42 research outputs found
Acute viral bronchiolitis: Dawn of a new era for the prevention of respiratory syncytial virus infection through vaccination
Many cases of bronchiolitis are caused by the respiratory syncytial
virus (RSV), which was first identified in 1956 as causing illness in
humans. Despite ongoing efforts since the 1960s to develop an RSV
vaccine, it has remained elusive. The RSV vaccine research agenda
experienced a major setback after the increased susceptibility to
severe RSV disease and death in children who received the first
formalin-inactivated vaccine in the 1960s. Only in the mid-1980s
was the search for an RSV vaccine re-ignited. Alternative approaches
to developing this vaccine included attempts at attenuation of RSV,
which generally resulted in vaccine candidates that were either too
reactogenic or too attenuated. Furthermore, the targeted approach
of using the conserved fusion protein (F-protein), although showing
some promise in older persons with underlying medical conditions,
was not developed into a potential candidate for young children, for
whom the need is greatest.http://www.samj.org.zaam2016Paediatrics and Child Healt
Effectiveness of pneumococcal conjugate vaccine and rotavirus vaccine introduction into the South African public immunisation programme
KMImmunisation has contributed greatly to the control of vaccine-preventable diseases and therefore to improvements in health and survival, especially among young children, and remains one of the most successful and cost-effective public health interventions. This remains true for many of the newer, more expensive vaccines. Vaccines against invasive pneumococcal disease and rotavirus infection were introduced into the South African Expanded Programme on Immunization in April 2009. This article describes the rationale for and process of the introduction of these two vaccines, pneumococcal conjugate vaccine and rotavirus vaccine. It also aims to evaluate the success of and challenges related to their introduction, in terms of both achieving universal coverage and improving survival and health in South African children
An evaluation of the quality of discharge summaries from the general paediatric wards at Chris Hani Baragwanath Academic Hospital, Johannesburg, South Africa
Background. Hospital discharge summaries are deemed to be an essential part of the medical record in South Africa, but formal assessment of their quality is rarely undertaken. At Chris Hani Baragwanath Academic Hospital (CHBAH) in Johannesburg, medical admission notes (bedletters) are difficult to retrieve from the hospital archives and the discharge summary is often the only readily available medical record that documents details of the hospital admission.Objectives. To determine the proportion of discharge summaries that were appropriately completed for children admitted to the general paediatric wards at CHBAH.Methods. A retrospective review of discharge summaries completed for children admitted from 1 May to 31 July 2016 was undertaken. The completeness of the following demographic and clinical variables was assessed: patient identifiers, hospital outcome, HIV infection status and anthropometric status. The documentation of correct International Statistical Classification of Diseases and Related Health Problems, 10th revision (ICD-10) codes was assessed in children diagnosed with any form of lower respiratory tract infection (LRTI), which is the commonest diagnosis recorded in hospitalised children at CHBAH.Results. Discharge summaries were available for 1 148 (78.3%) of 1 466 children admitted during the study period. For completed discharge summaries, 80.1 - 93.3% of patient identifiers and 91.4% of patient outcomes were appropriately completed. HIV exposure was documented in 84.7% of summaries. Anthropometric parameters, including weight and length/height at admission and discharge weight, were appropriately completed in 91.4%, 70.9% and 50.0% of summaries, respectively. The ICD-10 code for children with LRTI was appropriately recorded by medical staff in 338 (67.2%) of 503 cases. ICD‑10 codes and anthropometric parameters, which are important clinical parameters in the paediatric follow-up consultation, were both correctly recorded for only 21.6% of children who required follow-up clinical consultations at CHBAH.Conclusions. Compared with similar studies, both the rate of completion and the quality of completed discharge summaries were modest in this tertiary academic teaching hospital. As discharge summaries are crucial medical documents, interventions to improve their completeness rate and quality need to be developed
Antimicrobial susceptibility and serotype distribution of Streptococcus agalactiae rectovaginal colonising isolates from pregnant women at a tertiary hospital in Pretoria, South Africa : an observational descriptive study
BACKGROUND. Streptococcus agalactiae or group B streptococcus (GBS) is a significant cause of neonatal sepsis. Intrapartum antibiotic
prophylaxis is recommended for pregnant women identified to be rectovaginally colonised between 34 and 37 weeks’ gestational age to
decrease the risk of invasive disease in their newborns. An effective multivalent GBS vaccine may prevent a broader scope of GBS-associated
diseases, such as GBS early-onset disease, GBS late-onset disease, spontaneous abortion, stillbirth and maternal bacteraemia. Serotype
distribution of GBS isolates is essential to determine the efficacy of such a vaccine.
OBJECTIVES. To investigate serotype distribution and antimicrobial susceptibility patterns of GBS isolates cultured from rectovaginal
specimens during pregnancy.
METHODS. Sixty-nine archived maternal colonising isolates were tested against penicillin, erythromycin, clindamycin, vancomycin and
levofloxacin. Minimum inhibitory concentration testing was performed using the ETEST method. Serotyping was performed by the latex
agglutination method.
RESULTS. The most common serotypes detected were Ia (54%), III (20%), V (16%), II (6%), IV (2%) and Ib (1%). All isolates were fully
susceptible to penicillin, vancomycin and levofloxacin. Eight (11%) and 50 (56%) isolates showed intermediate resistance to erythromycin
and clindamycin, respectively, and 1 isolate was resistant to erythromycin. The macrolide-lincosamide-streptogramin B (MLSB) phenomenon
was noted in 3 (4%) of the isolates.
CONCLUSIONS. GBS-colonising isolates remain susceptible to penicillin, which remains the drug of choice for intrapartum antibiotic
prophylaxis and treatment of invasive disease in newborns. Macrolides should only be used if clinically indicated due to the high prevalence
of intermediate resistance. A pentavalent GBS vaccine currently in phase I trials should provide coverage for 97% of the isolates identified
in this study.The National Health Laboratory Service (NHLS) and the Respiratory and Meningeal Pathogens Research Unit, University of the Witwatersrand, Johannesburg.http://www.samj.org.zaam2021Medical Microbiolog
Acute viral bronchiolitis in South Africa : diagnostic flow
Bronchiolitis may be diagnosed on the basis of clinical signs and symptoms. In a young child, the diagnosis can be made on the clinical
pattern of wheezing and hyperinflation.
Clinical symptoms and signs typically start with an upper respiratory prodrome, including rhinorrhoea, low-grade fever, cough and poor
feeding, followed 1 - 2 days later by tachypnoea, hyperinflation and wheeze as a consequence of airway inflammation and air trapping.
The illness is generally self limiting, but may become more severe and include signs such as grunting, nasal flaring, subcostal chest wall
retractions and hypoxaemia. The most reliable clinical feature of bronchiolitis is hyperinflation of the chest, evident by loss of cardiac
dullness on percussion, an upper border of the liver pushed down to below the 6th intercostal space, and the presence of a Hoover sign
(subcostal recession, which occurs when a flattened diaphragm pulls laterally against the lower chest wall).
Measurement of peripheral arterial oxygen saturation is useful to indicate the need for supplemental oxygen. A saturation of <92% at
sea level and 90% inland indicates that the child has to be admitted to hospital for supplemental oxygen. Chest radiographs are generally
unhelpful and not required in children with a clear clinical diagnosis of bronchiolitis.
Blood tests are not needed routinely. Complete blood count tests have not been shown to be useful in diagnosing bronchiolitis or guiding
its therapy. Routine measurement of C-reactive protein does not aid in management and nasopharyngeal aspirates are not usually done.
Viral testing adds little to routine management.
Risk factors in patients with severe bronchiolitis that require hospitalisation and may even cause death, include prematurity, congenital
heart disease and congenital lung malformations.http://www.samj.org.zaam2016Paediatrics and Child Healt
Acute viral bronchiolitis in South Africa : viral aetiology and clinical epidemiology
Bronchiolitis is a viral-induced lower respiratory tract infection that occurs predominantly in children <2 years of age, particularly infants.
Many viruses have been proven or attributed to cause bronchiolitis, including and most commonly the respiratory syncytial virus (RSV)
and rhinovirus. RSV is responsible for more severe disease and complications (including hospitalisation) in bronchiolitis patients. Whereas
bronchiolitis is exclusively due to respiratory viral infections, with little evidence of bacterial co-infection, the former could nevertheless
predispose to superimposed bacterial infections. Although data support an interaction between RSV and pneumococcal superimposed
infections, it should be noted that this specifically refers to children who are hospitalised with RSV-associated pneumonia, and not to
children with bronchiolitis or milder outpatient RSV-associated illness. As such, empiric antibiotic treatment against pneumococcus in
children with RSV-associated pneumonia is only warranted in cases of hospitalisation and when the clinical syndrome is more in keeping
with pneumonia than uncomplicated bronchiolitis. In South Africa, the peak in the RSV season varies only slightly by province, with onset
in February, and lasting until June. The important implication of these new seasonality findings is that where prophylaxis is possible, as in
the case of RSV, it should be commenced in January of each year.http://www.samj.org.zaam2016Paediatrics and Child Healt
Acute viral bronchiolitis in South Africa : strategies for management and prevention
Management of acute viral bronchiolitis is largely supportive. There is currently no proven effective therapy other than oxygen for hypoxic
children. The evidence indicates that there is no routine benefit from inhaled, rapid short-acting bronchodilators, adrenaline or ipratropium
bromide for children with acute viral bronchiolitis. Likewise, there is no demonstrated benefit from routine use of inhaled or oral corticosteroids,
inhaled hypertonic saline nebulisation, montelukast or antibiotics. The last should be reserved for children with severe disease, when bacterial
co-infection is suspected.
Prevention of respiratory syncytial virus (RSV) disease remains a challenge. A specific RSV monoclonal antibody, palivizumab,
administered as an intramuscular injection, is available for children at risk of severe bronchiolitis, including premature infants, young
children with chronic lung disease, immunodeficiency, or haemodynamically significant congenital heart disease. Prophylaxis should be
commenced at the start of the RSV season and given monthly during the season. The development of an RSV vaccine may offer a more
effective alternative to prevent disease, for which the results of clinical trials are awaited.
Education of parents or caregivers and healthcare workers about diagnostic and management strategies should include the following:
bronchiolitis
is caused by a virus; it is seasonal; it may start as an upper respiratory tract infection with low-grade fever; symptoms are cough
and wheeze, often with fast breathing; antibiotics are generally not needed; and the condition is usually self limiting, although symptoms
may occur for up to 4 weeks in some children.http://www.samj.org.zaam2016Paediatrics and Child Healt
Report on eighth WHO meeting on development of influenza vaccines that induce broadly protective and long-lasting immune responses: Chicago, USA, 23-24 August 2016
In August 2016, the World Health Organization (WHO) convened the "Eighth meeting on development of influenza vaccines that induce broadly protective and long-lasting immune responses" to discuss the regulatory requirements and pathway
Prevalence of drug-resistant tuberculosis and imputed burden in South Africa : a national and sub-national cross-sectional survey
BACKGROUND : Globally, per-capita, South Africa reports a disproportionately high number of cases of multidrug-resistant (MDR) tuberculosis and extensively drug-resistant (XDR) tuberculosis. We sought to estimate the prevalence of resistance to tuberculosis drugs in newly diagnosed and retreated patients with tuberculosis provincially and nationally, and compared these with the 2001–02 estimates. METHODS : A cross-sectional survey was done between June 15, 2012–June 14, 2014, using population proportionate randomised cluster sampling in the nine provinces in South Africa. 343 clusters were included, ranging between 31 and 48 per province. A patient was eligible for inclusion in the survey if he or she presented as a presumptive case during the intake period at a drug resistance survey enrolling facility. Consenting participants (≥18 years old) completed a questionnaire and had a sputum sample tested for resistance to first-line and second-line drugs. Analysis was by logistic regression with robust SEs, inverse probability weighted against routine data, and estimates were derived using a random effects model. FINDINGS : 101 422 participants were tested in 2012–14. Nationally, the prevalence of MDR tuberculosis was 2·1% (95% CI 1·5–2·7) among new tuberculosis cases and 4·6% (3·2–6·0) among retreatment cases. The provincial point prevalence of MDR tuberculosis ranged between 1·6% (95% CI 0·9–2·9) and 5·1% (3·7–7·0). Overall, the prevalence of rifampicin-resistant tuberculosis (4·6%, 95% CI 3·5–5·7) was higher than the prevalence of MDR tuberculosis (2·8%, 2·0–3·6; p=0·01). Comparing the current survey with the previous (2001–02) survey, the overall MDR tuberculosis prevalence was 2·8% versus 2·9% and prevalance of rifampicin-resistant tuberculosis was 3·4% versus 1·8%, respectively. The prevalence of isoniazid mono-resistant tuberculosis was above 5% in all provinces. The prevalence of ethionamide and pyrazinamide resistance among MDR tuberculosis cases was 44·7% (95% CI 25·9–63·6) and 59·1% (49·0–69·1), respectively. The prevalence of XDR tuberculosis was 4·9% (95% CI 1·0–8·8). Nationally, the estimated numbers of cases of rifampicin-resistant tuberculosis, MDR tuberculosis, and isoniazid mono-resistant tuberculosis for 2014 were 13 551, 8249, and 17 970, respectively. INTERPRETATION : The overall prevalence of MDR tuberculosis in South Africa in 2012–14 was similar to that in 2001–02; however, prevalence of rifampicin-resistant tuberculosis almost doubled among new cases. Furthermore, the high prevalence of isoniazid mono-resistant tuberculosis, not routinely screened for, and resistance to second-line drugs has implications for empirical management.President's Emergency Plan for AIDS Relief through the Centers for Disease Control and Prevention under the terms of 1U19GH000571.http://www.thelancet.com/infection2019-07-01hj2018Medical Microbiolog
Norovirus epidemiology in South African children < 5 years hospitalised for diarrhoeal illness between 2009 and 2013
Public health interest in norovirus (NoV) has increased in recent years following improved diagnostics, global burden estimates and the development of NoV vaccine candidates. This study aimed to describe the detection rate, clinical characteristics and environmental features associated with NoV detection in hospitalized children <5 years with diarrhoea in South Africa (SA). Between 2009 and 2013, prospective diarrhoeal surveillance was conducted at four sites in SA. Stool specimens were collected and screened for NoVs and other enteric pathogens using molecular and serological assays. Epidemiological and clinical data were compared in patients with or without detection of NoV. The study detected NoV in 15% (452/3103) of hospitalized children <5 years with diarrhoea with the majority of disease in children <2 years (92%; 417/452). NoV-positive children were more likely to present with diarrhoea and vomiting (odds ratio (OR) 1·3; 95% confidence interval (CI) 1·1–1·7; P = 0·011) with none-to-mild dehydration (adjusted OR 0·5; 95% CI 0·3–0·7) compared with NoV-negative children. Amongst children testing NoV positive, HIV-infected children were more likely to have prolonged hospitalization and increased mortality compared with HIV-uninfected children. Continued surveillance will be important to consider the epidemic trends and estimate the burden and risk of NoV infection in SA.GlaxoSmithKline (E-Track 200238)https://www.cambridge.org/core/journals/epidemiology-and-infection2018-01-30hj2017Medical Virolog