Your search keyword '"Hasibul Islam"' showing total 4 results

1. A Real Time Method for Distinguishing COVID-19 Utilizing 2D-CNN and Transfer Learning

Author

Abida Sultana, Md. Nahiduzzaman, Sagor Chandro Bakchy, Saleh Mohammed Shahriar, Hasibul Islam Peyal, Muhammad E. H. Chowdhury, Amith Khandakar, Mohamed Arselene Ayari, Mominul Ahsan, and Julfikar Haider

Subjects

COVID-19, viral pneumonia, bacterial pneumonia, fibrosis, tuberculosis, pre-trained CNN, Chemical technology, TP1-1185

Abstract

Rapid identification of COVID-19 can assist in making decisions for effective treatment and epidemic prevention. The PCR-based test is expert-dependent, is time-consuming, and has limited sensitivity. By inspecting Chest R-ray (CXR) images, COVID-19, pneumonia, and other lung infections can be detected in real time. The current, state-of-the-art literature suggests that deep learning (DL) is highly advantageous in automatic disease classification utilizing the CXR images. The goal of this study is to develop models by employing DL models for identifying COVID-19 and other lung disorders more efficiently. For this study, a dataset of 18,564 CXR images with seven disease categories was created from multiple publicly available sources. Four DL architectures including the proposed CNN model and pretrained VGG-16, VGG-19, and Inception-v3 models were applied to identify healthy and six lung diseases (fibrosis, lung opacity, viral pneumonia, bacterial pneumonia, COVID-19, and tuberculosis). Accuracy, precision, recall, f1 score, area under the curve (AUC), and testing time were used to evaluate the performance of these four models. The results demonstrated that the proposed CNN model outperformed all other DL models employed for a seven-class classification with an accuracy of 93.15% and average values for precision, recall, f1-score, and AUC of 0.9343, 0.9443, 0.9386, and 0.9939. The CNN model equally performed well when other multiclass classifications including normal and COVID-19 as the common classes were considered, yielding accuracy values of 98%, 97.49%, 97.81%, 96%, and 96.75% for two, three, four, five, and six classes, respectively. The proposed model can also identify COVID-19 with shorter training and testing times compared to other transfer learning models.

Published

2023

2. A Real Time Method for Distinguishing COVID-19 Utilizing 2D-CNN and Transfer Learning.

Author

Sultana, Abida, Nahiduzzaman, Md., Bakchy, Sagor Chandro, Shahriar, Saleh Mohammed, Peyal, Hasibul Islam, Chowdhury, Muhammad E. H., Khandakar, Amith, Arselene Ayari, Mohamed, Ahsan, Mominul, and Haider, Julfikar

Subjects

NOSOLOGY, COVID-19, LUNG diseases, LUNG infections, AUTOMATIC classification

Abstract

Rapid identification of COVID-19 can assist in making decisions for effective treatment and epidemic prevention. The PCR-based test is expert-dependent, is time-consuming, and has limited sensitivity. By inspecting Chest R-ray (CXR) images, COVID-19, pneumonia, and other lung infections can be detected in real time. The current, state-of-the-art literature suggests that deep learning (DL) is highly advantageous in automatic disease classification utilizing the CXR images. The goal of this study is to develop models by employing DL models for identifying COVID-19 and other lung disorders more efficiently. For this study, a dataset of 18,564 CXR images with seven disease categories was created from multiple publicly available sources. Four DL architectures including the proposed CNN model and pretrained VGG-16, VGG-19, and Inception-v3 models were applied to identify healthy and six lung diseases (fibrosis, lung opacity, viral pneumonia, bacterial pneumonia, COVID-19, and tuberculosis). Accuracy, precision, recall, f1 score, area under the curve (AUC), and testing time were used to evaluate the performance of these four models. The results demonstrated that the proposed CNN model outperformed all other DL models employed for a seven-class classification with an accuracy of 93.15% and average values for precision, recall, f1-score, and AUC of 0.9343, 0.9443, 0.9386, and 0.9939. The CNN model equally performed well when other multiclass classifications including normal and COVID-19 as the common classes were considered, yielding accuracy values of 98%, 97.49%, 97.81%, 96%, and 96.75% for two, three, four, five, and six classes, respectively. The proposed model can also identify COVID-19 with shorter training and testing times compared to other transfer learning models. [ABSTRACT FROM AUTHOR]

Published

2023

3. A tuberculin skin test survey among healthcare workers in two public tertiary care hospitals in Bangladesh

Author

Sayera Banu, S. M. Hasibul Islam, Abrar Ahmad Chughtai, Sayeeda Tarannum, Saiful Islam, Muhammad Tauhidul Islam, Holly Seale, Arifa Nazneen, and Kamal Ibne Amin Chowdhury

Subjects

Bacterial Diseases, Male, Pulmonology, Epidemiology, Nosocomial Infections, Health Care Providers, Nurses, Tertiary care, Geographical Locations, Tertiary Care Centers, Medical Conditions, Health care, Medicine and Health Sciences, Medicine, Medical Personnel, Bangladesh, Multidisciplinary, Obstetrics and Gynecology, Skin test, Middle Aged, Checklist, Professions, Infectious Diseases, Female, Research Article, Adult, medicine.medical_specialty, Asia, Adolescent, Health Personnel, Science, education, Tuberculin, Respiratory Disorders, Young Adult, Latent Tuberculosis, Tuberculosis, Humans, Multivariable model, Personal protective equipment, Skin Tests, business.industry, Hospital level, Tropical Diseases, bacterial infections and mycoses, Health Care, Health Care Facilities, Medical Risk Factors, People and Places, Respiratory Infections, Emergency medicine, Women's Health, Population Groupings, business

Abstract

In Bangladesh, there is currently no data on the burden of latent TB infection (LTBI) amongst hospital healthcare workers (HCWs). This study aimed to determine the prevalence of LTBI and compare the prevalence among HCWs in two public tertiary care hospitals. Between September 2018 and August 2019, we conducted a cross-sectional study in two public tertiary care general hospitals. Using a survey and tuberculin skin test (TST), we assessed risk factors for LTBI, adjusting for known and plausible confounders. In addition, a facility assessment was undertaken to understand the implementation of relevant IPC measures. The prevalence of LTBI among HCWs was 42%. HCWs spent a median of 6 hours (SD = 1.76, IQR 2.00) per day and attended an average of 1.87 pulmonary TB patients per week. HCWs did not receive any TB IPC training, the wards lacked a symptom checklist to screen patients for TB, and no masks were available for coughing patients. Seventy-seven percent reportedly did not use any facial protection (masks or respirators) while caring for patients. In the multivariable model adjusting for hospital level clustering effect, TST positivity was significantly higher among HCWs aged 35–45 years (aOR1.36, 95% CI: 1.06–1.73) and with >3 years of service (aOR 1.67, 95% CI: 1.62–1.72). HCWs working in the medicine ward had 3.65 (95% CI: 2.20–6.05) times, and HCWs in the gynecology and obstetrics ward had 2.46 (95% CI: 1.42–4.27) times higher odds of TST positivity compared to HCWs working in administrative areas. This study identified high prevalence of LTBI among HCWs. This may be due to the level of exposure to pulmonary TB patients, and/or limited use of personal protective equipment along with poor implementation of TB IPC in the hospitals. Considering the high prevalence of LTBI, we recommend the national TB program consider providing preventative therapy to the HCWs as the high-risk group, and implement TB IPC in the hospitals.

Published

2020

4. Implementation status of national tuberculosis infection control guidelines in Bangladeshi hospitals

Author

Kamal Ibne Amin Chowdhury, Shahriar Ahmed, Mohammad Tauhidul Islam, S. M. Hasibul Islam, Saiful Islam, Arifa Nazneen, Sayeeda Tarannum, and Sayera Banu

Subjects

Bacterial Diseases, Health Knowledge, Attitudes, Practice, Critical Care and Emergency Medicine, Pulmonology, Extensively Drug-Resistant Tuberculosis, Health Care Providers, Psychological intervention, Respirators, Medical Conditions, Health care, Medicine and Health Sciences, Infection control, Medical Personnel, Bangladesh, Cross Infection, Multidisciplinary, Hospitals, Checklist, Actinobacteria, Professions, Infectious Diseases, Practice Guidelines as Topic, Medicine, Engineering and Technology, Research Article, Biotechnology, medicine.medical_specialty, Tuberculosis, Science, education, Specialty, Bioengineering, Respiratory Disorders, Physicians, parasitic diseases, medicine, Humans, cardiovascular diseases, Infection Control, Bacteria, business.industry, Organisms, Biology and Life Sciences, Extensively drug-resistant tuberculosis, Tropical Diseases, medicine.disease, Triage, Health Care, Health Care Facilities, Family medicine, Respiratory Infections, People and Places, Medical Devices and Equipment, Population Groupings, business, Mycobacterium Tuberculosis

Abstract

In response to the World Health Organization (WHO) recommendation to reduce healthcare workers’ (HCWs’) exposure to tuberculosis (TB) in health settings, congregate settings, and households, the national TB control program of Bangladesh developed guidelines for TB infection prevention and control (IPC) in 2011. This study aimed to assess the implementation of the TB IPC healthcare measures in health settings in Bangladesh. Between February and June 2018, we conducted a mixed-method study at 11 health settings. The team conducted 59 key-informant interviews with HCWs to understand the status of and barriers impeding the implementation of the TB IPC guidelines. The team also performed a facility assessment survey and examined TB IPC practices. Most HCWs were unaware of the national TB IPC guidelines. There were no TB IPC plans or committees at the health settings. Further, a presumptive pulmonary TB patient triage checklist was absent in all health settings. However, during facility assessment, we observed patient triaging and separation in the TB specialty hospitals. Routine cough-etiquette advice was provided to the TB patients mentioned during the key-informant interviews, which was consistent with findings from the survey. This study identified poor implementation of TB IPC measures in health settings. Limited knowledge of the guidelines resulted in poor implementation of the recommendations. Interventions focusing on the dissemination of the TB IPC guidelines to HCWs along with regular training may improve compliance. Such initiatives should be taken by hospital senior leadership as well as national policy makers.

Published

2021