about
Noninvasive assessment of asthma severity using pulse oximeter plethysmograph estimate of pulsus paradoxus physiologyExhaled nitric oxide is associated with severity of pediatric acute asthma exacerbations.Treatment variability of asthma exacerbations in a pediatric emergency department using a severity-based management protocol.Accessory muscle use in pediatric patients with acute asthma exacerbations.Development and internal validation of a pediatric acute asthma prediction rule for hospitalizationObjectives, design and enrollment results from the Infant Susceptibility to Pulmonary Infections and Asthma Following RSV Exposure Study (INSPIRE).Acute Asthma Intensity Research Score: updated performance characteristics for prediction of hospitalization and lung function.Fractional exhaled nitric oxide change in pediatric patients after emergency department care of asthma exacerbations.Assessment of severity measures for acute asthma outcomes: a first step in developing an asthma clinical prediction ruleThe RAD score: a simple acute asthma severity score compares favorably to more complex scoresSpirometry and PRAM severity score changes during pediatric acute asthma exacerbation treatment in a pediatric emergency department.Performance of the Acute Asthma Intensity Research Score (AAIRS) for acute asthma research protocols.The Acute Asthma Severity Assessment Protocol (AASAP) study: objectives and methods of a study to develop an acute asthma clinical prediction rule.Noninvasive testing of lung function and inflammation in pediatric patients with acute asthma exacerbations.Preventing Respiratory Syncytial Virus Infection to Prevent Asthma: The Missing Link.Count on It! Accurately Measured Respiratory Rate Is Associated with Lung Function and Clinical Severity in Children with Acute Asthma Exacerbations.Reply: Toward Primary Prevention of Asthma: Role of Corticosteroids for the First Rhinovirus Wheeze.The dilemma of albuterol dosing for acute asthma exacerbations in pediatric patients.Cotton rat lung transcriptome reveals host immune response to Respiratory Syncytial Virus infectionInfant Viral Respiratory Infection Nasal Immune-Response Patterns and Their Association with Subsequent Childhood Recurrent WheezeIn vitro model for the assessment of human immune responses to subunit RSV vaccinesPrevalence of infant bronchiolitis-coded healthcare encounters attributable to RSV
P50
Q33547187-9D633F14-BFAD-4949-A9EA-B2B333C6F7F1Q34174755-46B216BC-A3BE-4858-9EFF-88394AC44BB7Q34610414-B7488518-E9C6-4170-AEDA-DD1E8CE4BCC0Q34782120-C5ABCEA8-7E27-46A7-9705-14929A99E9EDQ35163575-F39849DC-303A-46E1-99D9-B192DE28BB94Q35645436-954400FE-6F1D-4970-9CD7-F5572FE6436DQ35812318-04F920C4-3E57-432F-9A7F-9BB4499C4518Q36505086-A6722358-5006-41CD-9DAB-9E704E83968EQ37140743-C7D3CF5B-E768-46F0-BE8E-10CEE01C70D5Q37140752-E9087977-0C75-430C-9FD8-7DF51384C5CDQ37162657-BD709FB3-6B0B-42D9-88D4-13A149ED4BDEQ37162676-0981035F-0532-4CC4-A2F0-E9614F5FD764Q37270014-631C7B44-39F1-4421-ADAE-E59425706859Q37270050-53B7BC7C-4679-4B27-B4D8-62F8FFAE9992Q40256874-FEC86B6A-63AC-471D-9DAB-9B652863F3CAQ41973917-F7770102-E068-432F-8A51-FEFD150BF481Q42346913-29C4E519-39AE-48BE-BB72-56CC2486A17FQ42587896-971F8E0E-E489-40C6-96AA-6F219A48843FQ56977636-C98AF520-335B-4757-8022-735B801AE728Q57461143-B4CAEB4A-4E6C-4451-B25F-B10CD4400839Q90458905-2262A78B-9DD6-4ACA-9F50-1A08A177E80BQ90953271-DC949B57-950E-4732-83BB-BDA0C1C8848B
P50
description
physician
@en
wetenschapper
@nl
name
Tina V Hartert
@ast
Tina V Hartert
@nl
Tina V. Hartert
@en
type
label
Tina V Hartert
@ast
Tina V Hartert
@nl
Tina V. Hartert
@en
prefLabel
Tina V Hartert
@ast
Tina V Hartert
@nl
Tina V. Hartert
@en
P21
P31
P496
0000-0001-7470-1166