11 research outputs found
Mortality in patients treated for tuberculous pericarditis in sub-Saharan Africa.
Tuberculous pericarditis is one of the most severe forms of extrapulmonary tuberculosis, causing death or disability in a substantial proportion of affected people.1,2 In Africa, the incidence of tuberculous pericarditis is rising as a result of the HIV epidemic.3 The effect of HIV infection on survival in patients with tuberculous pericarditis is unknown.2,4 Whereas some investigators have suggested that HIV-infected patients with tuberculous pericarditis have a similar outcome to non-infected cases,5 others have shown that there may be an increase in mortality in HIV associated with tuberculous pericarditis.2,6,7 We established a prospective observational study, the Investigation of the Management of Pericarditis in Africa (IMPI Africa) registry, to obtain current information on the diagnosis, management and outcome of patients with presumed tuberculous pericarditis living in sub-Saharan Africa, where the burden of HIV infection is the greatest in the world.4,8-10 In this paper, we report the mortality rate and its predictors during the 6 months of antituberculosis treatment among patients enrolled in the regis
Clinical characteristics and initial management of patients with tuberculous pericarditis in the HIV era: the Investigation of the Management of Pericarditis in Africa (IMPI Africa) registry
BACKGROUND: The incidence of tuberculous pericarditis has increased in Africa as a result of the human immunodeficiency virus (HIV) epidemic. However, the effect of HIV co-infection on clinical features and prognosis in tuberculous pericarditis is not well characterised. We have used baseline data of the Investigation of the Management of Pericarditis in Africa (IMPI Africa) registry to assess the impact of HIV co-infection on clinical presentation, diagnostic evaluation, and treatment of patients with suspected tuberculous pericarditis in sub-Saharan Africa. METHODS: Consecutive adult patients in 15 hospitals in three countries in sub-Saharan Africa were recruited on commencement of treatment for tuberculous pericarditis, following informed consent. We recorded demographic, clinical, diagnostic and therapeutic information at baseline, and have used the chi-square test and analysis of variance to assess probabilities of significant differences (in these variables) between groups defined by HIV status. RESULTS: A total of 185 patients were enrolled from 01 March 2004 to 31 October 2004, 147 (79.5%) of whom had effusive, 28 (15.1%) effusive-constrictive, and 10 (5.4%) constrictive or acute dry pericarditis. Seventy-four (40%) had clinical features of HIV infection. Patients with clinical HIV disease were more likely to present with dyspnoea (odds ratio [OR] 3.2, 95% confidence interval [CI] 1.4 to 7.4, P = 0.005) and electrocardiographic features of myopericarditis (OR 2.8, 95% CI 1.1 to 6.9, P = 0.03). In addition to electrocardiographic features of myopericarditis, a positive HIV serological status was associated with greater cardiomegaly (OR 3.89, 95% CI 1.34 to 11.32, P = 0.01) and haemodynamic instability (OR 9.68, 95% CI 2.09 to 44.80, P = 0.0008). However, stage of pericardial disease at diagnosis and use of diagnostic tests were not related to clinical HIV status. Similar results were obtained for serological HIV status. Most patients were treated on clinical grounds, with microbiological evidence of tuberculosis obtained in only 13 (7.0%) patients. Adjunctive corticosteroids were used in 109 (58.9%) patients, with patients having clinical HIV disease less likely to be put on them (OR 0.37, 95% CI 0.20 to 0.68). Seven patients were on antiretroviral drugs. CONCLUSION: Patients with suspected tuberculous pericarditis and HIV infection in Africa have greater evidence of myopericarditis, dyspnoea, and haemodynamic instability. These findings, if confirmed in other studies, may suggest more intensive management of the cardiac disease is warranted in patients with HIV-associated pericardial disease
Mortality in patients treated for tuberculous pericarditis in sub-Saharan Africa
Objective: To determine the mortality rate and its predictors in patients with a presumptive diagnosis of tuberculous pericarditis in sub-Saharan Africa.
Design: Between 1 March 2004 and 31 October 2004, we enrolled 185 consecutive patients with presumed tuberculous pericarditis from 15 referral hospitals in Cameroon, Nigeria, and South Africa, and observed them during the 6-month course of antituberculosis treatment for the major outcome of mortality. This was an observational study, with the diagnosis and management of each patient left at the discretion of the attending physician. Using Cox regression, we have assessed the effect of clinical and therapeutic characteristics (recorded at baseline) on mortality during follow-up.
Results: We obtained the vital status of 174 (94%) patients (median age 33; range 14-87 years). The overall mortality rate was 26%. Mortality was higher in patients who had clinical features of HIV infection than in those who did not (40% versus 17%, P=0.001). Independent predictors of death during follow-up were: (1) a proven non-tuberculosis final diagnosis (hazard ratio [HR] 5.35, 95% confidence interval 1.76 to 16.25), (2) the presence of clinical signs of HIV infection (HR 2.28, 1.14-4.56), (3) co-existent pulmonary tuberculosis (HR 2.33, 1.20-4.54), and (4) older age (HR 1.02, 1.01-1.05). There was also a trend towards an increase in death rate in patients with haemodynamic instability (HR 1.80, 0.90-3.58) and a decrease in those who underwent pericardiocentesis (HR 0.34, 0.10-1.19).
Conclusion: A presumptive diagnosis of tuberculous pericarditis is associated with a high mortality in sub-Saharan Africans. Attention to rapid aetiological diagnosis of pericardial effusion and treatment of concomitant HIV infection may reduce the high mortality associated with the disease
History of medicine : the Hamilton Naki Clinical Scholarship, 2007-2011
The original publication is available at http://www.samj.org.zaThe Hamilton Naki Scholarship was introduced because of the
shortage of qualified academic leaders in South African medical
schools, especially for academic clinicians from previously
disadvantaged backgrounds. There were only a handful of African
academic doctors with a significant published record of scholarship
in South Africa. If academic physicians from the whole population
were not recruited and trained, South Africa would lose its ability to
train high-quality health practitioners. To address these deficiencies,
the Netcare Physician Partnerships Trust established a scholarship to
produce world-class academics in all medical specialties to teach and
conduct research comparable to other parts of the world
The efficacy and safety of complete pericardial drainage by means of intrapericardial fibrinolysis for the prevention of complications of pericardial effusion : a systematic review protocol
CITATION: Kakia, A., et al. 2016. The efficacy and safety of complete pericardial drainage by means of intrapericardial fibrinolysis for the prevention of complications of pericardial effusion : a systematic review protocol. BMJ Open, 6:e007842,
doi:10.1136/bmjopen-2015-007842.The original publication is available at http://bmjopen.bmj.comENGLISH SUMMARY : Introduction:
Intrapericardial fibrinolysis has been
proposed as a means of preventing complications of pericardial effusion such as cardiac tamponade,
persistent and recurrent pericardial effusion, and pericardial constriction. There is a need to understand
the efficacy and safety of this procedure because it shows promise.
Methods and analysis: We aim to assess the effects of intrapericardial fibrinolysis in the treatment of
pericardial effusion. We will search PubMed, the Cochrane Library, African Journals online, Cumulative
Index to Nursing and Allied Health Literature, Trip database, Clinical trials.gov and the WHO International
Clinical Trials Registry Platform for studies that evaluate the efficacy and/or safety of complete
pericardial fluid drainage by intrapericardial fibrinolysis irrespective of study design, geographical location, language, age of participants, aetiology of pericarditis or types of fibrinolytics. Two authors will do the search independently, screen the search outputs for potentially
eligible studies and assess whether the studies meet the inclusion criteria. Discrepancies between the two
authors will be resolved through discussion and arbitration by a third author. Data from the selected
studies shall be extracted using a standardised data collection form which will be piloted before use. The
methodological quality of studies will be assessed using the Cochrane Collaboration’s tools for assessing
risk of bias for experimental studies and non-randomised studies, respectively. The primary meta-
analysis will use random effects models due to expected interstudy heterogeneity. Dichotomous data
will be analysed using relative risk and continuous with data mean differences, both with 95% CIs.http://bmjopen.bmj.com/content/6/1/e007842Publisher's versio
The Hamilton Naki Clinical Scholarship, 2007 - 2011
The Hamilton Naki Scholarship was introduced because of the shortage of qualified academic leaders in South African medical schools, especially for academic clinicians from previously disadvantaged backgrounds. There were only a handful of African academic doctors with a significant published record of scholarship in South Africa.http://www.samj.org.z
Mortality in patients treated for tuberculous pericarditis in Sub-Saharan Africa
BibliographyObjective. To determine the mortality rate and its predictors in patients with a presumptive diagnosis of tuberculous pericarditis in sub-Saharan Africa. Design. Between 1 March 2004 and 31 October 2004, we enrolled 185 consecutive patients with presumed tuberculous pericarditis from 15 referral hospitals in Cameroon, Nigeria and South Africa, and observed them during the 6-month course of antituberculosis treatment for the major outcome of mortality. This was an observational study, with the diagnosis and management of each patient left at the discretion of the attending physician. Using Cox regression, we have assessed the effect of clinical and therapeutic characteristics (recorded at baseline) on mortality during follow-up. Results. We obtained the vital status of 174 (94%) patients (median age 33; range 14-87 years). The overall mortality rate was 26%. Mortality was higher in patients who had clinical features of HIV infection than in those who did not (40% v. 17%, p=0.001). Independent predictors of death during follow-up were: (i) a proven non-tuberculosis final diagnosis (hazard ratio (HR) 5.35, 95% confidence interval (CI) 1.76-16.25), (ii) the presence of clinical signs of HIV infection (HR 2.28, CI 1.14-4.56), (iii) coexistent pulmonary tuberculosis (HR 2.33, CI 1.20-4.54), and (iv) older age (HR 1.02, CI 1.01-1.05). There was also a trend towards an increase in death rate in patients with haemodynamic instability (HR 1.80, CI 0.90-3.58) and a decrease in those who underwent pericardiocentesis (HR 0.34, CI 0.10-1.19). Conclusion. A presumptive diagnosis of tuberculous pericarditis is associated with a high mortality in sub-Saharan Africa. Attention to rapid aetiological diagnosis of pericardial effusion and treatment of concomitant HIV infection may reduce the high mortality associated with the disease.The IMPI Africa Registry was sponsored by the South African
Medical Research Council and National Research Foundation
(through the 2004 - 2006 Africa Fellowship to Dr C S Wiysonge);
the University of Cape Town’s Cardiac Clinic Research Fund; and
the MESAB (Medical Education for South African Blacks) (through
the 2003 Don Kennedy Scholarship to Dr M Ntsekhe)