View clinical trials related to Severe Pneumonia.
Filter by:Ambroxol is a mucolytic containing an active N-desmethyl metabolite of bromhexine. It is approved by both the U.S. FDA and EMA to be marketed under several formulations including oral, nasal, oro-mucosal, rectal and intravenous formulations. One of ambroxol's authorized use is for the treatment of bronchopulmonary infections. In addition, it has been found over the decades to have other multi-pronged properties such as local anaesthesia, anti-inflammatory and anti-oxidant effects. It also stimulates surfactant production in Type II pneumocytes, thus preventing atelectasis in pneumonia. Ambroxol has demonstrated a wide safety profile and is an extensively studied drug in terms of safety with the commonest side effects being skin rashes, allergies, nausea, vomiting, abdominal pain and dyspepsia. Severe pneumonia is is defined by the American Thoracic Society (ATS) as pneumonia that requires ICU admission and specifically fulfils one of two major criteria, or three out of nine minor criteria as per recommended in the latest ATS guideline. This study aims to investigate the effects of using intravenous ambroxol as an adjunct therapy on the resolution of severe pneumonia. The improvements in modified Clinical Pulmonary Infection Score (CPIS) will be used as a surrogate for resolution of severe pneumonia. Modified CPIS is a clinical score of 0-12 based on 6 clinical features: volume and character of tracheal secretions, chest radiograph infiltrates, body temperature, leukocyte count, oxygenation index, and microbiology results. Traditionally, CPIS score has been used to facilitate the diagnosis of VAP where a cut-off point of >6 is used to denote possible pneumonia. Interestingly, Luna et al has found that serial improvements in CPIS score can be successfully used as a surrogate for pneumonia resolution with good correlation with eventual survivability. This study will also explore the effects of using ambroxol on other clinical outcomes of patients with severe pneumonia, including ICU mortality, duration of ICU stay, length of mechanical ventilation and incidence of reintubation within 48 hours. If this adjunct treatment is able to reduce duration of ICU stay and length of MV, it will not only directly impact the patients' short & long term outcomes but will also confer logistical benefits in terms of saving resources and reducing healthcare economic burden while optimizing ICU turnover rates.
Low and middle-income countries (LMICs) urgently need cost-effective adaptive technologies to provide CPAP. The lead investigator has designed a device that has already been approved by the Directorate General of Drug Administration (DGDA), Government of the People's Republic of Bangladesh. The design of the nasal seal was comfortable and well tolerated by all the participants. Patients were told about some mild discomfort at higher delivered pressures (14 or 15 cm PEEP), consistent with pressurised nasal delivery by similar devices. The safety phase has been initiated since 1st November 2020 and ended in April 2021. One patient withdrew from the study but none of them developed any adverse events. The feasibility phase started at the end of September 2021. Objectives: 1. To evaluate the barriers and operational challenges related to the introduction of adult bubble CPAP oxygen therapy 2. To evaluate the acceptability of introducing adult bubble CPAP in tertiary level hospitals of Bangladesh
The latest epidemiological data published from Chine reports that up to 30% of hospital-admitted patients required admission to intensive care units (ICU). The cause for ICU admission for most patients is very severe respiratory failure; 80% of the patients present with severe acute respiratory distress syndrome (SARS) that requires protective mechanical ventilation. Five percent of patients with SARS require extracorporeal circulation (ECMO) techniques. Global mortality data has been thus far reported in different individual publications from China. Without accounting for those patients still admitted to hospital, bona fide information (from a hospital in Wuhan) received by the PI of this project estimates that mortality of hospitalized patients is more than 10%. Evidently, mortality is concentrated in patients admitted to the ICU and those patients who require mechanical ventilation and present with SARS. As data in China was globally reported, risk factors and prognosis of patients with and without SARS who require mechanical ventilation are not definitively known. The efficacy of different treatments administered empirically or based on small, observation studies is also not known. With many still admitted at the time of publication, a recent study in JAMA about 1500 patients admitted to the ICU in the region of Lombardy (Italy) reported a crude mortality rate of 25%. The data published until the current date is merely observational, prospective or retrospective. Data has not been recorded by analysis performed with artificial intelligence (machine learning) in order to report much more personalized results. Furthermore, as it concerns patients admitted to the ICU who survive, respiratory and cardiovascular consequences, as well as quality of living are completely unknown. The study further aims to investigate quality of life and different respiratory and cardiovascular outcomes at 6 months, as well as crude mortality within 1 year after discharge of patients with COVID-19 who survive following ICU admission. Lastly, with the objective to help personalize treatment in accordance with altered biological pathways in each patient, two types of studies will be performed: 1) epigenetics and 2) predictive enrichment of biomarkers in plasma. Hypothesis - A significant percentage of patients (20%) admitted to the hospital with COVID-19 infection is expected to require ICU admission, and need mechanical ventilation (80%) and, in a minor percentage (5%), ECMO. - Patients who survive an acute episode during ICU hospitalization will have a yearly accumulated mortality of 40%. Those who then survive will have respiratory consequences, cardiovascular complications and poor quality of life (6 months).
Principal Investigator: Mohammod Jobayer Chisti Research Protocol Title: Feasibility and Acceptability Followed by Effectiveness of Bubble Continuous Positive Airway Pressure (bCPAP) for Treatment of Children aged 1-59 months with Severe Pneumonia in Ethiopia: A Cluster Randomized Controlled Clinical Trial Proposed start date: 1st July 2018, Estimated end date: 31st December 2022 Background: Feasibility and acceptability followed by effectiveness of bubble continuous positive airway pressure (CPAP) were not evaluated in childhood severe pneumonia in developing countries at a larger scale. Objectives: Stages I and II - To assess the feasibility and acceptability (not only by patients' care-givers but also by physicians and nurses) of bubble CPAP in treating childhood severe pneumonia in two tertiary hospitals in Stage I and in two district hospitals in Stage II - To record adverse events following use of bubble CPAP in these settings - To understand how much resource and time are needed to institutionalize and maintain bubble CPAP as a routine practice in the health system Stage III: - To determine therapeutic efficacy/effectiveness of bubble CPAP compared to WHO standard low flow oxygen in reducing treatment failure in children admitted to hospitals with severe pneumonia and hypoxemia - To determine therapeutic effectiveness of bubble CPAP compared to WHO standard low flow oxygen in reducing treatment failure & mortality in children aged 1-12 months admitted to hospitals with severe pneumonia and hypoxemia - To record adverse events (pneumothorax, abdominal distension, nasal trauma, aspiration pneumonia) encountered.
Despite progress in reducing tuberculosis (TB) incidence and mortality in the past 20 years, TB is a top ten cause of death in children under 5 years worldwide. However, childhood TB remains massively underreported and undiagnosed, mostly because of the challenges in confirming its diagnosis due to the paucibacillary nature of the disease and the difficulty in obtaining expectorated sputum in children. Pneumonia is the leading cause of death in children under the age of 5 years worldwide. There is growing evidence that, in high TB burden settings, TB is common in children with pneumonia, with up to 23% of those admitted to hospital with an initial diagnosis of pneumonia later being diagnosed as TB. However, the current World Health Organization (WHO) standard of care (SOC) for young children with pneumonia considers a diagnosis of TB only if the child has a history of prolonged symptoms or fails to respond to antibiotic treatments. Hence, TB is often under-diagnosed or diagnosed late in children presenting with pneumonia. In this context, the investigators are proposing to assess the impact on mortality of adding the systematic early detection of TB using Xpert MTB/RIF Ultra, performed on NPAs and stool samples, to the WHO SOC for children with severe pneumonia, followed by immediate initiation of anti-TB treatment in children testing positive on any of the samples. TB-Speed Pneumonia is a multicentric, stepped wedge diagnostic trial conducted in six countries with high TB incidence: Cote d'Ivoire, Cameroon, Uganda, Mozambique, Zambia and Cambodia. The sub-study on Covid-19 will assess the prevalence and impact of the Covid-19 in young children hospitalized with severe pneumonia. The sub-study findings are expected to guide policy makers and clinicians on potential specific screening and management measures for these vulnerable groups of children. They are also key to analysing TB-Speed Pneumonia results on mortality in a context of the Covid-19 outbreak and to take into consideration SARS-CoV-2 infection status in the main study analysis.
The study assesses and compares the effect of 'pulse oximetry' (PO) used by Lady Health Workers (LHWs) at household level on increasing hospital referral acceptance rates in intervention clusters (district Jamshoro) for 0-59 months old children with severe pneumonia with the effect of LHWs using clinical signs alone in non-intervention clusters of the same district.
Two-arm cluster randomized controlled trial located in Hala district, Pakistan to determine the impact of using Lady Health Workers (LHW) of National Program for Family Planning and Primary Health Care to diagnose and manage severe pneumonia with oral amoxicillin on treatment failure rates at day 6 among 2-59 month old children. LHWs in the control arm receive a refresher in standard pneumonia case management. LHWs in the intervention arm receive standard training that is enhanced to include training in the recognition of severe pneumonia and its home management with oral amoxicillin. Clusters are by Union Council (UC), administrator units consisting of 7 to 25 LHWs; each UC is randomized to either enhanced pneumonia case management with oral amoxicillin therapy (intervention) for severe pneumonia or standard case management and referral to the nearest health facility for treatment (control). Process indicators reflecting the LHW's ability to assess, classify and treat pneumonia in the intervention group and cost-effectiveness data is also being collected. Primary Hypothesis: Enhanced pneumonia case management and oral amoxicillin therapy for severe pneumonia delivered by LHWs in the community will result in a reduction in treatment failure among children 2 - 59 months of age with severe pneumonia who are treated by the LHW compared with those referred for care by the LHW. Secondary Hypotheses: 1. The proportion of treatment failure, [persistence of lower chest indrawing (LCI) or need for second line treatment between day 3 and day 14], will be less in the intervention arm compared with the control arm. 2. LHWs can adequately assess, classify, and treat severe pneumonia in 2 - 59 month old children, and adequately recognize and refer children who present with danger signs during initial antimicrobial therapy.
Pneumonia is the leading cause of childhood morbidity and death in many developing countries including Bangladesh, causing about 2 million deaths worldwide each year. Pneumonia is an infection of the lungs, most commonly caused by viruses or bacteria like Streptococcus pneumoniae and Haemophilus influenzae. Depending on the clinical presentation, pneumonia can be classified as very severe, severe or non-severe, with specific treatment for each of them except for antibiotic therapy. Severe and very severe pneumonia require hospitalization for additional supportive treatment such as suction, oxygen therapy and administration of bronchodilator. In Bangladesh, the number of hospital beds is inadequate for admission of all pneumonia cases that require hospitalization; however, it is also important to provide institutional care to those children who cannot be hospitalized due to bed constraints. Provision of appropriate antibiotics and supportive cares during the period of stay at established day-care centres could be an effective alternative. The impetus for this study came from the findings of our recently completed study titled "Daycare-based management of severe pneumonia in under-5 children when hospitalization is not possible due to the lack of beds". This study successfully managed children (n=251), but it was not a randomized trial and thus direct comparison of the efficacy of management of severe pneumonia at the day-care centre, essential for building confidence for implementing this management policy, is not possible. We, the researchers at the International Centre for Diarrhoeal Disease Research, Bangladesh, could not plan a randomized, controlled trial (RCT) because of ethical reasons. Now that we have data suggesting effectiveness as well as safety of the day-care based treatment for management of children with severe pneumonia, a RCT should be possible. Two hundred fifty-one children with severe pneumonia were enrolled at the Radda Clinic from June 2003 to May 2005. The mean age was 7±7 (2-55) months, 86% infants, 63% boys and 91% breast-fed. History of cough was present in 99% cases, fever in 89% and rapid breathing in 67% cases. Forty-four percent of children were febrile (≥38°C), 93% children had vesicular breath sound and 99% bilateral rales. Fifty-seven percent of children were hypoxic with mean oxygen saturation of (93±4)%, which was corrected by oxygen therapy (98±3)%. Eighty percent of children had severe pneumonia and 20% had very severe pneumonia. The mean duration of clinic stay was (7±2) days. Two hundred thirty-four (93%) children completed the study successfully, 11 (4.4%) referred to hospitals (only one participant had to visit hospital at night due to deterioration of his condition, 9 were referred to hospital at the time of clinic closure i.e., at 5 pm and one participant was referred to hospital during the morning hours) and 6 (2.4%) left against medical advice (LAMA). There was no death during the period of clinic stay but only four (1.6%) deaths occurred during the 3 months follow-up. The study indicated that treatment of severe pneumonia in children at the day-care centre is effective and safe and thus it is comparable to the hospital care. If the day-care based management is found to have comparable efficacy to that of hospitalized management of severe pneumonia in children then they could be managed at outpatient, day-care set ups reducing hospitalization and thus freeing beds for management of other children who need hospitalized care. Additionally, availability of the treatment facility in community set-ups will be cost and time saving for the population. Children of either sex, aged 2-59 months, attending the Radda Clinic and Institute of Child Health and Shishu Hospital (ICHSH) with severe pneumonia will be randomized to receive either the day-care management at the clinic or hospitalized management at the ICHSH. Children randomized to receive day-care treatment will stay at the clinic from 8 am-5 pm and will receive antibiotics and other supportive cares. At 5 pm, they would be send to respective homes with advice to bring back their children to the clinic next morning, and advised to provide other supports at home. The same management would be continued till improvement and discharged and followed up every 2 weeks for 3 months. Children randomized to receive hospitalized management would be admitted at ICHSH and receive standard treatment like antibiotics and other supportive cares. The same treatment would be continued for 24 hours/day (rather than 9 hours/day at the day-care clinic) till improvement and discharged and followed-up at the ICHSH every 2 weeks for 3 months. About 3000 children with pneumonia visit Radda Clinic each year and about 200 of them will have severe pneumonia requiring hospitalization. Thus, we hope to enroll 368 (184 in each site) children with severe pneumonia during a 2-year study period.