Adverse Events Module

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Adverse Events Module

For researchers submitting trial data to ClinicalTrials.gov, the Adverse Events module is one of four mandatory results sections. It requires reporting in three primary categories: All-Cause Mortality: A table tracking all deaths that occurred during the study, regardless of cause. Serious Adverse Events (SAEs): A tabular summary of events resulting in death, life-threatening conditions, hospitalization, or significant disability. Other Adverse Events: A table for non-serious events that exceed a specific frequency threshold, such as 5% within any study arm.

Adverse Events Module path is as follows:

Study -> Results Section -> Adverse Events Module -> Event Groups

Study -> Results Section -> Adverse Events Module -> Serious Events

Study -> Results Section -> Adverse Events Module -> Other Events

Adverse Events Module

Ignite Creation Date: 2025-12-24 @ 3:01 PM
Ignite Modification Date: 2025-12-25 @ 1:25 PM
NCT ID: NCT02236559
Description: None
Frequency Threshold: 0
Time Frame: None
Study: NCT02236559
Study Brief: High Flow Therapy for the Treatment of Respiratory Failure in the ED
Event Groups(If Any):

Event Groups

Title Description Deaths # Affected Deaths # At Risk Serious # Affected Serious # At Risk Other # Affected Other # At Risk View
Noninvasive Positive Pressure Ventilation Patients will be fit with an oronasal mask using a fitting gauge that will be applied by a respiratory therapist or other clinician skilled in management of NIPPV.Noninvasive positive-pressure ventilation (Respironics Vision V60; Philips Healthcare, Murrysville, PA) was initiated with an oronasal mask, with inspiratory and expiratory positive airway pressures (IPAP, EPAP) set at the lower end of the following settings and increased as necessary to alleviate respiratory distress: IPAP 10 to 20 cm H2O (or 5 to 15 cm H2O above EPAP), and EPAP 5 to 10 cm H2O. FiO2 was initiated at 1.0 for noninvasive positive-pressure ventilation. The target for each intervention was to decrease breathing rate to fewer than 25 breaths/min and optimize comfort, whereas FiO2 was adjusted to maintain a pulse oximetry reading (SpO2) greater than 88%. The study model provided for having a respiratory therapist at bedside for the first 4 hours, which facilitated rapid changing of settings as needed. None None 2 100 0 100 View
High Velocity Nasal Insufflation Patients will be fit with a Vapotherm adult nasal cannula that will be applied by a respiratory therapist or other clinician skilled in management of HFT. High-velocity nasal insufflation (Precision Flow; Vapotherm, Inc, Exeter, NH) (Figure 1) using a small-bore nasal cannula was initiated with a flow rate set to 35 L/min, with a starting temperature between 35C and 37C and FiO2 at 1.0. Adjustments in flow (up to 40 L/min) and temperature (typically between 35C and 37C) were made to alleviate respiratory distress and optimize comfort. The target for each intervention was to decrease breathing rate to fewer than 25 breaths/min and optimize comfort, whereas FiO2 was adjusted to maintain a pulse oximetry reading (SpO2) greater than 88%. The study model provided for having a respiratory therapist at bedside for the first 4 hours, which facilitated rapid changing of settings as needed. None None 0 104 0 104 View
Serious Events(If Any):

Serious Events

Term Type Organ System Vocab View
Death Outside Study Window NON_SYSTEMATIC_ASSESSMENT Cardiac disorders None View
Other Events(If Any):