'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
about
An official American Thoracic Society statement: update on the mechanisms, assessment, and management of dyspnea.Unrecognized suffering in the ICU: addressing dyspnea in mechanically ventilated patientsNeuroimaging of cerebral activations and deactivations associated with hypercapnia and hunger for air.Brain responses associated with consciousness of breathlessness (air hunger)Mechanisms of dyspneaRespiratory sensations in asthma: physiological and clinical implications.Validation of a three-factor measurement model of dyspnea in hospitalized adults with heart failure.Using laboratory models to test treatment: morphine reduces dyspnea and hypercapnic ventilatory responseRole of chemoreceptors in mediating dyspnea.Causes and mechanisms of breathlessness.The air hunger response of four elite breath-hold diversDyspnea and activity limitation in COPD: mechanical factors.Ventilatory constraints and dyspnea during exercise in chronic obstructive pulmonary disease.Exercise dyspnea in patients with COPDThe multiple dimensions of dyspnea: review and hypotheses.Cortico-limbic circuitry and the airways: insights from functional neuroimaging of respiratory afferents and efferents.Diagnosis of asthma - a new approach.Qualitative aspects of exertional dyspnea in patients with restrictive lung diseaseOpioids for refractory dyspnea.Sensory nerves in lung and airways.Multidimensional Dyspnea Profile: an instrument for clinical and laboratory research.Pharmacological management of breathlessness in COPD: recent advances and hopes for the future.The time-course of cortico-limbic neural responses to air hungerCoughing induced by airway irritation modulates the sensation of air hunger.Self-control and external control of mechanical ventilation give equal air hunger relief.Adenosine stimulation, ventilation, and arousal from sleep.Assessment and management of dyspnoea.Symptom perception in asthma: a multidisciplinary review.Measures of dyspnea in pulmonary rehabilitation.Psychometric characteristics of dyspnea descriptor ratings in emergency department patients with exacerbated chronic obstructive pulmonary disease.HRV Analysis: A Clinical and Diagnostic Tool in Chronic Obstructive Pulmonary Disease.Mechanisms of dyspnea in healthy subjects.Pharmacological treatment of refractory breathlessness.Effects of hyperoxia on ventilatory limitation during exercise in advanced chronic obstructive pulmonary disease.[Heart and lungs : cardinal symptom dyspnea].BOLD fMRI identifies limbic, paralimbic, and cerebellar activation during air hunger.Sustained hypoxia depresses sensory processing of respiratory resistive loads.Time course of air hunger mirrors the biphasic ventilatory response to hypoxia.Voluntary and involuntary ventilation do not alter the human inspiratory muscle loading reflex.Determining the cause of dyspnoea: linguistic and biological descriptors.
P2860
Q33738878-BAD1AB8C-B8CC-4A21-B4CB-EE4AE29FDC0DQ33980325-713C1136-B324-4271-AD3C-FD755D83045FQ34120031-56781F33-3966-411D-AE01-8444FE6DB3CCQ34120455-6224F396-50BE-4A6A-9A1D-B24E6D56A636Q34275333-2FA55D1C-9158-4571-92EB-5E06F3E341A0Q34408105-3172AEC1-B34C-40E2-8157-51ACD45AB482Q35478473-2EE0F000-4D70-4088-B3B2-810438098DBFQ35528427-5432E1D4-D59E-48D8-A6A2-25C116CB7145Q35800348-E83ED603-F7BF-4296-9CE1-8529F26DE46CQ35898798-8D4CF4DB-2269-475A-90F8-7FFC3D532C20Q36426439-6417B8F4-BED9-4590-B38D-45C19044973FQ36923028-A8EA2306-3BFF-4B8D-995E-F3F13C3F819BQ37024581-69F72592-868E-4C18-B668-55AB4133EF4EQ37082566-1C5D58A0-BB3B-4ECE-9816-3B37F4D6F82CQ37244872-E6B89E0C-A9A9-4009-A8A6-7C50D5151E9EQ37704677-12FCC220-9D84-4163-8CA6-5558E560891EQ38008703-92720A7A-7DC9-4600-A458-D2C053EA274CQ38041662-7C1768E1-1340-4689-B938-4431FC8A2F5DQ38095143-15ABA9FA-7B8A-4E47-92D1-E80B9B82D92AQ38201386-98B585D4-97F6-4A1F-B7DC-2B8337AB5BA2Q38384866-F8CB729F-667A-4A6E-8C0D-1589135348AEQ38817813-39120EB5-2BA6-4D47-826F-9206B5A6FD50Q39122004-A66B7AC5-346A-4D80-BA42-4231C2D1897EQ39328250-D6A69863-C417-4574-B2CB-FEA27DF2A99DQ39450644-F219CC47-852D-4E1C-9F10-7376B96ACEA6Q41142575-49434002-54ED-4F03-93DF-D2D9D0BB746BQ41678391-04909737-D7BB-48FF-9050-52582CF00201Q41759309-0DD268B1-BCA8-4A9B-8A03-94DC29BB2609Q41910629-AE6B40B9-9E6F-4D83-BEA9-9CA0DE81741CQ42039435-C60113CB-E005-4CB9-9F8E-382616DADF81Q42120654-F9235FE4-6AF6-4894-8579-DC9FC63F55DBQ42532826-6E98B585-D9C9-4B5E-B893-76B9E417D774Q43061646-5607F764-4D97-476F-91FE-C88F03EC49C4Q43562550-05FFF1EB-1EE3-45BF-BC6B-1E394613E80CQ44267312-3EBB17EF-9F6F-4EC4-82AE-988A07838D83Q47430633-AC835693-365C-4D1A-9B84-51ED1696EA94Q47774977-5D742F40-4667-423C-8449-9A489B417ADBQ47948558-1E34E2ED-B21E-48BC-96EC-777D2B59E233Q48235414-0ACC3B06-FDF0-452F-B6A1-0EC770158DFCQ48444712-29ADE7B9-3081-4EDB-80AB-2378C365CAE3
P2860
'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
1989年论文
@zh
1989年论文
@zh-cn
name
'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
@en
type
label
'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
@en
prefLabel
'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
@en
P2093
P1476
'Air hunger' arising from increased PCO2 in mechanically ventilated quadriplegics.
@en
P2093
P356
10.1016/0034-5687(89)90017-0
P577
1989-04-01T00:00:00Z