Your search keyword '"Oran Erster"' showing total 99 results

1. Correction: Improved sensitivity, safety, and rapidity of COVID-19 tests by replacing viral storage solution with lysis buffer.

Author

Oran Erster, Omer Shkedi, Gil Benedek, Eyal Zilber, Itay Varkovitzky, Rachel Shirazi, Dorit Oriya Shorka, Yuval Cohen, Tzachi Bar, Rafi Yechieli, Michal Tepperberg Oikawa, Dana Venkert, Michal Linial, Esther Oiknine-Djian, Michal Mandelboim, Zvi Livneh, Gilat Shenhav-Saltzman, Ella Mendelson, Dana Wolf, Moran Szwarcwort-Cohen, Orna Mor, Yair Lewis, and Danny Zeevi

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0249149.].

Published

2024

2. The Outbreak of Unexplained Acute Hepatitis in Children: The Role of Viral Infections in View of the COVID-19 Pandemic

Author

Eyal Shteyer, Orna Mor, Orith Waisbourd-Zinman, Yael Mozer-Glazberg, Ronen Arnon, Lior Hecht Sagie, Michal Mandelboim, Oran Erster, Merav Weil, Sara Dovrat, Lital Goldberg, and Yael Gozlan

Subjects

acute hepatitis of unknown origin, COVID-19, human herpes virus 6, Microbiology, QR1-502

Abstract

Background and Aims: An increase in the number of cases of acute hepatitis of unknown origin (HUO) in children was observed in 2021. Adenovirus and adeno-associated virus 2 (AAV2) infections have been suggested as possible triggers. However, the potential etiology is still unclear. We aimed to characterize a cohort of children with HUO in Israel in view of the COVID-19 pandemic. Method: Demographics, clinical data, and laboratory results on the children compatible with the CDC criteria for HUO were collected by the established registry of the Ministry of Health. Available specimens were sent to the Central Virology Laboratory. Results: A total of 39 children were included in the registry. A total of 20 were enrolled prospectively, in which human herpes virus 6 (HHV6) infection or reactivation was identified in 11/19, adenovirus was found in 4/19 of the cases, and AAV2 was detected in 2/16. Past COVID-19 exposure was recorded for 24/39 of the children. A total of 10 children underwent liver biopsy, and 8 were successfully treated with steroids and 2 underwent liver transplantation. Conclusions: The COVID-19 pandemic and the related containment measures combined with reactivation or active infection with other viruses could have been a trigger for the HUO outbreak. In our cohort, HHV6 was the most abundant finding.

Published

2024

3. Parvovirus B19 Outbreak in Israel: Retrospective Molecular Analysis from 2010 to 2023

Author

Orna Mor, Marina Wax, Shoshana-Shani Arami, Maya Yitzhaki, Or Kriger, Oran Erster, and Neta S. Zuckerman

Subjects

parvoB19, outbreak, RT-PCR, NGS, Microbiology, QR1-502

Abstract

This study presents an analysis of the epidemiological trends of parvovirus B19 (B19V) in Israel from 2010 to 2023, with particular emphasis on the outbreak in 2023. The analysis utilized molecular diagnostic data from individual patients obtained at the Central Virology Laboratory. Between 2010 and 2022, 8.5% of PCR-tested samples were positive for B19V, whereas in 2023, this percentage surged to 31% of PCR-tested samples. Throughout the study period, annual cycles consistently peaked in early spring/summer, with the most recent prominent outbreak occurring in 2016. Predominantly, diagnoses were made in children and women aged 20–39. Despite the notable surge in 2023, over 80% of positive cases continued to be observed in children and young women, with a decrease in cases during winter months. Furthermore, genotype 1a of the virus remained the predominant strain circulating during the outbreak. In light of these circumstances, consideration should be given to implementing screening measures, particularly among high-risk groups such as pregnant women.

Published

2024

4. Overlooked monkeypox cases among men having sex with men during the 2022 outbreak – a retrospective study

Author

Anat Wieder-Feinsod, Tal Zilberman, Oran Erster, Gal Wagner Kolasko, Asaf Biber, Ruth Gophen, Tomer Hoffman, Vladislav Litchevsky, Liraz Olmer, Dafna Yahav, and Itzchak Levy

Subjects

Monkeypox, Misdiagnosis, MSM, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: The aim of this study was to characterize overlooked cases of patients with monkeypox infection in the 2022 outbreak. Methods: Clinical characteristics of 26 patients who were misdiagnosed with other diseases were described. Results: Of the 26 patients who were misdiagnosed, six (23%) were given a diagnosis of bacterial tonsillitis, six (23%) were diagnosed with primary syphilis, five (19.2%) with oral or genital herpes, and four (15.3%) with bacterial proctitis or anal abscess. The average time interval between missed and right diagnosis was 4.4 days. There was no difference in the missed cases between the early and the later month of the outbreak. Conclusion: Monkeypox might still be commonly overlooked, especially in patients presenting with fever and sore throat or solitary ulcer as sole manifestations.

Published

2023

5. The effect of ivermectin on the viral load and culture viability in early treatment of nonhospitalized patients with mild COVID-19 – a double-blind, randomized placebo-controlled trial

Author

Asaf Biber, Geva Harmelin, Dana Lev, Li Ram, Amit Shaham, Ital Nemet, Limor Kliker, Oran Erster, Michal Mandelboim, and Eli Schwartz

Subjects

SARS-CoV-2, Viral cultures, Infectivity duration, Ivermectin, COVID-19, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Ivermectin, an antiparasitic agent, also has antiviral properties. In this study, we aimed to assess whether ivermectin has anti-SARS-CoV-2 activity. Methods: In this double-blinded trial, we compared patients receiving ivermectin for 3 days versus placebo in nonhospitalized adult patients with COVID-19. A reverse transcriptase-polymerase chain reaction from a nasopharyngeal swab was obtained at recruitment and every 2 days for at least 6 days. The primary endpoint was a reduction of viral load on the sixth day as reflected by cycle threshold level >30 (noninfectious level). The primary outcome was supported by the determination of viral-culture viability. Results: Of 867 patients screened, 89 were ultimately evaluated per-protocol (47 ivermectin and 42 placeboes). On day 6, the odds ratio (OR) was 2.62 (95% confidence interval [CI]: 1.09-6.31) in the ivermectin arm, reaching the endpoint. In a multivariable logistic regression model, the odds of a negative test on day 6 were 2.28 times higher in the ivermectin group but reached significance only on day 8 (OR 3.70; 95% CI: 1.19-11.49, P = 0.02). Culture viability on days 2 to 6 was positive in 13.0% (3/23) of ivermectin samples versus 48.2% (14/29) in the placebo group (P = 0.008). Conclusion: There were lower viral loads and less viable cultures in the ivermectin group, which shows its anti-SARS-CoV-2 activity. It could reduce transmission in these patients and encourage further studies with this drug.

Published

2022

6. A Multi-Laboratory Evaluation of Commercial Monkeypox Virus Molecular Tests

Author

Oran Erster, Itzchak Levy, Areej Kabat, Batya Mannasse, Virginia Levy, Hadar Assraf, Roberto Azar, Haim Ben-Zvi, Ritta Bradenstein, Olga Bunder, Ayman Fadeela, Ayelet Keren-Naus, Avi Peretz, Diana Roif-Kaminsky, Lolu Saleh, Licita Schreiber, Orna Schwartz, Pninit Shaked-Mishan, Nadav Sorek, Merav Strauss, Rachel Steinberg, Orit Treygerman, Simona Zisman-Rozen, Ruth Yishai, Noa Tejman-Yarden, Ella Mendelson, and Danit Sofer

Subjects

monkeypox, real-time PCR, detection kit, comparative analysis, molecular diagnostics, PCR, Microbiology, QR1-502

Abstract

ABSTRACT In this report, we describe the first national scale multi-laboratory evaluation of monkeypox virus (MPXV) DNA commercial PCR kits. The objective of this study was to evaluate 2 kits by different diagnostic laboratories across Israel. Ten standardized samples were tested simultaneously using the Novaplex (15 laboratories) and Bio-Speedy (seven laboratories) kits. An in-house assay based on previously published reactions was used as reference. Comparison of the results showed high intra-assay agreement between laboratories, with small variations for most samples. The in-house assay had an analytical detection limit of less than 10 copies per reaction. While the 2 commercial kits were able to detect specimens with low viral loads similarly to the in-house assay, significant differences were observed, in the Cq values and relative fluorescence (RF), between the assays. The RF signal of the in-house and Bio-Speedy assays ranged between 5,000 and 10,000 RFU, while the signal in the Novaplex assay was less than 600 RFU. Due to the kit measurement protocol, the Cq values of the Bio-Speedy kit were 5 to 7.5 cycles lower than those of the in-house assay. On the contrary, the Cq values of the Novaplex kit were significantly higher than those of the in-house assay, with differences of 3 to 5 cycles per sample. Our results suggest that while all assays were similar in their overall sensitivity, direct comparison of Cq values between them may be misleading. To our knowledge, this is the first methodical evaluation of commercial MPX test kits. We therefore anticipate that this study would help diagnostic laboratories in choosing a specific MPX detection assay. IMPORTANCE To the best of our knowledge, this study is the first methodical evaluation of commercial kits designed for Monkeypox virus detection. This was done by performing the same tests using the same sample set in multiple laboratories, simultaneously, on a national scale. It therefore provides important and unique information on the performance of such kits and provides a guideline for choosing the assay of choice for monkeypox virus diagnosis in a standard diagnostic laboratory. It also demonstrates potential complications when trying to compare the results of different assays, even when testing exactly the same samples, under identical conditions.

Published

2023

7. Proof-of-concept for effective antiviral activity of an in silico designed decoy synthetic mRNA against SARS-CoV-2 in the Vero E6 cell-based infection model

Author

Nofar Atari, Oran Erster, Yair Heskiau Shteinberg, Hadar Asraf, Eitan Giat, Michal Mandelboim, and Itamar Goldstein

Subjects

SARS-CoV-2, antivirals, mRNA, Betacoronavirus, in silico, Microbiology, QR1-502

Abstract

The positive-sense single-stranded (ss) RNA viruses of the Betacoronavirus (beta-CoV) genus can spillover from mammals to humans and are an ongoing threat to global health and commerce, as demonstrated by the current zoonotic pandemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Current anti-viral strategies focus on vaccination or targeting key viral proteins with antibodies and drugs. However, the ongoing evolution of new variants that evade vaccination or may become drug-resistant is a major challenge. Thus, antiviral compounds that circumvent these obstacles are needed. Here we describe an innovative antiviral modality based on in silico designed fully synthetic mRNA that is replication incompetent in uninfected cells (termed herein PSCT: parasitic anti-SARS-CoV-2 transcript). The PSCT sequence was engineered to include key untranslated cis-acting regulatory RNA elements of the SARS-CoV-2 genome, so as to effectively compete for replication and packaging with the standard viral genome. Using the Vero E6 cell-culture based SARS-CoV-2 infection model, we determined that the intracellular delivery of liposome-encapsulated PSCT at 1 hour post infection significantly reduced intercellular SARS-CoV-2 replication and release into the extracellular milieu as compared to mock treatment. In summary, our findings are a proof-of-concept for the therapeutic feasibility of in silico designed mRNA compounds formulated to hinder the replication and packaging of ssRNA viruses sharing a comparable genomic-structure with beta-CoVs.

Published

2023

8. Dengue Types 1 and 3 Identified in Travelers Returning from Kathmandu, Nepal, during the October 2022 Outbreak Are Related to Strains Recently Identified in India

Author

Neta S. Zuckerman, Eli Schwartz, Prativa Pandey, Oran Erster, Osnat Halpern, Efrat Bucris, Hagar Morad-Eliyahu, Marina Wax, and Yaniv Lustig

Subjects

dengue, outbreak, phylogenetic analysis, travel, next generation sequencing, Microbiology, QR1-502

Abstract

Phylogenetic analysis of dengue serotypes 1 and 3, which were diagnosed in travelers and Nepalese infected in Kathmandu during the October 2022 outbreak, revealed that both serotypes were clustered closest to the sequences sampled in India. This suggests both serotypes may have originated in India.

Published

2023

9. Molecular characterization of the re-emerging West Nile virus in avian species and equids in Israel, 2018, and pathological description of the disease

Author

Gili Schvartz, Yigal Farnoushi, Asaf Berkowitz, Nir Edery, Shelly Hahn, Amir Steinman, Avishai Lublin, and Oran Erster

Subjects

West-nile virus, Avian species, Equids, Histopathology, Phylogenetic analysis, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In this report we describe the molecular and pathological characteristics of West Nile virus (WNV) infection that occurred during the summer and fall of 2018 in avian species and equines. WNV is reported in Israel since the 1950s, with occasional outbreaks leading to significant morbidity and mortality in birds, high infection in horses and humans, and sporadic fatalities in humans. Methods Animal and avian carcasses in a suitable condition were examined by post-mortem analysis. Tissue samples were examined for WNV by RT-qPCR and the viral load was quantified. Samples with sufficient material quality were further analyzed by Endpoint PCR and sequencing, which was used for phylogenetic analysis. Tissue samples from positive animals were used for culturing the virus in Vero and C6/36 cells. Results WNV RNA was detected in one yellow-legged gull (Larus michahellis), two long-eared owls (Asio otus), two domesticated geese (Anser anser), one pheasant (Phasianus colchicus), four hooded crows (Corvus cornix), three horses and one donkey. Pathological and histopathological findings were characteristic of viral infection. Molecular analysis and viral load quantification showed varying degrees of infection, ranging between 70–1.4 × 106 target copies per sample. Phylogenetic analysis of a 906-bp genomic segment showed that all samples belonged to Lineage 1 clade 1a, with the following partition: five samples from 2018 and one sample detected in 2016 were of Cluster 2 Eastern European, two of Cluster 2 Mediterranean and four of Cluster 4. Four of the positive samples was successfully propagated in C6/36 and Vero cell lines for further work. Conclusions WNV is constantly circulating in wild and domesticated birds and animals in Israel, necessitating constant surveillance in birds and equines. At least three WNV strains were circulating in the suspected birds and animals examined. Quantitative analysis showed that the viral load varies significantly between different organs and tissues of the infected animals.

Published

2020

10. Specific Detection of SARS-CoV-2 Variants B.1.1.7 (Alpha) and B.1.617.2 (Delta) Using a One-Step Quantitative PCR Assay

Author

Oran Erster, Ella Mendelson, Areej Kabat, Virginia Levy, Batya Mannasse, Hadar Assraf, Roberto Azar, Yaniv Ali, Efrat Bucris, Dana Bar-Ilan, Orna Mor, Michal Elul, Michal Mandelboim, Danit Sofer, Shay Fleishon, Neta S. Zuckerman, and Itay Bar-Or

Subjects

SARS-COV-2, RT-qPCR, Alpha (B.1.1.7), Delta (B.1.617.2), classification, diagnostic assay, Microbiology, QR1-502

Abstract

ABSTRACT In this report, we describe the development of a reverse transcription-quantitative PCR (RT-qPCR) assay, termed Alpha-Delta assay, which can detect all severe acute respiratory syndrome coronavirus 2 (SC-2) variants and distinguish between the Alpha (B.1.1.7) and Delta (B.1.617.2) variants. The Alpha- and Delta-specific reactions in the assay target mutations that are strongly linked to the target variant. The Alpha reaction targets the D3L substitution in the N gene, and the Delta reaction targets the spike gene 156 to 158 mutations. Additionally, we describe a second Delta-specific assay that we use as a confirmatory test for the Alpha-Delta assay that targets the 119 to 120 deletion in the Orf8 gene. Both reactions have similar sensitivities of 15 to 25 copies per reaction, similar to the sensitivity of commercial SC-2 detection tests. The Alpha-Delta assay and the Orf8119del assay were successfully used to classify clinical samples that were subsequently analyzed by whole-genome sequencing. Lastly, the capability of the Alpha-Delta assay and Orf8119del assay to identify correctly the presence of Delta RNA in wastewater samples was demonstrated. This study provides a rapid, sensitive, and cost-effective tool for detecting and classifying two worldwide dominant SC-2 variants. It also highlights the importance of a timely diagnostic response to the emergence of new SC-2 variants with significant consequences on global health. IMPORTANCE The new assays described herein enable rapid, straightforward, and cost-effective detection of severe acute respiratory syndrome coronavirus 2 (SC-2) with immediate classification of the examined sample as Alpha, Delta, non-Alpha, or non-Delta variant. This is highly important for two main reasons: (i) it provides the scientific and medical community with a novel diagnostic tool to rapidly detect and classify any SC-2 sample of interest as Alpha, Delta, or none and can be applied to both clinical and environmental samples, and (ii) it demonstrates how to respond to the emergence of new variants of concern by developing a variant-specific assay. Such assays should improve our preparedness and adjust the diagnostic capacity to serve clinical, epidemiological, and research needs.

Published

2022

11. HiSpike Method for High-Throughput Cost Effective Sequencing of the SARS-CoV-2 Spike Gene

Author

Ephraim Fass, Gal Zizelski Valenci, Mor Rubinstein, Paul J. Freidlin, Shira Rosencwaig, Inna Kutikov, Robert Werner, Nofar Ben-Tovim, Efrat Bucris, Oran Erster, Neta S. Zuckerman, Orna Mor, Ella Mendelson, Zeev Dveyrin, Efrat Rorman, and Israel Nissan

Subjects

HiSpike, SARS-CoV-2, NGS, spike variants, variants of concern, high-throughput, Medicine (General), R5-920

Abstract

The changing nature of the SARS-CoV-2 pandemic poses unprecedented challenges to the world's health systems. Emerging spike gene variants jeopardize global efforts to produce immunity and reduce morbidity and mortality. These challenges require effective real-time genomic surveillance solutions that the medical community can quickly adopt. The SARS-CoV-2 spike protein mediates host receptor recognition and entry into the cell and is susceptible to generation of variants with increased transmissibility and pathogenicity. The spike protein is the primary target of neutralizing antibodies in COVID-19 patients and the most common antigen for induction of effective vaccine immunity. Tight monitoring of spike protein gene variants is key to mitigating COVID-19 spread and generation of vaccine escape mutants. Currently, SARS-CoV-2 sequencing methods are labor intensive and expensive. When sequence demands are high sequencing resources are quickly exhausted. Consequently, most SARS-CoV-2 strains are sequenced in only a few developed countries and rarely in developing regions. This poses the risk that undetected, dangerous variants will emerge. In this work, we present HiSpike, a method for high-throughput cost effective targeted next generation sequencing of the spike gene. This simple three-step method can be completed in < 30 h, can sequence 10-fold more samples compared to conventional methods and at a fraction of their cost. HiSpike has been validated in Israel, and has identified multiple spike variants from real-time field samples including Alpha, Beta, Delta and the emerging Omicron variants. HiSpike provides affordable sequencing options to help laboratories conserve resources for widespread high-throughput, near real-time monitoring of spike gene variants.

Published

2022

12. Regressing SARS-CoV-2 Sewage Measurements Onto COVID-19 Burden in the Population: A Proof-of-Concept for Quantitative Environmental Surveillance

Author

Itay Bar-Or, Karin Yaniv, Marilou Shagan, Eden Ozer, Merav Weil, Victoria Indenbaum, Michal Elul, Oran Erster, Ella Mendelson, Batya Mannasse, Rachel Shirazi, Esti Kramarsky-Winter, Oded Nir, Hala Abu-Ali, Zeev Ronen, Ehud Rinott, Yair E. Lewis, Eran Friedler, Eden Bitkover, Yossi Paitan, Yakir Berchenko, and Ariel Kushmaro

Subjects

surveillance, wastewater based epidemiology, sewage, corona, COVID-19, SARS-CoV-2, Public aspects of medicine, RA1-1270

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is an RNA virus, a member of the coronavirus family of respiratory viruses that includes severe acute respiratory syndrome coronavirus 1 (SARS-CoV-1) and the Middle East respiratory syndrome (MERS). It has had an acute and dramatic impact on health care systems, economies, and societies of affected countries during the past 8 months. Widespread testing and tracing efforts are being employed in many countries in attempts to contain and mitigate this pandemic. Recent data has indicated that fecal shedding of SARS-CoV-2 is common and that the virus RNA can be detected in wastewater. This indicates that wastewater monitoring may provide a potentially efficient tool for the epidemiological surveillance of SARS-CoV-2 infection in large populations at relevant scales. In particular, this provides important means of (i) estimating the extent of outbreaks and their spatial distributions, based primarily on in-sewer measurements, (ii) managing the early-warning system quantitatively and efficiently, and (iii) verifying disease elimination. Here we report different virus concentration methods using polyethylene glycol (PEG), alum, or filtration techniques as well as different RNA extraction methodologies, providing important insights regarding the detection of SARS-CoV-2 RNA in sewage. Virus RNA particles were detected in wastewater in several geographic locations in Israel. In addition, a correlation of virus RNA concentration to morbidity was detected in Bnei-Barak city during April 2020. This study presents a proof of concept for the use of direct raw sewage-associated virus data, during the pandemic in the country as a potential epidemiological tool.

Published

2022

13. Effectiveness of BNT162b2 mRNA COVID-19 vaccine against SARS-CoV-2 variant Beta (B.1.351) among persons identified through contact tracing in Israel: A prospective cohort study

Author

Shepherd R. Singer, M.D., Frederick J. Angulo, Ph.D., David L. Swerdlow, M.D., John M. McLaughlin, Ph.D., Itay Hazan, M.Sc., Netanel Ginish, B.S, Emilia Anis, M.D., Ella Mendelson, Ph.D., Orna Mor, Ph.D., Neta S Zuckerman, Ph.D., Oran Erster, Ph.D., Jo Southern, Ph.D., Kaijie Pan, M.S., Gabriel Mircus, Ph.D., Marc Lipsitch, D.Phil., Eric J. Haas, M.D., Luis Jodar, Ph.D., Yeheskel Levy, M.D., and Sharon Alroy-Preis, M.D.

Subjects

COVID-19, SARS-CoV-2, vaccine effectiveness, prevention, mRNA vaccines, variant Beta (B.1.351), Medicine (General), R5-920

Abstract

Background: SARS-CoV-2 variant Beta (B.1.351) was designated as a Variant of Concern (VoC) after becoming the dominant strain in South Africa and spreading internationally. BNT162b2 showed lower levels of neutralizing antibodies against Beta than against other strains raising concerns about effectiveness of vaccines against infections caused by Beta. We estimated BNT162b2 vaccine effectiveness (VE) against Beta infections in Israel, a country with high vaccine uptake. Methods: The Ministry of Health (MoH) identified Beta cases through mandatory reporting of SARS-CoV-2 cases and whole genome sequencing (WGS) of specimens from vaccination-breakthrough infections, reinfections, arriving international travelers, and a selection of other infected persons. A cohort analysis was conducted of exposure events of contacts of primary Beta cases. WGS was conducted on available PCR-positive specimens collected from contacts. VE estimates with 95% confidence intervals (CIs) against confirmed and probable Beta infections were determined by comparing infection risk between unvaccinated and fully-vaccinated (≥7 days after the second dose) contacts, and between unvaccinated and partially-vaccinated (

Published

2021

14. Rapid and High-Throughput Reverse Transcriptase Quantitative PCR (RT-qPCR) Assay for Identification and Differentiation between SARS-CoV-2 Variants B.1.1.7 and B.1.351

Author

Oran Erster, Ella Mendelson, Virginia Levy, Areej Kabat, Batya Mannasse, Hadar Asraf, Roberto Azar, Yaniv Ali, Rachel Shirazi, Efrat Bucris, Dana Bar-Ilan, Orna Mor, Michal Mandelboim, Danit Sofer, Shai Fleishon, and Neta S. Zuckerman

Subjects

SARS-CoV-2, RT-qPCR, variant B.1.1.7, variant B.1.351, rapid diagnosis, differential PCR, Microbiology, QR1-502

Abstract

ABSTRACT Emerging SARS-CoV-2 (SC-2) variants with increased infectivity and vaccine resistance are of major concern. Rapid identification of such variants is important for the public health decision making and to provide valuable data for epidemiological and policy decision making. We developed a multiplex reverse transcriptase quantitative PCR (RT-qPCR) assay that can specifically identify and differentiate between the emerging B.1.1.7 and B.1.351 SC-2 variants. In a single assay, we combined four reactions—one that detects SC-2 RNA independently of the strain, one that detects the D3L mutation, which is specific to variant B.1.1.7, one that detects the 242 to 244 deletion, which is specific to variant B.1.351, and the fourth reaction, which identifies the human RNAseP gene, serving as an endogenous control for RNA extraction integrity. We show that the strain-specific reactions target mutations that are strongly associated with the target variants and not with other major known variants. The assay’s specificity was tested against a panel of respiratory pathogens (n = 16), showing high specificity toward SC-2 RNA. The assay’s sensitivity was assessed using both in vitro transcribed RNA and clinical samples and was determined to be between 20 and 40 viral RNA copies per reaction. The assay performance was corroborated with Sanger and whole-genome sequencing, showing complete agreement with the sequencing results. The new assay is currently implemented in the routine diagnostic work at the Central Virology Laboratory, and may be used in other laboratories to facilitate the diagnosis of these major worldwide-circulating SC-2 variants. IMPORTANCE This study describes the design and utilization of a multiplex reverse transcriptase quantitative PCR (RT-qPCR) to identify SARS-COV-2 (SC2) RNA in general and, specifically, to detect whether it is of lineage B.1.1.7 or B.1.351. Implementation of this method in diagnostic and research laboratories worldwide may help the efforts to contain the COVID-19 pandemic. The method can be easily scaled up and be used in high-throughput laboratories, as well as small ones. In addition to immediate help in diagnostic efforts, this method may also help in epidemiological studies focused on the spread of emerging SC-2 lineages.

Published

2021

15. National Scale Real-Time Surveillance of SARS-CoV-2 Variants Dynamics by Wastewater Monitoring in Israel

Author

Itay Bar-Or, Victoria Indenbaum, Merav Weil, Michal Elul, Nofar Levi, Irina Aguvaev, Zvi Cohen, Virginia Levy, Roberto Azar, Batya Mannasse, Rachel Shirazi, Efrat Bucris, Orna Mor, Alin Sela Brown, Danit Sofer, Neta S. Zuckerman, Ella Mendelson, and Oran Erster

Subjects

SARS-CoV-2, variant B.1.1.7 (Alpha), RT-qPCR, wastewater surveillance, differential PCR, Microbiology, QR1-502

Abstract

In this report, we describe a national-scale monitoring of the SARS-CoV-2 (SC-2) variant dynamics in Israel, using multiple-time sampling of 13 wastewater treatment plants. We used a combination of inclusive and selective quantitative PCR assays that specifically identify variants A19/A20 or B.1.1.7 and tested each sample for the presence and relative viral RNA load of each variant. We show that between December 2020 and March 2021, a complete shift in the SC-2 variant circulation was observed, where the B.1.1.7 replaced the A19 in all examined test points. We further show that the normalized viral load (NVL) values and the average new cases per week reached a peak in January 2021 and then decreased gradually in almost all test points, in parallel with the progression of the national vaccination campaign, during February–March 2021. This study demonstrates the importance of monitoring SC-2 variant by using a combination of inclusive and selective PCR tests on a national scale through wastewater sampling, which is far more amendable for high-throughput monitoring compared with sequencing. This approach may be useful for real-time dynamics surveillance of current and future variants, such as the Omicron (BA.1, BA.2) and other variants.

Published

2022

16. Prolonged detection of complete viral genomes demonstrated by SARS-CoV-2 sequencing of serial respiratory specimens.

Author

Neta S Zuckerman, Efrat Bucris, Oran Erster, Michal Mandelboim, Amos Adler, Saar Burstein, Noam Protter, Moran Szwarcwort-Cohen, Ella Mendelson, and Orna Mor

Subjects

Medicine, Science

Abstract

Accurate and timely diagnosis of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is clinically essential, and is required also to monitor confirmed cases aiming to prevent further spread. Positive real-time PCR results at late time points following initial diagnosis may be clinically misleading as this methodology cannot account for the infection capabilities and the existence of whole genome sequences. In this study, 47 serial respiratory samples were tested by Allplex-nCoV test (Seegene), a triplex of three assays targeting the SARS-CoV-2 RdRP, E and N genes and subsequently assessed by next generation sequencing (NGS). COVID19 patients were tested at an early stage of the disease, when all these viral gene targets were positive, and at an advanced stage, when only the N gene target was positive in the Allplex-nCoV test. The corresponding NGS results showed the presence of complete viral genome copies at both early and advanced stages of the disease, although the total number of mapped sequences was lower in samples from advanced disease stages. We conclude that reduced viral transmission at this late disease stage may result from the low quantities of complete viral sequences and not solely from transcription favoring the N gene.

Published

2021

17. Genomic variation and epidemiology of SARS-CoV-2 importation and early circulation in Israel.

Author

Neta S Zuckerman, Efrat Bucris, Yaron Drori, Oran Erster, Danit Sofer, Rakefet Pando, Ella Mendelson, Orna Mor, and Michal Mandelboim

Subjects

Medicine, Science

Abstract

Severe acute respiratory disease coronavirus 2 (SARS-CoV-2) which causes corona virus disease (COVID-19) was first identified in Wuhan, China in December 2019 and has since led to a global pandemic. Importations of SARS-CoV-2 to Israel in late February from multiple countries initiated a rapid outbreak across the country. In this study, SARS-CoV-2 whole genomes were sequenced from 59 imported samples with a recorded country of importation and 101 early circulating samples in February to mid-March 2020 and analyzed to infer clades and mutational patterns with additional sequences identified Israel available in public databases. Recorded importations in February to mid-March, mostly from Europe, led to multiple transmissions in all districts in Israel. Although all SARS-CoV-2 defined clades were imported, clade 20C became the dominating clade in the circulating samples. Identification of novel, frequently altered mutated positions correlating with clade-defining positions provide data for surveillance of this evolving pandemic and spread of specific clades of this virus. SARS-CoV-2 continues to spread and mutate in Israel and across the globe. With economy and travel resuming, surveillance of clades and accumulating mutations is crucial for understanding its evolution and spread patterns and may aid in decision making concerning public health issues.

Published

2021

18. Improved sensitivity, safety, and rapidity of COVID-19 tests by replacing viral storage solution with lysis buffer.

Author

Oran Erster, Omer Shkedi, Gil Benedek, Eyal Zilber, Itay Varkovitzky, Rachel Shirazi, Dorit Oriya Shorka, Yuval Cohen, Tzahi Bar, Rafi Yechieli, Michal Tepperberg Oikawa, Dana Venkert, Michal Linial, Esther Oiknine-Djian, Michal Mandelboim, Zvi Livneh, Gilat Shenhav-Saltzman, Ella Mendelson, Dana Wolf, Moran Szwarcwort-Cohen, Orna Mor, Yair Lewis, and Danny Zeevi

Subjects

Medicine, Science

Abstract

Conducting numerous, rapid, and reliable PCR tests for SARS-CoV-2 is essential for our ability to monitor and control the current COVID-19 pandemic. Here, we tested the sensitivity and efficiency of SARS-CoV-2 detection in clinical samples collected directly into a mix of lysis buffer and RNA preservative, thus inactivating the virus immediately after sampling. We tested 79 COVID-19 patients and 20 healthy controls. We collected two samples (nasopharyngeal swabs) from each participant: one swab was inserted into a test tube with Viral Transport Medium (VTM), following the standard guideline used as the recommended method for sample collection; the other swab was inserted into a lysis buffer supplemented with nucleic acid stabilization mix (coined NSLB). We found that RT-qPCR tests of patients were significantly more sensitive with NSLB sampling, reaching detection threshold 2.1±0.6 (Mean±SE) PCR cycles earlier then VTM samples from the same patient. We show that this improvement is most likely since NSLB samples are not diluted in lysis buffer before RNA extraction. Re-extracting RNA from NSLB samples after 72 hours at room temperature did not affect the sensitivity of detection, demonstrating that NSLB allows for long periods of sample preservation without special cooling equipment. We also show that swirling the swab in NSLB and discarding it did not reduce sensitivity compared to retaining the swab in the tube, thus allowing improved automation of COVID-19 tests. Overall, we show that using NSLB instead of VTM can improve the sensitivity, safety, and rapidity of COVID-19 tests at a time most needed.

Published

2021

19. Direct sequencing of measles virus complete genomes in the midst of a large-scale outbreak.

Author

Efrat Bucris, Victoria Indenbaum, Roberto Azar, Oran Erster, Eric Haas, Ella Mendelson, and Neta S Zuckerman

Subjects

Medicine, Science

Abstract

Measles outbreaks escalated globally despite worldwide elimination efforts. Molecular epidemiological investigations utilizing partial measles virus (MeV) genomes are challenged by reduction in global genotypes and low evolutionary rates. Greater resolution was reached using MeV complete genomes, however time and costs limit the application to numerous samples. We developed an approach to unbiasedly sequence complete MeV genomes directly from patient urine samples. Samples were enriched for MeV using filtration or nucleases and the minimal number of sequence reads to allocate per sample based on its MeV content was assessed using in-silico reduction of sequencing depth. Application of limited-resource sequencing to treated MeV-positive samples demonstrated that 1-5 million sequences for samples with high/medium MeV quantities and 10-15 million sequences for samples with lower MeV quantities are sufficient to obtain >98% MeV genome coverage and over X50 average depth. This approach enables real-time high-resolution molecular epidemiological investigations of large-scale MeV outbreaks.

Published

2021

20. Monitoring of Enterovirus D68 Outbreak in Israel by a Parallel Clinical and Wastewater Based Surveillance

Author

Oran Erster, Itay Bar-Or, Virginia Levy, Rachel Shatzman-Steuerman, Danit Sofer, Leah Weiss, Rinat Vasserman, Ilana S. Fratty, Klil Kestin, Michal Elul, Nofar Levi, Rola Alkrenawi, Ella Mendelson, Michal Mandelboim, and Merav Weil

Subjects

enterovirus D68, quantitative PCR, wastewater-based epidemiology, clinical surveillance, Microbiology, QR1-502

Abstract

Enterovirus D68 (EVD68) was recently identified as an important cause of respiratory illness and acute flaccid myelitis (AFM), mostly in children. Here, we examined 472 pediatric patients diagnosed with severe respiratory illness and screened for EVD68 between April and October 2021. In parallel, samples collected from a wastewater treatment plant (WWTP) covering the residential area of the hospitalized patients were also tested for EVD68. Of the 472 clinical samples evaluated, 33 (7%) patients were positive for EVD68 RNA. All wastewater samples were positive for EVD68, with varying viral genome copy loads. Calculated EVD68 genome copies increased from the end of May until July 2021 and dramatically decreased at the beginning of August. A similar trend was observed in both clinical and wastewater samples during the period tested. Sequence analysis of EVD68-positive samples indicated that all samples originated from the same branch of subclade B3. This study is the first to use wastewater-based epidemiology (WBE) to monitor EVD68 dynamics by quantitative detection and shows a clear correlation with clinically diagnosed cases. These findings highlight the potential of WBE as an important tool for continuous surveillance of EVD68 and other enteroviruses.

Published

2022

21. Virus Infection in Equine

Author

Amir Steinman, Oran Erster, and Sharon Tirosh-Levy

Subjects

n/a, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The relationship between men and horses has significantly evolved over the last century [...]

Published

2022

22. HBV-RNA, Quantitative HBsAg, Levels of HBV in Peripheral Lymphocytes and HBV Mutation Profiles in Chronic Hepatitis B

Author

Yael Gozlan, Daniella Aaron, Yana Davidov, Maria Likhter, Gil Ben Yakov, Oranit Cohen-Ezra, Orit Picard, Oran Erster, Ella Mendelson, Ziv Ben-Ari, Fadi Abu Baker, and Orna Mor

Subjects

hepatitis B, HBV-RNA, HBV biomarkers, HBeAg negative, Microbiology, QR1-502

Abstract

A comprehensive characterization of chronic HBV (CHB) patients is required to guide therapeutic decisions. The cumulative impact of classical and novel biomarkers on the clinical categorization of these patients has not been rigorously assessed. We determined plasma HBV-RNA and HBsAg levels, HBV in peripheral lymphocytes (PBMCs) and HBV mutation profiles in CHB patients. Patient demographics (n = 139) and classical HBV biomarkers were determined during a clinical routine. HBV-RNA in plasma and HBV-DNA in PBMCs were determined by RT-PCR. HBsAg levels were determined using Architect. In samples with HBV-DNA viral load >1000 IU/mL, genotype mutations in precore (PC), basal core promoter (BCP), HBsAg and Pol regions were determined by sequencing. Most patients (n = 126) were HBeAg-negative (HBeAgNeg) with significantly lower levels of HBV-RNA, HBV-DNA and HBsAg compared to HBeAg-positive (HBeAgPos) patients (p < 0.05). HBV genotype D prevailed (61/68), and >95% had BCP/PC mutations. Escape mutations were identified in 22.6% (13/63). HBeAgNeg patients with low levels of HBsAg (log IU ≤ 3) were older and were characterized by undetectable plasma HBV-DNA and undetectable HBV-RNA but not undetectable HBV-DNA in PBMCs compared to those with high HBsAg levels. In >50% of the studied HBeAgNeg patients (66/126), the quantitation of HBsAg and HBV-RNA may impact clinical decisions. In conclusion, the combined assessment of classical and novel serum biomarkers, especially in HBeAgNeg patients, which is the largest group of CHB patients in many regions, may assist in clinical decisions. Prospective studies are required to determine the real-time additive clinical advantage of these biomarkers.

Published

2022

23. Middle East respiratory syndrome coronavirus specific antibodies in naturally exposed Israeli llamas, alpacas and camels

Author

Dan David, Ditza Rotenberg, Evgeny Khinich, Oran Erster, Svetlana Bardenstein, Michael van Straten, Nisreen M.A. Okba, Stalin V. Raj, Bart L. Haagmans, Marcelo Miculitzki, and Irit Davidson

Subjects

Medicine (General), R5-920

Abstract

Thus far, no human MERS-CoV infections have been reported from Israel. Evidence for the circulation of MERS-CoV in dromedaries has been reported from almost all the countries of the Middle East, except Israel. Therefore, we aimed to analyze MERS-CoV infection in Israeli camelids, sampled between 2012 and 2017. A total of 411 camels, 102 alpacas and 19 llamas' sera were tested for the presence of antibodies to MERS-CoV. Our findings indicate a lower MERS-CoV seropositivity among Israeli dromedaries than in the surrounding countries, and for the first time naturally infected llamas were identified. In addition, nasal swabs of 661 camels, alpacas and lamas, obtained from January 2015 to December 2017, were tested for the presence of MERS-CoV RNA. All nasal swabs were negative, indicating no evidence for MERS-CoV active circulation in these camelids during that time period. Keywords: MERS coronavirus, Antibodies, Israel, Dromedary camels, Llamas, Alpacas

Published

2018

24. West Nile Virus in Common Wild Avian Species in Israel

Author

Gili Schvartz, Sharon Tirosh-Levy, Shahar Bider, Avishai Lublin, Yigal Farnoushi, Oran Erster, and Amir Steinman

Subjects

West Nile virus, Israel, wild birds, 2018, qPCR, Medicine

Abstract

In order to evaluate the contribution of different wild bird species to West Nile virus (WNV) circulation in Israel, during the months preceding the 2018 outbreak that occurred in Israel, we randomly sampled 136 frozen carcasses of a variety of avian species. Visceral and central nervous system (CNS) tissue pools were tested using WNV NS2A RT qPCR assay; of those, 15 (11.03%, 95% CI: 6.31–17.54%) tissue pools were positive. A total of 13 out of 15 WNV RT qPCR positive samples were successfully sequenced. Phylogenetic analysis indicated that all WNV isolates were identified as lineage 1 and all categorized as cluster 2 eastern European. Our results indicated that WNV isolates that circulated within the surveyed wild birds in spring 2018 were closely related to several of the isolates of the previously reported 2018 outbreak in birds in Israel and that the majority of infected birds were of local species.

Published

2022

25. Exposure of Horses in Israel to West Nile Virus and Usutu Virus

Author

Gili Schvartz, Sharon Tirosh-Levy, Oran Erster, Roni Shenhar, Hadas Levy, Barbara Bazanow, Boris Gelman, and Amir Steinman

Subjects

West Nile virus, Usutu virus, horse, Israel, Microbiology, QR1-502

Abstract

West Nile virus (WNV) and Usutu virus (USUV) are arboviruses transmitted by mosquito vectors. Whereas WNV is endemic in Israel, the Middle East, Europe, and in the Americas, data regarding the prevalence of USUV in the Middle East is limited. While both viruses share similar reservoirs and vectors, exposure of horses in the area to USUV have never been assessed. The aim of this study was to estimate the seroprevalence and co-exposure of WNV and USUV in horses in Israel. A total of 327 serum samples from healthy unvaccinated horses in Israel collected in 2018 were tested for neutralizing antibodies against WNV and USUV. Seroprevalence for neutralizing antibodies against WNV and USUV was 84.1% and 10.8%, respectively. Management and age were significantly associated with WNV and USUV seropositivity. This is the first report describing exposure of horses in Israel to USUV, which indicates that this zoonotic pathogen should be included in the differential diagnosis list of neuroinvasive disease in this country.

Published

2020

26. Comprehensive Analyses of SARS-CoV-2 Transmission in a Public Health Virology Laboratory

Author

Neta S. Zuckerman, Rakefet Pando, Efrat Bucris, Yaron Drori, Yaniv Lustig, Oran Erster, Orna Mor, Ella Mendelson, and Michal Mandelboim

Subjects

2019-nCoV, SARS-CoV-2, COVID-19, staff, infection, next generation sequencing (NGS), Microbiology, QR1-502

Abstract

SARS-CoV-2 has become a major global concern as of December 2019, particularly affecting healthcare workers. As person-to-person transmission is airborne, crowded closed spaces have high potential for rapid virus spread, especially early in the pandemic when social distancing and mask wearing were not mandatory. This retrospective study thoroughly investigates a small-scale SARS-CoV-2 outbreak in Israel’s central virology laboratory (ICVL) in mid-March 2020, in which six staff members and two related family members were infected. Suspicions regarding infection by contaminated surfaces in ICVL facilities were nullified by SARS-CoV-2 negative real time polymerase chain reaction (PCR) of work surfaces swipe tests. Complete SARS-CoV-2 genomes were sequenced and mutation analyses showed inclusion of all samples to clades 20B and 20C, possessing the spike mutation D614G. Phylogenetic analysis clarified transmission events, confirming S1 as having infected at least three other staff members and refuting the association of a staff member’s infected spouse with the ICVL transmission cluster. Finally, serology tests exhibited IgG and IgA antibodies in all infected individuals and revealed the occurrence of asymptomatic infections in additional staff members. This study demonstrates the advantages of molecular epidemiology in elucidating transmission events and exemplifies the importance of good laboratory practice, distancing and mask wearing in preventing SARS-CoV-2 spread, specifically in healthcare facilities.

Published

2020

27. First Diagnosed Case of Camelpox Virus in Israel

Author

Oran Erster, Sharon Melamed, Nir Paran, Shay Weiss, Yevgeny Khinich, Boris Gelman, Aharon Solomony, and Orly Laskar-Levy

Subjects

orthopoxvirus, camelpox virus, transmission electron microscopy, PCR, Immunofluorescence assay (IFA), chorioallantoic membrane, Microbiology, QR1-502

Abstract

An outbreak of a disease in camels with skin lesions was reported in Israel during 2016. To identify the etiological agent of this illness, we employed a multidisciplinary diagnostic approach. Transmission electron microscopy (TEM) analysis of lesion material revealed the presence of an orthopox-like virus, based on its characteristic brick shape. The virus from the skin lesions successfully infected chorioallantoic membranes and induced cytopathic effect in Vero cells, which were subsequently positively stained by an orthopox-specific antibody. The definite identification of the virus was accomplished by two independent qPCR, one of which was developed in this study, followed by sequencing of several regions of the viral genome. The qPCR and sequencing results confirmed the presence of camelpox virus (CMLV), and indicated that it is different from the previously annotated CMLV sequence available from GenBank. This is the first reported case of CMLV in Israel, and the first description of the isolated CMLV subtype.

Published

2018

28. Wastewater monitoring can anchor global disease surveillance systems

Author

Aparna Keshaviah, Megan B Diamond, Matthew J Wade, Samuel V Scarpino, Warish Ahmed, Fabian Amman, Olusola Aruna, Andrei Badilla-Aguilar, Itay Bar-Or, Andreas Bergthaler, Julie E Bines, Aaron W Bivins, Alexandria B Boehm, Jean-Martin Brault, Jean-Baptiste Burnet, Joanne R Chapman, Angela Chaudhuri, Ana Maria de Roda Husman, Robert Delatolla, John J Dennehy, Megan Beth Diamond, Celeste Donato, Erwin Duizer, Abiodun Egwuenu, Oran Erster, Despo Fatta-Kassinos, Aldo Gaggero, Deirdre F Gilpin, Brent J Gilpin, Tyson E Graber, Christopher A Green, Amanda Handley, Joanne Hewitt, Rochelle H Holm, Heribert Insam, Marc C Johnson, Rabia Johnson, Davey L Jones, Timothy R Julian, Asha Jyothi, Tamar Kohn, Katrin G Kuhn, Giuseppina La Rosa, Marie Lesenfants, Douglas G Manuel, Patrick M D'Aoust, Rudolf Markt, John W McGrath, Gertjan Medema, Christine L Moe, Indah Kartika Murni, Humood Naser, Colleen C Naughton, Leslie Ogorzaly, Vicka Oktaria, Christoph Ort, Popi Karaolia, Ekta H Patel, Steve Paterson, Mahbubur Rahman, Pablo Rivera-Navarro, Alex Robinson, Monica C Santa-Maria, Heike Schmitt, Theodore Smith, Lauren B Stadler, Jorgen Stassijns, Alberta Stenico, Renee A Street, Elisabetta Suffredini, Zachary Susswein, Monica Trujillo, Marlene K Wolfe, Habib Yakubu, and Maria Ines Zanoli Sato

Subjects

General Medicine

Abstract

To inform the development of global wastewater monitoring systems, we surveyed programmes in 43 countries. Most programmes monitored predominantly urban populations. In high-income countries (HICs), composite sampling at centralised treatment plants was most common, whereas grab sampling from surface waters, open drains, and pit latrines was more typical in low-income and middle-income countries (LMICs). Almost all programmes analysed samples in-country, with an average processing time of 2·3 days in HICs and 4·5 days in LMICs. Whereas 59% of HICs regularly monitored wastewater for SARS-CoV-2 variants, only 13% of LMICs did so. Most programmes share their wastewater data internally, with partnering organisations, but not publicly. Our findings show the richness of the existing wastewater monitoring ecosystem. With additional leadership, funding, and implementation frameworks, thousands of individual wastewater initiatives can coalesce into an integrated, sustainable network for disease surveillance?one that minimises the risk of overlooking future global health threats.

Published

2023

29. A Multi-Laboratory Evaluation of Commercial Monkeypox Molecular Tests

Author

Oran Erster, Itzchak Levy, Areej Kabat, Batya Menasheh, Virginia Levy, Hadar Assraf, Roberto Azar, Haim Ben-Zvi, Rita Bridenstein, Olga Bondar, Ayman Fadeela, Ayelet Keren-Naus, Avi Peretz, Diana Roif-Kaminsky, Lolu Saleh, Lisita Schreiber, Orna Schwartz, Pninit Shaked, Nadav Sorek, Merav Strauss, Rachel Steinberg, Orit Treygerman, Simona Zisman-Rozen, Ruth Yshai, Noa Tejman-Yarden, Ella Mendelson, and Danit Sofer

Abstract

In this report, we describe the first national scale multi-laboratory evaluation of commercial quantitative PCR kits for detection of Monkeypox virus (MPXV) DNA. The objective of this study was to assess the performance of two kits by different diagnostic laboratories across Israel. A panel of 10 standardized samples was tested simultaneously using the Novaplex (15 laboratories) and Bio-Speedy (seven laboratories) kits. An in-house assay based on previously published tests was used as reference. Comparison of the results showed high intra-assay consistency between laboratories, with small variations for most samples.The sensitivity of the two kits was similar to that of the in-house assay, with an analytical detection limit of less than ten copies per reaction. Significant differences were observed, however, in the Cq values and relative fluorescence (RF), between the assays. The RF signal of the in-house and Bio-Speedy assay ranged between 5,000 and 10,000 RFU, while the signal in the Novaplex assay was less than 600 RFU. Due to the kit measurement protocol, the Cq values of the Bio-Speedy kit were 5-7.5 cycles lower than those of the In-house assay. On the contrary, the Cq values of the Novaplex kit were significantly higher than those of the in-house assay, with differences of 3-5 cycles per sample.Our results suggest that while all assays were similar in their overall sensitivity, direct comparison of Cq values between them may be misleading. Additionally, the low fluorescence obtained with the Novaplex kit may be problematic with marginal or “noisy” samples. Diagnostic laboratories should therefore consider all these aspects when choosing a specific MPX detection assay.

Published

2022

30. Detection and Analysis of West Nile Virus Structural Protein Genes in Animal or Bird Samples

Author

Gili Schvartz, Sharon Karniely, Roberto Azar, Areej Kabat, Amir Steinman, and Oran Erster

Published

2022

31. Detection and Analysis of West Nile Virus Structural Protein Genes in Animal or Bird Samples

Author

Gili, Schvartz, Sharon, Karniely, Roberto, Azar, Areej, Kabat, Amir, Steinman, and Oran, Erster

Subjects

Birds, Viral Structural Proteins, Animals, RNA, Viral, Real-Time Polymerase Chain Reaction, West Nile virus, West Nile Fever

Abstract

West Nile virus (WNV) is an important zoonotic pathogen, which is detected mainly by identification of its RNA using PCR. Genetic differentiation between WNV lineages is usually performed by complete genome sequencing, which is not available in many research and diagnostic laboratories. In this chapter, we describe a protocol for detection and analysis of WNV samples by sequencing the entire region of their structural genes capsid (C), preM/membrane, and envelope. The primary step is the detection of WNV RNA by quantitative PCR of the NS2A gene or the C gene regions. Next, the entire region containing the structural protein genes is amplified by PCR. The primary PCR product is then amplified again in parallel reactions, and these secondary PCR products are sequenced. Finally, bioinformatic analysis enables detection of mutations and classification of the samples of interest. This protocol is designed to be used by any laboratory equipped for endpoint and quantitative PCR. The sequencing can be performed either in-house or outsourced to a third-party service provider. This protocol may therefore be useful for rapid and affordable classification of WNV samples, obviating the need for complete genome sequencing.

Published

2022

32. Overlooked monkeypox cases among men having sex with men during the 2022 outbreak - a retrospective study

Author

Anat Wieder-Feinsod, Tal Zilberman, Oran Erster, Gal Wagner Kolasko, Asaf Biber, Ruth Gophen, Tomer Hoffman, Vladislav Litchevsky, Liraz Olmer, Dafna Yahav, and Itzchak Levy

Subjects

Microbiology (medical), Infectious Diseases, General Medicine

Abstract

The aim of this study was to characterize overlooked cases of patients with Monkeypox (MPX) infection in the 2022 outbreak METHODS: Clinical characteristics of 26 patients who were misdiagnosed as other diseases were described.Of the 26 patients who were misdiagnosed, 6 (23%) were given a diagnosis of bacterial tonsillitis, 6 (23%) primary syphilis, 5 (19.2%) oral or genital herpes, and 4 (15.3%) bacterial proctitis or anal abscess. The average time interval between missed and right diagnosis was 4.4 days. There was no difference in the missed cases between the early and the later month of the outbreak.MPX may still be commonly overlooked, especially in patients presenting with fever and sore throat or solitary ulcer as sole manifestations.

Published

2022

33. Emergence of genetically linked vaccine-originated poliovirus type 2 in the absence of oral polio vaccine, Jerusalem, April to July 2022

Author

Neta S Zuckerman, Itay Bar-Or, Danit Sofer, Efrat Bucris, Hagar Morad, Lester M Shulman, Nofar Levi, Leah Weiss, Irina Aguvaev, Zvi Cohen, Klil Kestin, Rinat Vasserman, Michal Elul, Ilana S Fratty, Miranda Geva, Marina Wax, Oran Erster, Ruth Yishai, Lior Hecht-Sagie, Sharon Alroy-Preis, Ella Mendelson, and Merav Weil

Subjects

Poliovirus, Wastewater-Based Epidemiological Monitoring, Epidemiology, Virology, Poliovirus Vaccine, Oral, Public Health, Environmental and Occupational Health, Humans, Wastewater, Poliomyelitis

Abstract

We report an emergence and increase in poliovirus type 2 detection via routine wastewater surveillance in three non-overlapping regions in the Jerusalem region, Israel, between April and July 2022. Sequencing showed genetic linkage among isolates and accumulation of mutations over time, with two isolates defined as vaccine-derived polioviruses (VDPV). This demonstrates the emergence and potential circulation of type 2 VDPV in a high-income country with high vaccine coverage and underscores the importance of routine wastewater surveillance during the polio eradication.

Published

2022

34. A magnetic modulation biosensing-based molecular assay for rapid and highly sensitive clinical diagnosis of COVID-19

Author

Michael Margulis, Oran Erster, Shira Roth, Michal Mandelboim, and Amos Danielli

Published

2022

35. Environmental surveillance detected type 3 vaccine-derived polioviruses in increasing frequency at multiple sites prior to detection of a poliomyelitis case

Author

Merav Weil, Danit Sofer, Lester M. Shulman, Leah Weiss, Nofar Levi, Irina Aguvaev, Zvi Cohen, Klil Kestin, Rinat Vasserman, Michal Elul, Ilana S. Fratty, Neta S. Zuckerman, Oran Erster, Ruth Yishai, Lior Hecht, Sharon Alroy-Preis, Ella Mendelson, and Itay Bar-Or

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Published

2023

36. Increased detection of Echovirus 6-associated meningitis in patients hospitalized during the COVID-19 pandemic, Israel 2021–2022

Author

Ilana S. Fratty, Or Kriger, Leah Weiss, Rinat Vasserman, Oran Erster, Ella Mendelson, Danit Sofer, and Merav Weil

Subjects

History, Infectious Diseases, Polymers and Plastics, Virology, Business and International Management, Industrial and Manufacturing Engineering

Published

2023

37. Third BNT162b2 Vaccination Neutralization of SARS-CoV-2 Omicron Infection

Author

Ital Nemet, Limor Kliker, Yaniv Lustig, Neta S. Zuckerman, Oran Erster, Carmit Cohen, Yitshak Kreiss, Sharon Alroy-Preis, Gili Regev-Yochay, Ella Mendelson, and Michal Mandelboim

Subjects

COVID-19 Vaccines, SARS-CoV-2, Immunization, Secondary, COVID-19, Humans, Vaccine Efficacy, General Medicine, Antibodies, Neutralizing, BNT162 Vaccine

Abstract

Using isolates of SARS-CoV-2 WT, Beta, Delta and most importantly Omicron we studied the capability of the BNT162b2 vaccine given in two or three doses to neutralize major SARS-CoV-2 variants of concern (VOC).We demonstrate low neutralization efficiency against delta and wild-type for vaccines with more than 5 months following the second BNT162b2 dose, with no neutralization efficiency against Omicron. We demonstrate the importance of a third dose, by showing a 100-fold increase in neutralization efficiency of Omicron following a third dose, with a 4-fold reduced neutralization compared to that against the Delta VOC. The durability of the effect of the third dose is yet to be determined.

Published

2021

38. NATIONAL SCALE REAL-TIME SURVEILLANCE OF SARS-COV-2 VARIANTS DYNAMICS BY WASTEWATER MONITORING IN ISRAEL

Author

Itay Bar-Or, Victoria Indenbaum, Merav Weil, Michal Elul, Nofar Levi, Irina Aguvaev, Zvi Cohen, Virginia Levy, Roberto Azar, Batya Mannasse, Rachel Shirazi, Efrat Bucris, Orna Mor, Alin Sela Brown, Danit Sofer, Neta S. Zuckerman, Ella Mendelson, and Oran Erster

Subjects

Infectious Diseases, SARS-CoV-2, Virology, COVID-19, Humans, variant B.1.1.7 (Alpha), RT-qPCR, wastewater surveillance, differential PCR, Israel, Wastewater

Abstract

In this report, we describe a national-scale monitoring of the SARS-COV-2 (SC-2) variant dynamics in Israel, using multiple-time sampling of twelve wastewater treatment plants. We used a combination of inclusive and selective quantitative PCR assays that specifically identify variants A19 or B.1.1.7 and tested each sample for the presence and relative viral RNA load of each variant. We show that between December-2020 and March-2021, a complete shift in the SC-2 variant circulation was observed, where the B.1.1.7 replaced the A19 in all examined test points. We further show that the normalized viral load (NVL) values and the average new cases per week reached a peak in January 2021, and then decreased gradually in almost all test points, in parallel with the progression of the national vaccination campaign, during February-March 2021. This study demonstrates the importance of monitoring SC-2 variant dynamics on a national scale through wastewater sampling. It also provides a proof-of-concept methodology for continuous surveillance by using a combination of inclusive and selective PCR tests, which is far more amendable for high throughput monitoring compared with sequencing. This approach may be useful for real-time dynamics surveillance of current and future variants, such as the Omicron (BA.1) variant.SynopsisThis study describes the continuous monitoring of the SARS CoV-2 variant B.1.1.7 circulation in wastewater in Israel using a positive/negative quantitative PCR assay.

Published

2021

39. SPECIFIC DETECTION OF SARS-COV-2 B.1.1.529 (OMICRON) VARIANT BY FOUR RT-qPCR DIFFERENTIAL ASSAYS

Author

Oran Erster, Adi Beth-Din, Hadar Asraf, Virginia Levy, Areej Kabat, Batya Mannasse, Roberto Azar, Ohad Shifman, Shirley Lazar, Michal Mandelboim, Shay Fleishon, Ella Mendelson, and Neta S Zuckerman

Abstract

In this report, we describe four RT-qPCR assays that enable rapid identification of the newly emerging SARS-COV-2 Omicron (B.1.1.529) variant of concern. The assays target Omicron characteristic mutations in the nsp6 (Orf1a), spike and nucleocapsid genes. We demonstrate that the assays are straightforward to assemble and perform, are amendable for multiplexing, and may be used as a reliable first-line tool to identify B.1.1.529 suspected samples. Importantly, this is a preliminary development report. Further validation and optimization of the assays described herein will be published hereafter.

Published

2021

40. SPECIFIC DETECTION OF SARS-COV-2 VARIANTS B.1.1.7 (ALPHA) AND B.1.617.2 (DELTA) USING A ONE-STEP QUANTITATIVE PCR ASSAY

Author

Shai Fleishon, Ella Mendelson, Neta S. Zuckerman, Oran Erster, Michal Mandelboim, Virginia Levy, Yaniv Ali, Batya Mannasse, Roberto Azar, Michal Elul, Itay Bar-Or, Danit Sofer, Dana Bar-Ilan, Orna Mor, Areej Kabat, Hadar Asraf, and Efrat Bucris

Subjects

Whole genome sequencing, Delta, Real-time polymerase chain reaction, Specific detection, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), RNA, Alpha (ethology), Biology, Gene, Molecular biology

Abstract

In this report, we describe the development of an RT-qPCR assay, termed Alpha Delta assay, which can detect SARS-COV-2 (SC-2) and distinguish between the Alpha (B.1.1.7) and Delta (B.1.617.2) variants. The Alpha- and Delta-specific reactions in the assay target mutations that are strongly linked to the target variant. The Alpha reaction targets the D3L substitution in N gene, and the Delta reaction targets the spike gene 156-158 mutations. Additionally, we developed a second Delta-specific assay, used as a confirmatory test for the Alpha Delta assay that targets the 119-120 deletion in the Orf8 gene. Both reactions have similar sensitivities of 15-25 copies per reaction, similar to the sensitivity of commercial SC-2 detection tests. The Alpha Delta assay and the Orf8-119del assay were successfully used to classify clinical samples that were subsequently analyzed by whole genome sequencing. Lastly, we show that the Alpha Delta and Orf8-119del assays correctly identified the presence of Alpha and Delta lineages RNA in wastewater samples. This study provides a rapid, sensitive and cost-effective tool for detecting and classifying two worldwide dominant SC-2 variants. It also highlights the importance of a timely diagnostic response to the emergence of new SC-2 variants with significant consequences on global health.

Published

2021

41. A Magnetic Modulation Biosensing-Based Molecular Assay for Rapid and Highly Sensitive Clinical Diagnosis of Coronavirus Disease 2019 (COVID-19)

Author

Shira Roth, Michael Margulis, Amos Danielli, Michal Mandelboim, and Oran Erster

Subjects

Detection limit, Coronavirus disease 2019 (COVID-19), SARS-CoV-2, Magnetic Phenomena, Magnetic modulation, RNA, COVID-19, Regular Article, Gold standard (test), Real-Time Polymerase Chain Reaction, Molecular biology, Sensitivity and Specificity, Pathology and Forensic Medicine, Highly sensitive, chemistry.chemical_compound, COVID-19 Testing, chemistry, Molecular Diagnostic Techniques, Molecular Medicine, Humans, RNA, Viral, Biosensor, Nucleic Acid Amplification Techniques, Taq polymerase

Abstract

Rapid and sensitive detection of human pathogens, such as the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), is an urgent and challenging task for clinical laboratories. Currently, the gold standard test for SARS-CoV-2–specific RNA is based on quantitative RT-PCR (RT-qPCR), which relies on target amplification by Taq polymerase and uses a fluorescent resonance energy transfer–based hydrolysis probe. Although this method is accurate and specific, it is also time consuming. To rapidly detect the presence of the viral RNA in clinical samples, we describe a new molecular assay that combines a highly sensitive magnetic modulation biosensing (MMB) system, rapid thermal cycling, and a modified double-quenched hydrolysis probe. Using in vitro transcribed SARS-CoV-2 RNA targets spiked in PCR-grade water, we found that the calculated limit of detection of the MMB-based molecular assay was 1.6 copies per reaction. Testing 309 RNA extracts from 170 confirmed RT-qPCR SARS-CoV-2–negative individuals (30 of whom were positive to other respiratory viruses) and 139 RT-qPCR SARS-CoV-2–positive patients (CT ≤ 42) resulted in 97.8% sensitivity, 100% specificity, and 0% cross-reactivity. The total turnaround time of the MMB-based assay is 30 minutes, which is three to four times faster than a standard RT-qPCR. By adjusting the primers and the probe set, the platform can be easily adapted to detect most of the pathogens that are currently being diagnosed by RT-qPCR.

Published

2021

42. West Nile virus neutralizing antibody prevalence in donkeys from northern Nigeria

Author

Amir Steinman, Gili Schvartz, Idoko Sunday Idoko, Jibril Yakubu Jibril, Sharon Tirosh-Levy, Jude Nduka Omeje, Simon Ikechukwu Enem, WD Nafarnda, Oran Erster, and A. M. Adamu

Subjects

West Nile virus, 030231 tropical medicine, Nigeria, Antibodies, Viral, medicine.disease_cause, Virus, Serology, 03 medical and health sciences, 0302 clinical medicine, Neutralization Tests, Prevalence, medicine, Animals, Humans, 030212 general & internal medicine, Neutralizing antibody, Zoonotic pathogen, biology, Public Health, Environmental and Occupational Health, Equidae, General Medicine, Antibodies, Neutralizing, Virology, Infectious Diseases, biology.protein, Parasitology, Northern nigeria, Donkey, Antibody, West Nile Fever

Abstract

Background This study aimed to evaluate the prevalence of anti-West Nile virus (WNV) neutralizing antibodies in donkeys from two areas in northern Nigeria. Methods Serology was determined by a virus neutralization test in samples collected from 205 healthy adult donkeys. Results Fifty-seven donkeys (27.8%) tested seropositive for WNV. Donkeys from Zaria were 2.6 times more likely to have been exposed to WNV (p Conclusion The results of this study demonstrate that this zoonotic pathogen is prevalent in these areas and that measures should be implemented to reduce the risk for both humans and equids.

Published

2020

43. Evaluation of the relationship between quantitative PCR results and cell culturing of SARS2-CoV with respect to symptoms onset and Viral load – a systematic review

Author

Oran Erster, Eli Schwartz, Ami Neuberger, Michal Mandelboim, gilad rozenberg, and Itai Ghersin

Subjects

Infectivity, Real-time polymerase chain reaction, Cell culture, business.industry, Viral culture, Tears, Medicine, Urine, medicine.symptom, business, Virology, Asymptomatic, Viral load

Abstract

BackgroundViral culture is currently the most accurate method to demonstrate viability and infectivity of Severe acute respiratory syndrome Coronavirus (SARS-2 CoV). Routine clinical diagnosis, however, is mostly performed by PCR – based assays that do not discriminate between infectious and non-virus. Herein, we aimed to determine the correlation between positive viral cultures and either PCR positivity, the Cycle Threshold (Ct) or the number of viral copies.MethodsA systematic electronic literature search was performed and studies that reported both viral SARS-CoV-2 culture and PCR–based assays were included. A separate search for samples from blood, urine, stool, breast milk and tears were performed. To convert Ct values reported in the reviewed studies were to viral genomic copies, calibration experiments with four different reaction performed, using quantified RNA molecules.ResultsA total 540 articles were reviewed, and 38 studies were included in this review. Out of 276 positive-culture of non-severe patients, 272 (98.55%) were negative ten days after symptoms onset, while PCR assays remained positive for up to 67 days. In severely ill or immunocompromised patients positive-culture was obtained up to 32 days and out of 168 cultures, 31 (18.45%) stayed positive after day 10. In non-severe patients, in Ct value greater than 30 only 10.8% were still culture-positive while in Ct >35 it was nearly universally negative. The minimal calculated number of viral genome copies in culture-positive sample was 2.5 × 103 copies / mL. These findings were similar in immunocompromised patients. Recovering positive culture from non-respiratory samples was sporadically obtained in stool or urine samples. Conversion of Ct values to viral genome copies showed variability between different PCR assays and highlighted the need to standardize reports to correctly compare results obtained in different laboratories.ConclusionDuring the pandemic phase, non-severe COVID-19 patients who are recovering and are not immuno-suppressed, can be regarded as non-infectious, within 10 days from symptom onset, or with Ct value greater than 35 (or a calculated viral load lower than 1.2×103 copies / mL). These findings have important implications for recovering patients and asymptomatic patients, with respect to isolation criteria. The conversion of Cq values to viral genome copies described herein may be useful in future work, enabling a more standardized comparison between results reported in different studies from different laboratories.

Published

2021

44. Effective bubble-based testing for SARS-CoV-2 using swab-pooling

Author

Yuval Cohen, Nadav Bamberger, Orna Mor, Ronen Walfisch, Shay Fleishon, Itay Varkovitzky, Asaf Younger, Danit Oz Levi, Yishai Kohn, David M. Steinberg, Danny Zeevi, Oran Erster, Ella Mendelson, and Zvi Livneh

Subjects

Microbiology (medical), Infectious Diseases, COVID-19 Testing, COVID-19 Vaccines, SARS-CoV-2, COVID-19, Humans, RNA, Viral, General Medicine, Child, Pandemics, Sensitivity and Specificity, Specimen Handling

Abstract

Despite the success in developing COVID-19 vaccines, containment of the disease is obstructed worldwide by vaccine production bottlenecks, logistics hurdles, vaccine refusal, transmission through unvaccinated children, and the appearance of new viral variants. This underscores the need for effective strategies for identifying carriers/patients, which was the main aim of this study.We present a bubble-based PCR testing approach using swab-pooling into lysis buffer. A bubble is a cluster of people who can be periodically tested for SARS-CoV-2 by swab-pooling. A positive test of a pool mandates quarantining each of its members, who are then individually tested while in isolation to identify the carrier(s) for further epidemiological contact tracing.We tested an overall sample of 25 831 individuals, divided into 1273 bubbles, with an average size of 20.3 ± 7.7 swabs/test tube, obtaining for all pools (≤37 swabs/pool) a specificity of 97.5% (lower bound 96.6%) and a sensitivity of 86.3% (lower bound 78.2%) and a post hoc analyzed sensitivity of 94.6% (lower bound 86.7%) and a specificity of 97.2% (lower bound 96.2%) in pools with ≤25 swabs, relative to individual testing.This approach offers a significant scale-up in sampling and testing throughput and savings in testing cost, without reducing sensitivity or affecting the standard PCR testing laboratory routine. It can be used in school classes, airplanes, hospitals, military units, and workplaces, and may be applicable to future pandemics.

Published

2021

45. The unique evolutionary dynamics of the SARS-CoV-2 Delta variant

Author

Adi Stern, Shay Fleishon, Michal Mandelboim, Oran Erster, Ella Mendelson, Talia Kustin, Neta S. Zuckerman, and Orna Mor

Subjects

Delta, 2019-20 coronavirus outbreak, Genetic drift, Coronavirus disease 2019 (COVID-19), Evolutionary biology, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Biology, Evolutionary dynamics, Clade, Nucleocapsid Proteins

Abstract

The SARS-Coronavirus-2 (SARS-CoV-2) driven pandemic was first recognized in late 2019, and the first few months of its evolution were relatively clock-like, dominated mostly by neutral substitutions. In contrast, the second year of the pandemic was punctuated by the emergence of several variants that bore evidence of dramatic evolution. Here, we compare and contrast evolutionary patterns of various variants, with a focus on the recent Delta variant. Most variants are characterized by long branches leading to their emergence, with an excess of non-synonymous substitutions occurring particularly in the Spike and Nucleocapsid proteins. In contrast, the Delta variant that is now becoming globally dominant, lacks the signature long branch, and is characterized by a step-wise evolutionary process that is ongoing. Contrary to the “star-like” topologies of other variants, we note the formation of several distinct clades within Delta that we denote as clades A-E. We find that sequences from the Delta D clade are dramatically increasing in frequency across different regions of the globe. Delta D is characterized by an excess of non-synonymous mutations, mostly occurring in ORF1a/b, some of which occurred in parallel in other notable variants. We conclude that the Delta surge these days is composed almost exclusively of Delta D, and discuss whether selection or random genetic drift has driven the emergence of Delta D.

Published

2021

46. Favorable outcome on viral load and culture viability using Ivermectin in early treatment of non-hospitalized patients with mild COVID-19 – A double-blind, randomized placebo-controlled trial

Author

Ital Nemet, Amit Shaham, Eli Schwartz, Michal Mandelboim, Asaf Biber, Limor Kliker, Oran Erster, Geva Harmelin, Li Ram, and Dana Lev

Subjects

medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), business.industry, Viral culture, Placebo-controlled study, Placebo, Gastroenterology, Asymptomatic, Ivermectin, Internal medicine, Clinical endpoint, Medicine, medicine.symptom, business, Viral load, medicine.drug

Abstract

BackgroundIvermectin, an anti-parasitic agent, also has anti-viral properties. Our aim was to assess whether ivermectin can shorten the viral shedding in patients at an early-stage of COVID-19 infection.MethodsThe double-blinded trial compared patients receiving ivermectin 0·2 mg/kg for 3 days vs. placebo in non-hospitalized COVID-19 patients. RT-PCR from a nasopharyngeal swab was obtained at recruitment and then every two days. Primary endpoint was reduction of viral-load on the 6th day (third day after termination of treatment) as reflected by Ct level>30 (non-infectious level). The primary outcome was supported by determination of viral culture viability.ResultsEighty-nine patients were eligible (47 in ivermectin and 42 in placebo arm). Their median age was 35 years. Females accounted for 21·6%, and 16·8% were asymptomatic at recruitment. Median time from symptom onset was 4 days. There were no statistical differences in these parameters between the two groups.On day 6, 34 out of 47 (72%) patients in the ivermectin arm reached the endpoint, compared to 21/ 42 (50%) in the placebo arm (OR 2·62; 95% CI: 1·09-6·31). In a multivariable logistic-regression model, the odds of a negative test at day 6 was 2.62 time higher in the ivermectin group (95% CI: 1·06–6·45). Cultures at days 2 to 6 were positive in 3/23 (13·0%) of ivermectin samples vs. 14/29 (48·2%) in the placebo group (p=0·008).ConclusionsThere were significantly lower viral loads and viable cultures in the ivermectin group, which could lead to shortening isolation time in these patients.The study is registered at ClinicalTrials.gov NCT 044297411.

Published

2021

47. Rapid And high throughput RT-qPCR assay for identification and differentiation between SARS-CoV-2 variants B.1.1.7 and B.1.351

Author

Rachel Shirazi, Roberto Azar, Orna Mor, Efrat Bucris, Shai Fleishon, Neta S Zukerman, Virginia Levy, Areej Kabat, Yaniv Ali, Danit Sofer, Oran Erster, Dana Bar-Ilan, Ella Mendelson, Hadar Asraf, Batya Mannasse, and Michal Mandelboim

Subjects

Infectivity, Whole genome sequencing, Mutation, medicine, RNA, Multiplex, Identification (biology), RNA extraction, Computational biology, Biology, medicine.disease_cause, Gene

Abstract

Emerging SARS-CoV-2 (SC-2) variants with increased infectivity and vaccine resistance are of major concern. Rapid identification of such variants is important for the public health activities and provide valuable data for epidemiological and policy decision making. We developed a multiplex quantitative RT-qPCR (qPCR) assay that can specifically identify and differentiate between the emerging B.1.1.7 and B.1.351 SC-2 variants. In a single assay, we combined four reactions: one that detects SC-2 RNA independently of the strain, one that detects the D3L mutation, which is specific to variant B.1.1.7, and one that detects the 242-244 deletion, which is specific to variant B.1.351. The fourth reaction identifies human RNAseP gene, serving as an endogenous control for RNA extraction integrity. We show that the strain-specific reactions target mutations that are strongly associated with the target variants, and not with other major known variants. The assay’s specificity was tested against a panel of respiratory pathogens (n=16), showing high specificity towards SC-2 RNA. The assay’s sensitivity was assessed using both In-vitro transcribed RNA and clinical samples, and was determined to be between 20 and 40 viral RNA copies per reaction. The assay performance was corroborated with Sanger and whole genome sequencing, showing complete agreement with the sequencing results. The new assay is currently implemented in the routine diagnostic work at the Central Virology Laboratory, and may be used in other laboratories to facilitate the diagnosis of these major worldwide circulating SC-2 variants.

Published

2021

48. City-level SARS-CoV-2 sewage surveillance

Author

Rachel Shirazi, Ehud Rinott, Yakir Berchenko, Ricardo Gilead Baibich, Ariel Kushmaro, Satish Lakkakula, Matan Malul, Esti Kramarsky-Winter, Alin Sela Brown, Eran Friedler, Asher Brenner, null Nadav davidovich, Ella Mendelson, Rotem Rishti, Marilou Shagan, Itay Bar-Or, Yael Gilboa, Jacob Moran-Gilad, Sara Sabach, Yair E. Lewis, Merav Weil, Victoria Indenbaum, Oran Erster, Oren Miron, Iris Bigler, Michal Elul, Batya Mannasse, Uta Cheruti, Karin Yaniv, and Yuval Alfiya

Subjects

Environmental Engineering, Coronavirus disease 2019 (COVID-19), Health, Toxicology and Mutagenesis, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Population, Wastewater epidemiology, Sewage, Biology, Wastewater, Article, Environmental health, Pandemic, Environmental Chemistry, Humans, education, Pandemics, Feces, Normalized viral load, Early warning, education.field_of_study, business.industry, SARS-CoV-2, Public Health, Environmental and Occupational Health, Outbreak, COVID-19, General Medicine, General Chemistry, Pollution, RNA, Viral, Population monitoring, business, Viral load

Abstract

The COVID-19 pandemic created a global crisis impacting not only healthcare systems, but also economics and society. Therefore, it is important to find novel methods for monitoring disease activity. Recent data have indicated that fecal shedding of SARS-CoV-2 is common, and that viral RNA can be detected in wastewater. This suggests that wastewater monitoring is a potentially efficient tool for both epidemiological surveillance, and early warning for SARS-CoV-2 circulation at the population level. In this study we sampled an urban wastewater infrastructure in the city of Ashkelon (~ 150,000 population), Israel, during the end of the first COVID-19 wave in May 2020 when the number of infections seemed to be waning. We were able to show varying presence of SARS-CoV-2 RNA in wastewater from several locations in the city during two sampling periods, before the resurgence was clinically apparent. This was expressed with a new index, Normalized Viral Load (NVL) which can be used in different area scales to define levels of virus activity such as red (high) or green (no), and to follow morbidity in the population at the tested area. The rise in viral load between the two sampling periods (one week apart) indicated an increase in morbidity that was evident two weeks to a month later in the population. Thus, this methodology may provide an early indication for SARS-CoV-2 infection outbreak in a population before an outbreak is clinically apparent., Graphical abstract Image 1

Published

2021

49. Improved sensitivity, safety, and rapidity of COVID-19 tests by replacing viral storage solution with lysis buffer

Author

Rafi Yechieli, Dorit Oriya Shorka, Ella Mendelson, Tzahi Bar, Oran Erster, Dana Venkert, Itay Varkovitzky, Michal Mandelboim, Esther Oiknine-Djian, Zvi Livneh, Gil Benedek, Omer Shkedi, Moran Szwarcwort-Cohen, Eyal Zilber, Yair E. Lewis, Michal Tepperberg Oikawa, Danny Zeevi, Gilat Shenhav-Saltzman, Orna Mor, Dana G. Wolf, Rachel Shirazi, Michal Linial, and Yuval Cohen

Subjects

0301 basic medicine, Male, RNA viruses, Preservative, Viral Diseases, Time Factors, Coronaviruses, Polymerase Chain Reaction, Biochemistry, Automation, 0302 clinical medicine, Medical Conditions, Limit of Detection, Medicine and Health Sciences, Pathology and laboratory medicine, Virus Testing, Multidisciplinary, Chemistry, Medical microbiology, Nucleic acids, Infectious Diseases, Viruses, Viral Transport medium, Engineering and Technology, Medicine, Female, RNA extraction, Sample collection, Safety, SARS CoV 2, Pathogens, Research Article, Adult, Coronavirus disease 2019 (COVID-19), SARS coronavirus, Sample (material), Science, Buffers, Microbiology, Specimen Handling, 03 medical and health sciences, Extraction techniques, Diagnostic Medicine, Virology, Lysis buffer, Industrial Engineering, Genetics, Humans, Viral Nucleic Acid, 030216 legal & forensic medicine, Pandemics, Detection limit, Chromatography, Biology and life sciences, SARS-CoV-2, Organisms, Viral pathogens, Covid 19, Biological Transport, Control Engineering, Viral Replication, Microbial pathogens, Research and analysis methods, 030104 developmental biology, Metabolism, RNA, Gene expression, RNA transport, Sensitivity (electronics)

Abstract

Conducting numerous, rapid, and reliable PCR tests for SARS-CoV-2 is essential for our ability to monitor and control the current COVID-19 pandemic.Here, we tested the sensitivity and efficiency of SARS-CoV-2 detection in clinical samples collected directly into a mix of lysis buffer and RNA preservative, thus inactivating the virus immediately after sampling.We tested 79 COVID-19 patients and 20 healthy controls. We collected two samples (nasopharyngeal swabs) from each participant: one swab was inserted into a test tube with Viral Transport Medium (VTM), following the standard guideline used as the recommended method for sample collection; the other swab was inserted into a lysis buffer supplemented with nucleic acid stabilization mix (coined NSLB).We found that RT-qPCR tests of patients were significantly more sensitive with NSLB sampling, reaching detection threshold 2.1±0.6 (Mean±SE) PCR cycles earlier then VTM samples from the same patient. We show that this improvement is most likely since NSLB samples are not diluted in lysis buffer before RNA extraction. Re-extracting RNA from NSLB samples after 72 hours at room temperature did not affect the sensitivity of detection, demonstrating that NSLB allows for long periods of sample preservation without special cooling equipment. We also show that swirling the swab in NSLB and discarding it did not reduce sensitivity compared to retaining the swab in the tube, thus allowing improved automation of COVID-19 tests. Overall, we show that using NSLB instead of VTM can improve the sensitivity, safety, and rapidity of COVID-19 tests at a time most needed.

Published

2021

50. Effectiveness of BNT162b2 mRNA COVID-19 Vaccine Against SARS-CoV-2 Variant Beta (B.1.351) Among Persons Identified Through Contact Tracing in Israel

Author

Shepherd R. Singer, Frederick J. Angulo, David L. Swerdlow, John M. McLaughlin, Itay Hazan, Netanel Ginish, Emilia Anis, Ella Mendelson, Orna Mor, Neta S. Zuckerman, Oran Erster, Jo Southern, Kaijie Pan, Gabriel Mircus, Marc Lipsitch, Eric J. Haas, Luis Jodar, Yeheskel Levy, and Sharon Alroy-Preis

Subjects

History, medicine.medical_specialty, Polymers and Plastics, Coronavirus disease 2019 (COVID-19), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Advisory committee, Institutional review board, Industrial and Manufacturing Engineering, Internal medicine, Pandemic, medicine, Business and International Management, Beta (finance), business, Contact tracing, Cohort study

Abstract

Background: SARS-CoV-2 variant Beta (B.1.351) was designated as a Variant of Concern (VoC) after becoming the dominant strain in South Africa and spreading internationally. BNT162b2 showed lower levels of neutralizing antibodies against Beta than against other strains raising concerns about effectiveness of vaccines against infections caused by Beta. We estimated BNT162b2 effectiveness against Beta infections in Israel, a country with high vaccine uptake. Methods: The Ministry of Health (MoH) identified Beta cases through mandatory reporting of SARS-CoV-2 cases and whole genome sequencing (WGS) of specimens from vaccination-breakthrough infections, reinfections, arriving international travelers, and a selection of other infected persons. A cohort analysis was conducted of exposure events of contacts of primary Beta cases. WGS was conducted on available PCR-positive specimens collected from contacts. VE estimates with 95% confidence intervals (CIs) against confirmed and probable Beta infections were determined by comparing infection risk between unvaccinated and fully-vaccinated ( > 7 days after the second dose) contacts, and between unvaccinated and partially-vaccinated ( 16 years, were identified. 343/552 (62%) contacts were interviewed and tested. 71/343 (21%) contacts were PCR-positive. WGS was performed on 7/71 (10%) PCR-positive specimens; all were Beta. Among SARS-CoV-2-infected contacts, 48/71 (68%) were symptomatic, 10/71 (14%) hospitalized, and 2/71 (3%) died. Fully-vaccinated VE against confirmed or probable Beta infections was 72% (95% CI -5 - 97%; p =0.04) and against symptomatic confirmed or probable Beta infections was 100% (95% CI 19 - 100%; p =0.01). There was no evidence of protection in partially-vaccinated contacts. Interpretation: Two doses of BNT162b2 conferred protection against Beta infections and disease. Introductions of Beta did not interrupt control of the pandemic in Israel. Funding: None to declare. Declaration of Interest: Frederick Angulo, David Swerdlow, John McLaughlin, Farid Khan, Gabriel Mircus, Kaijie Pan, Jo Southern, and Luis Jodar hold stock and stock options in Pfizer Inc. Marc Lipsitch has provided advice on COVID-19 free of charge to Janssen, Astra-Zeneca, Pfizer, and COVAXX (United Biomedical), as well as to the nonprofit One Day Sooner and has received consulting income or honoraria from Merck, Pfizer, Bristol Meyers Squibb, Janssen, and Sanofi, and institutional research support from Pfizer. He is on the Scientific Advisory Committee of the Coalition for Epidemic Preparedness and Innovations (CEPI). All other authors report no conflicts. Ethical Approval: This study was approved by MoH’s Institutional Review Board (CoR-MoH-080-2021).

Published

2021