Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-8 (of 8 Records) |
Query Trace: Bedi K[original query] |
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Analysis of the initial lot of the CDC 2019-Novel Coronavirus (2019-nCoV) real-time RT-PCR diagnostic panel.
Lee JS , Goldstein JM , Moon JL , Herzegh O , Bagarozzi DAJr , Oberste MS , Hughes H , Bedi K , Gerard D , Cameron B , Benton C , Chida A , Ahmad A , Petway DJJr , Tang X , Sulaiman N , Teklu D , Batra D , Howard D , Sheth M , Kuhnert W , Bialek SR , Hutson CL , Pohl J , Carroll DS . PLoS One 2021 16 (12) e0260487 At the start of the COVID-19 pandemic, the Centers for Disease Control and Prevention (CDC) designed, manufactured, and distributed the CDC 2019-Novel Coronavirus (2019-nCoV) Real-Time RT-PCR Diagnostic Panel for SARS-CoV-2 detection. The diagnostic panel targeted three viral nucleocapsid gene loci (N1, N2, and N3 primers and probes) to maximize sensitivity and to provide redundancy for virus detection if mutations occurred. After the first distribution of the diagnostic panel, state public health laboratories reported fluorescent signal in the absence of viral template (false-positive reactivity) for the N3 component and to a lesser extent for N1. This report describes the findings of an internal investigation conducted by the CDC to identify the cause(s) of the N1 and N3 false-positive reactivity. For N1, results demonstrate that contamination with a synthetic template, that occurred while the "bulk" manufactured materials were located in a research lab for quality assessment, was the cause of false reactivity in the first lot. Base pairing between the 3' end of the N3 probe and the 3' end of the N3 reverse primer led to amplification of duplex and larger molecules resulting in false reactivity in the N3 assay component. We conclude that flaws in both assay design and handling of the "bulk" material, caused the problems with the first lot of the 2019-nCoV Real-Time RT-PCR Diagnostic Panel. In addition, within this study, we found that the age of the examined diagnostic panel reagents increases the frequency of false positive results for N3. We discuss these findings in the context of improvements to quality control, quality assurance, and assay validation practices that have since been improved at the CDC. |
Apolipoprotein A-I modulates HDL particle size in the absence of apolipoprotein A-II
Melchior JT , Street SE , Vaisar T , Hart R , Jerome J , Kuklenyik Z , Clouet-Foraison N , Thornock C , Bedi S , Shah AS , Segrest JP , Heinecke JW , Davidson WS . J Lipid Res 2021 62 100099 Human high-density lipoproteins (HDL) are a complex mixture of structurally-related nanoparticles that perform distinct physiological functions. We previously showed human HDL containing apolipoprotein A-I (APOA1) but not apolipoprotein A-II (APOA2), designated LpA-I, is composed primarily of two discretely sized populations. Here, we isolated these particles directly from human plasma by antibody affinity chromatography, separated them by high-resolution size exclusion chromatography and performed a deep molecular characterization of each species. The large and small LpA-I populations were spherical with mean diameters of 109 Å and 91 Å, respectively. Unexpectedly, isotope dilution MS/MS with [(15)N]-APOA1 in concert with quantitation of particle concentration by calibrated ion mobility analysis demonstrated that the large particles contained fewer APOA1 molecules than the small particles; the stoichiometries were 3.0 and 3.7 molecules of APOA1 per particle, respectively. MS/MS experiments showed that the protein cargo of large LpA-I particles was more diverse. Human HDL and isolated particles containing both APOA1 and APOA2 exhibit a much wider range and variation of particle sizes than LpA-I, indicating that APOA2 is likely the major contributor to HDL size heterogeneity. We propose a ratchet model based on the trefoil structure of APOA1 whereby the helical cage maintaining particle structure has two 'settings' - large and small - that accounts for these findings. This understanding of the determinants of HDL particle size and protein cargo distribution serves as a basis for determining the roles of HDL subpopulations in metabolism and disease states. |
Comparison of Zika virus inactivation methods for reagent production and disinfection methods
Chida AS , Goldstein JM , Lee J , Tang X , Bedi K , Herzegh O , Moon JL , Petway D , Bagarozzi DAJr , Hughes LJ . J Virol Methods 2020 287 114004 Zika virus (ZIKV) infection remains a public health concern necessitating demand for long-term virus production for diagnostic assays and R&D activities. Inactivated virus constitutes an important component of the Trioplex rRT-PCR assay and serological IgM assay (MAC-ELISA). The aim of our study is to establish standard methods of ZIKV inactivation while maintaining antigenicity and RNA integrity. We tested viral supernatants by four different inactivation methods: 1. Heat inactivation at 56 °C and 60 °C; 2. Gamma-Irradiation; 3. Chemical inactivation by Beta-propiolactone (BPL) and 4. Fast-acting commercial disinfecting agents. Effectivity was measured by cytopathic effect (CPE) and plaque assay. RNA stability and antigenicity were measured by RT-PCR and MAC-ELISA, respectively. Results: Heat inactivation: Low titer samples, incubated at 56 °C for 2 hrs, showed neither CPE or plaques compared to high titer supernatants that required 2.5 hrs. Inactivation occurred at 60 °C for 60 min with all virus titers. Gamma irradiation: Samples irradiated at ≥3 Mrad for low virus concentrations and ≥5Mrad for high virus titer completely inactivated virus. Chemical Inactivation: Neither CPE nor plaques were observed with ≥0.045% BPL inactivation of ZIKV. Disinfectant: Treatment of viral supernatants with Micro-Chem Plus(TM), inactivated virus in 2 min, whereas, Ethanol (70%) and STERIS Coverage® Spray TB inactivated the virus in 5 min. |
Inflammasome components caspase-1 and adaptor protein apoptosis-associated speck-like proteins are important in resistance to Cryptosporidium parvum
McNair NN , Bedi C , Shayakhmetov DM , Arrowood MJ , Mead JR . Microbes Infect 2018 20 (6) 369-375 Cryptosporidium spp. are opportunistic protozoan parasites that infect epithelial cells in the intestinal tract and cause a flu-like diarrheal illness. Innate immunity is key to limiting the expansion of parasitic stages early in infection. One mechanism in which it does this is through the generation of early cytokines, such as IL-18. The processing and secretion of mature IL-18 (and IL-1beta) is mediated by caspase-1 which is activated within an inflammasome following the engagement of inflammasome-initiating sensors. We examined how the absence of caspase-1 and caspase-11, the adapter protein Asc, and other inflammasome components affects susceptibility to cryptosporidial infection by these and other key cytokines in the gut. We found that Casp-11(-/-)Casp-1(-/-) knockout mice have increased susceptibility to C. parvum infection as demonstrated by the 35-fold higher oocyst production (at peak infection) compared to wild-type mice. Susceptibility correlated with a lack of IL-18 in caspase-1 and caspase1/11 knockout mice, whereas IL-18 is significantly elevated in wildtype mice. IL-1beta was not generated in any significant amount following infection nor was any increased susceptibility observed in IL-1beta knockout mice. We also show that the adapter protein Asc is important to susceptibility, and that the caspase-1 canonical inflammasome signaling pathway is the dominant pathway in C. parvum resistance. |
Stability of hepatitis C virus RNA and anti-HCV antibody in air-dried and freeze-dried human plasma samples
Poe A , Duong NT , Bedi K , Kodani M . J Virol Methods 2017 253 53-55 Diagnosis of hepatitis C virus (HCV) infection is based on testing for antibodies to HCV (anti-HCV), hepatitis C core antigen (HCV cAg) and HCV RNA. To ensure quality control (QC) and quality assurance (QA), proficiency panels are provided by reference laboratories and various international organizations, requiring costly dry ice shipments to maintain specimen integrity. Alternative methods of specimen preservation and transport can save on shipping and handling and help in improving diagnostics by facilitating QA/QC of various laboratories especially in resource limited countries. Plasma samples positive for anti-HCV and HCV RNA were either dried using dried tube specimens (DTS) method or lyophilization for varying durations of time and temperature. Preservation of samples using DTS method resulted in loss of anti-HCV reactivity for low-positive samples and did not generate enough volume for HCV RNA testing. Lyophilized samples tested positive for anti-HCV even after storage at 4 degrees C and 25 degrees C for 12 weeks. Further, HCV RNA was detectable in 5 of 5 (100%) samples over the course of 12 week storage at 4, 25, 37 and 45 degrees C. In conclusion, lyophilization of specimens maintains integrity of plasma samples for testing for markers of HCV infection and can be a potent mode of sharing proficiency samples without incurring huge shipping costs and avoids challenges with dry ice shipments between donor and recipient laboratories. |
Global, regional, and national cancer incidence, mortality, years of life lost, years lived with disability, and disability-adjusted life-years for 32 cancer groups, 1990 to 2015: a systematic analysis for the Global Burden of Disease Study
Fitzmaurice C , Allen C , Barber RM , Barregard L , Bhutta ZA , Brenner H , Dicker DJ , Chimed-Orchir O , Dandona R , Dandona L , Fleming T , Forouzanfar MH , Hancock J , Hay RJ , Hunter-Merrill R , Huynh C , Hosgood HD , Johnson CO , Jonas JB , Khubchandani J , Kumar GA , Kutz M , Lan Q , Larson HJ , Liang X , Lim SS , Lopez AD , MacIntyre MF , Marczak L , Marquez N , Mokdad AH , Pinho C , Pourmalek F , Salomon JA , Sanabria JR , Sandar L , Sartorius B , Schwartz SM , Shackelford KA , Shibuya K , Stanaway J , Steiner C , Sun J , Takahashi K , Vollset SE , Vos T , Wagner JA , Wang H , Westerman R , Zeeb H , Zoeckler L , Abd-Allah F , Ahmed MB , Alabed S , Alam NK , Aldhahri SF , Alem G , Alemayohu MA , Ali R , Al-Raddadi R , Amare A , Amoako Y , Artaman A , Asayesh H , Atnafu N , Awasthi A , Saleem HB , Barac A , Bedi N , Bensenor I , Berhane A , Bernabe E , Betsu B , Binagwaho A , Boneya D , Campos-Nonato I , Castaneda-Orjuela C , Catala-Lopez F , Chiang P , Chibueze C , Chitheer A , Choi JY , Cowie B , Damtew S , das Neves J , Dey S , Dharmaratne S , Dhillon P , Ding E , Driscoll T , Ekwueme D , Endries AY , Farvid M , Farzadfar F , Fernandes J , Fischer F , GHiwot TT , Gebru A , Gopalani S , Hailu A , Horino M , Horita N , Husseini A , Huybrechts I , Inoue M , Islami F , Jakovljevic M , James S , Javanbakht M , Jee SH , Kasaeian A , Kedir MS , Khader YS , Khang YH , Kim D , Leigh J , Linn S , Lunevicius R , El Razek HM , Malekzadeh R , Malta DC , Marcenes W , Markos D , Melaku YA , Meles KG , Mendoza W , Mengiste DT , Meretoja TJ , Miller TR , Mohammad KA , Mohammadi A , Mohammed S , Moradi-Lakeh M , Nagel G , Nand D , Le Nguyen Q , Nolte S , Ogbo FA , Oladimeji KE , Oren E , Pa M , Park EK , Pereira DM , Plass D , Qorbani M , Radfar A , Rafay A , Rahman M , Rana SM , Soreide K , Satpathy M , Sawhney M , Sepanlou SG , Shaikh MA , She J , Shiue I , Shore HR , Shrime MG , So S , Soneji S , Stathopoulou V , Stroumpoulis K , Sufiyan MB , Sykes BL , Tabares-Seisdedos R , Tadese F , Tedla BA , Tessema GA , Thakur JS , Tran BX , Ukwaja KN , Uzochukwu BS , Vlassov VV , Weiderpass E , Wubshet Terefe M , Yebyo HG , Yimam HH , Yonemoto N , Younis MZ , Yu C , Zaidi Z , Zaki ME , Zenebe ZM , Murray CJ , Naghavi M . JAMA Oncol 2016 3 (4) 524-548 Importance: Cancer is the second leading cause of death worldwide. Current estimates on the burden of cancer are needed for cancer control planning. Objective: To estimate mortality, incidence, years lived with disability (YLDs), years of life lost (YLLs), and disability-adjusted life-years (DALYs) for 32 cancers in 195 countries and territories from 1990 to 2015. Evidence Review: Cancer mortality was estimated using vital registration system data, cancer registry incidence data (transformed to mortality estimates using separately estimated mortality to incidence [MI] ratios), and verbal autopsy data. Cancer incidence was calculated by dividing mortality estimates through the modeled MI ratios. To calculate cancer prevalence, MI ratios were used to model survival. To calculate YLDs, prevalence estimates were multiplied by disability weights. The YLLs were estimated by multiplying age-specific cancer deaths by the reference life expectancy. DALYs were estimated as the sum of YLDs and YLLs. A sociodemographic index (SDI) was created for each location based on income per capita, educational attainment, and fertility. Countries were categorized by SDI quintiles to summarize results. Findings: In 2015, there were 17.5 million cancer cases worldwide and 8.7 million deaths. Between 2005 and 2015, cancer cases increased by 33%, with population aging contributing 16%, population growth 13%, and changes in age-specific rates contributing 4%. For men, the most common cancer globally was prostate cancer (1.6 million cases). Tracheal, bronchus, and lung cancer was the leading cause of cancer deaths and DALYs in men (1.2 million deaths and 25.9 million DALYs). For women, the most common cancer was breast cancer (2.4 million cases). Breast cancer was also the leading cause of cancer deaths and DALYs for women (523000 deaths and 15.1 million DALYs). Overall, cancer caused 208.3 million DALYs worldwide in 2015 for both sexes combined. Between 2005 and 2015, age-standardized incidence rates for all cancers combined increased in 174 of 195 countries or territories. Age-standardized death rates (ASDRs) for all cancers combined decreased within that timeframe in 140 of 195 countries or territories. Countries with an increase in the ASDR due to all cancers were largely located on the African continent. Of all cancers, deaths between 2005 and 2015 decreased significantly for Hodgkin lymphoma (-6.1% [95% uncertainty interval (UI), -10.6% to -1.3%]). The number of deaths also decreased for esophageal cancer, stomach cancer, and chronic myeloid leukemia, although these results were not statistically significant. Conclusion and Relevance: As part of the epidemiological transition, cancer incidence is expected to increase in the future, further straining limited health care resources. Appropriate allocation of resources for cancer prevention, early diagnosis, and curative and palliative care requires detailed knowledge of the local burden of cancer. The GBD 2015 study results demonstrate that progress is possible in the war against cancer. However, the major findings also highlight an unmet need for cancer prevention efforts, including tobacco control, vaccination, and the promotion of physical activity and a healthy diet. |
Production of a Sindbis/Eastern Equine Encephalitis chimeric virus inactivated cell culture antigen
Goodman CH , Russell BJ , Velez JO , Laven JJ , Bagarozzi DA Jr , Moon JL , Bedi K , Johnson BW . J Virol Methods 2015 223 19-24 Eastern Equine Encephalitis virus (EEEV) is a medically important pathogen that can cause severe encephalitis in humans, with mortality rates ranging from 30 to 80%. Unfortunately there are no antivirals or licensed vaccines available for human use, and laboratory diagnosis is essential to differentiate EEEV infection from other pathogens with similar clinical manifestations. The Arboviral Diseases Branch (ADB) reference laboratory at the CDC Division of Vector-Borne Diseases (DVBD) produces reference antigens used in serological assays such as the EEEV immunoglobulin M antibody-capture enzyme-linked immunosorbent assay (MAC-ELISA). However, EEEV is classified as a HHS select agent and requires biosafety level (BSL) three containment, limiting EEEV antigen production in non-select agent and BSL-2 laboratories. A recombinant Sindbis virus (SINV)/EEEV has been constructed for use under BSL-2 conditions and is not regulated as a select agent. Cell culture production of inactivated EEEV antigen from SINV/EEEV for use in the EEEV MAC-ELISA is reported here. Cell culture conditions and inactivation procedures were analyzed for SINV/EEEV using a recently developed antigen production algorithm, with the MAC-ELISA as the performance indicator. |
Development of an algorithm for production of inactivated arbovirus antigens in cell culture
Goodman CH , Russell BJ , Velez JO , Laven JJ , Nicholson WL , Bagarozzi DA Jr , Moon JL , Bedi K , Johnson BW . J Virol Methods 2014 208 66-78 Arboviruses are medically important pathogens that cause human disease ranging from a mild fever to encephalitis. Laboratory diagnosis is essential to differentiate arbovirus infections from other pathogens with similar clinical manifestations. The Arboviral Diseases Branch (ADB) reference laboratory at the CDC Division of Vector-Borne Diseases (DVBD) produces reference antigens used in serological assays such as the virus-specific immunoglobulin M antibody-capture enzyme-linked immunosorbent assay (MAC-ELISA). Antigen production in cell culture has largely replaced the use of suckling mice; however, the methods are not directly transferable. The development of a cell culture antigen production algorithm for nine arboviruses from the three main arbovirus families, Flaviviridae, Togaviridae, and Bunyaviridae, is described here. Virus cell culture growth and harvest conditions were optimized, inactivation methods were evaluated, and concentration procedures were compared for each virus. Antigen performance was evaluated by the MAC-ELISA at each step of the procedure. The antigen production algorithm is a framework for standardization of methodology and quality control; however, a single antigen production protocol was not applicable to all arboviruses and needed to be optimized for each virus. |
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