https://orcid.org/0000-0001-9660-7058
References
- Chang A, Schnall AH, Law R, et al. Cleaning and disinfectant chemical exposures and temporal associations with COVID-19 – National poison data system, United States, January 1, 2020 – March 31, 2020. MMWR Morb Mortal Wkly Rep. 2020;69(16):496–498.
- Lelak KA, Vohra V, Neuman MI, et al. COVID-19 and pediatric ingestions. Pediatrics. 2021;148(1):e2021051001.
- United States Consumer Product Safety Commission. Report Highlights: effect of Novel Coronavirus pandemic on preliminary NEISS estimates. 2021. https://www.cpsc.gov/s3fs-public/Effect%20of%20Novel%20Coronavirus%20Pandemic%20on%202020%20Preliminary%20NEISS%20Estimates%20%28March%20%E2%80%93%20September%202020%29.pdf?eBqDdRMGIEQOtp.VG_9IdBCjlFk262hu. Accessed March 21, 2022.
- Le Roux G, Sinno-Tellier S, Puskarczyk E, et al. Poisoning during the COVID-19 outbreak and lockdown: retrospective analysis of exposures reported to french poison control centres. Clin Toxicol. 2021;59(9):832–839.
- Pirkis J, John A, Shin S, et al. Suicide trends in the early months of the COVID-19 pandemic: an interrupted time-series analysis of preliminary data from 21 countries. Lancet Psychiatry. 2021;8(7):579–588.
- American Association of Poison Control Centers. National Poison Data System Coding Users’ Manual. 2019; [cited 2022 Aug 1]. Available from: https://www.aapcc.org/national-poison-data-system.
- Hyndman R, Athanasopoulos G. Forecasting: principles and practice. 2nd edition. 2018; [cited 2022 Aug 22]. Available from: https://otexts.com/fpp2/stationarity.html.
- Bridge JA, Greenhouse JB, Ruch D, et al. Association between the release of netflix’s 13 reasons why and suicide rates in the United States: an interrupted time series analysis. J Am Acad Child Adolesc Psychiatry. 2020;59(2):236–243.
- Milella MS, Boldrini P, Vivino G, MC G. How COVID-19 lockdown in Italy has affected type of calls and management of toxic exposures: a retrospective analysis of a Poison Control Center Database from March 2020 to May 2020. J Med Toxicol. 2021;17(3):250–256.
- Chafee-Bahamon C, Lovejoy Jr FH. Effectiveness of a regional poison center in reducing excess emergency room visits for children’s poisoning. Pediatrics. 1983;72(2):164–169.
- Darwin J, Seger D. Reaffirmed cost-effectiveness of poison centers. Ann Emerg Med. 2003;41(1):159–160.
- Miller TR, Lestina DC. Costs of poisoning in the United States and savings from poison control centers: a benefit-cost analysis. Ann Emerg Med. 1997;29(2):239–245.
- Zaloshnja E, Miller TR, Jones P, et al. The potential impact of poison control centers on rural hospitalization rates for poisoning. Pediatrics. 2006;118(5):2094–2100.
- Law RK, Wolkin AF, Patel N, et al. Injury-related emergency department visits during the COVID-19 pandemic. Am J Prev Med. 2022;63(1):43–50.
- American Association of Poison Control Centers. Poisonhelp.org Report Interface; [cited 2022 Aug 23]. Available from: https://www.npds.us/Reports/ReportInterface.aspx?ReportID=<+6%254%257%25+>&GrpName=Contact.
- National Capital Poison Center. Case count by year. 2022; [cited 2022 Aug 23]. Available from: https://www.poison.org/webpoisoncontrol-data-analysis-dashboard/case-count-by-year.
- Wang A, Law R, Lyons R, et al. Assessing the public health impact of using poison center data for public health surveillance. Clin Toxicol. 2018;56(7):646–652.