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Clinical Trial Summary

The outbreak of the severe acute respiratory syndrome (SARS) corona virus (CoV)-2 continues to increase globally. To control the coronavirus disease 2019 (COVID-19) transmission, diagnose is very important step which would help in the process of quarantine, isolation of the infected person and also in contact tracing. Among the various techniques real-time reverse transcription polymerase chain reaction (rRT-PCR) is mostly used and considers as gold standard method for viral nucleic acid detection as per World Health Organization (WHO) and Centre for Diseases Control (CDC), USA. However, possible false-negative and false-positive results produce misleading consequences, making it necessary to improve existing methods. So, we need a robust and reliable PCR kit to detect different kinds of variant of SARS-CoV-2 virus to reduce its transmissibility and take preventive management plan. Beside that to manage the increasing number of testing, we are mostly dependent on imported test kit which seems to be very difficult at this pandemic situation and costly. Hence, virulence of SARS-CoV-2 virus may change rapidly due to mutation and country become hot spot so, gene detection RT-PCR kit is time demand. In this point of view, we aim to develop an validate multiplex rRT-PCR qualitative diagnostic method, which targets two viral genes E (envelope protein), N (nucleocapsid gene, according to the CDC, USA guidelines for the development of RT-PCR kit and one human gene RNase P as internal control simultaneously. This is a case control study where will analyze 120 samples (60 COVID-19 positive and 60 COVID-19 negative both fresh and frozen) from Institute of Epidemiology, Disease Control and Research (IEDCR). This specimen will be blinded before supplying over to NILMRC/Contact ROL/ Bangladesh Clinical Trail Limited (BCTL), Dhaka, Bangladesh for Bangladesh Reference Institute for Chemical Measurements (BRiCM) RT-PCR Kit. Required in house validation will also be conducted as per International Council for Harmonization (ICH) and FDA guideline and also external validation will be carried in different Director General of Health Service (DGHS), Bangladesh approved COVID-19 diagnostic laboratory. Data will be analyzed by computer using Statistical Package for the Social Sciences (SPSS) software and will be presented into the frequency table, graph and chart according to the requirements.


Clinical Trial Description

Introduction: The corona virus COVID-19 pandemic is the defining global health crisis of our time and the greatest challenge we have faced since World War Two. The pandemic is much more than a health crisis; it's also an unprecedented socio-economic crisis. Since its identification in the region of Wuhan, China, not only the virus has spread across 213 countries/territories with 209 million cases and 4.39 million globally but also could put 400million people out of their jobs as The International Labor Organization estimates. To contain the spread of disease, multidisciplinary strategies have been launched in different regions of the world, including implementing social distancing, maintaining personal hygiene, contact tracing, and implementing quarantine, travel restrictions, and lock downs. A widely accepted method is testing for SARS-CoV-2, typically utilizing nasopharyngeal swab specimens. Patients tested positive require appropriate clinical management by either effective isolation or quarantine at home for mild symptoms or within health care facilities for moderate to severe symptoms. In addition, wide-scale testing provides more informative epidemiologic data for drafting policies on disease monitoring and control. Many approaches have been proposed to detect SARS-CoV-2 virus in nasopharyngeal fluids such as multiplex RT-PCR, CRISPR/Cas12, and CRISPR-Cas3, lateral flow immunoassay, paper-based bimolecular sensors, SHERLOCK testing in one pot, DNA aptamer, loop-mediated isothermal amplification (LAMP), etc. Among these methods, nucleic acid amplification-based tests are the most common for the diagnosis of SARS-CoV-2. In addition, US CDC suggest a protocol for the detection of SARS-CoV-2, based on the amplification of two regions of the nucleocapsid gene, namely N1and N2, and a human internal control gene RNase P (RP). In addition to these strategies, efforts to develop SARS-CoV-2 detection methods with high efficiency and accuracy, with less reaction time and effort, are still ongoing. However, despite being considered as the gold standard for SARS CoV-2 detection, testing has lagged behind in many countries because of various factors, most important being supply chain issues with lack of reagents and adequate test kits. Therefore, many patients (both symptomatic and asymptomatic) remain untested and hence are potentially contributing to community spread of the virus. If Bangladesh can produce its own RT-PCR kits which is no less in quality in terms of sensitivity, specificity etc. than that would mitigate the shortage of RT-PCR kit as we are totally dependent on imported test kits and also save foreign currency. Moreover, RT-PCR test kits are very temperature sensitive and need to maintain the cold chain for its quality which can be mitigated by developing local RT PCR kit. Additionally, many variant of SARS-CoV-2 has been developed due to mutation, which has shown more virulence and high transmission rate. So, development of new RT PCR kit which can detect newer strain can be extremely helpful. So, here we aim to develop the three gene detectable robust RT-PCR kit that will be country first and give reliable result of different kinds of variant of SARS-CoV-2 virus for reducing its transmissibility and taking preventive management plan 2. Objectives of the Study: 1. General Objectives: Primary objectives are aimed to develop multiplex real-time reverse transcription polymerase chain reaction (rRT-PCR) to detect of SARS-CoV-2. 2. Secondary Objectives: For the best RT-PCR performance, the combination of E and N gene targets should be optimized. 3. Methodology: 3.1. Study type & purpose: This is a case control and observational study in which two existing groups frozen and fresh samples are identified and compared. 3.2. Place of study: - Institute Epidemiology Disease Control and Research (IEDCR) - M/S. Clinical Research Organization Ltd 3.3. Sample Collection Site(s): - Institute Epidemiology Disease Control and Research (IEDCR) or - National Institute of Laboratory Medicine & Referral Centre (NILMRC), Dhaka, Bangladesh. 3.4. Duration of study: • 3 months (November, 2021 to January, 2022) after getting Ethical Clearance from Bangladesh Medical Research Council. 3.5. Study Population/sample selection 3.5.1 CRO will receive testing samples from IEDCR. IEDCR and BCTL/CROL as CRO have memorandum of understanding (MoU) for different collaborative research work. So, NILMRC/ BCTL/CROL will receive a total 120 sample from IEDCR for the evaluation of RT-PCR kit efficiency. Of the 120 samples, 60 will be stored samples (30 COVID-19 known positive and 30 COVID-19 negative samples) which have been kept at -80°C lab freezers at IEDCR facilities and another 60 fresh specimens (30 COVID-19 positive and 30 COVID-19 negative samples) which are being tested at IEDCR. Samples with discordant results will be rejected before testing by BRiCM RT PCR kit. That is, more than 120 identified samples from IEDCR might be needed to analyze by imported RT-PCR kits and extraction kit at BCTL/CROL. This is how 120 samples will be selected for performance evaluation of BRiCM RT-PCR kit. 3.5.2 To avoid biasedness and conflicts of interest, sponsor and PI/co-investigators will be blinded to the sample ID and positive/negative status of the samples and clinical records of the patients. The positive/negative status of both stored and fresh samples will be identified at IEDCR before sending to BCTL/CROL. That is, BCTL/CROL personnel will also be blinded to sample identity document (ID) and positive negative/negative status before analysis. Finally, the CRO head will send the performance evaluation certificate to the PI or Sponsor. 3.5.3. Statistical Basis of Sample Size: Formulae: The study is conducted on 120 participants (60 stored known positive & negative and 60 fresh known positive & negative). To achieve desire absolute accuracy (n) in estimating efficiency of RT-PCR the minimum sample size estimated following following the Discrete Bernoulli Probability Function as follows: Alfa= 5% D= absolute Accuracy (%) with 95% confidence. Desired Absolute accuracy n D Alfa=5% Z=1.96 10 30.99% n D= (1.96)/(2* Square Root (SQRT) (n)) 20 21.91% 100 9.80% 30 17.89% 120 8.94% 100 9.80% 200 6.93% 300 5.66% 400 4.90% 1000 3.10% 10000 0.98% 20000 0.69% 30000 0.57% 100000 0.3% 3.6 Sample Selection Criteria 3.6.1 Inclusion criteria: Samples with Positives RT-PCR results with Ct value≤35 for the COVID-19 genes at IEDCR will be selected as COVID-19 positive. Samples with negative RT-PCR results with no amplification for the COVID-19 genes at IEDCR will be selected as COVID-19. - Gender: All - Age: 5 to 70 years (Child, Adult, Older Adult) 7.8.2. Exclusion criteria - Samples with equivocal/ambiguous RT-PCR results in terms of sigmoidal curve and Ct value will be excluded. Consents from the patients are not required because the CRO will receive the specimens from IEDCR as per MOU with IEDCR. So there is no requirement of patient's enrollment and consents and CRF from the CRO side. 3.7 Data Collection Procedure: COVID-19 positive samples will be confirmed by laboratory findings of positive RT-PCR results for the viral RNA. 3.8 Data Analysis: The sensitivity, specificity, positive predictive value and negative predictive value of BRiCM COVID-19 real time RT-PCR kit will be determined. The chi-square test (two sided) will be performed for comparing categorical variables. A p value of ≤0.05 will be considered as the level of significant association. Alongside sensitivity, specificity, positive predictive value and negative predictive value, Kappa coefficient, positive likelihood ratio, and negative likelihood ratio will also be calculated. 3.9 The database is safeguarded against unauthorized access by established security procedures; appropriate backup copies of the database and related software files shall be maintained. Databases are backed up by the database administrator in conjunction with any updates or changes to the database. 3.10 The Investigator must make study data accessible to the monitor and authorized representatives. The Investigator must provide interim study report with data at every three months interval to the principle investigator. As per requirement study report and data may be provided to Bangladesh Medical Research Council (BMRC) and Directorate General of Drug Administration (DGDA). The Investigator must ensure the reliability and availability of source documents. 3.11 Monitoring visits will be conducted by principle investigator, co- investigator as well as the representatives according to Guidelines for Good Clinical Practice (GCP). 3.12 In order to maintain subject confidentiality, only a site number, subject number and subject initials will identify all study subjects on Case Records Forms (CRF) and other documentation submitted to the investigator. Additional subject confidentiality issues (if applicable) are covered in the Clinical Study Agreement. 3.13 All records will be kept secret to the PI, co-investigators, sponsor except IEDCR responsible persons who are in charge. Samples will be identified as code/ID number and date at IEDCR before sending to BCTL/Contact Research Organization Limited (CROL) 4. For this study the mentioned institute IEDCR/Bangladesh Clinical Trail Limited (BTCL)/CRO Ltd. has the capability to conduct the clinical trial to find out the efficacy of kit through their existing resource. Beside that CRO can manage the chemical, reagent and technology if any needed for the study as per MoU between funding agencies. 5. Conflict of the interest BRiCM is the funding agency of proposed COVID-19 RT-PCR kit, is a statutory body functioning under the administrative control of the Ministry of Science and Technology. It is a research organization and a reference institute in the area of chemical measurements. It is neither a commercial enterprise nor a profit making organization. According to constitutional sanction the principal responsibility of BRiCM is to carry on research leading to such innovation that will add value to the government effort for ensuring welfare of the people. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05190016
Study type Observational [Patient Registry]
Source Bangladesh Reference Institute of Chemical Measurements (BRICM)
Contact Mala Khan, Dr
Phone +8801715032057
Email [email protected]
Status Not yet recruiting
Phase
Start date January 20, 2022
Completion date March 31, 2022

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