public void OnPatientEvent(object sender, Patient.PatientEventArgs e) { switch (e.EventType) { default: break; case Patient.PatientEventTypes.Vitals_Change: listTracings.ForEach(c => { c.wfStrip.ClearFuture(App.Patient); c.wfStrip.Add_Beat__Cardiac_Baseline(App.Patient); }); break; case Patient.PatientEventTypes.Cardiac_Defibrillation: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Defibrillation(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_PacerSpike: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Pacemaker(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Baseline: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Baseline(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Atrial(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Ventricular(App.Patient)); break; } }
public void OnPatientEvent(object sender, Patient.PatientEventArgs e) { switch (e.EventType) { default: break; case Patient.PatientEventTypes.Vitals_Change: listTracings.ForEach(c => { c.wfStrip.ClearFuture(App.Patient); c.wfStrip.Add_Beat__Cardiac_Baseline(App.Patient); }); break; case Patient.PatientEventTypes.Cardiac_Defibrillation: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Defibrillation(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_PacerSpike: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Pacemaker(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Baseline: App.Patient.IABP_Active = Running && (Frequency_Iter % Frequency == 0) && ((Trigger.Value == Triggering.Values.ECG && App.Patient.Cardiac_Rhythm.HasWaveform_Ventricular) || (Trigger.Value == Triggering.Values.Pressure && App.Patient.Cardiac_Rhythm.HasPulse_Ventricular)); App.Patient.IABP_Trigger = Trigger.Value.ToString(); listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Baseline(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial: listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Atrial(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular: if (Running) { Frequency_Iter++; } listTracings.ForEach(c => c.wfStrip.Add_Beat__Cardiac_Ventricular(App.Patient)); break; } }
private void FormUpdateFields(object sender, Patient.PatientEventArgs e) { if (e.EventType == Patient.PatientEventTypes.Vitals_Change) { numHR.Value = e.Patient.HR; numSPO2.Value = e.Patient.SPO2; numRR.Value = e.Patient.RR; numETCO2.Value = e.Patient.ETCO2; numT.Value = (decimal)e.Patient.T; numCVP.Value = e.Patient.CVP; numNSBP.Value = e.Patient.NSBP; numNDBP.Value = e.Patient.NDBP; numASBP.Value = e.Patient.ASBP; numADBP.Value = e.Patient.ADBP; numPSP.Value = e.Patient.PSP; numPDP.Value = e.Patient.PDP; numICP.Value = e.Patient.ICP; numIAP.Value = e.Patient.IAP; comboCardiacRhythm.SelectedIndex = (int)e.Patient.Cardiac_Rhythm.Value; comboCardiacAxis.SelectedIndex = (int)e.Patient.Cardiac_Axis.Value; comboRespiratoryRhythm.SelectedIndex = (int)e.Patient.Respiratory_Rhythm.Value; numInspiratoryRatio.Value = (decimal)e.Patient.Respiratory_IERatio_I; numExpiratoryRatio.Value = (decimal)e.Patient.Respiratory_IERatio_E; numPacemakerCaptureThreshold.Value = e.Patient.Pacemaker_Threshold; numSTE_I.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_I]; numSTE_II.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_II]; numSTE_III.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_III]; numSTE_aVR.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_AVR]; numSTE_aVL.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_AVL]; numSTE_aVF.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_AVF]; numSTE_V1.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V1]; numSTE_V2.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V2]; numSTE_V3.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V3]; numSTE_V4.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V4]; numSTE_V5.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V5]; numSTE_V6.Value = (decimal)e.Patient.ST_Elevation [(int)Leads.Values.ECG_V6]; numTWE_I.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_I]; numTWE_II.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_II]; numTWE_III.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_III]; numTWE_aVR.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_AVR]; numTWE_aVL.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_AVL]; numTWE_aVF.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_AVF]; numTWE_V1.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V1]; numTWE_V2.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V2]; numTWE_V3.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V3]; numTWE_V4.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V4]; numTWE_V5.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V5]; numTWE_V6.Value = (decimal)e.Patient.T_Elevation [(int)Leads.Values.ECG_V6]; numFHR.Value = e.Patient.FHR; numUCFrequency.Value = e.Patient.UC_Frequency; numUCDuration.Value = e.Patient.UC_Duration; comboFHRVariability.SelectedIndex = (int)e.Patient.FHR_Variability.Value; comboUCIntensity.SelectedIndex = (int)e.Patient.UC_Intensity.Value; listFHRRhythms.SelectedItems.Clear(); foreach (FetalHeartDecelerations.Values fhr_rhythm in e.Patient.FHR_Decelerations.ValueList) { listFHRRhythms.SelectedItems.Add(listFHRRhythms.Items.GetItemAt((int)fhr_rhythm)); } } }
public void OnPatientEvent(object sender, Patient.PatientEventArgs e) { switch (e.EventType) { default: break; case Patient.PatientEventTypes.Vitals_Change: listTracings.ForEach(c => { c.Strip.ClearFuture(App.Patient); c.Strip.Add_Beat__Cardiac_Baseline(App.Patient); }); listNumerics.ForEach(n => n.UpdateVitals()); break; case Patient.PatientEventTypes.Defibrillation: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Defibrillation(App.Patient)); break; case Patient.PatientEventTypes.Pacermaker_Spike: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Pacemaker(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Baseline: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Baseline(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial_Electric: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Atrial_Electrical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular_Electric: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Ventricular_Electrical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial_Mechanical: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Atrial_Mechanical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular_Mechanical: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Ventricular_Mechanical(App.Patient)); /* Iterations and trigger for auto-scaling pressure waveform strips */ autoScale_iter -= 1; if (autoScale_iter <= 0) { for (int i = 0; i < listTracings.Count; i++) { listTracings [i].Strip.SetAutoScale(App.Patient); listTracings [i].UpdateScale(); } autoScale_iter = Strip.DefaultAutoScale_Iterations; } break; case Patient.PatientEventTypes.Respiratory_Baseline: listTracings.ForEach(c => c.Strip.Add_Breath__Respiratory_Baseline(App.Patient)); break; case Patient.PatientEventTypes.Respiratory_Inspiration: listTracings.ForEach(c => c.Strip.Add_Breath__Respiratory_Inspiration(App.Patient)); break; case Patient.PatientEventTypes.Respiratory_Expiration: listTracings.ForEach(c => c.Strip.Add_Breath__Respiratory_Expiration(App.Patient)); break; } }
public void OnPatientEvent(object sender, Patient.PatientEventArgs e) { switch (e.EventType) { default: break; case Patient.PatientEventTypes.Vitals_Change: listTracings.ForEach(c => { c.Strip.ClearFuture(App.Patient); c.Strip.Add_Beat__Cardiac_Baseline(App.Patient); }); break; case Patient.PatientEventTypes.Defibrillation: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Defibrillation(App.Patient)); break; case Patient.PatientEventTypes.Pacermaker_Spike: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Pacemaker(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Baseline: App.Patient.IABP_Active = Running && (Frequency_Iter % Frequency == 0) && ((Trigger.Value == Triggering.Values.ECG && App.Patient.Cardiac_Rhythm.HasWaveform_Ventricular) || (Trigger.Value == Triggering.Values.Pressure && App.Patient.Cardiac_Rhythm.HasPulse_Ventricular)); App.Patient.IABP_Trigger = Trigger.Value.ToString(); listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Baseline(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial_Electric: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Atrial_Electrical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular_Electric: if (Running) { Frequency_Iter++; } listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Ventricular_Electrical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Atrial_Mechanical: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Atrial_Mechanical(App.Patient)); break; case Patient.PatientEventTypes.Cardiac_Ventricular_Mechanical: listTracings.ForEach(c => c.Strip.Add_Beat__Cardiac_Ventricular_Mechanical(App.Patient)); /* Iterations and trigger for auto-scaling pressure waveform strips */ autoScale_iter -= 1; if (autoScale_iter <= 0) { for (int i = 0; i < listTracings.Count; i++) { listTracings [i].Strip.SetAutoScale(App.Patient); listTracings [i].UpdateScale(); } autoScale_iter = Strip.DefaultAutoScale_Iterations; } break; case Patient.PatientEventTypes.IABP_Balloon_Inflation: listTracings.ForEach(c => c.Strip.Add_Beat__IABP_Balloon(App.Patient)); break; } }