The Impact of Covid-19 Hospital Care on the Prevalence of MDRO in Indonesia
NCT ID: NCT05293483
Last Updated: 2022-03-24
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
Recruitment Status
UNKNOWN
Total Enrollment
1110 participants
Study Classification
OBSERVATIONAL
Study Start Date
2022-03-07
Study Completion Date
2023-03-07
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
The effect of the COVID-19 pandemic on the emergence and spread of antibiotic-resistant bacteria is largely unknown, especially in low-resource settings. We aim to investigate the prevalence and relatedness of multidrug-resistant bacteria among patients in both COVID-19 and non-COVID-19 wards in two hospitals in Indonesia. Bacterial isolates will be collected from clinical sample and by screening of patients at discharge followed by 30 days after discharge. Aspects of hospital care that may be different in COVID-19 wards versus non-COVID-19 wards and that are considered important determinants for antimicrobial resistance (AMR) will be measured: hand hygiene compliance, use of personal protective equipment, and antibiotic use. Comparison of these data from COVID-19 wards to non-COVID-19 wards will increase our understanding of multidrug-resistant bacteria and provide further insight into the effect of interventions for AMR.
The hypothesis of this study are: 1) the prevalence of multidrug-resistant bacteria in COVID-19 wards is higher than non-COVID-19 wards; 2) there is a relatedness of multidrug-resistant bacteria circulating either in the COVID-19 wards or non-COVID-19 wards; 3) the hand-hygiene compliance is lower in the COVID-19 wards than non-COVID-19 wards, however the personal protective equipment use compliance is higher in the COVID-19 wards than non-COVID-19 wards; 4) the antibiotic use in non-COVID-19 wards is better qualitatively; 5) the use of Ciprofloxacin, Gentamicin, and Ceftriaxone in non-COVID-19 wards is higher than in COVID-19 wards.
The hypothesis of this study are: 1) the prevalence of multidrug-resistant bacteria in COVID-19 wards is higher than non-COVID-19 wards; 2) there is a relatedness of multidrug-resistant bacteria circulating either in the COVID-19 wards or non-COVID-19 wards; 3) the hand-hygiene compliance is lower in the COVID-19 wards than non-COVID-19 wards, however the personal protective equipment use compliance is higher in the COVID-19 wards than non-COVID-19 wards; 4) the antibiotic use in non-COVID-19 wards is better qualitatively; 5) the use of Ciprofloxacin, Gentamicin, and Ceftriaxone in non-COVID-19 wards is higher than in COVID-19 wards.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
Study of the Effect of Systematic Screening of Residents and Caregivers With Covid-19 by Nasopharyngeal Swab (RT-PCR)
NCT05085522
COVID-19
UNKNOWN
Surveillance of AMR in DRC
NCT06821282
Bacteremia
RECRUITING
Microbial Infection and AMR in Hospitalized Patients With Covid 19
NCT04479982
Covid19
UNKNOWN
Antimicrobial Resistance During the SARS-CoV-2 (COVID-19) Pandemic
NCT06334731
COVID-19
COMPLETED
Factors Impacting the Prevalence of MDR Bacteria
NCT05100407
Multi-antibiotic Resistance
COMPLETED
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
The overall objective of the study is to reveal the impact of hospital care for COVID-19 patients on the prevalence of MDRO among COVID-19 patients, compared to non-COVID-19 hospital care and the prevalence of MDRO among non-COVID-19 patients, with its underlying determinants in limited-resource hospitals in Indonesia.
Specific aims of the study:
1. To measure the prevalence of MDRO in the COVID-19 wards compared to non-COVID-19 wards.
2. To investigate the transmission of the most prevalent MDRO in the COVID-19 wards compared to non-COVID-19 wards.
3. To analyze the hand hygiene compliance and use of PPE in COVID-19 wards compared to non-COVID-19 wards.
4. To analyze the antibiotic use in COVID-19 wards compared to non-COVID-19 wards.
Design of the study:
A prospective, observational cohort study will be performed in both COVID-19 wards and non-COVID-19 wards of a secondary care and a tertiary care hospital in the province of East Java in Indonesia. Both intensive care units (ICUs) and non-ICUs will be used. The tertiary care hospital in Malang is the Dr. Saiful Anwar hospital with 882 beds. Currently, 80 COVID-19 patients are admitted each month. The secondary care hospital has 250 beds, and approximately 25 COVID-19 patients are admitted each month.
The specific aims will be addressed as follows:
1. MDRO prevalence
The following MDROs will be included: MRSA, ESBL-producing Escherichia coli, ESBL-producing and carbapenemase-producing K. pneumoniae, carbapenem-resistant P. aeruginosa, and carbapenem-resistant A. baumannii. These will be searched for and collected via two approaches:
1. Detection by routine clinical cultures from patients during their hospital stay, both in the COVID-19 wards and non-COVID-19 wards. Blood, lower respiratory tract specimens, pus, and urine will be eligible for inclusion in the study. Identification and antibiotic susceptibility testing of the MDROs will be performed by the Vitek2 system. Demographic data and data on medical history, in-hospital mortality, length of stay, and antibiotic use will be collected from the medical records, according to the national regulations of medical research. The overall number of clinical cultures and their results will be collected for prevalence calculations (WHOnet).
2. As results from clinical cultures only reveal the tip of the MDRO iceberg, adult patients will be actively screened for MDRO carriage on the day of discharge and 30 days post-discharge from the COVID-19 ward and the non-COVID-19 ward, after informed consent. Discharge screening has been used as an approach in previous studies, and shown to be useful to detect MDRO transmission in the hospital. Screening on admission would be useful as well, but is not feasible on the COVID-wards due to workload when a patient is ill and needs immediate care. The 30-day post-discharge screening is a novel approach which may reveal MDROs that are still undetectable (i.e. in lowloads) in or on the patient's body on the moment of discharge, for example due to antibiotic use. All adult patients discharged from these wards are eligible for inclusion in the study. However, patients discharged within 48 hours of admission and patients who either live outside the city of Malang or their address is unclear are excluded. The 30-day post-discharge screening can be organized via the local public health centre.
Sample size consideration:
We expect to include at least 500 COVID-19 patients and 500 non-COVID-19 patients for MDRO detection from clinical culture, and at least 120 COVID-19 and 120 non-COVID-19 patients for active screening.
Microbiological methods:
Anterior nares and rectal swabs will be taken from each patient for discharge and post-discharge screening using sterile cotton swabs and transported to the laboratory in Amies transport medium for further processing within 24 hours of sampling. Isolation and identification of MDROs from the swabs will be performed as previously described. Confirmation of ESBL production will be done with the combination disk test, carbapenemase production with the CIM test. Isolates will be stored in duplicate as was done in our previous studies.
2. Analysis of MDRO transmission Detection of common resistance genes (i.e. mecA, blaNDM etc.) will be conducted by polymerase chain reaction. The clonality of MDROs will be evaluated for the most prevalent MDROs: by spa/MLVA typing (MRSA) and whole genome sequencing (Gram-negative MDRO; Illumina/nanopore).
3. Hand hygiene and PPE The direct observation method will be applied to establish hand hygiene compliance rate and use of PPE (gloves, gowns, masks). This will be done monthly during the one year period that bacterial isolates are collected.
4. Antibiotic use analysis Qualitative evaluation of antibiotic use will be performed by the Gyssens' algorithm and subsequent comparison of COVID-19 patients and non-COVID-19 patients either with or without MDRO infection or colonization. Furthermore, the DDD value of ceftriaxone, gentamicin, and ciprofloxacin will be compared.
Specific aims of the study:
1. To measure the prevalence of MDRO in the COVID-19 wards compared to non-COVID-19 wards.
2. To investigate the transmission of the most prevalent MDRO in the COVID-19 wards compared to non-COVID-19 wards.
3. To analyze the hand hygiene compliance and use of PPE in COVID-19 wards compared to non-COVID-19 wards.
4. To analyze the antibiotic use in COVID-19 wards compared to non-COVID-19 wards.
Design of the study:
A prospective, observational cohort study will be performed in both COVID-19 wards and non-COVID-19 wards of a secondary care and a tertiary care hospital in the province of East Java in Indonesia. Both intensive care units (ICUs) and non-ICUs will be used. The tertiary care hospital in Malang is the Dr. Saiful Anwar hospital with 882 beds. Currently, 80 COVID-19 patients are admitted each month. The secondary care hospital has 250 beds, and approximately 25 COVID-19 patients are admitted each month.
The specific aims will be addressed as follows:
1. MDRO prevalence
The following MDROs will be included: MRSA, ESBL-producing Escherichia coli, ESBL-producing and carbapenemase-producing K. pneumoniae, carbapenem-resistant P. aeruginosa, and carbapenem-resistant A. baumannii. These will be searched for and collected via two approaches:
1. Detection by routine clinical cultures from patients during their hospital stay, both in the COVID-19 wards and non-COVID-19 wards. Blood, lower respiratory tract specimens, pus, and urine will be eligible for inclusion in the study. Identification and antibiotic susceptibility testing of the MDROs will be performed by the Vitek2 system. Demographic data and data on medical history, in-hospital mortality, length of stay, and antibiotic use will be collected from the medical records, according to the national regulations of medical research. The overall number of clinical cultures and their results will be collected for prevalence calculations (WHOnet).
2. As results from clinical cultures only reveal the tip of the MDRO iceberg, adult patients will be actively screened for MDRO carriage on the day of discharge and 30 days post-discharge from the COVID-19 ward and the non-COVID-19 ward, after informed consent. Discharge screening has been used as an approach in previous studies, and shown to be useful to detect MDRO transmission in the hospital. Screening on admission would be useful as well, but is not feasible on the COVID-wards due to workload when a patient is ill and needs immediate care. The 30-day post-discharge screening is a novel approach which may reveal MDROs that are still undetectable (i.e. in lowloads) in or on the patient's body on the moment of discharge, for example due to antibiotic use. All adult patients discharged from these wards are eligible for inclusion in the study. However, patients discharged within 48 hours of admission and patients who either live outside the city of Malang or their address is unclear are excluded. The 30-day post-discharge screening can be organized via the local public health centre.
Sample size consideration:
We expect to include at least 500 COVID-19 patients and 500 non-COVID-19 patients for MDRO detection from clinical culture, and at least 120 COVID-19 and 120 non-COVID-19 patients for active screening.
Microbiological methods:
Anterior nares and rectal swabs will be taken from each patient for discharge and post-discharge screening using sterile cotton swabs and transported to the laboratory in Amies transport medium for further processing within 24 hours of sampling. Isolation and identification of MDROs from the swabs will be performed as previously described. Confirmation of ESBL production will be done with the combination disk test, carbapenemase production with the CIM test. Isolates will be stored in duplicate as was done in our previous studies.
2. Analysis of MDRO transmission Detection of common resistance genes (i.e. mecA, blaNDM etc.) will be conducted by polymerase chain reaction. The clonality of MDROs will be evaluated for the most prevalent MDROs: by spa/MLVA typing (MRSA) and whole genome sequencing (Gram-negative MDRO; Illumina/nanopore).
3. Hand hygiene and PPE The direct observation method will be applied to establish hand hygiene compliance rate and use of PPE (gloves, gowns, masks). This will be done monthly during the one year period that bacterial isolates are collected.
4. Antibiotic use analysis Qualitative evaluation of antibiotic use will be performed by the Gyssens' algorithm and subsequent comparison of COVID-19 patients and non-COVID-19 patients either with or without MDRO infection or colonization. Furthermore, the DDD value of ceftriaxone, gentamicin, and ciprofloxacin will be compared.
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Antibiotic Resistant Infection
COVID-19
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
Observational Model Type
COHORT
Study Time Perspective
PROSPECTIVE
Study Groups
Review each arm or cohort in the study, along with the interventions and objectives associated with them.
COVID-19
No interventions assigned to this group
non-COVID-19
No interventions assigned to this group
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
* All adult patients discharged from Covid wards and non Covid wards (ICU and internal medicine wards)
Exclusion Criteria
* Patients discharged within 48 hours of admission
* Patients who either live outside the city of Malang or their address is unclear
* Patients who either live outside the city of Malang or their address is unclear
Minimum Eligible Age
19 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
British Society for Antimicrobial Chemotherapy
OTHER
Sponsor Role
collaborator
University of Brawijaya
OTHER
Sponsor Role
collaborator
Saiful Anwar Hospital
OTHER
Sponsor Role
collaborator
Ngudi Waluyo Hospital
UNKNOWN
Sponsor Role
collaborator
Erasmus Medical Center
OTHER
Sponsor Role
lead
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Juliƫtte Severin
Associate professor, Medical coordinator Unit infection prevention
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
Learn about the lead researchers overseeing the trial and their institutional affiliations.
Dewi Santosaningsih, PhD
Role: PRINCIPAL_INVESTIGATOR
Dpt Clin Microbiology, Faculty of Medicine, Brawijaya University/Dr Saiful Anwar Hospital, Malang, Indonesia
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Ngudi Waluyo hospital
Blitar, East Java, Indonesia
Site Status
NOT_YET_RECRUITING
dr. Saiful Anwar hospital
Malang, East Java, Indonesia
Site Status
RECRUITING
Countries
Review the countries where the study has at least one active or historical site.
Indonesia
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
Facility Contacts
Find local site contact details for specific facilities participating in the trial.
References
Explore related publications, articles, or registry entries linked to this study.
Saharman YR, Karuniawati A, Sedono R, Aditianingsih D, Sudarmono P, Goessens WHF, Klaassen CHW, Verbrugh HA, Severin JA. Endemic carbapenem-nonsusceptible Acinetobacter baumannii-calcoaceticus complex in intensive care units of the national referral hospital in Jakarta, Indonesia. Antimicrob Resist Infect Control. 2018 Jan 12;7:5. doi: 10.1186/s13756-017-0296-7. eCollection 2018.
Reference Type
BACKGROUND
Hsu LY, Apisarnthanarak A, Khan E, Suwantarat N, Ghafur A, Tambyah PA. Carbapenem-Resistant Acinetobacter baumannii and Enterobacteriaceae in South and Southeast Asia. Clin Microbiol Rev. 2017 Jan;30(1):1-22. doi: 10.1128/CMR.masthead.30-1. Epub 2016 Oct 19.
Reference Type
BACKGROUND
Clancy CJ, Nguyen MH. Coronavirus Disease 2019, Superinfections, and Antimicrobial Development: What Can We Expect? Clin Infect Dis. 2020 Dec 17;71(10):2736-2743. doi: 10.1093/cid/ciaa524.
Reference Type
BACKGROUND
Rawson TM, Moore LSP, Zhu N, Ranganathan N, Skolimowska K, Gilchrist M, Satta G, Cooke G, Holmes A. Bacterial and Fungal Coinfection in Individuals With Coronavirus: A Rapid Review To Support COVID-19 Antimicrobial Prescribing. Clin Infect Dis. 2020 Dec 3;71(9):2459-2468. doi: 10.1093/cid/ciaa530.
Reference Type
BACKGROUND
Lestari ES, Severin JA, Filius PM, Kuntaman K, Duerink DO, Hadi U, Wahjono H, Verbrugh HA; Antimicrobial Resistance in Indonesia: Prevalence and Prevention (AMRIN). Antimicrobial resistance among commensal isolates of Escherichia coli and Staphylococcus aureus in the Indonesian population inside and outside hospitals. Eur J Clin Microbiol Infect Dis. 2008 Jan;27(1):45-51. doi: 10.1007/s10096-007-0396-z. Epub 2007 Oct 13.
Reference Type
BACKGROUND
Santosaningsih D, Santoso S, Budayanti NS, Kuntaman K, Lestari ES, Farida H, Hapsari R, Hadi P, Winarto W, Milheirico C, Maquelin K, Willemse-Erix D, van Belkum A, Severin JA, Verbrugh HA. Epidemiology of Staphylococcus aureus harboring the mecA or Panton-Valentine leukocidin genes in hospitals in Java and Bali, Indonesia. Am J Trop Med Hyg. 2014 Apr;90(4):728-34. doi: 10.4269/ajtmh.13-0734. Epub 2014 Feb 24.
Reference Type
BACKGROUND
Saharman YR, Pelegrin AC, Karuniawati A, Sedono R, Aditianingsih D, Goessens WHF, Klaassen CHW, van Belkum A, Mirande C, Verbrugh HA, Severin JA. Epidemiology and characterisation of carbapenem-non-susceptible Pseudomonas aeruginosa in a large intensive care unit in Jakarta, Indonesia. Int J Antimicrob Agents. 2019 Nov;54(5):655-660. doi: 10.1016/j.ijantimicag.2019.08.003. Epub 2019 Aug 7.
Reference Type
BACKGROUND
Saharman YR, Karuniawati A, Sedono R, Aditianingsih D, Goessens WHF, Klaassen CHW, Verbrugh HA, Severin JA. Clinical impact of endemic NDM-producing Klebsiella pneumoniae in intensive care units of the national referral hospital in Jakarta, Indonesia. Antimicrob Resist Infect Control. 2020 May 11;9(1):61. doi: 10.1186/s13756-020-00716-7.
Reference Type
BACKGROUND
van der Zwaluw K, de Haan A, Pluister GN, Bootsma HJ, de Neeling AJ, Schouls LM. The carbapenem inactivation method (CIM), a simple and low-cost alternative for the Carba NP test to assess phenotypic carbapenemase activity in gram-negative rods. PLoS One. 2015 Mar 23;10(3):e0123690. doi: 10.1371/journal.pone.0123690. eCollection 2015.
Reference Type
BACKGROUND
Santosaningsih D, Erikawati D, Santoso S, Noorhamdani N, Ratridewi I, Candradikusuma D, Chozin IN, Huwae TECJ, van der Donk G, van Boven E, Voor In 't Holt AF, Verbrugh HA, Severin JA. Intervening with healthcare workers' hand hygiene compliance, knowledge, and perception in a limited-resource hospital in Indonesia: a randomized controlled trial study. Antimicrob Resist Infect Control. 2017 Feb 16;6:23. doi: 10.1186/s13756-017-0179-y. eCollection 2017.
Reference Type
BACKGROUND
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
400/213/K.3/302/2021
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.
AMR-DetecTool for the Diagnostic of MDR Bacterial Infections
NCT05378217
COMPLETED
Testing Carriage of Resistant Bacteria Using Swabs on Surfaces and Staff in a Complex Nursing Unit for Patients with Resistant Bacteria
NCT06696144
NOT_YET_RECRUITING
NA
MDR Bacilli Surveillance and Clinical Feature in China
NCT02140853
UNKNOWN
Antibiotics Resistance Gene in Healthcare Workers
NCT06228248
COMPLETED
Multi-Drug Resistant Organism Network
NCT03646227
COMPLETED
Surveillance of Azole Resistance in Aspergillus Isolates in Taiwan
NCT03024281
UNKNOWN
Prophylaxis With Intranasal Mupirocin for Prevention of S. Aureus Infections
NCT00156377
COMPLETED
PHASE4
An Open-label RCT to Evaluate a New Treatment Regimen for Patients With Multi-drug Resistant Tuberculosis
NCT02454205
COMPLETED
PHASE2/PHASE3
Clinical Trial of Mycobacterium w in COVID-19 Positive Patients, Hospitalized But Not Critically Ill
NCT04358809
UNKNOWN
PHASE3
Antimicrobial Drug Use and Resistant Staphylococcus Aureus
NCT01075451
COMPLETED
Microbiological Characterization and Nasal Carriage Rates of Methicillin Resistant Staphylococcus Aureus (MRSA) in Vancouver Downtown Eastside
NCT00247871
COMPLETED
Antimicrobial Resistance in Hospitals From Meta, Colombia
NCT06044272
COMPLETED
Carriage and Transmission of Methicillin-Resistant Staphylococcus Aureus (MRSA) in Patients Admitted to Home Care.
NCT00457704
TERMINATED
Effectiveness of Antibiotic Delivery Via Bio-absorbable Sponge
NCT01222832
COMPLETED
PHASE2
A Novel Approach to Methicillin-resistant Staphylococcus Aureus (MRSA) Screening of Colonized Patients
NCT01234831
COMPLETED
NA
Screening of Multidrug Resistant Bacteria, and the Clinical Implication for the Patient
NCT06370299
NOT_YET_RECRUITING
Epidemiology and Prevention of Methicillin Resistant Staphylococcus Aureus (MRSA) Transmission in the Community
NCT00966446
COMPLETED
NA
Clinical Trial of the Use of Tocilizumab for Treatment of SARS-CoV-2 Infection (COVID-19)
NCT04332094
UNKNOWN
PHASE2
Evaluation of the Decolonization Rate and Acceptance of a Complete Nasal Decolonization Kit With Povidone Iodine for MRSA Patients
NCT05696132
TERMINATED
PHASE2
Monitoring COVID-19 Vaccination Response in Fragile Populations
NCT05222139
COMPLETED
LIAISON NES Influenza (FLU) A/B, Respiratory Syncytial Virus (RSV), & Coronavirus Disease 2019 (COVID-19) in Symptomatic Patients in Australia
NCT06392451
NOT_YET_RECRUITING
NA
Azole-resistance in Aspergillus
NCT03443336
COMPLETED
Risks of Bacterial and Fungal Superinfection in Patients With COVID-19
NCT05256316
COMPLETED