome was high regardless of the start date. Good compliance during follow-up was the key predictive factor for success.
We aimed to describe incidence, trends of tuberculosis (TB) over 18 years and to evaluate the impact of the BCG vaccine after four decades of immunization program according to three protocols. We performed a cohort study including declared cases in Monastir from January 1, 2000 to December 31, 2017. We reported 997 cases of TB. The predominant site was pulmonarylocalization (n = 486). The age standardized incidence of pulmonary and lymph node TB per 100,000 inh were 5.71 and 2.57 respectively. Trends were negative for pulmonary TB (PTB) (b = - 0.82; r = -0.67; p<10 −3 ) and positive for lymph node localization (b = 1.31; r = 0.63; p<10 −3 ). We had not notified cases of HIV associated with TB. Crude incidence rate (CIR) of PTB per 100,000 inh was 8.17 in Non-Vaccinated Cohort (NVC) and 2.85 in Vaccinated Cohort (VC) (p < 0.0001). Relative risk reduction (RRR) of BCG vaccination was 65.1% (95%CI:57.5;71.4) for pulmonary localization and 65% (95%CI:55; 73) for other localizations. We have not established a significant RRR of BCG vaccination on lymph node TB. Protocol 3 (at birth) had the highest effectiveness with a RRR of 96.7% (95%CI: 86.6%; 99.2%) and 86% (95%CI:71%;91%) in patients with PTB and other localizations TB respectively. In Cox regression model the HR was 0.061 (95% CI 0.015–0.247) for PTB and 0.395 (95% CI 0.185–0.844) for other localizations TB in patients receiving protocol 3 compared to NVC. For lymph-node TB, HR was 1.390 (95% CI 1.043–1.851) for protocol 1 and 1.849 (95% CI 1.232–2.774) for protocol 2 compared to NVC. Depending on the three protocols, the BCG vaccine had a positive impact on PTB and other TB localizations that must be kept and improved. However, protocols 1 and 2 had a reverse effect on lymph node TB.
Background Rabies is a disease that still exists in developing countries and leads to more fatalities than other zoonotic diseases. Our study aimed to describe the profile of human exposures to animals over fifteen years and to assess the post-exposure prophylaxis (PEP) practices in the governorate of Kasserine (Tunisia) on pre- and post-revolution (2011). Methods We carried out a descriptive study using surveillance data from a region in Central-West Tunisia. All humans exposed to animals, residents in Kasserine Governorate and declared to the regional directorate of primary health care (RDPH) from January 1st, 2004 to December 31st, 2018 were included. Results A total of 45,564 cases of human exposures to animals were reported over the fifteen-year period of the study with an annual average of 3089.2 ± 403.1. The standardized incidence rate (SIR) of human exposures to animals was 694 per year per 100,000 inhabitants (inh). The most listed offending animal was the dog (91.3%) and the most reported type of exposure was bites (63.7%). The trend in human exposures to animals increased significantly over time. The number of exposures by vaccinated dogs decreased significantly and by unvaccinated and stray dogs increased steeply. When comparing pre-and post-revolution periods, the yearly average of animal exposures post-2011 was significantly greater than the average prior to 2011 (3200 ± 278.5 vs 2952.8 ± 483) (p < 0.001). The yearly average of animal bites post-2011 was significantly greater than the average prior to 2011 (2260.5 ± 372.1 vs 1609.8 ± 217.9) (p < 0.001). The average number of vaccine doses per animal exposure was 2.4. Concerning PEP protocols, protocol A (2 and 3 doses) was indicated in 79% of animal exposures cases. From 2004 to 2018, a downward trend was noted for protocol A (r = − 0.29, p < 0.001) and an upward trend for protocol B (3 and 5 doses) (r = 0.687, p < 0.001). During our study period, 5 fatal cases of human rabies were declared. Conclusion Rabies remains a major public health problem in Tunisia. The political dynamics had an impact on the health care system and rabies control. Preventive measures should be applied adequately to decrease the burden of this disease.
Background Testing is a crucial tool in the pandemic response to identify and confirm COVID-19 in those who are symptomatic. The aim of the present study was to assess the negative predictive value (NPV) of COVID-19 Rapid Antigen Testing (RAT) according to the symptoms, test timing in relation to symptom onset and characteristics of the person. Methods We performed a prospective cohort study of patients attended the COVID-19 testing center at the university hospital of Monastir, between 23 November 2020 and 19 April 2021. In the first time we performed the COVID19 RAT. In the second time, if this result was negative we performed the reverse transcription polymerase chain reaction (rRT-PCR). The NPV was conducted with SPSS software, version 21.0. A logistic binary regression was performed to determine factors affected the NPV of COVID-19 RAT. A p value of < 0.05 was considered statistically significant. Results A total of 855 tests were performed, of which 807 were RAT and 467 rRT-PCR. Positive RAT test was found in 336 cases (39%). False negative RAT was noted in 87 cases (10.2%). The NPV of RAT was 83.6%. The NPV ranged between 80% and 88% for the following symptoms: fever, cough, myalgia, dyspnea, dizziness, asthenia, headache, myalgia, odynophagia, flu_rhume. It varied from 64.2 to 77.8 for Ageusia, Anosmia, Arthralgia, chest pain, thrill, digestive signs. The NPV was equivalent according to age and gender. The NPV varied from 80 to 100% if the test was applied between the first and the 5th day for the onset of symptoms. Beyond this duration, it decreased to 50%. A long period of symptom onset (>5 days) increased significantly the risk of false negative RAT (OR = 2.57 IC95%: [1.38-4.82], p = 0.003). Conclusions Many factors may affect the performance of COVID-19 Rapid Antigen Testing (RAT). In fact, negative RAT should be completed by a rRT-PCR according to the the type of symptoms and the time from illness onset. Key messages False negative RAT rate was high. Many factors must be taken into account in interpreting the RAT, in particular the type of symptoms and the time from illness onset.
Introduction The present study aimed to determine the impact of vitamin D supplementation (VDs) on recovery delay among COVID-19 patients. Methods We performed a randomized controlled clinical trial at the national COVID-19 containment center in Monastir (Tunisia), from May to August 2020. Simple randomization was done in a 1:1 allocation ratio. We included patients aged more than 18 years who had confirmed reverse transcription-polymerase chain reaction (RT-PCR) and who remained positive on the 14th day. The intervention group received VDs (200,000 IU/1 ml of cholecalciferol); the control group received a placebo treatment (physiological saline (1 ml)). We measured the recovery delay and the cycle threshold (Ct) values in RT-PCR for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The log-rank test and hazard ratios (HR) were calculated. Results A total of 117 patients were enrolled. The mean age was 42.7 years (SD 14). Males represented 55.6%. The median duration of viral RNA conversion was 37 days (95% confidence interval (CI): 29–45.50) in the intervention group and 28 days (95% CI: 23–39) in the placebo group (p=0.010). HR was 1.58 (95% CI: 1.09–2.29, p=0.015). Ct values revealed a stable trend over time in both groups. Conclusion VDs was not associated with a shortened recovery delay when given to patients for whom the RT-PCR remained positive on the 14th day. Trial registration This study was approved by the Human Subjects Protection Tunisia center (TN2020-NAT-INS-40) on April 28, 2020, and by ClinicalTrial.gov on May 12, 2021 with approval number ClinicalTrials.gov ID: NCT04883203.
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