戻る
「早戻しボタン」を押すと検索画面に戻ります。

今後説明を表示しない

[OK]

コーパス検索結果 (1語後でソート)

通し番号をクリックするとPubMedの該当ページを表示します
1 tion and behavior, in this case the drive to breathe.
2 , a 5-HT reuptake inhibitor, restored normal breathing.
3 reflex and hypertension, and also stabilized breathing.
4 he frequency and peak flow rate of the human breathing.
5 ducing additive or countervailing effects on breathing.
6 with existing definitions of synchronous air-breathing.
7 ergo a combination of stepped and continuous breathing.
8 transitions of the pseudoknot occur, akin to breathing.
9  fs period), clearly identified as molecular breathing.
10  were acquired at baseline and during oxygen breathing.
11 atory nose and head movements in relation to breathing.
12 tor was paused for up to 2 min during normal breathing.
13 ate the functional roles of these neurons in breathing.
14 static regulation of brain pH and control of breathing.
15 RTN), whose ongoing activity is critical for breathing.
16 that ACh is essential for the maintenance of breathing.
17 modulation of RTN neurons and CO2-stimulated breathing.
18 hindbrain are critical for control of normal breathing.
19 of the sleep-wake state-dependent control of breathing.
20 l apnea index (CAI >/= 5), and Cheyne-Stokes breathing.
21 types associated with neural control of lung breathing.
22 ity (SNA), arterial blood pressure (ABP) and breathing.
23 tem, which controls vital functions, such as breathing.
24 erations to the lung known to impact work of breathing.
25 en from air when in isolation, and group air-breathing.
26 mosensory reflex and BP, and also stabilized breathing.
27 nd-expiratory lung volume during spontaneous breathing.
28  other people eating, drinking, chewing, and breathing [1-8].
29   Participants in the active treatment group breathed 100% oxygen at 2.4 atmospheres of absolute pres
30 0% when breathing room air or <80 mm Hg when breathing 15 L/min of oxygen, plus either [1] a respirat
31 bsolute pressure (ATA) and the control group breathed 21% oxygen at 1.3 ATA; both treatment groups re
32                                         Free-breathing 3-dimensional MR data were acquired and retros
33       Breath-hold 3D MR angiography and free-breathing 3D radial UTE (1.0-mm isotropic spatial resolu
34                      In a canine model, free-breathing 3D radial UTE performs better than breath-hold
35                                              Breathing abnormalities are a significant clinical featu
36 possibility of using this model with 3D free-breathing acquisitions for lesion and diffuse liver dise
37 o those involved in volitional breathing, in breathing against mechanical constraints or with weak in
38 iological traits and spontaneous tendency to breathe air influence the behaviour of entire groups, an
39 gh metabolic demand or intrinsic tendency to breathe air may drive social breathing, especially in hy
40 t climbing perches gives them the ability to breathe air to survive warm, oxygen-poor stagnant waters
41                                              Breathing air increases the threat of predation, so some
42                                          Air-breathing allowed fishes at the water's edge to exploit
43 dy, we examined the effects of chronic IH on breathing along with blood pressure (BP) and assessed wh
44 articipants in whom overall sleep-disordered breathing also increased atrial fibrillation risk.
45 s not abolish the augmented CO2 chemoreflex (breathing and ABP) in SHRs, which indicates an important
46  augmented CO2 chemoreflex that affects both breathing and ABP.
47 cal cord dysfunction, obesity, dysfunctional breathing and anxiety/depression.
48 l comprising controlled and random frequency breathing and apnoea, conceived to perturb their autonom
49 lthough research supports a sleep-disordered breathing and atrial fibrillation association, prospecti
50  wake-sleep states may be discriminated from breathing and body movements registered by the WBP signa
51  interrelationships between sleep-disordered breathing and cardiovascular disease, presenting clinica
52 mittent hypoxia (IH) on blood pressure (BP), breathing and carotid body (CB) chemosensory reflex were
53 mittent hypoxia (IH) on blood pressure (BP), breathing and carotid body (CB) chemosensory reflex were
54 ding apnoea of prematurity, sleep disordered breathing and congestive heart failure.
55 visceral function, including blood pressure, breathing and digestion.
56 visceral function, including blood pressure, breathing and digestion.
57                     KEY POINTS: High work of breathing and exercise-induced arterial hypoxaemia (EIAH
58 of the relationship between sleep-disordered breathing and heart failure is controversial.
59 and neural basis of the relationship between breathing and higher-order brain activity is unknown.
60 , helium/oxygen (heliox) reduces the work of breathing and hypercapnia more than air/O2, but its impa
61 s such as cognitive behavioral therapy, slow breathing and hypnosis, and medications such as venlafax
62                        ABSTRACT: Oscillatory breathing and increased sympathetic nerve activity (SNA)
63        Infants presenting with isolated fast breathing and oxygen saturation >/=90% were randomly ass
64                             The frequency of breathing and peak flow rate of exhaled air are necessar
65                                     To allow breathing and prevent alveolar collapse, lung surfactant
66 ining, whereas the WL + S group incorporated breathing and stretching exercises.
67 lves principal components (PCs) representing breathing and the cardiac cycle.
68 d on the sensor surface only during forcible breathing and the sensor recovered rapidly after the exh
69 the food and water they ingest, the air they breathe, and the consumer products with which they inter
70 d with loss of consciousness, of spontaneous breathing, and of circulation.
71 r symptomatology related to vocalisation and breathing, and possibly diffuse fasciculation, character
72 t; characterized by life-threatening airway, breathing, and/or circulatory problems; and usually asso
73 surface area, and enable gas exchange in air-breathing animals.
74 apnea index or the presence of Cheyne-Stokes breathing are associated with decompensated and/or incid
75  the rhythm and neuromodulatory responses of breathing are controlled by brainstem neurons in the pre
76 atory illness, hypoxia and increased work of breathing are more important than tachypnea and ausculta
77                           Moderate or severe breathing artifacts were observed on 27.5% (16 of 58) of
78 al lung maturation and the transition to air-breathing at birth using isobaric hypoxic chambers witho
79 r commands in reduced brain preparations and breathing at birth.
80 aration for the successful transition to air-breathing at birth.
81 aration for the successful transition to air-breathing at birth.
82 h chronic heart failure, daytime oscillatory breathing at rest is associated with a high risk of mort
83 taneous, 0.1 and 0.05 Hz breathing, however, breathing at usual frequencies ( approximately 0.25 Hz)
84          This operando measurement of films 'breathing' at second-scale temporal resolution also enab
85 ort, RTN neurons are a pivotal structure for breathing automaticity and arterial PCO2 homeostasis.
86 g, including active expiration, and maintain breathing automaticity during non-REM sleep.
87 mmends that young infants with isolated fast breathing be referred to a hospital for antibiotic treat
88 mmends that young infants with isolated fast breathing be referred to a hospital for antibiotic treat
89                         The redox-switchable breathing behavior can potentially be applied to the des
90  we coupled redox-switchable properties with breathing behavior induced by guest molecules in a singl
91 nker flexibility, which in turn switches the breathing behavior of 2.
92 pproach enables the direct monitoring of the breathing behavior of individual MIL-53(Cr) nanocrystals
93 ) displays distinctive three-step hysteretic breathing behavior under ethane gas pressure at ambient
94             The two compounds show different breathing behaviors upon the introduction of N2.
95 tfish in a laboratory arena and recorded air-breathing behaviour, activity and agonistic interactions
96 tent, and displayed temporally clustered air-breathing behaviour, consistent with existing definition
97             In a rodent model, we found that breathing Beijing's highly polluted air resulted in weig
98 ng eicosanoid prostanoid 3 receptors (EP3R), breathing brainstem organotypic slices and optogenetic i
99 s a basis for the entrainment of whisking by breathing, but not vice versa, we provide evidence for u
100 H(+) also functions as the main stimulus for breathing by activating chemosensitive neurons that cont
101 blood gases, inspiratory effort, and work of breathing by esophageal pressure swings (DeltaPes) and p
102                                 Although MOF breathing can be inferred from the analysis of adsorptio
103               Within species, individual air-breathing can be influenced by metabolic rate as well as
104 ness respiratory motor plasticity to improve breathing capacity could increase the quality and durati
105 ticity and its potential to preserve/restore breathing capacity in ALS.SIGNIFICANCE STATEMENT Since n
106 esting greater potential to preserve/restore breathing capacity.
107 tic fuel cells (EFCs), EFCs with laccase air-breathing cathodes prepared from TBA(+) modified Aquivio
108         In addition to peripheral control of breathing, central chemoreceptors (CCs) are considered a
109 om C1 neuron inhibition and was unrelated to breathing changes.
110 bation readiness test in which spontaneously breathing children with oxygenation index less than or e
111 r, MeCP2 expression within components of the breathing circuitry rostral to the HoxA4 domain are neit
112 and functional organization of the brainstem breathing circuits are poorly understood.
113 oach, two stages define the principle of the breathing concept; the initial stage, where both compart
114 e that adult bullfrogs acclimatized to water-breathing conditions do not exhibit CO2 and O2 chemosens
115 nterprofessional team with the Awakening and Breathing Coordination, Choice of drugs, Delirium monito
116 ution enabling a realistic simulation of the breathing cycle in different climatic conditions via com
117 , respiratory carbon dioxide concentrations, breathing depth and sympathetic nerve recordings.
118 velop a clinically feasible whole-heart free-breathing diffusion-tensor (DT) magnetic resonance (MR)
119            Central sleep apnoea is a serious breathing disorder associated with poor outcomes.
120     A major limitation in the study of sleep breathing disorders in mouse models of pathology is the
121             Variability indices for baseline breathing distinguished "silenced" from controls but did
122                              Conclusion Free-breathing DT imaging of the entire human heart can be pe
123 inic to assist patients that have difficulty breathing due to lung edema, trauma, or general anesthes
124                  Women have a higher work of breathing during exercise, dedicate a greater fraction o
125                 Women have a greater work of breathing during exercise, dedicate a greater fraction o
126 ignalling mechanisms via which ATP modulates breathing during hypoxia, these data advance our underst
127 ep apnea, which is the periodic cessation of breathing during sleep, is a major health problem affect
128 mixture (perfluoropropane) and by using free-breathing dynamic (19)F gas washout MR imaging after inh
129 ctive pulmonary disease (COPD) by using free-breathing dynamic fluorinated (fluorine 19 [(19)F]) gas
130 e results provide atomic insights into WC/HG breathing dynamics in unmodified DNA duplexes as well as
131 Its selective adsorption is derived from the breathing effect induced by a guest triggered alkyl tran
132 e to common artifacts (e.g., head motion and breathing effects) that may dominate the results.
133 e R2* (1/T2*) were quantified, with subjects breathing either air or oxygen.
134 g at baseline and after bronchoconstriction, breathing either room air or 80% oxygen (80% O2) on sepa
135 sic tendency to breathe air may drive social breathing, especially in hypoxia.
136                             These disordered breathing events are associated with a profile of pertur
137 ng during quiet natural sleep included tidal breathing, exhaled nitric oxide, and multiple breath was
138 ife, and the ability to autoresuscitate when breathing fails.
139 mography (CT) to that with conventional free-breathing (FB) whole-body PET/CT for the assessment, cha
140  elucidate the different porous forms of the breathing framework under ethane gas.
141 at heart beat interval fluctuations at usual breathing frequencies are baroreflex mediated, that they
142           R-R interval fluctuations at usual breathing frequencies are unlikely to be baroreflex medi
143           R-R interval fluctuations at usual breathing frequencies disappear during apnoea, and thus
144 are delivered to ORNs via the inhaled air at breathing frequencies that can vary from 2 to 10 Hz in t
145  Photoactivation in PRSX8-ArchT rats reduced breathing frequency (FR), whereas FR increased in CaMKII
146 d pulmonary stretch receptor activity (major breathing frequency and tidal volume changes did not alt
147         We investigate the dependence of the breathing frequency on pump detuning and observe the tra
148 , congestive heart failure, sleep-disordered breathing, gastro-oesophageal reflux disease, and anxiet
149 osed asthma were recruited in 5 populations (BREATHE, Genes-Environments and Admixture in Latino Amer
150 64%; specificity, 77%) and increased work of breathing (grunting, flaring, and retractions; positive
151                             Slow, controlled breathing has been used for centuries to promote mental
152                                          Air-breathing has evolved in many fish lineages, allowing an
153                       Homeostatic control of breathing, heart rate, and body temperature relies on ci
154   Compared with spontaneous, 0.1 and 0.05 Hz breathing, however, breathing at usual frequencies ( app
155 uring voluntary sniff maneuvers, normocapnic breathing, hypocapnia, and after return to normocapnia.
156 n reduced CO2-evoked neuronal activation and breathing; hypoxic hyperventilation was unchanged.
157 tense respiratory muscle work and/or labored breathing) if it occurred within 7 days after surgical p
158                         Breath-hold and free-breathing images with and without SMS acceleration were
159   The retrotrapezoid nucleus (RTN) regulates breathing in a CO2 - and state-dependent manner.
160  respiration at birth and maintaining normal breathing in adults.
161                       We examined social air-breathing in African sharptooth catfish Clarias gariepin
162  of new therapies to preserve and/or restore breathing in ALS patients.
163 present novel therapeutic targets to restore breathing in both sexes.
164 n and, therefore, an increase in the work of breathing in chronic lung disease.
165 e cystathionine-gamma-lyase (CSE) normalized breathing in HO-2(-/-) mice.
166                                              Breathing in mammals is hypothesized to result from the
167                                              Breathing in mammals relies on permanent rhythmic and bi
168 l respiratory motor plasticity that improves breathing in models of spinal cord injury.
169  placebo in young infants with isolated fast breathing in primary care settings where hospital referr
170 term infants aged 5 weeks during quiet tidal breathing in unsedated sleep.
171 isms similar to those involved in volitional breathing, in breathing against mechanical constraints o
172 generator; they regulate multiple aspects of breathing, including active expiration, and maintain bre
173             ACh is an important modulator of breathing, including at the level of the retrotrapezoid
174 urvive surgery, recover from anesthesia, and breathe independently.
175 ed mechanical stretching system to show that breathing-induced physiological deformation of the pulmo
176 -positive preBotC neurons in adult mice left breathing intact but increased calm behaviors and decrea
177           We report that in healthy subjects breathing into snow with an artificial air pocket, snow
178                             The neurology of breathing involves changes in respiratory drive, rhythm,
179 ke features, including motor dysfunction and breathing irregularities, in both male and female mice.
180                             Life threatening breathing irregularity and central apnoeas are highly pr
181  GABA reuptake in the KF of RTT mice reduced breathing irregularity; (iii) conversely, blockade of GA
182 um many-body physics is that even the air we breathe is governed by strictly unitary time evolution.
183                             Sleep-disordered breathing is associated with an increased risk of cognit
184          This suggests that human hypocapnic breathing is driven, at least in part, by cortical mecha
185 dynamic (19)F gas washout MR imaging in free breathing is feasible at 1.5 T even in obstructed lung s
186 uscles in women, less of a change in work of breathing is needed to reduce quadriceps fatigue.
187         However, the effect of chronic IH on breathing is not known.
188                      By contrast, continuous breathing is rare, and detailed characterization has rem
189           For C. gariepinus, synchronous air-breathing is strongly influenced by agonistic interactio
190                  Thus, in conscious mammals, breathing is subject to a dual and interdependent feedba
191 d by molecular simulations, reveals that the breathing mechanism of 1 involves the bending of metal-l
192                  Here we report a continuous-breathing mechanism that was studied by single-crystal d
193                                              Breathing meditation and body scan (the presence module)
194                                      Work of breathing/min decreased from 4.3 (3.5-6.3) to 2.1 (1.5-5
195 ageal pressure-time product/min, and work of breathing/min) in adults.
196 ageal pressure-time product/min, and work of breathing/min).
197 re marked by 2-5 cm(-1) shifts in the radial breathing mode frequency, revealing reversible melting b
198 l expansion and transverse contraction and a breathing mode with radial expansion and contraction.
199 ly faster than the oscillation period of the breathing mode.
200 echanical model of a cobalt ion coupled to a breathing mode.
201 l D peak suppression while preserving radial breathing modes.
202 tion that is similar to the mechanism behind breathing MOFs, but is unique because the deformation pa
203 date key roles of the NTR, stalk region, and breathing motion of RecU in the formation of the reactiv
204 endent experiments focusing on the shear and breathing motions of adjacent layers revealed the specif
205 performed during a single BH and during free breathing (non-BH imaging).
206                                Spontaneously breathing, nonintubated patients with acute respiratory
207     We previously reported that continuously breathing normobaric 11% O2 from an early age prevents n
208                        Finally, we show that breathing normobaric 11% O2 in mice with late-stage ence
209 n groups was the main factor influencing air-breathing of the entire group.
210 ble processes allow for a chemically induced breathing of the flexible structures.
211        FLE exposure takes place via dynamic 'breathing' of E dimers at the virion surface.
212 s categorized into four classes: spontaneous breathing or continuous positive airway pressure; pressu
213               ABSTRACT: Reducing the work of breathing or eliminating exercise-induced arterial hypox
214        Lung alveoli, which are unique to air-breathing organisms, have been challenging to generate f
215 ronal circuits that control vocalization and breathing overlap and rely on motor neurons that innerva
216 piratory motion was applied in spontaneously breathing patients to induce sustained apnea during PET/
217  nonintubated, nonsedated, and spontaneously breathing patients.
218 h each lung inflation cycle, an intermittent breathing pattern comprised of a series of successive lu
219 le, and in patients with defective medullary breathing pattern generators.
220                                   Changes in breathing pattern that are time locked to task performan
221  can be modulated by natural fluctuations in breathing pattern, as might typically occur during the a
222 -throughput experiments evaluating sleep and breathing patterns on mouse models of pathophysiology.
223 action (HFpEF) is associated with disordered breathing patterns, and sympatho-vagal imbalance.
224 ity contributes to development of disordered breathing patterns, autonomic dysregulation and increase
225  Parallel behavioral experiments showed that breathing phase enhances fear discrimination and memory
226 atter kink can be ascribed only to an oxygen-breathing phonon.
227 as induced in 10 anesthetized, spontaneously breathing pigs.
228 In parallel, contaminants in the air that we breathe pose a significant threat to human health.
229  prospective data examining sleep-disordered breathing predicting incident atrial fibrillation are la
230       Physical adverse events (self-reported breathing problems, sleep disturbances, drowsiness or ti
231 erbation Risk), was used to assess exposure, breathing problems, tiring easily, and acute respiratory
232 mportant for the CO2/H(+)-dependent drive to breathe produced by chemosensitive neurons in the retrot
233 rapezoid nucleus, a cluster of CCRs, reduced breathing proportionally to arterial pH.
234 seen between breath-hold rate 3 SMS and free-breathing rate 2 SMS excitation in transmural myofiber h
235 tion, (3) methods based on heart rate or (4) breathing rate, and (5) methods that combine heart and b
236 rate, and (5) methods that combine heart and breathing rate.
237 vented by inspiring hyperoxic gas or work of breathing reduced via a proportional assist ventilator (
238 pear to be especially susceptible to work of breathing-related changes in quadriceps muscle fatigue.
239 personality, but the mechanisms of group air-breathing remain unexplored.
240          However, clinicians rarely advocate breathing retraining and access to this intervention is
241 s the effectiveness of a digital self-guided breathing retraining intervention.
242 ble physiotherapists and poor integration of breathing retraining into standard care.
243                              INTERPRETATION: Breathing retraining programmes improve quality of life
244 er the DVDB intervention, three face-to-face breathing retraining sessions, or standard care, in a 2:
245    Non-pharmacological approaches, including breathing retraining, are therefore of great interest to
246  preBotzinger complex (preBotC), the primary breathing rhythm generator, which regulates the balance
247  of 0.6 L [0.2 L], and mean [SD] Paco2 while breathing room air of 59 [7] mm Hg) were randomized.
248 m Hg or oxygen saturation [SpO2] </=90% when breathing room air or <80 mm Hg when breathing 15 L/min
249   In unanesthetized PRSx8-ArchT-treated rats breathing room air, bilateral ArchT photoactivation caus
250              We observe homogeneous (lattice breathing/rotation) and inhomogeneous (shear) acoustic p
251  body increases CBC sensitivity, oscillatory breathing, RSNA and arrhythmia incidence during CHF.
252 ests an association between sleep-disordered breathing (SDB) and cognitive decline in elderly persons
253                             Sleep-disordered breathing (SDB) is a common disorder in aging that is as
254                             Sleep-disordered breathing (SDB) is common in patients with heart failure
255  exhibit CO2 and O2 chemosensitivity of lung breathing, similar to water-breathing tadpoles.
256  contiguous air contact across the posterior breathing spiracles.
257  improves cardiac sympatho-vagal balance and breathing stability.
258                                          The breathing stacks clearly benefit from the lower resistan
259 nally activated by hypercapnia and the large breathing stimulation caused by this stimulus has very l
260 amics simulations, and in situ environmental breathing studies.
261  ejection fraction (HFpEF) display irregular breathing, sympatho-vagal imbalance, arrhythmias and dia
262 sitivity of lung breathing, similar to water-breathing tadpoles.
263                                         Free breathing technique is therefore preferable to BH DWI in
264 Despite a greater reduction in men's work of breathing, the attenuation of quadriceps fatigue was sim
265 tory effector muscles required for efficient breathing.The developmental origin and functional organi
266                         The patient's voice, breathing through mouth, swallowing, and endocrinal func
267  the PAV trial, despite reducing the work of breathing to a greater degree in men (men: 60 +/- 5, wom
268 predation, so some species perform group air-breathing, to reduce individual risk.
269   In patients undergoing a first spontaneous breathing trial after at least 24 hours of MV, diaphragm
270 d or did not meet criteria for a spontaneous breathing trial.
271 nts were assessed at their first spontaneous breathing trial: 63% had diaphragm dysfunction, 34% had
272 ians for the completion of daily spontaneous breathing trials (SBTs) in three academic hospitals.
273  Despite protocols incorporating spontaneous breathing trials, 31% of ICU patients experience difficu
274 th care, and daily spontaneous awakening and breathing trials.
275 ilure and presupposed the use of spontaneous breathing trials.
276  and closed-pore forms-a behaviour known as 'breathing'-typically occur through well-defined crystall
277                                              Breathing under snow, e.g. while buried by a snow avalan
278 dergo reversible structural transitions, or "breathing", upon temperature and pressure changes, and t
279                      Patients underwent free-breathing UTE and dual-echo three-dimensional GRE imagin
280                                      Resting breathing variability, chemoreflex gain, cardiac functio
281 gen consumption rates in both air- and water-breathing vertebrates.
282 of oxygenated and de-oxygenated blood in air-breathing vertebrates.
283                             Sleep-disordered breathing was ascertained by apnea-hypopnea index or cli
284 eaked during inspiration and dissipated when breathing was diverted from nose to mouth.
285                These effects diminished when breathing was diverted to the mouth, highlighting the im
286                             Sleep-disordered breathing was not associated with global cognition or me
287                                  Oscillatory breathing was quantified as the apnoea-hypopnoea index (
288                              Tadpoles mainly breathe water for gas exchange and frogs may breathe wat
289 breathe water for gas exchange and frogs may breathe water or air depending on their environment and
290 H(+) and potentially counteract the drive to breathe, we hypothesize that chemosensitive brain region
291 ximum while arterial blood gases and work of breathing were assessed.
292 ncies (but not areas) during fixed frequency breathing were greater than preflight in space and on la
293                           Forces involved in breathing-which effectively pull in air-are the diaphrag
294 ailure may have a high respiratory drive and breathe with large tidal volumes and potentially injurio
295 eated rats exhibited hypertension, irregular breathing with apnoea and augmented the CB chemosensory
296 - or LT-IH exhibited hypertension, irregular breathing with apnoeas, an augmented CB chemosensory ref
297 y reflex activation also results in unstable breathing with apnoeas.
298 oxicillin in the management of isolated fast breathing without hypoxemia or other clinical signs of i
299 women have a greater relative oxygen cost of breathing, women appear to be especially susceptible to
300                                              Breathing zone (BZ) size distributions of resuspended fl

WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。
 
Page Top