Your search keyword '"Breathing pattern"' showing total 2,509 results

1. Wearable Influence on Breathing Pattern Measured by Unrestricted Barometric Plethysmography in Wistar Rats

Author

Felgueira, Rodrigo Moreira, de Oliveira, Isabela Carvalho Velloso, Marques, Carolina Lourenço, de Freitas Junior, Fernando José, de Oliveira Alves, Mariana Correia, Neto, Erasmo Assumpção, Costa, Soraia Katia Pereira, Moriya, Henrique Takachi, Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Marques, Jefferson Luiz Brum, editor, Rodrigues, Cesar Ramos, editor, Suzuki, Daniela Ota Hisayasu, editor, Marino Neto, José, editor, and García Ojeda, Renato, editor

Published

2024

2. Variations in respiratory and functional symptoms at four months after hospitalisation due to COVID-19: a cross-sectional study

Author

Monika Fagevik Olsén, Louise Lannefors, Ewa-Lena Johansson, and Hanna C. Persson

Subjects

Breathing pattern, Dysfunctional breathing, Long-COVID, Physiotherapy evaluation, Post-COVID condition, Respiratory symptoms, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Much remains unknown about complex respiratory symptoms after COVID-19. Here we aimed to describe and analyse patients’ various respiratory symptoms 4 months after discharge from hospitalisation for COVID-19, focusing on sex, previous pulmonary disease, and prolonged mechanical ventilation. Methods This cross-sectional study involved five hospitals and included 52 patients with self-assessed respiratory dysfunction at 4 months after discharge from hospitalisation for severe COVID-19. Their average age was 63 years, 38% were women, 15 had a previous diagnosed pulmonary disease, and 29 were current or previous smokers. Additionally, 31 had required intensive care—among whom 21 were intubated and 11 needed mechanical ventilation for ≥20 days. Respiratory function was tested concerning lung volumes, expiratory flow, muscle strength, physical capacity (including concurrent oxygen saturation), thoracic expansion, and respiratory movements. Results Among 52 patients, 47 (90%) had one or several objectively measured respiratory function abnormalities. Decreased thoracic expansion was observed in 32 patients (62%), abnormal respiratory movements in 30 (58%), decreased vital capacity in 21 (40%), low physical function in 13 (26%), and desaturation during the test in 9 (17%). Respiratory inspiratory muscle strength was more commonly diminished than expiratory strength (27% vs. 8%). We did not observe differences between men and women, or between patients with versus without diagnosed pulmonary disease, except that those with pulmonary disease had significantly lower physical capacity assessed with 6MWD (70% vs. 88% predicted, p = 0.013). Compared to those who did not, patients who required ≥20 days of mechanical ventilation performed similarly on most tests, except that all thoracic breathing movements were significantly smaller (p

Published

2024

3. Breathing Pattern Response after 6 Weeks of Inspiratory Muscle Training during Exercise

Author

Eduardo Salazar-Martínez

Subjects

breathing pattern, ventilation, cycling, inspiratory muscle training, Diseases of the respiratory system, RC705-779, Medicine (General), R5-920

Abstract

(1) Background: The breathing pattern is defined as the relationship between the tidal volume (VT) and breathing frequency (BF) for a given VE. The aim of this study was to evaluate whether inspiratory muscle training influenced the response of the breathing pattern during an incremental effort in amateur cyclists. (2) Methods: Eighteen amateur cyclists completed an incremental test to exhaustion, and a gas analysis on a cycle ergometer and spirometry were conducted. Cyclists were randomly assigned to two groups (IMTG = 9; CON = 9). The IMTG completed 6 weeks of inspiratory muscle training (IMT) using a PowerBreathe K3® device at 50% of the maximum inspiratory pressure (Pimax). The workload was adjusted weekly. The CON did not carry out any inspiratory training during the experimental period. After the 6-week intervention, the cyclists repeated the incremental exercise test, and the gas analysis and spirometry were conducted. The response of the breathing pattern was evaluated during the incremental exercise test. (3) Results: The Pimax increased in the IMTG (p < 0.05; d = 3.1; +19.62%). Variables related to the breathing pattern response showed no differences between groups after the intervention (EXPvsCON; p > 0.05). Likewise, no differences in breathing pattern were found in the IMTG after training (PREvsPOST; p > 0.05). (4) Conclusions: IMT improved the strength of inspiratory muscles and sport performance in amateur cyclists. These changes were not attributed to alterations in the response of the breathing pattern.

Published

2024

4. Electrical impedance tomography in anaesthetised chickens (Gallus domesticus).

Author

Wong, Adrian M., Hei Y. Lum, Musk, Gabrielle C., Hyndman, Timothy H., Waldmann, Andreas D., Monks, Deborah J., Bowden, Ross S., and Mosing, Martina

Subjects

ELECTRICAL impedance tomography, CHICKENS, SHOULDER joint, FISHER exact test, IMAGE analysis

Abstract

The applicability of electrical impedance tomography (EIT) in birds is unknown. This study aimed to evaluate the use of EIT in anaesthetised chickens in four recumbency positions. Four adult Hyline chickens were anaesthetised with isoflurane in oxygen, and intubated endotracheally for computed tomography (CT). A rubber belt was placed around the coelom caudal to the shoulder joint. A chicken-specific finite element (FE) model, which is essential to generate anatomically accurate functional EIT images for analysis, was constructed based on the CT images obtained at the belt level. Ten additional chickens were anaesthetised with the same protocol. An EIT electrode belt was placed at the same location. The chickens were breathing spontaneously and positioned in dorsal, ventral, right and left lateral recumbency in a randomised order. For each recumbency, raw EIT data were collected over 2 min after 13 min of stabilisation. The data were reconstructed into functional EIT images. EIT variables including tidal impedance variation (TIV), centre of ventilation right to left (COVRL) and ventral to dorsal (COVVD). right to left (RL) ratio, impedance change (ΔZ) and eight regional impedance changes including the dorsal, central-dorsal, central-ventral and ventral regions of the right and left regions were analysed. Four breathing patterns (BrP) were observed and categorised based on the expiratory curve. A linear mixed model was used to compare EIT variables between recumbencies. Fisher's exact test was used to compare the frequencies of breathing patterns for each recumbency. The ΔZ observed was synchronous to ventilation, and represented tidal volume of the cranial air sacs as confirmed by CT. Significant differences were found in CoVVD and regional impedance changes between dorsal and ventral recumbencies (P < 0.05), and in COVRL, RL ratio and regional impedance changes between right and left recumbencies (P < 0.05), which suggested a tendency for the distribution of ventilation to shift towards non-dependent air sacs. No differences were found for TIV and respiratory rate between recumbencies. Recumbency had a significant effect on the frequencies of each of the four BrPs (P = 0.001). EIT can monitor the magnitude and distribution of ventilation of the cranial air sacs in different recumbencies in anaesthetised chickens. [ABSTRACT FROM AUTHOR]

Published

2024

5. Variations in respiratory and functional symptoms at four months after hospitalisation due to COVID-19: a cross-sectional study.

Author

Fagevik Olsén, Monika, Lannefors, Louise, Johansson, Ewa-Lena, and Persson, Hanna C.

Subjects

COVID-19, VITAL capacity (Respiration), RESPIRATORY muscles, PULMONARY function tests, CROSS-sectional method

Abstract

Background: Much remains unknown about complex respiratory symptoms after COVID-19. Here we aimed to describe and analyse patients' various respiratory symptoms 4 months after discharge from hospitalisation for COVID-19, focusing on sex, previous pulmonary disease, and prolonged mechanical ventilation. Methods: This cross-sectional study involved five hospitals and included 52 patients with self-assessed respiratory dysfunction at 4 months after discharge from hospitalisation for severe COVID-19. Their average age was 63 years, 38% were women, 15 had a previous diagnosed pulmonary disease, and 29 were current or previous smokers. Additionally, 31 had required intensive care—among whom 21 were intubated and 11 needed mechanical ventilation for ≥20 days. Respiratory function was tested concerning lung volumes, expiratory flow, muscle strength, physical capacity (including concurrent oxygen saturation), thoracic expansion, and respiratory movements. Results: Among 52 patients, 47 (90%) had one or several objectively measured respiratory function abnormalities. Decreased thoracic expansion was observed in 32 patients (62%), abnormal respiratory movements in 30 (58%), decreased vital capacity in 21 (40%), low physical function in 13 (26%), and desaturation during the test in 9 (17%). Respiratory inspiratory muscle strength was more commonly diminished than expiratory strength (27% vs. 8%). We did not observe differences between men and women, or between patients with versus without diagnosed pulmonary disease, except that those with pulmonary disease had significantly lower physical capacity assessed with 6MWD (70% vs. 88% predicted, p = 0.013). Compared to those who did not, patients who required ≥20 days of mechanical ventilation performed similarly on most tests, except that all thoracic breathing movements were significantly smaller (p < 0.05). The numbers and combinations of abnormal findings varied widely, without clear patterns. Conclusion: Patients with remaining respiratory symptoms 4 months after discharge from hospitalization due to COVID-19 may suffer from various abnormal breathing functions, and dysfunctional breathing that is not detected using traditional measurements. These patients may benefit from multidimensional measuring of breathing movement, thoracic expansion, and respiratory muscle strength, along with traditional measurements, to assess their symptoms and enable prescription of optimal treatment interventions and rehabilitation. Trial registration: FoU i Sverige (Research & Development in Sweden, Registration number: 274476, registered 2020-05-28). [ABSTRACT FROM AUTHOR]

Published

2024

6. Expiratory braking defines the breathing patterns of asphyxiated neonates during therapeutic hypothermia

Author

Paola Papoff, Elena Caresta, Benedetto D’Agostino, Fabio Midulla, Laura Petrarca, Luigi Giannini, Francesco Pisani, and Francesco Montecchia

Subjects

breathing pattern, esophageal pressure, expiratory braking, hypoxicischemic encephalopathy, neonate, respiratory effort, Pediatrics, RJ1-570

Abstract

IntroductionAlthough neonatal breathing patterns vary after perinatal asphyxia, whether they change during therapeutic hypothermia (TH) remains unclear. We characterized breathing patterns in infants during TH for hypoxic-ischemic encephalopathy (HIE) and normothermia after rewarming.MethodsIn seventeen spontaneously breathing infants receiving TH for HIE and in three who did not receive TH, we analyzed respiratory flow and esophageal pressure tracings for respiratory timing variables, pulmonary mechanics and respiratory effort. Breaths were classified as braked (inspiratory:expiratory ratio ≥1.5) and unbraked (

Published

2024

7. Resting pulmonary function and artery pressure and cardiopulmonary exercise testing in chronic heart failure patients in Taiwan − a prospective observational cross-sectional study comparing healthy subjects and interstitial lung disease patients.

Author

Chuang, Ming-Lung, Sia, Sung-Kien, and Chang, Kai-Wei

Subjects

INTERSTITIAL lung diseases, EXERCISE tests, HEART failure patients, PULMONARY artery, PULMONARY gas exchange, PULMONARY hypertension

Abstract

Restrictive ventilatory defects and elevated pulmonary artery pressure (PAP) are common in patients with chronic heart failure (CHF) and those with interstitial lung disease (ILD). However, as oxyhemoglobin desaturation seldom occurs in stable CHF patients at peak exercise, we hypothesized that the pathophysiology may be different between them. This study aimed to investigate: (1) PAP and lung function at rest, (2) pulmonary gas exchange (PGX) and breathing patterns at peak exercise, (3) mechanisms of dyspnea at peak exercise in patients with CHF compared to healthy subjects and ILD patients. We consecutively enrolled 83 participants (27 with CHF, 23 with ILD, and 33 healthy controls). The CHF and ILD groups had similar functional status. Lung function and cardiopulmonary exercise tests with Borg Dyspnea Score were performed. PAP was estimated using echocardiography. Resting lung function, PAP and peak exercise data in the CHF group were compared to the healthy and ILD groups. Correlation analysis was performed to elucidate the mechanisms of dyspnea in the CHF and ILD groups. Compared to the healthy group, the CHF group had normal lung function, PAP at rest, and normal dyspnea score and PGX at peak exercise, whereas the ILD group had abnormal values compared to the CHF group. Dyspnea score was positively correlated with pressure gradient, lung expansion capabilities, and expiratory tidal flow in the CHF group (all p < 0.05), but inversely correlated with inspiratory time-related variables in the ILD group (all p < 0.05). Normal lung function and PAP at rest, and dyspnea scores and PGX at peak exercise indicated that pulmonary hypertension and fibrosis were insignificant in the patients with CHF. The factors affecting dyspnea at peak exercise were different between the CHF and ILD groups. As the sample size in this study was small, large-scale studies are warranted to confirm our findings. Normal lung function and pulmonary arterial pressure at rest, and dyspnea scores and pulmonary gas exchange at peak exercise indicated that pulmonary hypertension and fibrosis in the patients with chronic heart failure were not significant. Dyspnea score was correlated with different physiological variables between the groups with chronic heart failure and interstitial lung disease. [ABSTRACT FROM AUTHOR]

Published

2023

8. Long COVID – respiratory symptoms in non-hospitalised subjects – a cross-sectional study.

Author

Fagevik Olsén, Monika, Lannefors, Louise, Nygren-Bonnier, Malin, and Johansson, Ewa-Lena

Subjects

*RESPIRATORY diseases, *RESEARCH, *COVID-19, *ACADEMIC medical centers, *POST-acute COVID-19 syndrome, *CROSS-sectional method, *FISHER exact test, *T-test (Statistics), *HOSPITAL care, *DESCRIPTIVE statistics, *CHI-squared test, *SPIROMETRY, *STATISTICAL correlation, *LONGITUDINAL method, *SYMPTOMS

Abstract

The aim of this study was to describe and analyse the variety of respiratory appearances in Long COVID subjects who were not hospitalised during the acute phase of the infection. A consecutive series of 60 subjects participated x ¯ 10.8 months (SD 4.5) after the acute phase of the infection. Respiratory function was tested concerning lung volumes, expiratory flow, muscle strength, physical capacity including concurrent oxygen saturation, chest expansion, lung sounds, pain and breathing pattern. Differences between those with or without positive test and duration of symptoms more or less than 6 months were analysed with T-test, Chi-square test and Fisher's exact test. Decreased forced vital capacity was found in 6/60 (10%), and forced expiratory volume in 1 s and 7/60 (12%), low maximal inspiratory pressure in 38/58 (54%) and low maximal expiratory pressure in 10/58 (17%). Decreased physical capacity was registered in 36/52 (69%), and thoracic expansion in 26/46 (56%). Pathologic lung sounds had 15/58 (26%) and six patients desaturated during the test of physical capacity. A majority (36/58, 67%) presented pain in the ribcage. All but three patients (95%) showed a dysfunctional breathing pattern in sitting and standing. Only poor and fair correlations were found between age, duration and level of physical capacity compared to spirometry, respiratory muscle strength and thoracic expansion. Abnormal breathing pattern and respiratory movements as well as pain, and reduced lung volumes, flow, respiratory muscle strength, physical capacity and thoracic expansion may be involved in Long COVID. The breathing symptoms should therefore be looked for in a wider picture beyond spirometry and oximetry. [ABSTRACT FROM AUTHOR]

Published

2023

9. Electrical impedance tomography in anaesthetised chickens (Gallus domesticus)

Author

Adrian M. Wong, Hei Y. Lum, Gabrielle C. Musk, Timothy H. Hyndman, Andreas D. Waldmann, Deborah J. Monks, Ross S. Bowden, and Martina Mosing

Subjects

air sacs, avian, birds, breathing pattern, distribution of ventilation, recumbency, Veterinary medicine, SF600-1100

Abstract

The applicability of electrical impedance tomography (EIT) in birds is unknown. This study aimed to evaluate the use of EIT in anaesthetised chickens in four recumbency positions. Four adult Hyline chickens were anaesthetised with isoflurane in oxygen, and intubated endotracheally for computed tomography (CT). A rubber belt was placed around the coelom caudal to the shoulder joint. A chicken-specific finite element (FE) model, which is essential to generate anatomically accurate functional EIT images for analysis, was constructed based on the CT images obtained at the belt level. Ten additional chickens were anaesthetised with the same protocol. An EIT electrode belt was placed at the same location. The chickens were breathing spontaneously and positioned in dorsal, ventral, right and left lateral recumbency in a randomised order. For each recumbency, raw EIT data were collected over 2 min after 13 min of stabilisation. The data were reconstructed into functional EIT images. EIT variables including tidal impedance variation (TIV), centre of ventilation right to left (CoVRL) and ventral to dorsal (CoVVD), right to left (RL) ratio, impedance change (ΔZ) and eight regional impedance changes including the dorsal, central-dorsal, central-ventral and ventral regions of the right and left regions were analysed. Four breathing patterns (BrP) were observed and categorised based on the expiratory curve. A linear mixed model was used to compare EIT variables between recumbencies. Fisher's exact test was used to compare the frequencies of breathing patterns for each recumbency. The ΔZ observed was synchronous to ventilation, and represented tidal volume of the cranial air sacs as confirmed by CT. Significant differences were found in CoVVD and regional impedance changes between dorsal and ventral recumbencies (P < 0.05), and in CoVRL, RL ratio and regional impedance changes between right and left recumbencies (P < 0.05), which suggested a tendency for the distribution of ventilation to shift towards non-dependent air sacs. No differences were found for TIV and respiratory rate between recumbencies. Recumbency had a significant effect on the frequencies of each of the four BrPs (P = 0.001). EIT can monitor the magnitude and distribution of ventilation of the cranial air sacs in different recumbencies in anaesthetised chickens.

Published

2024

10. Resting pulmonary function and artery pressure and cardiopulmonary exercise testing in chronic heart failure patients in Taiwan − a prospective observational cross-sectional study comparing healthy subjects and interstitial lung disease patients

Author

Ming-Lung Chuang, Sung-Kien Sia, and Kai-Wei Chang

Subjects

Lung function, cardiopulmonary exercise testing, breathing pattern, pulmonary hypertension, ejection fraction, Medicine

Abstract

AbstractBackground Restrictive ventilatory defects and elevated pulmonary artery pressure (PAP) are common in patients with chronic heart failure (CHF) and those with interstitial lung disease (ILD). However, as oxyhemoglobin desaturation seldom occurs in stable CHF patients at peak exercise, we hypothesized that the pathophysiology may be different between them. This study aimed to investigate: (1) PAP and lung function at rest, (2) pulmonary gas exchange (PGX) and breathing patterns at peak exercise, (3) mechanisms of dyspnea at peak exercise in patients with CHF compared to healthy subjects and ILD patients.Methods We consecutively enrolled 83 participants (27 with CHF, 23 with ILD, and 33 healthy controls). The CHF and ILD groups had similar functional status. Lung function and cardiopulmonary exercise tests with Borg Dyspnea Score were performed. PAP was estimated using echocardiography. Resting lung function, PAP and peak exercise data in the CHF group were compared to the healthy and ILD groups. Correlation analysis was performed to elucidate the mechanisms of dyspnea in the CHF and ILD groups.Results Compared to the healthy group, the CHF group had normal lung function, PAP at rest, and normal dyspnea score and PGX at peak exercise, whereas the ILD group had abnormal values compared to the CHF group. Dyspnea score was positively correlated with pressure gradient, lung expansion capabilities, and expiratory tidal flow in the CHF group (all p

Published

2023

11. Nasal High-Flow (NHF) Improves Ventilation in Patients with Interstitial Lung Disease (ILD)—A Physiological Study.

Author

Bräunlich, Jens, Köhler, Marcus, and Wirtz, Hubert

Subjects

*NONINVASIVE ventilation, *INTERSTITIAL lung diseases, *LUNG diseases

Abstract

Introduction: Acute hypercapnic respiratory failure has a poor prognosis in patients with interstitial lung disease (ILD). Recent data demonstrated a positive effect of nasal high-flow (NHF) in patients with acute hypoxemic respiratory failure. Preliminary data also show benefits in several hypercapnic chronic lung diseases. Objectives: The aim of this study was to characterize flow-dependent changes in mean airway pressure, breathing volumes, and breathing frequency and decreases in PCO2. Methods: Mean airway pressure was measured in the nasopharyngeal space. To evaluate breathing volumes, a polysomnographic device was used (16 patients). All subjects received 20, 30, 40, and 50 L/min and—to illustrate the effects—nCPAP and nBiPAP. Capillary blood gas analyses were performed in 25 hypercapnic ILD subjects before and 5 h after the use of NHF. Additionally, comfort and dyspnea during the use of NHF were surveyed. Results: NHF resulted in a small flow-dependent increase in mean airway pressure. Tidal volume was unchanged and breathing rate decreased. The calculated minute volume decreased by 20 and 30 L/min NHF breathing. In spite of this fact, hypercapnia decreased at a flow rate of 24 L/min. Additionally, an improvement in dyspnea was observed. Conclusions: NHF leads to a reduction in paCO2. This is most likely achieved by a washout of the respiratory tract and a reduction in functional dead space. NHF enhances the effectiveness of breathing in ILD patients by the reduction in respiratory rate. In summary, NHF works as an effective ventilatory support device in hypercapnic ILD patients. [ABSTRACT FROM AUTHOR]

Published

2023

12. Ventilation and perceived exertion are sensitive to changes in exercise tolerance: arm+leg cycling vs. leg cycling.

Author

Nicolò, Andrea, Girardi, Michele, Bazzucchi, Ilenia, Sacchetti, Massimo, and Felici, Francesco

Subjects

EXERCISE tolerance, CYCLING, VENTILATION, HEART beat

Abstract

Purpose: Growing evidence suggests that respiratory frequency (fR) is a marker of physical effort and a variable sensitive to changes in exercise tolerance. The comparison between arm+leg cycling (Arm+leg) and leg cycling (Leg) has the potential to further test this notion because a greater exercise tolerance is expected in the Arm+leg modality. We systematically compared Arm+leg vs. Leg using different performance tests. Methods: Twelve males underwent six performance tests in separate, randomized visits. Three tests were performed in each of the two exercise modalities, i.e. an incremental test and two time-to-exhaustion (TTE) tests performed at 90% or 75% of the peak power output reached in the Leg incremental test (PPOLeg). Exercise tolerance, perceived exertion, and cardiorespiratory variables were recorded during all the tests. Results: A greater exercise tolerance (p < 0.001) was found for Arm+leg in the incremental test (337 ± 32W vs. 292 ± 28 W), in the TTE test at 90% of PPOLeg (638 ± 154 s vs. 307 ± 67 s), and in the TTE test at 75% of PPOLeg (1,675 ± 525 s vs. 880 ± 363 s). Unlike ...O2 and heart rate, both fR and minute ventilation were lower (p < 0.003) at isotime in all the Arm+leg tests vs. Leg tests. Furthermore, a lower perceived exertion was observed in the Arm+leg tests, especially during the TTE tests (p < 0.001). Conclusion: Minute ventilation, fR and perceived exertion are sensitive to the improvements in exercise tolerance observed when comparing Arm+leg vs. Leg, unlike ...O2 and heart rate. [ABSTRACT FROM AUTHOR]

Published

2023

13. Investigating the brain activity correlates of humming bee sound during bhramari pranayama

Author

Aayushi Khajuria, Nitesh Singh Malan, Rishabh Bajpai, Dimpy Kapoor, Ashish Mishra, Shivkumar S Harti, Medha Kulkarni, and Deepak Joshi

Subjects

bhramari pranayama, breathing pattern, cortical correlates, electroencephalography, humming bee sound, Neurology. Diseases of the nervous system, RC346-429

Abstract

Context: Previous research has shown the vast benefits associated with BhP. However, the dynamics of cortical activity in connection with Bhramari sound have not been investigated yet. Aim: To investigate the cortical activity in connection with Bhramari sound. Settings and Design: Humming sound was analyzed with a custom-made nasal device consisting of MAX4466 sensor time synchronized with the EEG setup. We anticipated that the modulation of cortical activity with the humming sound (either of long or short durations) leaves its effects after the Pranayama, which helps to understand the positive impacts of BhP. Methods and Material: 30 participants were instructed to perform the BhP for a period of 90 seconds. We proposed to investigate the cortical correlates before, during, and after the BhP through EEG. A custom-made nasal device consisting of MAX4466 sensor time synchronized with the EEG setup was used for analyzing the humming sound. Statistical Analysis Used: A paired t-test (P < 0.05) with a Bonferroni correction is carried out to explore the statistically significant difference in power spectral density (PSD) values. Results: Results show that the relative spectral power in theta band for short humming durations (less than or equal to 9 seconds) was similar on the frontal cortex during and after the Pranayama practice (P > 0.05) in most of the subjects. Conclusions: In conclusion, for the immediate positive effects of BhP, the humming duration should be kept less than or equal to 9 seconds. A wearable sound recording system can be developed in the future as a feedback system that provides biofeedback to the user so that a constant humming duration can be maintained.

Published

2023

14. The Effect of Device-Controlled Breathing on the Pulse Arrival Time and the Heart Rate Asymmetry Parameters in Healthy Volunteers.

Author

Ajtay, Bella Eszter, Béres, Szabolcs, and Hejjel, László

Subjects

PHOTOPLETHYSMOGRAPHY, HEART beat, RESPIRATION, BLOOD pressure, VOLUNTEERS, VOLUNTEER service

Abstract

Background: The development of wearables has facilitated the monitoring of biomedical parameters in everyday life. One of the most common sensors of these gadgets is the photoplethysmograph (PPG); hence, the proper processing and interpretation of the PPG signal are essential. Besides pulse rate detection, these devices—together with an ECG—compute the pulse arrival time (PAT), from which the actual beat-to-beat blood pressure can be estimated. The heart rate shows asymmetrical accelerations and decelerations, quantified by the parameters of heart rate asymmetry (HRA). In the present study, we investigated the influences of different breathing-patterns on the PATs and HRA parameters. Methods: The authors evaluated 5 min simultaneous respiratory-, ECG- and PPG-signal recordings of 35 healthy, young volunteers specifically expressing the following breathing patterns: metronome-controlled inspiration, and both inspiration and expiration controlled at 1:1 and 1:2 ratios, respectively. The records were analyzed by HRVScan_Merge v3.2 software. The PAT values were calculated at eight different reference points. The HRA parameters and the PAT values at different breathing patterns were compared using the Friedman test and post hoc Wilcoxon paired-sample test. Results: Porta- and Guzik-indices significantly increased at 1:1 breathing compared to 1:2 and single-paced breathing. PATs increased significantly in dual-paced series compared to single-paced series at each reference point. Conclusion: Based on our results, the increased PATs at dual-paced versus single-paced breathing may indicate the involvement of cognitive functions. The symmetrical respiration ratio increases the heart rate symmetry; however, this effect is not detectable in the periphery through the PATs. [ABSTRACT FROM AUTHOR]

Published

2023

15. Inhibitory effect of sulfur dioxide inhalation on Hering-Breuer inflation reflex in mice: role of voltage-gated potassium channels.

Author

Nai-Ju Chan, Chun-Chun Hsu, You Shuei Lin, Ruei-Lung Lin, and Lu-Yuan Lee

Subjects

POTASSIUM channels, SULFUR dioxide, AIR pollutants, REFLEXES, PRICE inflation

Abstract

Slowly adapting receptors (SARs), vagal mechanosensitive receptors located in the lung, play an important role in regulating the breathing pattern and Hering-Breuer inflation reflex (HBIR). Inhalation of high concentration of sulfur dioxide (SO2), a common environmental and occupational air pollutant, has been shown to selectively block the SAR activity in rabbits, but the mechanism underlying this inhibitory effect remained a mystery. We carried out this study to determine if inhalation of SO2 can inhibit the HBIR and change the eupneic breathing pattern, and to investigate further a possible involvement of voltage-gated K+ channels in the inhibitory effect of SO2 on these vagal reflex-mediated responses. Our results showed 1) inhalation of SO2 (600 ppm; 8 min) consistently abolished both the phasic activity of SARs and their response to lung inflation in anesthetized, artificially ventilated mice, 2) inhalation of SO2 generated a distinct inhibitory effect on the HBIR and induced slow deep breathing in anesthetized, spontaneously breathing mice, and these effects were reversible and reproducible in the same animals, 3) This inhibitory effect of SO2 was blocked by pretreatment with 4-aminopyridine (4-AP), a nonselective blocker of voltage-gated K+ channel, and unaffected by pretreatment with its vehicle. In conclusion, this study suggests that this inhibitory effect on the baseline breathing pattern and the HBIR response was primarily mediated through the SO2-induced activation of voltage-gated K+ channels located in the vagal bronchopulmonary SAR neurons. [ABSTRACT FROM AUTHOR]

Published

2023

16. Breathing Pattern in Subjects with Borderline Personality Disorder in Pain Test

Author

Lozovanu, S., Moldovanu, I., Vovc, V., Besleaga, T., Ganenco, A., Tabirta, I., Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Tiginyanu, Ion, editor, Sontea, Victor, editor, and Railean, Serghei, editor

Published

2022

17. Differential control of respiratory frequency and tidal volume during exercise.

Author

Nicolò, Andrea and Sacchetti, Massimo

Subjects

*EXERCISE physiology, *VENTILATION, *AFFERENT pathways

Abstract

The lack of a testable model explaining how ventilation is regulated in different exercise conditions has been repeatedly acknowledged in the field of exercise physiology. Yet, this issue contrasts with the abundance of insightful findings produced over the last century and calls for the adoption of new integrative perspectives. In this review, we provide a methodological approach supporting the importance of producing a set of evidence by evaluating different studies together—especially those conducted in 'real' exercise conditions—instead of single studies separately. We show how the collective assessment of findings from three domains and three levels of observation support the development of a simple model of ventilatory control which proves to be effective in different exercise protocols, populations and experimental interventions. The main feature of the model is the differential control of respiratory frequency (fR) and tidal volume (VT); fR is primarily modulated by central command (especially during high-intensity exercise) and muscle afferent feedback (especially during moderate exercise) whereas VT by metabolic inputs. Furthermore, VT appears to be fine-tuned based on fR levels to match alveolar ventilation with metabolic requirements in different intensity domains, and even at a breath-by-breath level. This model reconciles the classical neuro-humoral theory with apparently contrasting findings by leveraging on the emerging control properties of the behavioural (i.e. fR) and metabolic (i.e. VT) components of minute ventilation. The integrative approach presented is expected to help in the design and interpretation of future studies on the control of fR and VT during exercise. [ABSTRACT FROM AUTHOR]

Published

2023

18. Breathing pattern and its evaluation by muscle dynamometer md03.

Author

Malátová, R, Bahenský, P, Rost, M, and Marko, David

Abstract

The purpose of the study was to determine the proportion of engagements of individual breathing sectors during 1-min physically active breathing at rest in 163 healthy, physically active participants (students of Physical Education and Sport). The research analyzed breathing movements through the muscle dynamometer MD03 (Hitron, Plzeň, Czech Republic). The proportion of engagements of the individual breathing sector in the group analyzed was determined based on measurement results. The lower breathing sector was engaged at 29.2%, the middle breathing sector at 31.0%, and the upper breathing sector at 39.8%. The largest observed difference between the involvement of individual breath sectors was 10.6% between the lower and upper breathing sectors. The muscle dynamometer MD03 may be instrumental for practising both localized breathing and full breath. Graphical abstract [ABSTRACT FROM AUTHOR]

Published

2022

19. The association of breathing pattern with exercise tolerance and perceived fatigue in women with systemic lupus erythematosus: an exploratory case–control study.

Author

Aldhahi, Monira I., Wooten, Liana C., Hasni, Sarfaraz, Mikdashi, Jamal, and Keyser, Randall E.

Subjects

*FATIGUE (Physiology), *EXERCISE tolerance, *BREATHING exercises, *TREADMILL exercise tests, *AEROBIC capacity, *SYSTEMIC lupus erythematosus, *CANCER fatigue

Abstract

The aims of the study were to (1) to characterize the breathing pattern and work of breathing during peak exercise in patients with SLE; (2) to examine the extent to which the breathing pattern and work of breathing impact the exercise capacity and fatigue. Forty-one women participated in the study (SLE: n = 23, median = 35, range = 21–57 years, control: n = 18, median = 38, range = 22–45 years). Each subject performed a treadmill cardiopulmonary exercise test (a modified Bruce treadmill protocol) ending with volitional exhaustion. Breathing mechanic was characterized by measures of expired minute volume (VE), tidal volume (Vt), respiratory rate (f), work of breathing, and cardiorespiratory fitness was quantified by measures of peak oxygen consumption (VO2) and time to exhaustion. Data presented as median and interquartile range (IQR). Women with SLE had lower Vt {1221 [488.8] mL/min vs. 1716 [453.1] mL; p =.006}, VE {58.9 [18.9] L/min vs 70 [28.1] L/min, p = 0.04} and increased breathing frequency {51.5 [10.8] vs 43.6 [37.8] bpm, p = 0.01} compared to the control group. The time to exhaustion and peak VO2 during the CPET were significantly reduced in those with SLE compared to controls {13.3 [10.2] vs 16.1 [2.2] min; p = 0.004}, {20 [6.1] mL/kg/min vs 26.6 [7] mL/kg/min p < 0.001}, respectively. Differences remained when the analyses were controlled for the observed differences in peak VO2. When the regression model adjusted for the peak VO2, it had been shown that Vt, WOB and f were explained variances in the fatigue severity by 64% [p < 0.001]. The decline in VE and Vt coupled with a decreased peak VO2, and work of breathing may have contributed to low cardiorespiratory fitness and fatigue in patients with systemic lupus erythematosus. [ABSTRACT FROM AUTHOR]

Published

2022

20. Tidal volume expandability affected by flow, dynamic hyperinflation, and quasi-fixed inspiratory time in patients with COPD and healthy individuals.

Author

Ming-Lung Chuang

Abstract

Exertional dyspnea (ED) and impaired exercise performance (EP) are mainly caused by dynamic hyperinflation (DH) in chronic obstructive pulmonary disease (COPD) patients by constraining tidal volume expansion at peak exercise (VTpeak). As VTpeak is the product of inspiratory time (TIpeak) and flow (VT/TIpeak), it was hypothesized that VTpeak and VTpeak/total lung capacity (VTpeak/TLC) may be affected by TIpeak and VT/TIpeak. Hence, the study investigated the (1) effect of TIpeak and VT/TIpeak on VTpeak expansion, (2) factors associated with TIpeak, expiratory time (TEpeak), VT/TIpeak, and VTpeak/TLC, and (3) relationships between VT/TIpeak and VTpeak/TLC with ED and EP in COPD patients and controls. The study enrolled 126 male stable COPD patients and 33 sex-matched controls. At peak exercise, TIpeak was similar in all subjects (COPD versus controls, mean ± SD: 0.78 ± 0.17 s versus 0.81 ± 0.20 s, p = NS), whereas the COPD group had lower VT/TIpeak (1.71 ± 0.49 L/s versus 2.58 ± 0.69 L/s, p < .0001) and thus the COPD group had smaller VTpeak (1.31 ± 0.34 L versus 2.01 ± 0.45 L,p < .0001) and VTpeak/TLC (0.22 ± 0.06 vs 0.33 ± 0.05, p < .0001). TIpeak, TEpeak, and VT/TIpeak were mainly affected by exercise effort, whereas VTpeak/TLC was not. TEpeak, VT/TIpeak, and VTpeak/TLC were inversely changed by impaired lung function. TIpeak was not affected by lung function. Dynamic hyperinflation did not occur in the controls, however, VTpeak/TLC was strongly inversely related to DH (r = −0.79) and moderately to strongly related to lung function, ED, and EP in the COPD group. There was a slightly stronger correlation between VTpeak/TLC with ED and EP than VT/TIpeak in the COPD group (|r| = 0.55–0.56 vs 0.38–0.43). In summary, TIpeak was similar in both groups and the key to understanding how flow affects lung expansion. However, the DH volume effect was more important than the flow effect on ED and EP in the COPD group. [ABSTRACT FROM AUTHOR]

Published

2022

21. Contactless Monitoring of Breathing Pattern and Thoracoabdominal Asynchronies in Preterm Infants Using Depth Cameras: A Feasibility Study

Author

Valeria Ottaviani, Chiara Veneroni, Raffaele L. Dellaca', Anna Lavizzari, Fabio Mosca, and Emanuela Zannin

Subjects

Breathing pattern, depth camera, newborn infants, respiratory movements, RGB-D sensors, thoracoabdominal displacements, Computer applications to medicine. Medical informatics, R858-859.7, Medical technology, R855-855.5

Abstract

Objective: Monitoring infants’ breathing activity is crucial in research and clinical applications but remains a challenge. This study aims to develop a contactless method to monitor breathing patterns and thoracoabdominal asynchronies in infants inside the incubator, using depth cameras. Methods: We proposed an algorithm to extract the 3D displacements of the ribcage and abdomen from the analysis of depth images. We evaluated the accuracy of the system in-vitro vs. a reference motion capture analyzer. We also conducted a feasibility study on 12 patients receiving non-invasive respiratory support to estimate the mean and the variability of the chest wall displacements in preterm infants and evaluate the suitability of the proposed system in the clinical setting. Results: In-vitro, the mean (95% CI) error in the measurement of amplitude, frequency and phase shift between compartmental displacements was −0.14 (−0.57, 0.28) mm, 0.02 (−0.99, 1.03) bpm, and −0.40 (−1.76, 0.95)°, respectively. In-vivo, the mean (95% CI) amplitude of the ribcage and abdomen displacements were 0.99 (0.34, 2.67) mm and 1.20 (0.40, 2.15) mm, respectively. Conclusions: The developed system proved accurate in-vitro and was suitable for the clinical environment. Clinical Impact: The proposed method has value for evaluating infants’ breathing patterns in research applications and, after further development, may represent a simple monitoring tool for infants’ respiratory activity inside the incubator.

Published

2022

22. A Non-contact Approach for Detection of Sleep Apnea Using Doppler Phenomena

Author

Rai, Sumit Kumar, Sharma, Chetna, Shaw, Vikash, Jha, Ranjan Kumar, Kumar, Sanjeev, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Mahapatra, Rajendra Prasad, editor, Panigrahi, B. K., editor, Kaushik, Brajesh K., editor, and Roy, Sudip, editor

Published

2021

23. Nasal High-Flow (NHF) Improves Ventilation in Patients with Interstitial Lung Disease (ILD)—A Physiological Study

Author

Jens Bräunlich, Marcus Köhler, and Hubert Wirtz

Subjects

nasal high-flow, NHF, hypercapnia, lung fibrosis, ILD, breathing pattern, Medicine

Abstract

Introduction: Acute hypercapnic respiratory failure has a poor prognosis in patients with interstitial lung disease (ILD). Recent data demonstrated a positive effect of nasal high-flow (NHF) in patients with acute hypoxemic respiratory failure. Preliminary data also show benefits in several hypercapnic chronic lung diseases. Objectives: The aim of this study was to characterize flow-dependent changes in mean airway pressure, breathing volumes, and breathing frequency and decreases in PCO2. Methods: Mean airway pressure was measured in the nasopharyngeal space. To evaluate breathing volumes, a polysomnographic device was used (16 patients). All subjects received 20, 30, 40, and 50 L/min and—to illustrate the effects—nCPAP and nBiPAP. Capillary blood gas analyses were performed in 25 hypercapnic ILD subjects before and 5 h after the use of NHF. Additionally, comfort and dyspnea during the use of NHF were surveyed. Results: NHF resulted in a small flow-dependent increase in mean airway pressure. Tidal volume was unchanged and breathing rate decreased. The calculated minute volume decreased by 20 and 30 L/min NHF breathing. In spite of this fact, hypercapnia decreased at a flow rate of 24 L/min. Additionally, an improvement in dyspnea was observed. Conclusions: NHF leads to a reduction in paCO2. This is most likely achieved by a washout of the respiratory tract and a reduction in functional dead space. NHF enhances the effectiveness of breathing in ILD patients by the reduction in respiratory rate. In summary, NHF works as an effective ventilatory support device in hypercapnic ILD patients.

Published

2023

24. Effects of physical stress in alpine skiing on psychological, physiological, and biomechanical parameters: An individual approach

Author

Thomas Finkenzeller, Tim Burberg, Stefan Kranzinger, Eric Harbour, Cory Snyder, Sabine Würth, and Günter Amesberger

Subjects

individuality, holistic approach, physical load, fatigue processes, breathing pattern, experienced male skier, Sports, GV557-1198.995

Abstract

Alpine skiing is an attractive winter sport that often includes mental and physical demands. Since skiing is often done for several hours, fatigue processes occur that might lead to action errors associated with a higher risk of accidents and injuries. The aim of this study was to investigate the timing of changes in subjective, physiological, and biomechanical parameters during a physically demanding, standardized, non-competitive alpine skiing session. A group of 22 experienced male skiers carried out 10 runs, each lasting between 150 and 180 s, at a turn rate of 80 turns per minute with their best skiing technique. Immediately after the run, skiers reported ratings of fatigue, and other affective states. During skiing, breathing pattern and biomechanical data of the ski turns as radial force, turn duration, edge angle symmetry, and a composed motion quality score were recorded. Analyses of variances on skiers showing signs of fatigue (n =16) revealed that only the subjective data changed significantly over time: fatigue and worry increased, vitality and calm decreased. Subsequently, individual change points analyses were computed to localize abrupt distribution or statistical changes in time series data. For some skiers, abrupt changes at certain runs in physiological and/or biomechanical parameters were observed in addition to subjective data. The results show general effects in subjective data, and individual fatigue-related patterns concerning the onset of changes in subjective, physiological, and biomechanical parameters. Individuality of response to fatigue should be considered when studying indicators of fatigue data. Based on the general effects in subjective data, it is concluded that focusing on self-regulation and self-awareness may play a key role, as subjective variables have been shown generally sensitive to the physical stress in alpine skiing. In the future, customized algorithms that indicate the onset of fatigue could be developed to improve alpine skiers' self-awareness and self-regulation, potentially leading to fewer action errors.

Published

2022

25. The effect of phonated breathing on oxygen uptake during and after submaximal cycling

Author

Nejka Potočnik and Kaja Stanković

Subjects

phonated exhalation, breathing pattern, positive expiratory pressure, metabolic efficiency, moderate exercise, Sports, GV557-1198.995

Abstract

Purpose: Positive expiratory pressure (PEP) exhalation during exercise is reported to improve body adaptation to exercise and enhance the exercise tolerance in patients with chronic obstructive pulmonary disease. Wearing mouthguards results in lower oxygen consumption and increased performance by increasing PEP in athletes. Airway resistance during expiration can be manipulated by phonation. Thus, the aim of our study was to examine the effects of phonated breathing on cardiopulmonary adaptation to moderate exercise and subsequent recovery. Methods: 26 young healthy participants conducted the same moderate steady cycling protocol using three different breathing patterns: spontaneous breathing (BrP1), phonated breathing pronouncing the sound “h” (BrP2) and phonated breathing pronouncing the sound “sh” (BrP3). Heart rate, oxygen consumption, CO2 production, respiratory rate, tidal volume, respiratory exchange ratio and ventilatory equivalents were measured (Cosmed, Italy) before, during and 20 minutes after cycling. Data were analyzed using SPSS, with significance level p

Published

2022

26. Respiratory function and breathing response to water‐ and land‐based cycling at the matched oxygen uptake.

Author

Hoshi, Daisuke, Fukuie, Marina, Hashitomi, Tatsuya, Tarumi, Takashi, Sugawara, Jun, and Watanabe, Koichi

Subjects

*CYCLING, *AQUATIC exercises, *VITAL capacity (Respiration), *RESPIRATORY muscles, *RESPIRATION

Abstract

The impact of underwater exercise on respiratory function remains unclear when its metabolic rate is matched with exercise performed on land. Therefore, we compared the breathing responses and respiratory function during and after water (WC)‐ and land (LC)‐based cycling performed at the matched oxygen uptake (VO2). Twelve healthy men performed 15 min of incremental WC and LC on separate days. During WC, participants cycled continuously at 30, 45, and 60 rpm (stages 1, 2, and 3) for 5 min each. During LC, participants cycled at 60 rpm for 15 min while wattage was increased every 5 min and adjusted to match VO2 to the WC condition. Breathing patterns during cycling and spirometry data before and after cycling were collected. VO2 during WC and LC was similar. Respiratory rate (WC: 27 ± 3 vs. LC: 23 ± 4 bpm, p = 0.012) and inspiratory flow (WC: 1233 ± 173 vs. LC: 1133 ± 200 ml/s, p = 0.035) were higher and inspiratory time (WC: 1.0 ± 0.1 vs. LC: 1.2 ± 0.2 s, p = 0.025) was shorter at stage 3 during WC than LC. After WC, forced vital capacity (p = 0.010) significantly decreased while no change was observed after LC. These results suggest that at similar metabolic rates during WC and LC, breathing is slightly shallower during WC which may have chronic effects on respiratory muscle function after multiple bouts of aquatic cycling. Underwater exercise may be beneficial for respiratory muscle rehabilitation when performed on a chronic basis. [ABSTRACT FROM AUTHOR]

Published

2022

27. BREATHING VARIABILITY DURING RUNNING IN ATHLETES: THE ROLE OF SEX, EXERCISE INTENSITY AND BREATHING RESERVE.

Author

Lopes TR, de Oliveira DM, Amoroso de Lima LA, and Silva BM

Abstract

Highly trained aerobic athletes progressively use most of their breathing reserve with increased exercise intensity during whole-body exercise. Additionally, females typically present proportionally smaller lungs than males. Therefore, sex, exercise intensity, and breathing reserve use likely influence the volume and time in which respiratory parameters vary between consecutive breaths during whole-body exercise. However, breath-by-breath variability has been scarcely investigated during exercise. Accordingly, we sought to investigate breath-by-breath pulmonary ventilation (V̇ E ), tidal volume ( V T ), and respiratory frequency (f R ) variability during a maximal treadmill incremental exercise test in 17 females and 18 males highly trained professional endurance runners. The breath-by-breath variability was analyzed by root mean square of successive differences (RMSSD) within 1-minute windows. Females had lower absolute and percent predicted forced expiratory volume in one second (FEV 1 ) and forced vital capacity (FVC) than males, as well as lower height-adjusted absolute FVC than males. V̇ E and V T reserve use were similar between the sexes at peak exercise. While RMSSDV̇ E and RMSSDf R did not change over exercise (P > 0.05), RMSSDV T progressively decreased (P < 0.001). RMSSDV T was negatively correlated with V T reserve use only in males. Females showed lower RMSSDV̇ E than males during the entire exercise test (P < 0.001). At iso-V̇ E reserve use, between-sex differences in RMSSDV̇ E persisted (P = 0.003). Our findings indicate that exercise intensity decreases V T variability in professional runners, which is linked to V T reserve use in males but not females. Additionally, the female sex lowers V̇ E variability regardless of exercise intensity and V̇ E reserve use., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

28. Mobile Health Monitoring System Including Biofeedback Training Through Analysis of PPG and Respiratory Pattern Change

Author

Kim, Daechang, Kim, Jaeyong, Jeong, Jaehoon, Kim, Sungmin, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Martin, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, Park, James J., editor, Park, Doo-Soon, editor, Jeong, Young-Sik, editor, and Pan, Yi, editor

Published

2020

29. Recording of the Breathing Pattern in the Test with Controlled Hyperventilation in Subjects with a Borderline Type Personality Disorder

Author

Lozovanu, S., Moldovanu, I., Vovc, V., Besleaga, T., Ganenco, A., Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Tiginyanu, Ion, editor, Sontea, Victor, editor, and Railean, Serghei, editor

Published

2020

30. Respiratory function and breathing response to water‐ and land‐based cycling at the matched oxygen uptake

Author

Daisuke Hoshi, Marina Fukuie, Tatsuya Hashitomi, Takashi Tarumi, Jun Sugawara, and Koichi Watanabe

Subjects

breathing pattern, respiratory muscle training, water‐based cycling, Physiology, QP1-981

Abstract

Abstract The impact of underwater exercise on respiratory function remains unclear when its metabolic rate is matched with exercise performed on land. Therefore, we compared the breathing responses and respiratory function during and after water (WC)‐ and land (LC)‐based cycling performed at the matched oxygen uptake (VO2). Twelve healthy men performed 15 min of incremental WC and LC on separate days. During WC, participants cycled continuously at 30, 45, and 60 rpm (stages 1, 2, and 3) for 5 min each. During LC, participants cycled at 60 rpm for 15 min while wattage was increased every 5 min and adjusted to match VO2 to the WC condition. Breathing patterns during cycling and spirometry data before and after cycling were collected. VO2 during WC and LC was similar. Respiratory rate (WC: 27 ± 3 vs. LC: 23 ± 4 bpm, p = 0.012) and inspiratory flow (WC: 1233 ± 173 vs. LC: 1133 ± 200 ml/s, p = 0.035) were higher and inspiratory time (WC: 1.0 ± 0.1 vs. LC: 1.2 ± 0.2 s, p = 0.025) was shorter at stage 3 during WC than LC. After WC, forced vital capacity (p = 0.010) significantly decreased while no change was observed after LC. These results suggest that at similar metabolic rates during WC and LC, breathing is slightly shallower during WC which may have chronic effects on respiratory muscle function after multiple bouts of aquatic cycling. Underwater exercise may be beneficial for respiratory muscle rehabilitation when performed on a chronic basis.

Published

2022

31. The Effect of Device-Controlled Breathing on the Pulse Arrival Time and the Heart Rate Asymmetry Parameters in Healthy Volunteers

Author

Bella Eszter Ajtay, Szabolcs Béres, and László Hejjel

Subjects

pulse arrival time, photoplethysmography, heart rate asymmetry, breathing pattern, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Background: The development of wearables has facilitated the monitoring of biomedical parameters in everyday life. One of the most common sensors of these gadgets is the photoplethysmograph (PPG); hence, the proper processing and interpretation of the PPG signal are essential. Besides pulse rate detection, these devices—together with an ECG—compute the pulse arrival time (PAT), from which the actual beat-to-beat blood pressure can be estimated. The heart rate shows asymmetrical accelerations and decelerations, quantified by the parameters of heart rate asymmetry (HRA). In the present study, we investigated the influences of different breathing-patterns on the PATs and HRA parameters. Methods: The authors evaluated 5 min simultaneous respiratory-, ECG- and PPG-signal recordings of 35 healthy, young volunteers specifically expressing the following breathing patterns: metronome-controlled inspiration, and both inspiration and expiration controlled at 1:1 and 1:2 ratios, respectively. The records were analyzed by HRVScan_Merge v3.2 software. The PAT values were calculated at eight different reference points. The HRA parameters and the PAT values at different breathing patterns were compared using the Friedman test and post hoc Wilcoxon paired-sample test. Results: Porta- and Guzik-indices significantly increased at 1:1 breathing compared to 1:2 and single-paced breathing. PATs increased significantly in dual-paced series compared to single-paced series at each reference point. Conclusion: Based on our results, the increased PATs at dual-paced versus single-paced breathing may indicate the involvement of cognitive functions. The symmetrical respiration ratio increases the heart rate symmetry; however, this effect is not detectable in the periphery through the PATs.

Published

2023

32. Tidal volume expandability affected by flow, dynamic hyperinflation, and quasi-fixed inspiratory time in patients with COPD and healthy individuals.

Author

Chuang, Ming-Lung

Abstract

Exertional dyspnea (ED) and impaired exercise performance (EP) are mainly caused by dynamic hyperinflation (DH) in chronic obstructive pulmonary disease (COPD) patients by constraining tidal volume expansion at peak exercise (VTpeak). As VTpeak is the product of inspiratory time (TIpeak) and flow (VT/TIpeak), it was hypothesized that VTpeak and VTpeak/total lung capacity (VTpeak/TLC) may be affected by TIpeak and VT/TIpeak. Hence, the study investigated the (1) effect of TIpeak and VT/TIpeak on VTpeak expansion, (2) factors associated with TIpeak, expiratory time (TEpeak), VT/TIpeak, and VTpeak/TLC, and (3) relationships between VT/TIpeak and VTpeak/TLC with ED and EP in COPD patients and controls. The study enrolled 126 male stable COPD patients and 33 sex-matched controls. At peak exercise, TIpeak was similar in all subjects (COPD versus controls, mean ± SD: 0.78 ± 0.17 s versus 0.81 ± 0.20 s, p = NS), whereas the COPD group had lower VT/TIpeak (1.71 ± 0.49 L/s versus 2.58 ± 0.69 L/s, p <.0001) and thus the COPD group had smaller VTpeak (1.31 ± 0.34 L versus 2.01 ± 0.45 L, p <.0001) and VTpeak/TLC (0.22 ± 0.06 vs 0.33 ± 0.05, p <.0001). TIpeak, TEpeak, and VT/TIpeak were mainly affected by exercise effort, whereas VTpeak/TLC was not. TEpeak, VT/TIpeak, and VTpeak/TLC were inversely changed by impaired lung function. TIpeak was not affected by lung function. Dynamic hyperinflation did not occur in the controls, however, VTpeak/TLC was strongly inversely related to DH (r = −0.79) and moderately to strongly related to lung function, ED, and EP in the COPD group. There was a slightly stronger correlation between VTpeak/TLC with ED and EP than VT/TIpeak in the COPD group (|r| = 0.55–0.56 vs 0.38–0.43). In summary, TIpeak was similar in both groups and the key to understanding how flow affects lung expansion. However, the DH volume effect was more important than the flow effect on ED and EP in the COPD group. [ABSTRACT FROM AUTHOR]

Published

2022

33. Dentocraniofacial Cephalometric and Clinical Parameter Comparison of Obstructive Sleep Apnea (OSA) and Control Group Patient Age 9–12 Years before Orthodontic Treatment.

Author

Wulandari, Ignatia, Purwanegara, Miesje Karmiati, Fardizza, Fauziah, and Tarman, Krisnawati

Subjects

SLEEP apnea syndromes, AGE groups, GIRLS, CORRECTIVE orthodontics, CONTROL groups, AGE differences

Abstract

Obstructive Sleep Apnea (OSA) in children might cause changes in breathing patterns which could affect the growth and development of dentocraniofacial of the patient that forms the adenoid face and possibly disrupt soft tissue equilibrium, occlusion, and facial esthetics. Therefore, OSA in adults needs to be traced back since childhood. The objective of this study was to compare various lateral cephalometric measurement of children with OSA and control. Subjects who meet the inclusion and exclusion criteria were grouped based on the results of Pediatric Sleep Questionnaire (PSQ), Polysomnography test (PSG), and risk factor analysis. Dentocraniofacial cephalometric measurements were compared between 17 OSA subjects (14 boys, 3 girls, median 11,92 years) and 17 control subjects (8 boys, 9 girls, median 10,42 years). Subjects has no significant differences in age and sex, meanwhile there was significant difference on PSQ results, PSG results, and several risk factors analysis (Friedman Tongue Position (FTP), tonsil size by Brodsky, hyoid position, upper pharyngeal width, lower pharyngeal width, and adenoid ratio by Fujioka). Cephalometric analysis results showed significant differences between the OSA group and the control group on horizontal parameters (NAPg, SNB, ANB, and UI)MxP). There were no significant differences between head posture, and cephalometric vertical parameter between OSA group and control. However, head posture angle and all cephalometric vertical parameters in OSA group ware higher clinically than control. The horizontal skeletal and dental parameter on cephalometric that were significantly different between the OSA and control groups in this study indicated that the effect of OSA on dentocraniofacial growth and development at the age of 9–12 years was more likely to be dominant in the horizontal direction and not yet in the vertical direction. [ABSTRACT FROM AUTHOR]

Published

2022

34. Breathing in the Cold: Seasonal Changes in the Ventilatory Pattern in a Small Boreal Passerine Bird

Author

Claus Bech and Carita Mariussen

Subjects

great tit (Parus major), lung oxygen extraction, metabolic rate, breathing pattern, seasonal acclimatization, thermoregulation, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Small passerine birds in the north need to take advantage of several behavioral and physiological mechanisms to maintain energy balance during the winter characterized by low food supply, low ambient temperatures, and short days. Here we test if the breathing pattern of a non-migratory species, the great tit (Parus major), show seasonal variation that could help the species keeping a positive energy balance in the winter. To this aim, we measured oxygen consumption and ventilatory variables (tidal volume and respiratory frequency) in summer- and winter-acclimatized great tits exposed to ambient temperatures between –15 and 30°C. Winter-acclimatized great tits had a higher resting metabolic rate and a different breathing pattern compared to the summer-acclimatized birds. During the winter the great tits utilized a breathing pattern, consisting of an increased respiratory frequency to tidal volume ratio compared to summer-acclimatized birds at all temperatures. The higher oxygen uptake and the altered breathing pattern in the winter-acclimatized tits resulted in a higher lung oxygen extraction. However, during acute cold exposure neither the winter- nor summer-acclimatized great tits increased the oxygen extraction at low ambient temperature. The higher lung oxygen extraction in the winter-acclimatized tits implies that the birds will save on the minute ventilation, which reduces the evaporative water loss through respiration. The daily water loss saved can be more than 1 g of water per day. This is a substantial saving corresponding to a saving in evaporative heat loss corresponding to between 4 and 8% of the resting metabolic rate. This might be significant in keeping an energy balance, and the altered breathing pattern in the winter, ensuring an increased oxygen extraction, may therefore represents an additional physiological mechanism making it possible for small passerine birds to survive the northern winter.

Published

2022

35. Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running.

Author

Harbour, Eric, Stöggl, Thomas, Schwameder, Hermann, and Finkenzeller, Thomas

Subjects

EXERCISE physiology, SPORTS physiology, RESPIRATION, SPORTS sciences, RUNNING

Abstract

Running is among the most popular sporting hobbies and often chosen specifically for intrinsic psychological benefits. However, up to 40% of runners may experience exercise-induced dyspnoea as a result of cascading physiological phenomena, possibly causing negative psychological states or barriers to participation. Breathing techniques such as slow, deep breathing have proven benefits at rest, but it is unclear if they can be used during exercise to address respiratory limitations or improve performance. While direct experimental evidence is limited, diverse findings from exercise physiology and sports science combined with anecdotal knowledge from Yoga, meditation, and breathwork suggest that many aspects of breathing could be improved via purposeful strategies. Hence, we sought to synthesize these disparate sources to create a new theoretical framework called "Breath Tools" proposing breathing strategies for use during running to improve tolerance, performance, and lower barriers to long-term enjoyment. [ABSTRACT FROM AUTHOR]

Published

2022

36. Does breathing pattern affect cerebrovascular reactivity?

Author

Sayin, Ece Su, Davidian, Anahis, Levine, Harrison, Venkatraghavan, Lashmi, Mikulis, David J., Fisher, Joseph A., Sobczyk, Olivia, and Duffin, James

Subjects

*CEREBRAL circulation, *RESPIRATION, *CARBON dioxide

Abstract

New Findings: What is the central question of this study?Is cerebrovascular reactivity affected by isocapnic changes in breathing pattern?What is the main finding and its importance?Cerebrovascular reactivity does not change with isocapnic variations in tidal volume and frequency. Deviations of arterial carbon dioxide tension from resting values affect cerebral blood vessel tone and thereby cerebral blood flow. Arterial carbon dioxide tension also affects central respiratory chemoreceptors, adjusting respiratory drive. This coincidence raises the question: does respiratory drive also affect the cerebral blood flow response to carbon dioxide? A change in cerebral blood flow for a given change in the arterial carbon dioxide tension is defined as cerebrovascular reactivity (CVR). Two studies have reached conflicting conclusions on this question, using voluntary control of breathing as a disturbing factor during measurements of CVR. Here, we address some of the methodological limitations of both studies by using sequential gas delivery and targeted control of carbon dioxide and oxygen to enable a separation of the effects of carbon dioxide on CVR from breathing vigour. We confirm that there is no detectable superimposed effect of breathing efforts on CVR. [ABSTRACT FROM AUTHOR]

Published

2022

37. Phase‐ and state‐dependent modulation of breathing pattern by preBötzinger complex somatostatin expressing neurons.

Author

de Sousa Abreu, Raquel P., Bondarenko, Evgeny, and Feldman, Jack L.

Subjects

*SOMATOSTATIN, *RESPIRATION, *NEURONS, *RESPIRATORY mechanics, *BALANCE of payments, *REGULATION of respiration, *OPTOGENETICS

Abstract

As neuronal subtypes are increasingly categorized, delineating their functional role is paramount. The preBötzinger complex (preBötC) subpopulation expressing the neuropeptide somatostatin (SST) is classified as mostly excitatory, inspiratory‐modulated and not rhythmogenic. We further characterized their phenotypic identity: 87% were glutamatergic and the balance were glycinergic and/or GABAergic. We then used optogenetics to investigate their modulatory role in both anaesthetized and freely moving mice. In anaesthetized mice, short photostimulation (100 ms) of preBötC SST+ neurons modulated breathing‐related variables in a combinatory phase‐ and state‐dependent manner; changes in inspiratory duration, inspiratory peak amplitude (Amp), and phase were different at higher (≥2.5 Hz) vs. lower (<2.5 Hz) breathing frequency (f). Moreover, we observed a biphasic effect of photostimulation during expiration that is probabilistic, that is photostimulation given at the same phase in consecutive cycles can evoke opposite responses (lengthening vs. shortening of the phase). These unexpected probabilistic state‐ and phase‐dependent responses to photostimulation exposed properties of the preBötC that were not predicted and cannot be readily accounted for in current models of preBötC pattern generation. In freely moving mice, prolonged photostimulation decreased f in normoxia, hypoxia or hypercapnia, and increased Amp and produced a phase advance, which was similar to the results in anaesthetized mice when f ≥ 2.5 Hz. We conclude that preBötC SST+ neurons are a key mediator of the extraordinary and essential lability of breathing pattern. Key points: PreBötzinger complex (preBötC) SST+ neurons, which modulate respiratory pattern but are not rhythmogenic, were transfected with channelrhodopsin to investigate phase‐ and state‐dependent modulation of breathing pattern in anaesthetized and freely behaving mice in normoxia, hypoxia and hypercapnia.In anaesthetized mice, photostimulation during inspiration increased inspiratory duration and amplitude regardless of baseline f, yet the effects were more robust at higher f.In anaesthetized mice with low f (<2.5 Hz), photostimulation during expiration evoked either phase advance or phase delay, whereas in anaesthetized mice with high f (≥2.5 Hz) and in freely behaving mice in normoxia, hypoxia or hypercapnia, photostimulation always evoked phase advance.Phase‐ and state‐dependency is a function of overall breathing network excitability.The f‐dependent probabilistic modulation of breathing pattern by preBötC SST+ neurons was unexpected, requiring reconsideration of current models of preBötC function, which neither predict nor can readily account for such responses. [ABSTRACT FROM AUTHOR]

Published

2022

38. Breath Tools: A Synthesis of Evidence-Based Breathing Strategies to Enhance Human Running

Author

Eric Harbour, Thomas Stöggl, Hermann Schwameder, and Thomas Finkenzeller

Subjects

breathing pattern, coupling, running, techniques, strategies, respiration, Physiology, QP1-981

Abstract

Running is among the most popular sporting hobbies and often chosen specifically for intrinsic psychological benefits. However, up to 40% of runners may experience exercise-induced dyspnoea as a result of cascading physiological phenomena, possibly causing negative psychological states or barriers to participation. Breathing techniques such as slow, deep breathing have proven benefits at rest, but it is unclear if they can be used during exercise to address respiratory limitations or improve performance. While direct experimental evidence is limited, diverse findings from exercise physiology and sports science combined with anecdotal knowledge from Yoga, meditation, and breathwork suggest that many aspects of breathing could be improved via purposeful strategies. Hence, we sought to synthesize these disparate sources to create a new theoretical framework called “Breath Tools” proposing breathing strategies for use during running to improve tolerance, performance, and lower barriers to long-term enjoyment.

Published

2022

39. Changes in breathing pattern during severe hypothermia and autoresuscitation from hypothermic respiratory arrest in anesthetized mice.

Author

Taiji, Saki, Nishino, Takashi, Jin, Hisayo, Shinozuka, Norihiro, Nozaki‐Taguchi, Natsuko, and Isono, Shiroh

Subjects

*HYPOTHERMIA, *BODY temperature, *RESPIRATION, *MICE, *ARREST

Abstract

Some evidence suggests that both hypothermia and anesthesia can exert similar effects on metabolism and ventilation. This study examined the synergistic effects of anesthesia and hypothermia on ventilation in spontaneously breathing adult mice under three different conditions, that is, (1) pentobarbital group (n = 7) in which mice were anesthetized with intraperitoneal pentobarbital of 80 mg/kg, (2) sevoflurane‐continued group (n = 7) in which mice were anesthetized with 1 MAC sevoflurane, and (3) sevoflurane‐discontinued group (n = 7) in which sevoflurane was discontinued at a body temperature below 22˚C. We cooled mice in each group until breathing ceased and followed this with artificial rewarming while measuring changes in respiratory variables and heart rate. We found that the body temperature at which respiration arrested is much lower in the sevoflurane‐discontinued group (13.8 ± 2.0˚C) than that in the sevoflurane‐continued group (16.7 ± 1.2˚C) and the pentobarbital group (17.0 ± 1.4˚C). Upon rewarming, all animals in all three groups spontaneously recovered from respiratory arrest. There was a considerable difference in breathing patterns between sevoflurane‐anesthetized mice and pentobarbital‐anesthetized mice during progressive hypothermia in terms of changes in tidal volume and respiratory frequency. The changes in the respiratory pattern during rewarming are nearly mirrored images of the changes observed during cooling in all three groups. These observations indicate that adult mice are capable of autoresuscitation from hypothermic respiratory arrest and that anesthesia and hypothermia exert synergistic effects on the occurrence of respiratory arrest while the type of anesthetic affects the breathing pattern that occurs during progressive hypothermia leading to respiratory arrest. [ABSTRACT FROM AUTHOR]

Published

2021

40. Ventilatory responses at submaximal exercise intensities in healthy children and adolescents during the growth spurt period: a semi-longitudinal study.

Author

Zhou, Fenfen, Yin, Xiaojian, Phillipe, Kilian, Houssein, Aya, Gastinger, Steven, and Prioux, Jacques

Subjects

*EXERCISE intensity, *TEENAGERS, *LEAN body mass, *ANAEROBIC threshold, *VITAL capacity (Respiration)

Abstract

Purpose: To identify the changes of ventilation ( V ˙ E), tidal volume (VT) and respiratory frequency (fr) at different incremental step test intensities during maturation of children and adolescents. Methods: A semi-longitudinal study was conducted on 68 healthy untrained boys and girls aged 11–17 years. The subjects were separated into three distinct age groups. V ˙ E, VT and fr parameters were evaluated annually during 3 years by modifying incremental step test intensities according to ventilatory threshold (VTh) level (30, 60 and 90% of V ˙ O2max). Absolute and relative values of ventilatory responses were analyzed and compared according to age and developmental phase. Results: (1) Height, weight, lean body mass and vital capacity increased significantly from 11 to 17 years of age. (2) V ˙ O2max, V ˙ E, and VT increased during maturation even when exercise intensity changed, especially from 11 to 15 years of age. On the other hand, fr showed a decreasing trend. Conclusion: Increases of VT are the main reason for V ˙ E increases during maturation of children. fr decreased independently of total body mass during maturation. V ˙ E.kg−1 was stable despite intensity variations. VT.kg−1 increased significantly from 11 to 15 years then stabilized at 17 years. Lean body mass seems to explain the evolution of VT.kg−1 during maturation. [ABSTRACT FROM AUTHOR]

Published

2021

41. Is our breathing optimal? Solving a piecewise linear model with constraints.

Author

Zaidi, Faheem, Ben-Tal, Alona, and Roberts, Mick

Abstract

This paper is motivated by a question related to the control of amplitude and frequency of breathing. We present a simplified mathematical model, consisting of two piecewise linear ordinary differential equations, that could represent gas exchange in the lungs. We then define and solve an optimal control problem with unknown durations of inhalation and exhalation, subject to several constraints. The durations are divided such that one of the state variables is strictly increasing during the first phase and decreasing during the second phase. The optimal control problem can be solved analytically. One analytical solution is found when the forcing is a given sinusoidal function with unknown period and amplitude. Other analytical solutions are found when the forcing function, the period and the duration of the first phase are unknown but the amplitude is given. Our results show that different cost functions can produce different optimal forcing functions. We also show that the shape of these functions does not affect the average levels of oxygen in the lungs—the average level of oxygen is only dependent on the amplitude and period of breathing in the model we present. [ABSTRACT FROM AUTHOR]

Published

2021

42. The central nervous system during lung injury and mechanical ventilation: a narrative review.

Author

Albaiceta, Guillermo M., Brochard, Laurent, Dos Santos, Claudia C., Fernández, Rafael, Georgopoulos, Dimitris, Girard, Timothy, Jubran, Amal, López-Aguilar, Josefina, Mancebo, Jordi, Pelosi, Paolo, Skrobik, Yoanna, Thille, Arnaud W., Wilcox, Mary E., and Blanch, Lluis

Subjects

*ARTIFICIAL respiration, *CENTRAL nervous system, *POSITIVE pressure ventilation, *LUNG injuries, *CENTRAL nervous system injuries, *MULTIPLE organ failure, *POSITIVE end-expiratory pressure, *CATASTROPHIC illness, BRAIN metabolism

Abstract

Mechanical ventilation induces a number of systemic responses for which the brain plays an essential role. During the last decade, substantial evidence has emerged showing that the brain modifies pulmonary responses to physical and biological stimuli by various mechanisms, including the modulation of neuroinflammatory reflexes and the onset of abnormal breathing patterns. Afferent signals and circulating factors from injured peripheral tissues, including the lung, can induce neuronal reprogramming, potentially contributing to neurocognitive dysfunction and psychological alterations seen in critically ill patients. These impairments are ubiquitous in the presence of positive pressure ventilation. This narrative review summarises current evidence of lung-brain crosstalk in patients receiving mechanical ventilation and describes the clinical implications of this crosstalk. Further, it proposes directions for future research ranging from identifying mechanisms of multiorgan failure to mitigating long-term sequelae after critical illness. [ABSTRACT FROM AUTHOR]

Published

2021

43. A STUDY CORRELATING BREATHING PATTERN WITH DIFFERENT MALOCCLUSIONS AMONG PATIENTS REPORTING AT DEPARTMENT OF ORTHODONTICS AYUB MEDICAL COLLEGE, ABBOTTABAD, PAKISTAN.

Author

Noor, Nabbiya, Zubair, Asifa, and Ijaz, Wasim

Subjects

MALOCCLUSION, RESPIRATION, GINGIVAL diseases, ORTHODONTICS

Abstract

Background: The present era has been commanded by ample studies correlating breathing modes & risk of occurrence of malocclusion. The early intervention of altered breathing patterns can head off the long-lasting effects of already established malocclusion. The main intention of this project was to establish the possible correlation between mouth-breathing & malocclusions. Methods: Sixty-two (62) patients undergoing orthodontic treatment were evaluated via data form (including history & clinical evaluation). SPSS software version 25.0 was used for data analysis. Patient's age, gender, type of Angle's malocclusion & breathing pattern was taken in account while analysing data. Descriptive statistics & Chi- Square test was applied on the data. It was anticipated that mouth breathing is associated with malocclusion. p-value of less than 0.05 was considered to be statistically significant. Results: A total of 29 males & 33 females participated in the study. The mean age was 13 years (range 6-20 years). A significant correlation was found between mouth-breathing, tongue thrust (p=0.03) & bleeding gums (p=0.006). Other parameters had no significant correlation with mouth-breathing. Conclusion: The current study revealed that mouth breathing has significant association with opened mouth at rest & gingival abnormalities (bleeding/ swollen gums) implying that timely diagnosis of such abnormal breathing pattern can hinder with development of altered occlusion & dentofacial conformation. [ABSTRACT FROM AUTHOR]

Published

2021

44. Method of respiratory rate measurement using a unique wearable platform and an adaptive optical-based approach

Author

Gurpreet Singh, Augustine Tee, Thanawin Trakoolwilaiwan, Aza Taha, and Malini Olivo

Subjects

Respiratory rate, Automated, Technology, General wards, Breathing pattern, Manual counts, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background An efficient and accurate method of respiratory rate measurement is still missing in hospital general wards and triage. The goal of this study is to propose a method of respiratory rate measurement that has a potential to be used in general wards, triage, and different hospital settings with comparable performance. We propose a method of respiratory rate measurement that combines a unique wearable platform with an adaptive and optical approach. The optical approach is based on a direct-contact optical diffuse reflectance phenomenon. An adaptive algorithm is developed that computes the first respiratory rate and uses it to select a band. The band then chooses a set of unique optimized parameters in the algorithm to calculate and improve the respiratory rate. We developed a study to compare the proposed method against reference manual counts from 82 patients diagnosed with respiratory diseases. Results We found good agreement between the proposed method of respiratory rate measurement and reference manual counts. The performance of the proposed method highlighted deviations with a 95% confidence interval (C.I.) of − 3.34 and 3.67 breaths per minute (bpm) and a mean bias and standard deviation (STD) of 0.05 bpm and 2.56 bpm, respectively. Conclusions The performance of the proposed method of respiratory rate measurement is comparable with current manual counting and other respiratory rate devices reported. The method has additional advantages that include ease-of-use, quick setup time, and being mobile for wider clinical use. The proposed method has the potential as a tool to measure respiratory rates in a number of use cases.

Published

2020

45. The Effect of Streptozotocin-Induced Chronic Hyperglycemia on Respiratory Effects of Morphine in Rats

Author

S Pazhoohan and A Alimoradian

Subjects

diabetes, breathing pattern, morphine, respiratory system., Medicine, Medicine (General), R5-920

Abstract

BACKGROUND AND OBJECTIVE: Neuropathic pain is a common complication of diabetes. Today opioid analgesics such as morphine, use for the management of neuropathic pain. Since the respiratory effects of morphine have not been studied in diabetes, the aim of this study was to investigate the effect of chronic hyperglycemia on the effects of morphine on respiration. METHODS: 32 Male Wister rats were randomly allocated into control group (injection of citrate buffer as streptozotocin solvent), morphine group (injection of citrate buffer as STZ solvent and injection of morphine before respiratory recording) group, hyperglycemia group (STZ injection), and hyperglycemia-morphine group (STZ injection and morphine injection before respiratory recording). Hyperglycemia was induced by injecting streptozotocin (35 mg/kg, i.p.). Respiration was recorded by plethysmography after which respiratory volume, inter-breath interval, and respiratory rate were quantified using MATLAB. FINDINGS: Mean of respiratory rate (in the hyperglycemia was 83±3.9 and control was 101±4 (p

Published

2020

46. The influence of respiratory biofeedback training on the breathing pattern and anxiety

Author

Andrei Ganenco

Subjects

respiratory biofeedback, state and trait anxiety, breathing pattern, Medicine

Abstract

Background: The purpose of the respiratory biofeedback method is to change the dysfunctional respiratory pattern to the normal one, and to decrease the patient’s general anxiety, as biofeedback training can influence the parameters of the respiratory pattern and the level of anxiety. Material and methods: 12 subjects (3 men and 9 women), mean age 21.9 ± 1.1, with high level of trait anxiety, were selected for recording the respiratory pattern and respiratory biofeedback (RBF). Respiratory minute volume (MV), tidal volume (TV), duration of inspiration (Ti), duration of respiratory cycle (Tt), respiratory drive (TV/Ti) and ratio of inspiration (Ti/Tt) were measured. Breathing was recorded under the following conditions: resting breathing, paced voluntary hyperventilation, the recovery period after hyperventilation, voluntary apnea and recovery period after voluntary apnea, anticipatory stress. Respiratory biofeedback consisted of 12 sessions of abdominal, deep, 10 breaths/min, visually guided by the route on the computer screen. Results: After biofeedback, trait anxiety scores decreased in 11 subjects. TV, TV/Ti and MV after biofeedback have been decreased in all phases of research. Tt during the rest and hyperventilation periods did not change, but it was extended in all subsequent phases. RBF did not substantially change the Ti and Ti/Tt in all recording phases. Conclusions: RBF had a greater impact on volume parameters (TV, TV/Ti, MV) and little or no impact on time parameters.

Published

2019

47. Changes in breathing pattern during severe hypothermia and autoresuscitation from hypothermic respiratory arrest in anesthetized mice

Author

Saki Taiji, Takashi Nishino, Hisayo Jin, Norihiro Shinozuka, Natsuko Nozaki‐Taguchi, and Shiroh Isono

Subjects

adult mice, anesthetics, breathing pattern, hypothermia, respiratory arrest, Physiology, QP1-981

Abstract

Abstract Some evidence suggests that both hypothermia and anesthesia can exert similar effects on metabolism and ventilation. This study examined the synergistic effects of anesthesia and hypothermia on ventilation in spontaneously breathing adult mice under three different conditions, that is, (1) pentobarbital group (n = 7) in which mice were anesthetized with intraperitoneal pentobarbital of 80 mg/kg, (2) sevoflurane‐continued group (n = 7) in which mice were anesthetized with 1 MAC sevoflurane, and (3) sevoflurane‐discontinued group (n = 7) in which sevoflurane was discontinued at a body temperature below 22˚C. We cooled mice in each group until breathing ceased and followed this with artificial rewarming while measuring changes in respiratory variables and heart rate. We found that the body temperature at which respiration arrested is much lower in the sevoflurane‐discontinued group (13.8 ± 2.0˚C) than that in the sevoflurane‐continued group (16.7 ± 1.2˚C) and the pentobarbital group (17.0 ± 1.4˚C). Upon rewarming, all animals in all three groups spontaneously recovered from respiratory arrest. There was a considerable difference in breathing patterns between sevoflurane‐anesthetized mice and pentobarbital‐anesthetized mice during progressive hypothermia in terms of changes in tidal volume and respiratory frequency. The changes in the respiratory pattern during rewarming are nearly mirrored images of the changes observed during cooling in all three groups. These observations indicate that adult mice are capable of autoresuscitation from hypothermic respiratory arrest and that anesthesia and hypothermia exert synergistic effects on the occurrence of respiratory arrest while the type of anesthetic affects the breathing pattern that occurs during progressive hypothermia leading to respiratory arrest.

Published

2021

48. A computerized tool for the systematic visual quality assessment of infant multiple-breath washout measurements.

Author

Oestreich MA, Doswald I, Salem Y, Künstle N, Wyler F, Frauchiger BS, Kentgens AC, Latzin P, and Yammine S

Abstract

Background: Multiple-breath washout (MBW) is a sensitive method for assessing lung volumes and ventilation inhomogeneity in infants, but remains prone to artefacts (e.g., sighs). There is a lack of tools for systematic retrospective analysis of existing datasets, and unlike N 2 -MBW in older children, there are few specific quality control (QC) criteria for artefacts in infant SF 6 -MBW., Aim: We aimed to develop a computer-based tool for systematic evaluation of visual QC criteria of SF 6 -MBW measurements and to investigate interrater agreement and effects on MBW outcomes among three independent examiners., Methods: We developed a software package for visualization of raw Spiroware (Eco Medics AG, Switzerland) and signal processed WBreath (ndd Medizintechnik AG, Switzerland) SF 6 -MBW signal traces. Interrater agreement among three independent examiners (two experienced, one novice) who systematically reviewed 400 MBW trials for visual artefacts and the decision to accept/reject the washin and washout were assessed., Results: Our tool visualizes MBW signals and provides the user with (i) display options (e.g., zoom), (ii) options for a systematic QC assessment [e.g., decision to accept or reject, identification of artefacts (leak, sigh, irregular breathing pattern, breath hold), and comments], and (iii) additional information (e.g., automatic identification of sighs). Reviewer agreement was good using pre-defined QC criteria (κ 0.637-0.725). Differences in the decision to accept/reject had no substantial effect on MBW outcomes., Conclusion: Our visual quality control tool supports a systematic retrospective analysis of existing data sets. Based on predefined QC criteria, even inexperienced users can achieve comparable MBW results., Competing Interests: M-AO, FW, and PL are in regular contact with manufacturers of MBW devices (ndd Medizintechnik AG, Zurich, Switzerland and Eco Medics AG, Duernten, Switzerland), all outside of this work. PL: personal fees from Vertex, Novartis, Roche, Polyphor, Vifor, Gilead, Schwabe, Zambon, Santhera, grants from Vertex, all outside this work. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest, (© 2024 Oestreich, Doswald, Salem, Künstle, Wyler, Frauchiger, Kentgens, Latzin and Yammine.)

Published

2024

49. Expiratory braking defines the breathing patterns of asphyxiated neonates during therapeutic hypothermia.

Author

Papoff P, Caresta E, D'Agostino B, Midulla F, Petrarca L, Giannini L, Pisani F, and Montecchia F

Abstract

Introduction: Although neonatal breathing patterns vary after perinatal asphyxia, whether they change during therapeutic hypothermia (TH) remains unclear. We characterized breathing patterns in infants during TH for hypoxic-ischemic encephalopathy (HIE) and normothermia after rewarming., Methods: In seventeen spontaneously breathing infants receiving TH for HIE and in three who did not receive TH, we analyzed respiratory flow and esophageal pressure tracings for respiratory timing variables, pulmonary mechanics and respiratory effort. Breaths were classified as braked (inspiratory:expiratory ratio ≥1.5) and unbraked (<1.5)., Results: According to the expiratory flow shape braked breaths were chategorized into early peak expiratory flow, late peak expiratory flow, slow flow, and post-inspiratory hold flow (PiHF). The most braked breaths had lower rates, larger tidal volume but lower minute ventilation, inspiratory airway resistance and respiratory effort, except for the PiHF, which had higher resistance and respiratory effort. The braked pattern predominated during TH, but not during normothermia or in the uncooled infants., Conclusions: We speculate that during TH for HIE low respiratory rates favor neonatal braked breathing to preserve lung volume. Given the generally low respiratory effort, it seems reasonable to leave spontaneous breathing unassisted. However, if the PiHF pattern predominates, ventilatory support may be required., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2024 Papoff, Caresta, D'Agostino, Midulla, Petrarca, Giannini, Pisani and Montecchia.)

Published

2024

50. There ain't no such thing as a free lunch – especially in physiology software development.

Author

Wilson, Christopher G.

Published

2023