Last data update: Apr 29, 2024. (Total: 46658 publications since 2009)
Records 1-18 (of 18 Records) |
Query Trace: Stuckey MJ[original query] |
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Immune response kinetics to SARS-CoV-2 infection and COVID-19 vaccination among nursing home residents-Georgia, October 2020-July 2022
Chisty ZA , Li DD , Haile M , Houston H , DaSilva J , Overton R , Schuh AJ , Haynie J , Clemente J , Branch AG , Arons MM , Tsang CA , Pellegrini GJ Jr , Bugrysheva J , Ilutsik J , Mohelsky R , Comer P , Hundia SB , Oh H , Stuckey MJ , Bohannon CD , Rasheed MAU , Epperson M , Thornburg NJ , McDonald LC , Brown AC , Kutty PK . PLoS One 2024 19 (4) e0301367 BACKGROUND: Understanding the immune response kinetics to SARS-CoV-2 infection and COVID-19 vaccination is important in nursing home (NH) residents, a high-risk population. METHODS: An observational longitudinal evaluation of 37 consenting vaccinated NH residents with/without SARS-CoV-2 infection from October 2020 to July 2022 was conducted to characterize the immune response to spike protein due to infection and/or mRNA COVID-19 vaccine. Antibodies (IgG) to SARS-CoV-2 full-length spike, nucleocapsid, and receptor binding domain protein antigens were measured, and surrogate virus neutralization capacity was assessed using Meso Scale Discovery immunoassays. The participant's spike exposure status varied depending on the acquisition of infection or receipt of a vaccine dose. Longitudinal linear mixed effects modeling was used to describe trajectories based on the participant's last infection or vaccination; the primary series mRNA COVID-19 vaccine was considered two spike exposures. Mean antibody titer values from participants who developed an infection post receipt of mRNA COVID-19 vaccine were compared with those who did not. In a subset of participants (n = 15), memory B cell (MBC) S-specific IgG (%S IgG) responses were assessed using an ELISPOT assay. RESULTS: The median age of the 37 participants at enrollment was 70.5 years; 30 (81%) had prior SARS-CoV-2 infection, and 76% received Pfizer-BioNTech and 24% Moderna homologous vaccines. After an observed augmented effect with each spike exposure, a decline in the immune response, including %S IgG MBCs, was observed over time; the percent decline decreased with increasing spike exposures. Participants who developed an infection at least two weeks post-receipt of a vaccine were observed to have lower humoral antibody levels than those who did not develop an infection post-receipt. CONCLUSIONS: These findings suggest that understanding the durability of immune responses in this vulnerable NH population can help inform public health policy regarding the timing of booster vaccinations as new variants display immune escape. |
Influenza and up-to-date COVID-19 vaccination coverage among health care personnel - National Healthcare Safety Network, United States, 2022-23 Influenza Season
Bell J , Meng L , Barbre K , Haanschoten E , Reses HE , Soe M , Edwards J , Massey J , Tugu Yagama Reddy GR , Woods A , Stuckey MJ , Kuhar DT , Bolden K , Dubendris H , Wong E , Rowe T , Lindley MC , Kalayil EJ , Benin A . MMWR Morb Mortal Wkly Rep 2023 72 (45) 1237-1243 The Advisory Committee on Immunization Practices recommends that health care personnel (HCP) receive an annual influenza vaccine and that everyone aged ≥6 months stay up to date with recommended COVID-19 vaccination. Health care facilities report vaccination of HCP against influenza and COVID-19 to CDC's National Healthcare Safety Network (NHSN). During January-June 2023, NHSN defined up-to-date COVID-19 vaccination as receipt of a bivalent COVID-19 mRNA vaccine dose or completion of a primary series within the preceding 2 months. This analysis describes influenza and up-to-date COVID-19 vaccination coverage among HCP working in acute care hospitals and nursing homes during the 2022-23 influenza season (October 1, 2022-March 31, 2023). Influenza vaccination coverage was 81.0% among HCP at acute care hospitals and 47.1% among those working at nursing homes. Up-to-date COVID-19 vaccination coverage was 17.2% among HCP working at acute care hospitals and 22.8% among those working at nursing homes. There is a need to promote evidence-based strategies to improve vaccination coverage among HCP. Tailored strategies might also be useful to reach all HCP with recommended vaccines and protect them and their patients from vaccine-preventable respiratory diseases. |
Declines in influenza vaccination coverage among health care personnel in acute care hospitals during the COVID-19 pandemic - United States, 2017-2023
Lymon H , Meng L , Reses HE , Barbre K , Dubendris H , Shafi S , Wiegand R , Reddy Grty , Woods A , Kuhar DT , Stuckey MJ , Lindley MC , Haas L , Qureshi I , Wong E , Benin A , Bell JM . MMWR Morb Mortal Wkly Rep 2023 72 (45) 1244-1247 Health care personnel (HCP) are recommended to receive annual vaccination against influenza to reduce influenza-related morbidity and mortality. Every year, acute care hospitals report receipt of influenza vaccination among HCP to CDC's National Healthcare Safety Network (NHSN). This analysis used NHSN data to describe changes in influenza vaccination coverage among HCP in acute care hospitals before and during the COVID-19 pandemic. Influenza vaccination among HCP increased during the prepandemic period from 88.6% during 2017-18 to 90.7% during 2019-20. During the COVID-19 pandemic, the percentage of HCP vaccinated against influenza decreased to 85.9% in 2020-21 and 81.1% in 2022-23. Additional efforts are needed to implement evidence-based strategies to increase vaccination coverage among HCP and to identify factors associated with recent declines in influenza vaccination coverage. |
Who gets sick from COVID-19 Sociodemographic correlates of severe adult health outcomes during Alpha- and Delta-variant predominant periods, 9/2020-11/2021
Wei SC , Freeman D , Himschoot A , Clarke KEN , Van Dyke ME , Adjemian J , Ahmad FB , Benoit TJ , Berney K , Gundlapalli AV , Hall AJ , Havers F , Henley SJ , Hilton C , Johns D , Opsomer JD , Pham HT , Stuckey MJ , Taylor CA , Jones JM . J Infect Dis 2023 BACKGROUND: Because COVID-19 case data do not capture most SARS-CoV-2 infections, the actual risk of severe disease and death per infection is unknown. Integrating sociodemographic data into analysis can show consequential health disparities. METHODS: Data from September 2020--November 2021 from six national surveillance systems in matched geographical areas were merged and analyzed to estimate numbers of COVID-19-associated cases, emergency department visits, and deaths per 100,000 infections. Relative risks of outcomes per infection were compared by sociodemographic factors in a dataset including 1,490 counties from 50 states and the District of Columbia, covering 71% of the US population. RESULTS: Per infection with SARS-CoV-2, COVID-19-related morbidity and mortality were higher among non-Hispanic American Indian and Alaska Native persons, non-Hispanic Black persons, and Hispanic or Latino persons compared with non-Hispanic White persons, males compared with females, older persons compared with younger, persons in more socially vulnerable counties compared with less, persons in large central metro areas compared with rural areas, and persons in the South compared with the Northeast. DISCUSSION: Meaningful disparities in COVID-19 morbidity and mortality per infection were associated with sociodemography and geography. Addressing these disparities could have helped prevent the loss of tens of thousands of lives. |
Estimating waterborne infectious disease burden by exposure route, United States, 2014
Gerdes ME , Miko S , Kunz JM , Hannapel EJ , Hlavsa MC , Hughes MJ , Stuckey MJ , Francois Watkins LK , Cope JR , Yoder JS , Hill VR , Collier SA . Emerg Infect Dis 2023 29 (7) 1357-1366 More than 7.15 million cases of domestically acquired infectious waterborne illnesses occurred in the United States in 2014, causing 120,000 hospitalizations and 6,600 deaths. We estimated disease incidence for 17 pathogens according to recreational, drinking, and nonrecreational nondrinking (NRND) water exposure routes by using previously published estimates. In 2014, a total of 5.61 million (95% credible interval [CrI] 2.97-9.00 million) illnesses were linked to recreational water, 1.13 million (95% CrI 255,000-3.54 million) to drinking water, and 407,000 (95% CrI 72,800-1.29 million) to NRND water. Recreational water exposure was responsible for 36%, drinking water for 40%, and NRND water for 24% of hospitalizations from waterborne illnesses. Most direct costs were associated with pathogens found in biofilms. Estimating disease burden by water exposure route helps direct prevention activities. For each exposure route, water management programs are needed to control biofilm-associated pathogen growth; public health programs are needed to prevent biofilm-associated diseases. |
Modeling effectiveness of testing strategies to prevent COVID-19 in nursing homes —United States, 2020 (preprint)
See I , Paul P , Slayton RB , Steele MK , Stuckey MJ , Duca L , Srinivasan A , Stone N , Jernigan JA , Reddy SC . medRxiv 2021 2020.12.18.20248255 Background SARS-CoV-2 outbreaks in nursing homes can be large with high case fatality. Identifying asymptomatic individuals early through serial testing is recommended to control COVID-19 in nursing homes, both in response to an outbreak (“outbreak testing” of residents and healthcare personnel) and in facilities without outbreaks (“non-outbreak testing” of healthcare personnel). The effectiveness of outbreak testing and isolation with or without non-outbreak testing was evaluated.Methods Using published SARS-CoV-2 transmission parameters, the fraction of SARS-CoV-2 transmissions prevented through serial testing (weekly, every three days, or daily) and isolation of asymptomatic persons compared to symptom-based testing and isolation was evaluated through mathematical modeling using a Reed-Frost model to estimate the percentage of cases prevented (i.e., “effectiveness”) through either outbreak testing alone or outbreak plus non-outbreak testing. The potential effect of simultaneous decreases (by 10%) in the effectiveness of isolating infected individuals when instituting testing strategies was also evaluated.Results Modeling suggests that outbreak testing could prevent 54% (weekly testing with 48-hour test turnaround) to 92% (daily testing with immediate results and 50% relative sensitivity) of SARS-CoV-2 infections. Adding non-outbreak testing could prevent up to an additional 8% of SARS-CoV-2 infections (depending on test frequency and turnaround time). However, added benefits of non-outbreak testing were mostly negated if accompanied by decreases in infection control practice.Conclusions When combined with high-quality infection control practices, outbreak testing could be an effective approach to preventing COVID-19 in nursing homes, particularly if optimized through increased test frequency and use of tests with rapid turnaround.Summary Mathematical modeling evaluated the effectiveness of serially testing asymptomatic persons in a nursing home in response to a SARS-CoV-2 outbreak with or without serial testing of asymptomatic staff in the absence of known SARS-CoV-2 infections.Competing Interest StatementThe authors have declared no competing interest.Funding StatementNo external funding was received. All work was conducted as part of government duties.Author DeclarationsI confirm all relevant ethical guidelines have been followed, and any necessary IRB and/or ethics committee approvals have been obtained.YesThe details of the IRB/oversight body that provided approval or exemption for the research described are given below:This activity was reviewed by CDC and was conducted consistent with applicable federal law and CDC policy (see e.g., 45 C.F.R. part 46, 21 C.F.R. part 56; 42 U.S.C. 241(d); 5 U.S.C 552a; 44 U.S.C. 351 et seq.).All necessary patient/participant consent has been obtained and the appropriate institutional forms have been archived.YesI understand that all clinical trials and any other prospective interventional studies must be registered with an ICMJE-approved registry, such as ClinicalTrials.gov. I confirm that any such study reported in the manuscript has been registered and the trial registration ID is provided (note: if posting a prospective study registered retrospectively, please provide a statement in the trial ID field explaining why the study was not registered in advance).YesI have followed all appropriate research reporting guidelines and uploaded the relevant EQUATOR Network research reporting checklist(s) and other pertinent material as supplementary files, if applicable.YesData provided in supplemental materials or publicly available through links in the manuscript. https://github.com/cdcepi/Nursing-home-SARS-CoV-2-testing-model/ |
Vaccines, Variants, and Vigilance: Strengthening the COVID-19 Public Health Response through Partnerships and Collaborations.
Kutty PK , Stuckey MJ , Koumans EH . Clin Infect Dis 2022 75 S141-S146 The United States Centers for Disease Control and Prevention (CDC), state, tribal, local, and territorial health departments, other U.S. government departments and agencies, the private sector, and international partners have engaged in real-time public health response to the coronavirus disease 2019 (COVID-19) pandemic, caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Vaccination, variants, and vigilance were themes that arose in the second year of pandemic response in the United States. The findings included in this supplement emerged from these themes and represent some of the many collaborative partnership efforts to improve public health knowledge and action to reduce transmission, infection, and disease severity. |
Research on the Epidemiology of SARS-CoV-2 in Essential Response Personnel (RECOVER): Protocol for a Multisite Longitudinal Cohort Study.
Edwards LJ , Fowlkes AL , Wesley MG , Kuntz JL , Odean MJ , Caban-Martinez AJ , Dunnigan K , Phillips AL , Grant L , Herring MK , Groom HC , Respet K , Beitel S , Zunie T , Hegmann KT , Kumar A , Joseph G , Poe B , Louzado-Feliciano P , Smith ME , Thiese MS , Schaefer-Solle N , Yoo YM , Silvera CA , Mayo Lamberte J , Mak J , McDonald LC , Stuckey MJ , Kutty P , Arvay ML , Yoon SK , Tyner HL , Burgess JL , Hunt DR , Meece J , Gaglani M , Naleway AL , Thompson MG . JMIR Res Protoc 2021 10 (12) e31574 BACKGROUND: Workers critical to emergency response and continuity of essential services during the coronavirus disease 2019 (COVID-19) pandemic are at a disproportionally high risk of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. Prospective cohort studies are needed to enhance understanding the incidence of symptomatic and asymptomatic SARS-CoV-2 infection, identifying risk factors, assessing clinical outcomes, and determining the effectiveness of vaccination. OBJECTIVE: The Research on the Epidemiology of SARS-CoV-2 in Essential Response personnel (RECOVER) prospective cohort study was designed to estimate the incidence of symptomatic and asymptomatic SARS-CoV-2 infection, examine risk factors for infection and clinical spectrum of illness, and assess effectiveness of vaccination among essential workers. METHODS: The RECOVER multi-site network was initiated in August 2020 and aims to enroll 3,000 healthcare personnel (HCP), first responders, and other essential and frontline workers (EFW) in six U.S. locations. Data on participant demographics, medical history, and vaccination history are collected at baseline and throughout the study. Active surveillance for symptoms of COVID-19-like illness (CLI), accessing medical care, and symptom duration are ascertained by text messages, e-mails, and direct participant or medical record reports. Participants self-collect a mid-turbinate nasal swab weekly, regardless of symptoms, and two additional respiratory specimens at the onset of CLI. Blood is collected upon enrollment, every three months, approximately 28 days after a reverse-transcription-polymerase-chain-reaction (RT-PCR)-confirmed SARS-CoV-2 infection, and 14-28 days after a dose of any COVID-19 vaccine. Beginning in February 2021, household members of RT-PCR-confirmed participants self-collect mid-turbinate nasal swabs daily for ten days. RESULTS: The study observation period began in August 2020 and is currently expected to continue through spring 2022. There are 2,623 actively enrolled RECOVER participants, including 252 participants who were found to be positive for SARS-CoV-2 by RT-PCR. Enrollment is ongoing at three of six study site locations. CONCLUSIONS: Data collected through the cohort are expected to provide important public health information for essential workers at high risk for occupational exposure to SARS-CoV-2 and allow early evaluation of COVID-19 vaccine effectiveness. INTERNATIONAL REGISTERED REPORT: DERR1-10.2196/31574. |
COVID-19 Vaccine Uptake Among Residents and Staff Members of Assisted Living and Residential Care Communities-Pharmacy Partnership for Long-Term Care Program, December 2020-April 2021.
Gharpure R , Yi SH , Li R , Jacobs Slifka KM , Tippins A , Jaffe A , Guo A , Kent AG , Gouin KA , Whitworth JC , Vlachos N , Patel A , Stuckey MJ , Link-Gelles R . J Am Med Dir Assoc 2021 22 (10) 2016-2020 e2 OBJECTIVES: In December 2020, CDC launched the Pharmacy Partnership for Long-Term Care Program to facilitate COVID-19 vaccination of residents and staff in long-term care facilities (LTCFs), including assisted living (AL) and other residential care (RC) communities. We aimed to assess vaccine uptake in these communities and identify characteristics that might impact uptake. DESIGN: Cross-sectional study. SETTING AND PARTICIPANTS: AL/RC communities in the Pharmacy Partnership for Long-Term Care Program that had ≥1 on-site vaccination clinic during December 18, 2020-April 21, 2021. METHODS: We estimated uptake by using the cumulative number of doses of COVID-19 vaccine administered and normalizing by the number of AL/RC community beds. We estimated the percentage of residents vaccinated in 3 states using AL census counts. We linked community vaccine administration data with county-level social vulnerability index (SVI) measures to calculate median vaccine uptake by SVI tertile. RESULTS: In AL communities, a median of 67 residents [interquartile range (IQR): 48-90] and 32 staff members (IQR: 15-60) per 100 beds received a first dose of COVID-19 vaccine at the first on-site clinic; in RC, a median of 8 residents (IQR: 5-10) and 5 staff members (IQR: 2-12) per 10 beds received a first dose. Among 3 states with available AL resident census data, median resident first-dose uptake at the first clinic was 93% (IQR: 85-108) in Connecticut, 85% in Georgia (IQR: 70-102), and 78% (IQR: 56-91) in Tennessee. Among both residents and staff, cumulative first-dose vaccine uptake increased with increasing social vulnerability related to housing type and transportation. CONCLUSIONS AND IMPLICATIONS: COVID-19 vaccination of residents and staff in LTCFs is a public health priority. On-site clinics may help to increase vaccine uptake, particularly when transportation may be a barrier. Ensuring steady access to COVID-19 vaccine in LTCFs following the conclusion of the Pharmacy Partnership is critical to maintaining high vaccination coverage among residents and staff. |
Modeling effectiveness of testing strategies to prevent COVID-19 in nursing homes -United States, 2020.
See I , Paul P , Slayton RB , Steele MK , Stuckey MJ , Duca L , Srinivasan A , Stone N , Jernigan JA , Reddy SC . Clin Infect Dis 2021 73 (3) e792-e798 BACKGROUND: SARS-CoV-2 outbreaks in nursing homes can be large with high case fatality. Identifying asymptomatic individuals early through serial testing is recommended to control COVID-19 in nursing homes, both in response to an outbreak ("outbreak testing" of residents and healthcare personnel) and in facilities without outbreaks ("non-outbreak testing" of healthcare personnel). The effectiveness of outbreak testing and isolation with or without non-outbreak testing was evaluated. METHODS: Using published SARS-CoV-2 transmission parameters, the fraction of SARS-CoV-2 transmissions prevented through serial testing (weekly, every three days, or daily) and isolation of asymptomatic persons compared to symptom-based testing and isolation was evaluated through mathematical modeling using a Reed-Frost model to estimate the percentage of cases prevented (i.e., "effectiveness") through either outbreak testing alone or outbreak plus non-outbreak testing. The potential effect of simultaneous decreases (by 10%) in the effectiveness of isolating infected individuals when instituting testing strategies was also evaluated. RESULTS: Modeling suggests that outbreak testing could prevent 54% (weekly testing with 48-hour test turnaround) to 92% (daily testing with immediate results and 50% relative sensitivity) of SARS-CoV-2 infections. Adding non-outbreak testing could prevent up to an additional 8% of SARS-CoV-2 infections (depending on test frequency and turnaround time). However, added benefits of non-outbreak testing were mostly negated if accompanied by decreases in infection control practice. CONCLUSIONS: When combined with high-quality infection control practices, outbreak testing could be an effective approach to preventing COVID-19 in nursing homes, particularly if optimized through increased test frequency and use of tests with rapid turnaround. |
Characterization of COVID-19 in Assisted Living Facilities - 39 States, October 2020.
Yi SH , See I , Kent AG , Vlachos N , Whitworth JC , Xu K , Gouin KA , Zhang S , Slifka KJ , Sauer AG , Kutty PK , Perz JF , Stone ND , Stuckey MJ . MMWR Morb Mortal Wkly Rep 2020 69 (46) 1730-1735 The coronavirus disease 2019 (COVID-19) pandemic has highlighted the vulnerability of residents and staff members in long-term care facilities (LTCFs) (1). Although skilled nursing facilities (SNFs) certified by the Centers for Medicare & Medicaid Services (CMS) have federal COVID-19 reporting requirements, national surveillance data are less readily available for other types of LTCFs, such as assisted living facilities (ALFs) and those providing similar residential care. However, many state and territorial health departments publicly report COVID-19 surveillance data across various types of LTCFs. These data were systematically retrieved from health department websites to characterize COVID-19 cases and deaths in ALF residents and staff members. Limited ALF COVID-19 data were available for 39 states, although reporting varied. By October 15, 2020, among 28,623 ALFs, 6,440 (22%) had at least one COVID-19 case among residents or staff members. Among the states with available data, the proportion of COVID-19 cases that were fatal was 21.2% for ALF residents, 0.3% for ALF staff members, and 2.5% overall for the general population of these states. To prevent the introduction and spread of SARS-CoV-2, the virus that causes COVID-19, in their facilities, ALFs should 1) identify a point of contact at the local health department; 2) educate residents, families, and staff members about COVID-19; 3) have a plan for visitor and staff member restrictions; 4) encourage social (physical) distancing and the use of masks, as appropriate; 5) implement recommended infection prevention and control practices and provide access to supplies; 6) rapidly identify and properly respond to suspected or confirmed COVID-19 cases in residents and staff members; and 7) conduct surveillance of COVID-19 cases and deaths, facility staffing, and supply information (2). |
Update: Characteristics of Health Care Personnel with COVID-19 - United States, February 12-July 16, 2020.
Hughes MM , Groenewold MR , Lessem SE , Xu K , Ussery EN , Wiegand RE , Qin X , Do T , Thomas D , Tsai S , Davidson A , Latash J , Eckel S , Collins J , Ojo M , McHugh L , Li W , Chen J , Chan J , Wortham JM , Reagan-Steiner S , Lee JT , Reddy SC , Kuhar DT , Burrer SL , Stuckey MJ . MMWR Morb Mortal Wkly Rep 2020 69 (38) 1364-1368 As of September 21, 2020, the coronavirus disease 2019 (COVID-19) pandemic had resulted in 6,786,352 cases and 199,024 deaths in the United States.* Health care personnel (HCP) are essential workers at risk for exposure to patients or infectious materials (1). The impact of COVID-19 on U.S. HCP was first described using national case surveillance data in April 2020 (2). Since then, the number of reported HCP with COVID-19 has increased tenfold. This update describes demographic characteristics, underlying medical conditions, hospitalizations, and intensive care unit (ICU) admissions, stratified by vital status, among 100,570 HCP with COVID-19 reported to CDC during February 12-July 16, 2020. HCP occupation type and job setting are newly reported. HCP status was available for 571,708 (22%) of 2,633,585 cases reported to CDC. Most HCP with COVID-19 were female (79%), aged 16-44 years (57%), not hospitalized (92%), and lacked all 10 underlying medical conditions specified on the case report form(†) (56%). Of HCP with COVID-19, 641 died. Compared with nonfatal COVID-19 HCP cases, a higher percentage of fatal cases occurred in males (38% versus 22%), persons aged ≥65 years (44% versus 4%), non-Hispanic Asians (Asians) (20% versus 9%), non-Hispanic Blacks (Blacks) (32% versus 25%), and persons with any of the 10 underlying medical conditions specified on the case report form (92% versus 41%). From a subset of jurisdictions reporting occupation type or job setting for HCP with COVID-19, nurses were the most frequently identified single occupation type (30%), and nursing and residential care facilities were the most common job setting (67%). Ensuring access to personal protective equipment (PPE) and training, and practices such as universal use of face masks at work, wearing masks in the community, and observing social distancing remain critical strategies to protect HCP and those they serve. |
Case-case comparison of Candida auris versus other Candida species bloodstream infections: Results of an outbreak investigation in Colombia
Caceres DH , Rivera SM , Armstrong PA , Escandon P , Chow NA , Ovalle MV , Díaz J , Derado G , Salcedo S , Berrio I , Espinosa-Bode A , Varón C , Stuckey MJ , Mariño A , Villalobos N , Lockhart SR , Chiller TM , Prieto FE , Jackson BR . Mycopathologia 2020 185 (5) 917-923 BACKGROUND: Candida auris is an emerging multidrug-resistant yeast that causes outbreaks in healthcare settings around the world. In 2016, clinicians and public health officials identified patients with C. auris bloodstream infections (BSI) in Colombian healthcare facilities. To evaluate potential risk factors and outcomes for these infections, we investigated epidemiologic and clinical features of patients with C. auris and other Candida species BSI. METHODS: We performed a retrospective case-case investigation in four Colombian acute care hospitals, defining a case as Candida spp. isolated from blood culture during January 2015-September 2016. C. auris BSI cases were compared to other Candida species BSI cases. Odds ratio (OR), estimated using logistic regression, was used to assess the association between risk factors and outcomes. RESULTS: We analyzed 90 patients with BSI, including 40 with C. auris and 50 with other Candida species. All had been admitted to the intensive care unit (ICU). No significant demographic differences existed between the two groups. The following variables were independently associated with C. auris BSI: ≥ 15 days of pre-infection ICU stay (OR: 5.62, CI: 2.04-15.5), evidence of severe sepsis (OR: 3.70, CI 1.19-11.48), and diabetes mellitus (OR 5.69, CI 1.01-31.9). CONCLUSION: Patients with C. auris BSI had longer lengths of ICU stay than those with other candidemias, suggesting that infections are acquired during hospitalization. This is different from other Candida infections, which are usually thought to result from autoinfection with host flora. |
Transmission of COVID-19 to Health Care Personnel During Exposures to a Hospitalized Patient - Solano County, California, February 2020.
Heinzerling A , Stuckey MJ , Scheuer T , Xu K , Perkins KM , Resseger H , Magill S , Verani JR , Jain S , Acosta M , Epson E . MMWR Morb Mortal Wkly Rep 2020 69 (15) 472-476 On February 26, 2020, the first U.S. case of community-acquired coronavirus disease 2019 (COVID-19) was confirmed in a patient hospitalized in Solano County, California (1). The patient was initially evaluated at hospital A on February 15; at that time, COVID-19 was not suspected, as the patient denied travel or contact with symptomatic persons. During a 4-day hospitalization, the patient was managed with standard precautions and underwent multiple aerosol-generating procedures (AGPs), including nebulizer treatments, bilevel positive airway pressure (BiPAP) ventilation, endotracheal intubation, and bronchoscopy. Several days after the patient's transfer to hospital B, a real-time reverse transcription-polymerase chain reaction (real-time RT-PCR) test for SARS-CoV-2 returned positive. Among 121 hospital A health care personnel (HCP) who were exposed to the patient, 43 (35.5%) developed symptoms during the 14 days after exposure and were tested for SARS-CoV-2; three had positive test results and were among the first known cases of probable occupational transmission of SARS-CoV-2 to HCP in the United States. Little is known about specific risk factors for SARS-CoV-2 transmission in health care settings. To better characterize and compare exposures among HCP who did and did not develop COVID-19, standardized interviews were conducted with 37 hospital A HCP who were tested for SARS-CoV-2, including the three who had positive test results. Performing physical examinations and exposure to the patient during nebulizer treatments were more common among HCP with laboratory-confirmed COVID-19 than among those without COVID-19; HCP with COVID-19 also had exposures of longer duration to the patient. Because transmission-based precautions were not in use, no HCP wore personal protective equipment (PPE) recommended for COVID-19 patient care during contact with the index patient. Health care facilities should emphasize early recognition and isolation of patients with possible COVID-19 and use of recommended PPE to minimize unprotected, high-risk HCP exposures and protect the health care workforce. |
Reprocessing, CDC, and IPs: Leveraging public health services and resources for sterilization and high-level disinfection of medical devices
Stuckey MJ , Benowitz I . Prev Strateg 2019 12 (3) 34-37 Sterilization and high-level disinfection (HLD) are highly technical processes informed by standards and guidelines. Improper reprocessing of medical devices puts patients at risk for healthcare-associated infections (HAIs), including those caused by bloodborne and bacterial pathogens. Commonly observed problems include failure to adhere to standards, guidelines, and manufacturer instructions for use; lack of understanding about how to monitor and interpret various quality indicators (e.g., sterilization parameters and controls); and complicated designs that make devices (e.g., some duodenoscopes) difficult to properly clean and disinfect. Adherence to best practices in the reprocessing of medical devices is a Standard Precaution and essential to facility HAI prevention and occupational health programs. |
Evaluation of infection prevention and control readiness at frontline health care facilities in high-risk districts bordering Ebola virus disease-affected areas in the Democratic Republic of the Congo - Uganda, 2018
Biedron C , Lyman M , Stuckey MJ , Homsy J , Lamorde M , Luvsansharav UO , Wilson K , Gomes D , Omuut W , Okware S , Semanda JN , Kiggundu R , Bulwadda D , Brown V , Nelson LJ , Driwale A , Fagan R , Park BJ , Smith RM . MMWR Morb Mortal Wkly Rep 2019 68 (39) 851-854 Infection prevention and control (IPC) in health care facilities is essential to protecting patients, visitors, and health care personnel from the spread of infectious diseases, including Ebola virus disease (Ebola). Patients with suspected Ebola are typically referred to specialized Ebola treatment units (ETUs), which have strict isolation and IPC protocols, for testing and treatment (1,2). However, in settings where contact tracing is inadequate, Ebola patients might first seek care at general health care facilities, which often have insufficient IPC capacity (3-6). Before 2014-2016, most Ebola outbreaks occurred in rural or nonurban communities, and the role of health care facilities as amplification points, while recognized, was limited (7,8). In contrast to these earlier outbreaks, the 2014-2016 West Africa Ebola outbreak occurred in densely populated urban areas where access to health care facilities was better, but contact tracing was generally inadequate (8). Patients with unrecognized Ebola who sought care at health care facilities with inadequate IPC initiated multiple chains of transmission, which amplified the epidemic to an extent not seen in previous Ebola outbreaks (3-5,7). Implementation of robust IPC practices in general health care facilities was critical to ending health care-associated transmission (8). In August 2018, when an Ebola outbreak was recognized in the Democratic Republic of the Congo (DRC), neighboring countries began preparing for possible introduction of Ebola, with a focus on IPC. Baseline IPC assessments conducted in frontline health care facilities in high-risk districts in Uganda found IPC gaps in screening, isolation, and notification. Based on findings, additional funds were provided for IPC, a training curriculum was developed, and other corrective actions were taken. Ebola preparedness efforts should include activities to ensure that frontline health care facilities have the IPC capacity to rapidly identify suspected Ebola cases and refer such patients for treatment to protect patients, staff members, and visitors. |
Hospital-associated multicenter outbreak of emerging fungus Candida auris, Colombia, 2016
Armstrong PA , Rivera SM , Escandon P , Caceres DH , Chow N , Stuckey MJ , Diaz J , Gomez A , Velez N , Espinosa-Bode A , Salcedo S , Marin A , Berrio I , Varon C , Guzman A , Perez-Franco JE , Escobar JD , Villalobos N , Correa JM , Litvintseva AP , Lockhart SR , Fagan R , Chiller TM , Jackson B , Pacheco O . Emerg Infect Dis 2019 25 (7) 1339-46 Candida auris is an emerging multidrug-resistant fungus that causes hospital-associated outbreaks of invasive infections with high death rates. During 2015-2016, health authorities in Colombia detected an outbreak of C. auris. We conducted an investigation to characterize the epidemiology, transmission mechanisms, and reservoirs of this organism. We investigated 4 hospitals with confirmed cases of C. auris candidemia in 3 cities in Colombia. We abstracted medical records and collected swabs from contemporaneously hospitalized patients to assess for skin colonization. We identified 40 cases; median patient age was 23 years (IQR 4 months-56 years). Twelve (30%) patients were <1 year of age, and 24 (60%) were male. The 30-day mortality was 43%. Cases clustered in time and location; axilla and groin were the most commonly colonized sites. Temporal and spatial clustering of cases and skin colonization suggest person-to-person transmission of C. auris. These cases highlight the importance of adherence to infection control recommendations. |
Notes from the field: Epidemic keratoconjunctivitis outbreak associated with human adenovirus type 8 - U.S. Virgin Islands, June-November 2016
Killerby ME , Stuckey MJ , Guendel I , Sakthivel S , Lu X , Erdman DD , Schneider E , Fagan R , Davis MS , Watson JT , Gerber SI , Biggs HM , Ellis EM . MMWR Morb Mortal Wkly Rep 2017 66 (30) 811-812 On October 11, 2016, the U.S. Virgin Islands Department of Health (USVI DOH) was notified by a local ophthalmologist of an unexpected increase in the number of patients with suspected epidemic keratoconjunctivitis (EKC) during the preceding month. EKC is a severe form of acute conjunctivitis caused by human adenoviruses (HAdVs). Clinical illness typically lasts 1 to 3 weeks and is usually self-limited; treatment is supportive. HAdVs can survive for weeks in the environment and are resistant to common disinfectants. USVI DOH and CDC investigated during October 11-November 29, 2016 to determine the scope of the outbreak, and provide infection control recommendations. |
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