Your search keyword '"Masiewicz S"' showing total 7 results

1. 31 Circadian Pattern of NSTEMIs Versus STEMIs

Author

Masiewicz, S., primary, Gutovitz, S., additional, Hart, L., additional, and Jehle, D., additional

Published

2018

2. 68 Presentation Times of STEMIs and Acute Myocardial Infarctions to the Emergency Department: Disappearance of the Morning Predominance

Author

Gutovitz, S., primary, Masiewicz, S., additional, Hart, L., additional, and Jehle, D., additional

Published

2018

3. Treating Prehospital Pain in Children: A Retrospective Chart Review Comparing the Safety and Efficacy of Prehospital Pediatric Ketamine and Opioid Analgesia.

Author

Mahmood A, Hunt N, Masiewicz S, Cranford JA, Noel S, Brent C, and Wagner D

Subjects

Male, Female, Adolescent, Humans, Child, Aged, 80 and over, Analgesics, Opioid adverse effects, Retrospective Studies, Pain drug therapy, Analgesics adverse effects, Ketamine adverse effects, Emergency Medical Services methods, Analgesia methods

Abstract

Prior to 2020, pain management in the Washtenaw/Livingston County Medical Control Authority (W/L MCA) Emergency Medical Service (EMS) system in Southeast Michigan was limited to morphine, fentanyl, ketorolac, and acetaminophen. Based on the increasing evidence describing its safety and efficacy, ketamine was added to local protocols for pain management. This study aimed to evaluate differences in pain management and adverse effects of ketamine and opioid administration. Data from pediatric patients who received ketamine or an opioid in the W/L MCA EMS system from October 2019 to March 2021 were analyzed. The primary outcome was the difference in pain score, and the secondary outcome was adverse effects observed after analgesic administration. The decrease in pain scores was greater among ketamine patients (mean: 5.2) compared to opioid patients (mean: 2.9), p  < 0.001. The prevalence of adverse effects was higher among patients in the ketamine group (28.6%) compared to patients in the opioid group (2.4%, p  < 0.001). Of 14 patients who received ketamine, one 17-year-old male experienced mild anxiety (7.1%), two teenage females experienced mild dissociation (14.3%), and one 20-year-old female experienced mild nausea (7.1%). Overall, ketamine is a safe and effective option compared to opioids for pediatric patients experiencing moderate to severe prehospital pain.

Published

2023

4. Novel Negative Pressure Procedural Tent Reduces Aerosolized Particles in a Simulated Prehospital Setting.

Author

Hunt N, Masiewicz S, Herbert L, Bassin B, Brent C, Haas NL, Tiba MH, Lillemoen J, Lowell MJ, Lott I, Basinger M, Smith G, and Ward KR

Subjects

Aerosolized Particles and Droplets, Aerosols, Humans, Pandemics prevention & control, SARS-CoV-2, COVID-19, Emergency Medical Services

Abstract

Background/objective: The coronavirus disease 2019 (COVID-19) pandemic has challenged the ability of Emergency Medical Services (EMS) providers to maintain personal safety during the treatment and transport of patients potentially infected. Increased rates of COVID-19 infection in EMS providers after patient care exposure, and notably after performing aerosol-generating procedures (AGPs), have been reported. With an already strained workforce seeing rising call volumes and increased risk for AGP-requiring patient presentations, development of novel devices for the protection of EMS providers is of great importance.Based on the concept of a negative pressure room, the AerosolVE BioDome is designed to encapsulate the patient and contain aerosolized infectious particles produced during AGPs, making the cabin of an EMS vehicle safer for providers. The objective of this study was to determine the efficacy and safety of the tent in mitigating simulated infectious particle spread in varied EMS transport platforms during AGP utilization., Methods: Fifteen healthy volunteers were enrolled and distributed amongst three EMS vehicles: a ground ambulance, an aeromedical-configured helicopter, and an aeromedical-configured jet. Sodium chloride particles were used to simulate infectious particles and particle counts were obtained in numerous locations close to the tent and around the patient compartment. Counts near the tent were compared to ambient air with and without use of AGPs (non-rebreather mask, continuous positive airway pressure [CPAP] mask, and high-flow nasal cannula [HFNC])., Results: For all transport platforms, with the tent fan off, the particle generator alone, and with all AGPs produced particle counts inside the tent significantly higher than ambient particle counts (P <.0001). With the tent fan powered on, particle counts near the tent, where EMS providers are expected to be located, showed no significant elevation compared to baseline ambient particle counts during the use of the particle generator alone or with use of any of the AGPs across all transport platforms., Conclusion: Development of devices to improve safety for EMS providers to allow for use of all available therapies to treat patients while reducing risk of communicable respiratory disease transmission is of paramount importance. The AerosolVE BioDome demonstrated efficacy in creating a negative pressure environment and workspace around the patient and provided significant filtration of simulated respiratory droplets, thus making the confined space of transport vehicles potentially safer for EMS personnel.

Published

2022

5. Novel Negative Pressure Helmet Reduces Aerosolized Particles in a Simulated Prehospital Setting.

Author

Hunt N, Masiewicz S, Herbert L, Bassin B, Brent C, Haas NL, Tiba MH, Lillemoen J, Lowell MJ, Lott I, Basinger M, Smith G, and Ward KR

Subjects

Aerosolized Particles and Droplets, Head Protective Devices, Humans, SARS-CoV-2, COVID-19, Emergency Medical Services

Abstract

Background/objective: The coronavirus disease 2019 (COVID-19) pandemic has created challenges in maintaining the safety of prehospital providers caring for patients. Reports have shown increased rates of Emergency Medical Services (EMS) provider infection with COVID-19 after patient care exposure, especially while utilizing aerosol-generating procedures (AGPs). Given the increased risk and rising call volumes for AGP-necessitating complaints, development of novel devices for the protection of EMS clinicians is of great importance.Drawn from the concept of the powered air purifying respirator (PAPR), the AerosolVE helmet creates a personal negative pressure space to contain aerosolized infectious particles produced by patients, making the cabin of an EMS vehicle safer for providers. The helmet was developed initially for use in hospitals and could be of significant use in the prehospital setting. The objective of this study was to determine the efficacy and safety of the helmet in mitigating simulated infectious particle spread in varied EMS transport platforms during AGP utilization., Methods: Fifteen healthy volunteers were enrolled and distributed amongst three EMS vehicles: a ground ambulance, a medical helicopter, and a medical jet. Sodium chloride particles were used to simulate infectious particles, and particle counts were obtained in numerous locations close to the helmet and around the patient compartment. Counts near the helmet were compared to ambient air with and without use of AGPs (non-rebreather mask [NRB], continuous positive airway pressure mask [CPAP], and high-flow nasal cannula [HFNC])., Results: Without the helmet fan on, the particle generator alone and with all AGPs produced particle counts inside the helmet significantly higher than ambient particle counts. With the fan on, there was no significant difference in particle counts around the helmet compared to baseline ambient particle counts. Particle counts at the filter exit averaged less than one despite markedly higher particle counts inside the helmet., Conclusion: Given the risk to EMS providers by communicable respiratory diseases, development of devices to improve safety while still enabling use of respiratory therapies is of paramount importance. The AerosolVE helmet demonstrated efficacy in creating a negative pressure environment and provided significant filtration of simulated respiratory droplets, thus making the confined space of transport vehicles potentially safer for EMS personnel.

Published

2022

6. Posterior Hip Dislocation

Author

Masiewicz S, Mabrouk A, and Johnson DE

Abstract

In the United States, hip dislocations are responsible for significant morbidity and potentially mortality with deleterious consequences to the surrounding anatomy, neighboring joints, and an individual's functional ability. In the evaluation of posterior hip (femur) dislocation, the first question an examiner should answer is whether the patient has a native hip or a prosthetic hip joint, as the clinical approach varies significantly. Additionally, it is paramount to evaluate for associated injuries such as fractures, as this will also drastically alter management. The native hip joint is inherently stable and requires a significant amount of force to cause dislocation; as such, hip dislocation in native joints are often secondary to traumatic events such as motor vehicle accidents. Due to the traumatic nature and force required to dislocate a native hip joint, it is not surprising that 95% of patients who present with a hip dislocation after a motor vehicle collision had an associated injury requiring inpatient management. Thus, with native hip dislocation, a detailed neurologic and musculoskeletal examination with additional x-ray or CT scans for assessment is mandatory. Conversely, prosthetic or non-native hip dislocations are a relatively common occurrence to emergency departments nationwide as the inherent stability of the joint is less than that of a native joint. Prosthetic joint dislocations are most often associated with minor mechanisms and require a more reserved approach., (Copyright © 2022, StatPearls Publishing LLC.)

Published

2022

7. Presentation Times of Myocardial Infarctions to the Emergency Department: Disappearance of the Morning Predominance.

Author

Masiewicz S, Gutovitz S, Hart L, Leaman SM, and Jehle D

Subjects

Emergency Service, Hospital, Humans, Retrospective Studies, Myocardial Infarction diagnosis, Myocardial Infarction epidemiology, Non-ST Elevated Myocardial Infarction diagnosis, Non-ST Elevated Myocardial Infarction epidemiology, ST Elevation Myocardial Infarction diagnosis, ST Elevation Myocardial Infarction epidemiology

Abstract

Background: Previous studies show that myocardial infarctions (MIs) occur most frequently in the morning., Objectives: We hypothesized that there no longer is a morning predominance of MI, and that the timing of ST-elevation myocardial infarction (STEMI) vs. non-ST-elevation myocardial infarction (NSTEMI) presentation differs., Methods: We reviewed MI, STEMI, and NSTEMI patients (2013-2017) from a multiple-hospital system, identified by diagnostic codes. Daily emergency department arrival times were categorized into variable time intervals for count and proportional analysis, then examined for differences., Results: There were 18,663 MI patients from 12 hospitals included in the analysis. Most MIs occurred between 12:00 pm and 5:59 pm (35.7%), and least between 12:00 am-5:59 am (16.3%). After subdividing all MIs into STEMIs and NSTEMIs, both groups continued to have the greatest presentation between 12:00 pm and 5:59 pm (33.1% and 36.0%, respectively). STEMIs (17.2%) and NSTEMIs (16.2%) were least frequent between 12:00 am and 5:59 am. We found the second most common presentation time for MIs was in the 6 pm-11:59 pm time period, which held true for both subtypes (MI 26.7%, STEMI 26.4%, NSTEMI 26.7%)., Conclusions: These data suggest a potential shift in the circadian pattern of MI, revealing an afternoon predominance for both STEMI and NSTEMI subtypes., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020