Search

Your search keyword '"Waldmann, Andreas D."' showing total 37 results
Start Over Author "Waldmann, Andreas D." Search Limiters Peer Reviewed
37 results on '"Waldmann, Andreas D."'

Catalog

Books, media, physical & digital resources
See catalog results

7. 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] more...

Published
2024
Full Text
View/download PDF

9. Evaluation of reconstruction parameters of electrical impedance tomography on aorta detection during saline bolus injection

Author

Thürk Florian, Waldmann Andreas D., Wodack Karin H., Trepte Constantin J., Reuter Daniel, Kampusch Stefan, and Kaniusas Eugenijus

Subjects
aorta, electrical impedance tomography, GREIT, hemodynamics, saline bolus, Medicine
Abstract

An accurate detection of anatomical structures in electrical impedance tomography (EIT) is still at an early stage. Aorta detection in EIT is of special interest, since it would favor non-invasive assessment of hemodynamic processes in the body. Here, diverse EIT reconstruction parameters of the GREIT algorithm were systematically evaluated to detect the aorta after saline bolus injection in apnea. True aorta position and size were taken from computed tomography (CT). A comparison with CT showed that the smallest error for aorta displacement was attained for noise figure nf = 0.7, weighting radius rw = 0.15, and target size ts = 0.01. The spatial extension of the aorta was most precise for nf = 0.7, rw = 0.25, and ts = 0.07. Detection accuracy (F1-score) was highest with nf = 0.6, rw = 0.15, and ts = 0.04. This work provides algorithm-related evidence for potentially accurate aorta detection in EIT after injection of a saline bolus. more...

Published
2016
Full Text
View/download PDF

14. Prophylactic surfactant nebulisation for the early aeration of the preterm lung: a randomised clinical trial.

Author

Gaertner, Vincent D., Minocchieri, Stefan, Waldmann, Andreas D., Mühlbacher, Tobias, Bassler, Dirk, Rüegger, Christoph Martin, and SUNSET study group

Subjects
CLINICAL trials, LUNGS, SURFACE active agents
Abstract

Objective: The effect of prophylactic surfactant nebulisation (SN) is unclear. We aimed to determine whether prophylactic SN improves early lung aeration.Design: Parallel, randomised clinical trial, conducted between March 2021 and January 2022.Setting: Delivery room (DR) of a tertiary neonatal centre in Zurich, Switzerland.Patients: Preterm infants between 26 0/7 and 31 6/7 weeks gestation INTERVENTIONS: Infants were randomised to receive positive distending pressure alone or positive distending pressure and additional SN (200 mg/kg; poractant alfa) using a customised vibrating membrane nebuliser. SN commenced with the first application of a face mask immediately after birth.Main Outcome Measures: Primary outcome was the difference in end-expiratory lung impedance from birth to 30 min after birth (∆EELI30min). EELI correlates well with functional residual capacity. Secondary outcomes included physiological and clinical outcomes.Results: Data from 35 infants were collected, and primary outcome data were analysed from 32 infants (n=16/group). Primary outcome was not different between intervention and control group (median (IQR): 25 (7-62) vs 10 (0-26) AU/kg, p=0.21). ∆EELI was slightly higher in the intervention group at 6 and 12 hours after birth, particularly in the central areas of the lung. There were no differences in cardiorespiratory and clinical parameters. Two adverse events were noted in the intervention group.Conclusions: Prophylactic SN in the DR did not significantly affect ∆EELI30min and showed only minimal effects on lung physiology. Prophylactic SN in the DR was feasible. There were no differences in clinical outcomes.Trial Registration Number: NCT04315636. [ABSTRACT FROM AUTHOR] more...

Published
2023
Full Text
View/download PDF

15. Lung volume changes during apnoeas in preterm infants.

Author

Gaertner, Vincent D., Waldmann, Andreas D., Davis, Peter G., Bassler, Dirk, Springer, Laila, Tingay, David Gerald, and Rüegger, Christoph Martin

Subjects
PREMATURE infants, LUNG volume, VERY low birth weight, ELECTRICAL impedance tomography, CONTINUOUS positive airway pressure
Published
2023
Full Text
View/download PDF

17. Lung volume distribution in preterm infants on non-invasive high-frequency ventilation.

Author

Gaertner, Vincent D., Waldmann, Andreas D., Davis, Peter G., Bassler, Dirk, Springer, Laila, Thomson, Jessica, Tingay, David Gerald, and Rüegger, Christoph Martin

Subjects
PREMATURE infants, LUNG volume, NEONATAL nursing, MECONIUM aspiration syndrome, NONINVASIVE ventilation, HIGH-frequency ventilation (Therapy), ELECTRICAL impedance tomography, RESEARCH, CONTINUOUS positive airway pressure, RESEARCH methodology, RESPIRATORY measurements, EVALUATION research, ARTIFICIAL respiration, COMPARATIVE studies, RANDOMIZED controlled trials, INTERMITTENT positive pressure breathing
Abstract

Introduction: Non-invasive high-frequency oscillatory ventilation (nHFOV) is an extension of nasal continuous positive airway pressure (nCPAP) support in neonates. We aimed to compare global and regional distribution of lung volumes during nHFOV versus nCPAP.Methods: In 30 preterm infants enrolled in a randomised crossover trial comparing nHFOV with nCPAP, electrical impedance tomography data were recorded in prone position. For each mode of respiratory support, four episodes of artefact-free tidal ventilation, each comprising 30 consecutive breaths, were extracted. Tidal volumes (VT) in 36 horizontal slices, indicators of ventilation homogeneity and end-expiratory lung impedance (EELI) for the whole lung and for four horizontal regions of interest (non-gravity-dependent to gravity-dependent; EELINGD, EELImidNGD, EELImidGD, EELIGD) were compared between nHFOV and nCPAP. Aeration homogeneity ratio (AHR) was determined by dividing aeration in non-gravity-dependent parts of the lung through gravity-dependent regions.Main Results: Overall, 228 recordings were analysed. Relative VT was greater in all but the six most gravity-dependent lung slices during nCPAP (all p<0.05). Indicators of ventilation homogeneity were similar between nHFOV and nCPAP (all p>0.05). Aeration was increased during nHFOV (mean difference (95% CI)=0.4 (0.2 to 0.6) arbitrary units per kilogram (AU/kg), p=0.013), mainly due to an increase in non-gravity-dependent regions of the lung (∆EELINGD=6.9 (0.0 to 13.8) AU/kg, p=0.028; ∆EELImidNGD=6.8 (1.2 to 12.4) AU/kg, p=0.009). Aeration was more homogeneous during nHFOV compared with nCPAP (mean difference (95% CI) in AHR=0.01 (0.00 to 0.02), p=0.0014).Conclusion: Although regional ventilation was similar between nHFOV and nCPAP, end-expiratory lung volume was higher and aeration homogeneity was slightly improved during nHFOV. The aeration difference was greatest in non-gravity dependent regions, possibly due to the oscillatory pressure waveform. The clinical importance of these findings is still unclear. [ABSTRACT FROM AUTHOR] more...

Published
2022
Full Text
View/download PDF

19. Intrapulmonary Volume Changes during Hiccups versus Spontaneous Breaths in a Preterm Infant.

Author

Gaertner, Vincent D., Waldmann, Andreas D., Bassler, Dirk, Hooper, Stuart B., and Rüegger, Christoph M.

Subjects
*PREMATURE infants, *HICCUPS, *ELECTRICAL impedance tomography, *GAS flow, *LUNG volume
Abstract

Hiccups occur at all ages but are most common during fetal development, and accordingly, they are seen regularly in preterm infants. However, the physiologic correlate of hiccups has never been established. We present the case of a preterm infant who developed a spell of hiccups and compared lung volume changes during hiccups with spontaneous breaths using electrical impedance tomography. Hiccups mostly occurred during the expiratory phase of breathing and were associated with a shorter inspiratory time and a larger tidal volume compared with spontaneous breaths. The center of ventilation was shifted toward the ventral (non-gravity-dependent) part of the lung during hiccups and volume changes were mainly restricted to the larger airways, but some gas flow also reached the lung parenchyma. Our observations shed new light on this phenomenon, which is well known but little researched, and our findings may imply a physiological impact of hiccups during fetal development. [ABSTRACT FROM AUTHOR] more...

Published
2022
Full Text
View/download PDF

20. Prolonged Continuous Monitoring of Regional Lung Function in Infants with Respiratory Failure.

Author

Becher, Tobias H., Miedema, Martijn, Kallio, Merja, Papadouri, Thalia, Karaoli, Christina, Sophocleous, Louiza, Rahtu, Marika, van Leuteren, Ruud W., Waldmann, Andreas D., Strodthoff, Claas, Yerworth, Rebecca, Dupré, Antoine, Benissa, Mohamed-Rida, Nordebo, Sven, Khodadad, Davood, Bayford, Richard, Vliegenthart, Roseanne, Rimensberger, Peter C., van Kaam, Anton H., and Frerichs, Inez more...

Subjects
RESEARCH, RESPIRATORY insufficiency, LUNGS, RESEARCH methodology, EVALUATION research, TOMOGRAPHY, COMPARATIVE studies, BIOELECTRIC impedance, RESEARCH funding
Abstract

Rationale: Electrical impedance tomography (EIT) allows instantaneous and continuous visualization of regional ventilation and changes in end-expiratory lung volume at the bedside. There is particular interest in using EIT for monitoring in critically ill neonates and young children with respiratory failure. Previous studies have focused only on short-term monitoring in small populations. The feasibility and safety of prolonged monitoring with EIT in neonates and young children have not been demonstrated yet. Objectives: To evaluate the feasibility and safety of long-term EIT monitoring in a routine clinical setting and to describe changes in ventilation distribution and homogeneity over time and with positioning in a multicenter cohort of neonates and young children with respiratory failure. Methods: At four European University hospitals, we conducted an observational study (NCT02962505) on 200 patients with postmenstrual ages (PMA) between 25 weeks and 36 months, at risk for or suffering from respiratory failure. Continuous EIT data were obtained using a novel textile 32-electrode interface and recorded at 48 images/s for up to 72 hours. Clinicians were blinded to EIT images during the recording. EIT parameters and the effects of body position on ventilation distribution were analyzed offline. Results: The average duration of EIT measurements was 53 ± 20 hours. Skin contact impedance was sufficient to allow image reconstruction for valid ventilation analysis during a median of 92% (interquartile range, 77-98%) of examination time. EIT examinations were well tolerated, with minor skin irritations (temporary redness or imprint) occurring in 10% of patients and no moderate or severe adverse events. Higher ventilation amplitude was found in the dorsal and right lung areas when compared with the ventral and left regions, respectively. Prone positioning resulted in an increase in the ventilation-related EIT signal in the dorsal hemithorax, indicating increased ventilation of the dorsal lung areas. Lateral positioning led to a redistribution of ventilation toward the dependent lung in preterm infants and to the nondependent lung in patients with PMA > 37 weeks. Conclusions: EIT allows continuous long-term monitoring of regional lung function in neonates and young children for up to 72 hours with minimal adverse effects. Our study confirmed the presence of posture-dependent changes in ventilation distribution and their dependency on PMA in a large patient cohort. Clinical trial registered with www.clinicaltrials.gov (NCT02962505). [ABSTRACT FROM AUTHOR] more...

Published
2022
Full Text
View/download PDF

21. Comparing asynchrony in two noninvasive ventilators.

Author

Freebairn, Ross C., Waldmann, Andreas D., Remus, Christian, and Pedro, Michael J.

Subjects
MECHANICAL ventilators -- Evaluation, MEDICAL equipment reliability, RESPIRATORY muscles, POSITIVE pressure ventilation, HUMAN comfort, RESPIRATORY measurements, ARTIFICIAL respiration, INSUFFLATION, WAVE analysis, DESCRIPTIVE statistics, RESPIRATION, EVALUATION
Abstract

Objectives: Noninvasive ventilation (NIV) is commonly used in respiratory failure as an alternative to more invasive tracheal intubation. A major challenge of NIV is synchronization between the patient's spontaneous breathing efforts and the support of the ventilator. Design: We compared simulator-ventilator synchrony characteristics of two ventilators during noninvasive ventilation, using an adult lung simulator under three leak configurations. Setting: Bench test with lung simulator. Patients and participants: Active Servo Lung with the bellavista 1000 NIV (bellavista NIV) and Respironics V60 (V60). Interventions: Three configurations simulating different levels of unintended leak were tested for each ventilator: No Leak, Continuous Leak, and Inspiratory Leak. The recorded pressure and volume waveforms were analyzed to quantify trigger delay, triggering pressure-time product (PTPtrig), pressure-time product at 300 ms (PTP300), insufflation time excess (TI,excess), and time required to reach 63.2% (Texp,63) and 95.0% Texp,95) of expired tidal volume (VTexp) for each ventilator in all three leak scenarios. Measurements and results: Trigger delays for the bellavista NIV were significantly lower for all three leak conditions (p<0.0001) and it responded faster to simulated muscle activity compared to the V60. Both the bellavista NIV and V60 experienced no auto-trigger or missed trigger events. The bellavista NIV reached target pressure values more quickly as indicated by significantly higher PTP300 for all three leak conditions (p<0.0001) and had significantly shorter TI,excess (p<0.0001). The bellavista NIV experienced no delayed cycling breaths while more than 25% of V60 breaths showed delayed cycling during inspiratory leak tests. Conclusions: The bellavista NIV showed significantly lower trigger delays for all three leak conditions, reached target pressure values more quickly (i.e., higher PTP300), and showed superior cycling performance (i.e., lower trigger delay) compared to the V60, which may improve patient-ventilator synchrony and patient comfort. [ABSTRACT FROM AUTHOR] more...

Published
2021

22. Exercise‐induced airflow changes in horses with asthma measured by electrical impedance tomography.

Author

Herteman, Nicolas, Mosing, Martina, Waldmann, Andreas D., Gerber, Vinzenz, and Schoster, Angelika

Subjects
ELECTRICAL impedance tomography, ASTHMA, HORSES, AIR flow, HORSE health, SEA horses, EXERCISE tests
Abstract

Background: Equine asthma (EA) causes airflow impairment, which increases in severity with exercise. Electrical impedance tomography (EIT) is an imaging technique that can detect airflow changes in standing healthy horses during a histamine provocation test. Objectives: To explore EIT‐calculated flow variables before and after exercise in healthy horses and horses with mild‐to‐moderate (MEA) and severe equine asthma (SEA). Animals: Nine healthy horses 9 horses diagnosed with MEA and 5 with SEA were prospectively included. Methods: Recordings were performed before and after 15 minutes of lunging. Absolute values from global and regional peak inspiratory (PIF, positive value) and expiratory (PEF, negative value) flows were calculated. Data were analyzed using a mixed model analysis followed by Bonferroni's multiple comparisons test to evaluate the impact of exercise and diagnosis on flow indices. Results: Control horses after exercise had significantly lower global PEF and PIF compared to horses with SEA (mean difference [95% confidence interval, CI]: 0.0859 arbitrary units [AU; 0.0339‐0.1379], P <.001 and 0.0726 AU [0.0264‐0.1188], P =.001, respectively) and horses with MEA (0.0561 AU [0.0129‐0.0994], P =.007 and 0.0587 AU [0.0202‐0.0973], P =.002, respectively). No other significant differences were detected. Conclusions and Clinical Importance: Electrical impedance tomography derived PIF and PEF differed significantly between healthy horses and horses with SEA or MEA after exercise, but not before exercise. Differences between MEA and SEA were not observed, but the study population was small. [ABSTRACT FROM AUTHOR] more...

Published
2021
Full Text
View/download PDF

23. Calculation of Transpulmonary Pressure From Regional Ventilation Displayed by Electrical Impedance Tomography in Acute Respiratory Distress Syndrome.

Author

Scaramuzzo, Gaetano, Spadaro, Savino, Spinelli, Elena, Waldmann, Andreas D., Bohm, Stephan H., Ottaviani, Irene, Montanaro, Federica, Gamberini, Lorenzo, Marangoni, Elisabetta, Mauri, Tommaso, and Volta, Carlo Alberto more...

Subjects
ELECTRICAL impedance tomography, ADULT respiratory distress syndrome, RESPIRATORY organs
Abstract

Transpulmonary driving pressure (DPL) corresponds to the cyclical stress imposed on the lung parenchyma during tidal breathing and, therefore, can be used to assess the risk of ventilator-induced lung injury (VILI). Its measurement at the bedside requires the use of esophageal pressure (Peso), which is sometimes technically challenging. Recently, it has been demonstrated how in an animal model of ARDS, the transpulmonary pressure (PL) measured with Peso calculated with the absolute values method (PL = Paw—Peso) is equivalent to the transpulmonary pressure directly measured using pleural sensors in the central-dependent part of the lung. We hypothesized that, since the PL derived from Peso reflects the regional behavior of the lung, it could exist a relationship between regional parameters measured by electrical impedance tomography (EIT) and driving PL (DPL). Moreover, we explored if, by integrating airways pressure data and EIT data, it could be possible to estimate non-invasively DPL and consequently lung elastance (EL) and elastance-derived inspiratory PL (PI). We analyzed 59 measurements from 20 patients with ARDS. There was a significant intra-patient correlation between EIT derived regional compliance in regions of interest (ROI1) (r = 0.5, p = 0.001), ROI2 (r = −0.68, p < 0.001), and ROI3 (r = −0.4, p = 0.002), and DPL. A multiple linear regression successfully predicted DPL based on respiratory system elastance (Ers), ideal body weight (IBW), roi1%, roi2%, and roi3% (R 2 = 0.84, p < 0.001). The corresponding Bland-Altmann analysis showed a bias of −1.4e-007 cmH2O and limits of agreement (LoA) of −2.4–2.4 cmH2O. EL and PI calculated using EIT showed good agreement (R 2 = 0.89, p < 0.001 and R 2 = 0.75, p < 0.001) with the esophageal derived correspondent variables. In conclusion, DPL has a good correlation with EIT-derived parameters in the central lung. DPL, PI, and EL can be estimated with good accuracy non-invasively combining information coming from EIT and airway pressure. [ABSTRACT FROM AUTHOR] more...

Published
2021
Full Text
View/download PDF

24. Imaging the Respiratory Transition at Birth: Unraveling the Complexities of the First Breaths of Life.

Author

Tingay, David G., Farrell, Olivia, Thomson, Jessica, Perkins, Elizabeth J., Pereira-Fantini, Prue M., Waldmann, Andreas D., Rüegger, Christoph, Adler, Andy, Davis, Peter G., and Frerichs, Inéz

Subjects
NEWBORN infants, ELECTRICAL impedance tomography, CHILDBIRTH, RESPIRATION, MEDICAL imaging systems, LUNG physiology, RESEARCH, OXIMETRY, POSITIVE end-expiratory pressure, LUNGS, RESEARCH methodology, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, PULMONARY function tests, COMPUTED tomography, LONGITUDINAL method
Abstract

Rationale: The transition to air breathing at birth is a seminal respiratory event common to all humans, but the intrathoracic processes remain poorly understood. Objectives: The objectives of this prospective, observational study were to describe the spatiotemporal gas flow, aeration, and ventilation patterns within the lung in term neonates undergoing successful respiratory transition. Methods: Electrical impedance tomography was used to image intrathoracic volume patterns for every breath until 6 minutes from birth in neonates born by elective cesearean section and not needing resuscitation. Breaths were classified by video data, and measures of lung aeration, tidal flow conditions, and intrathoracic volume distribution calculated for each inflation. Measurements and Main Results: A total of 1,401 breaths from 17 neonates met all eligibility and data analysis criteria. Stable FRC was obtained by median (interquartile range) 43 (21-77) breaths. Breathing patterns changed from predominantly crying (80.9% first min) to tidal breathing (65.3% sixth min). From birth, tidal ventilation was not uniform within the lung, favoring the right and nondependent regions; P < 0.001 versus left and dependent regions (mixed-effects model). Initial crying created a unique volumetric pattern with delayed midexpiratory gas flow associated with intrathoracic volume redistribution (pendelluft flow) within the lung. This preserved FRC, especially within the dorsal and right regions. Conclusions: The commencement of air breathing at birth generates unique flow and volume states associated with marked spatiotemporal ventilation inhomogeneity not seen elsewhere in respiratory physiology. At birth, neonates innately brake expiratory flow to defend FRC gains and redistribute gas to less aerated regions. [ABSTRACT FROM AUTHOR] more...

Published
2021
Full Text
View/download PDF

26. Transmission of Oscillatory Volumes into the Preterm Lung during Noninvasive High-Frequency Ventilation.

Author

Gaertner, Vincent D., Waldmann, Andreas D., Davis, Peter G., Bassler, Dirk, Springer, Laila, Thomson, Jessica, Tingay, David G., and Rüegger, Christoph M.

Subjects
PREMATURE labor, NONINVASIVE ventilation, ELECTRICAL impedance tomography, ARTIFICIAL respiration, CONFIDENCE intervals, RESPIRATORY distress syndrome treatment, RESEARCH, CONTINUOUS positive airway pressure, RESEARCH methodology, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, RANDOMIZED controlled trials, FORCED expiratory volume, HIGH-frequency ventilation (Therapy), CROSSOVER trials, STATISTICAL sampling
Abstract

Rationale: There is increasing evidence for a clinical benefit of noninvasive high-frequency oscillatory ventilation (nHFOV) in preterm infants. However, it is still unknown whether the generated oscillations are effectively transmitted to the alveoli.Objectives: To assess magnitude and regional distribution of oscillatory volumes (VOsc) at the lung level.Methods: In 30 prone preterm infants enrolled in a randomized crossover trial comparing nHFOV with nasal continuous positive airway pressure, electrical impedance tomography recordings were performed. During nHFOV, the smallest amplitude to achieve visible chest wall vibration was used, and the frequency was set at 8 hertz.Measurements and Main Results: Thirty consecutive breaths during artifact-free tidal ventilation were extracted for each of the 228 electrical impedance tomography recordings. After application of corresponding frequency filters, Vt and VOsc were calculated. There was a signal at 8 and 16 Hz during nHFOV, which was not detectable during nasal continuous positive airway pressure, corresponding to the set oscillatory frequency and its second harmonic. During nHFOV, the mean (SD) VOsc/Vt ratio was 0.20 (0.13). Oscillations were more likely to be transmitted to the non-gravity-dependent (mean difference [95% confidence interval], 0.041 [0.025-0.058]; P < 0.001) and right-sided lung (mean difference [95% confidence interval], 0.040 [0.019-0.061]; P < 0.001) when compared with spontaneous Vt.Conclusions: In preterm infants, VOsc during nHFOV are transmitted to the lung. Compared with the regional distribution of tidal breaths, oscillations preferentially reach the right and non-gravity-dependent lung. These data increase our understanding of the physiological processes underpinning nHFOV and may lead to further refinement of this novel technique. [ABSTRACT FROM AUTHOR] more...

Published
2021
Full Text
View/download PDF

27. What hinders pulmonary gas exchange and changes distribution of ventilation in immobilized white rhinoceroses (Ceratotherium simum) in lateral recumbency?

Author

Mosing, Martina, Waldmann, Andreas D., Sacks, Muriel, Buss, Peter, Boesch, Jordyn M., Zeiler, Gareth E., Hosgood, Giselle, Gleed, Robin D., Miller, Michele, Meyer, Leith C. R., and Böhm, Stephan H.

Abstract

This study used electrical impedance tomography (EIT) measurements of regional ventilation and perfusion to elucidate the reasons for severe gas exchange impairment reported in rhinoceroses during opioid-induced immobilization. EIT values were compared with standard monitoring parameters to establish a new monitoring tool for conservational immobilization and future treatment options. Six male white rhinoceroses were immobilized using etorphine, and EIT ventilation variables, venous admixture, and dead space were measured 30, 40, and 50 min after becoming recumbent in lateral position. Pulmonary perfusion mapping using impedance-enhanced EIT was performed at the end of the study period. The measured impedance (∆Z) by EIT was compared between pulmonary regions using mixed linear models. Measurements of regional ventilation and perfusion revealed a pronounced disproportional shift of ventilation and perfusion toward the nondependent lung. Overall, the dependent lung was minimally ventilated and perfused, but remained aerated with minimal detectable lung collapse. Perfusion was found primarily around the hilum of the nondependent lung and was minimal in the periphery of the nondependent and the entire dependent lung. These shifts can explain the high amount of venous admixture and physiological dead space found in this study. Breath holding redistributed ventilation toward dependent and ventral lung areas. The findings of this study reveal important pathophysiological insights into the changes in lung ventilation and perfusion during immobilization of white rhinoceroses. These novel insights might induce a search for better therapeutic options and is establishing EIT as a promising monitoring tool for large animals in the field. NEW & NOTEWORTHY Electrical impedance tomography measurements of regional ventilation and perfusion applied to etorphine-immobilized white rhinoceroses in lateral recumbency revealed a pronounced disproportional shift of the measured ventilation and perfusion toward the nondependent lung. The dependent lung was minimally ventilated and perfused, but still aerated. Perfusion was found primarily around the hilum of the nondependent lung. These shifts can explain the gas exchange impairments found in this study. Breath holding can redistribute ventilation. [ABSTRACT FROM AUTHOR] more...

Published
2020
Full Text
View/download PDF

29. Evaluation of histamine‐provoked changes in airflow using electrical impedance tomography in horses.

Author

Secombe, Cristy, Waldmann, Andreas D., Hosgood, Giselle, and Mosing, Martina

Abstract

Background: Electrical impedance tomography (EIT) generates thoracic impedance images of the lungs and has been used to assess ventilation in horses. This technique may have application in the detection of changes in airflow associated with equine asthma. Objectives: The objective was to determine if histamine‐induced airflow changes observed with flowmetric plethysmography (Δflow) could also be explained using global and regional respiratory gas flow signals calculated from EIT signals. Study design: Experimental in vivo study. Methods: Six horses, sedated using detomidine were fitted with a thoracic EIT belt and flowmetric plethysmography hardware. Saline (baseline = BL) and increasing concentrations of histamine (C1‐4) were nebulised into the face mask until a change in breathing pattern was clinically confirmed and Δflow increased greater or equal to 50%. After nebulisation Δflow and EIT images were recorded over 3 minutes and peak global inspiratory (InFglobal) and expiratory (ExFglobal) flow as well as peak regional expiratory and inspiratory flow for the dorsal and the ventral area of the right and left lungs were evaluated. Delta flow, InFglobal and ExFglobal at subsequent concentrations were indexed to baseline (yi = Ci/BL−1). Indexed and nonindexed variables were evaluated for a difference from baseline at sequential histamine doses (time). Multiple linear regression assessment of variance in delta flow was also investigated. Results: Consistent with histamine‐provoked increases in Δflow, the global flow indices increased significantly. A significant increase in regional inspiratory flow was seen in the right and left ventral lung and dorsal right lung. Multiple regression revealed that the variance in ExFglobal, and right and left ventral expiratory flow best explained the variance in Δflow (r2 =.82). Main limitations: Low number of horses and horses were healthy. Conclusions: Standardised changes in airflow during histamine challenge could be detected using EIT gas flow variables. [ABSTRACT FROM AUTHOR] more...

Published
2020
Full Text
View/download PDF

31. Initial Observations on the Effect of Repeated Surfactant Dose on Lung Volume and Ventilation in Neonatal Respiratory Distress Syndrome.

Author

Kallio, Merja, van der Zwaag, Anne-Sea, Waldmann, Andreas D., Rahtu, Marika, Miedema, Martijn, Papadouri, Thalia, van Kaam, Anton H., Rimensberger, Peter C., Bayford, Richard, and Frerichs, Inéz more...

Subjects
MECONIUM aspiration syndrome, RESPIRATORY distress syndrome, LUNG volume, ELECTRICAL impedance tomography, PULMONARY surfactant, PREMATURE infants
Abstract

Background: Exogenous surfactant administration is an essential part of respiratory distress syndrome treatment in preterm infants. Current guidelines recommend the first dose to be given as early as possible, followed by an additional dose if symptoms persist. The effect of additional dosing on regional ventilation and lung volume has not been investigated so far. Objectives: The aim of this study was to assess changes in ventilation distribution, lung volume, and gas exchange following repeated surfactant dosing in invasively ventilated neonates. Method: Preterm infants requiring invasive ventilation and repeated surfactant treatment, and participating in the prospective observational multicenter trial "Continuous Regional Analysis Device for neonate Lung (CRADL)" were included in this analysis. Ventilation distribution, end-expiratory lung impedance (EELZ), and tidal impedance variation were determined by electrical impedance tomography together with clinical parameters before and after repeat endotracheal surfactant treatment. Results: Nine neonates (gestational age 32.7 ± 2.7 weeks, weight 1,724 ± 691 g) received an additional dose of surfactant at a median postnatal age of 33.5 h (IQR 9.1–46.6). One patient was excluded from the analysis due to simultaneous interventions confounding data analysis. Repeated surfactant dose did not significantly affect ventilation distribution. There were no significant changes in EELZ or tidal impedance variation. SpO2/FiO2 increased from 248 ± 104 to 367 ± 92 (p = 0.001), while FiO2 was reduced from 0.41 ± 0.20 to 0.27 ± 0.10 (p = 0.004). Expiratory tidal volume fell from 4.3 ± 0.6 to 3.0 ± 1.2 mL/kg (p = 0.03), while other ventilator and clinical parameters remained stable. Conclusions: Repeated surfactant dose during invasive ventilation improves oxygenation without measurable changes in EELZ or ventilation distribution. [ABSTRACT FROM AUTHOR] more...

Published
2019
Full Text
View/download PDF

32. Horses Auto-Recruit Their Lungs by Inspiratory Breath Holding Following Recovery from General Anaesthesia.

Author

Mosing, Martina, Waldmann, Andreas D., MacFarlane, Paul, Iff, Samuel, Auer, Ulrike, Bohm, Stephan H., Bettschart-Wolfensberger, Regula, and Bardell, David

Subjects
*GENERAL anesthesia, *RESPIRATION, *HORSE physiology, *ELECTRICAL impedance tomography, *BLOOD gases analysis, *REGRESSION analysis
Abstract

This study evaluated the breathing pattern and distribution of ventilation in horses prior to and following recovery from general anaesthesia using electrical impedance tomography (EIT). Six horses were anaesthetised for 6 hours in dorsal recumbency. Arterial blood gas and EIT measurements were performed 24 hours before (baseline) and 1, 2, 3, 4, 5 and 6 hours after horses stood following anaesthesia. At each time point 4 representative spontaneous breaths were analysed. The percentage of the total breath length during which impedance remained greater than 50% of the maximum inspiratory impedance change (breath holding), the fraction of total tidal ventilation within each of four stacked regions of interest (ROI) (distribution of ventilation) and the filling time and inflation period of seven ROI evenly distributed over the dorso-ventral height of the lungs were calculated. Mixed effects multi-linear regression and linear regression were used and significance was set at p<0.05. All horses demonstrated inspiratory breath holding until 5 hours after standing. No change from baseline was seen for the distribution of ventilation during inspiration. Filling time and inflation period were more rapid and shorter in ventral and slower and longer in most dorsal ROI compared to baseline, respectively. In a mixed effects multi-linear regression, breath holding was significantly correlated with PaCO2 in both the univariate and multivariate regression. Following recovery from anaesthesia, horses showed inspiratory breath holding during which gas redistributed from ventral into dorsal regions of the lungs. This suggests auto-recruitment of lung tissue which would have been dependent and likely atelectic during anaesthesia. [ABSTRACT FROM AUTHOR] more...

Published
2016
Full Text
View/download PDF

35. Early Recognition of Pneumothorax in Neonatal Respiratory Distress Syndrome with Electrical Impedance Tomography.

Author

Rahtu, Marika, Frerichs, Inéz, Waldmann, Andreas D., Strodthoff, Claas, Becher, Tobias, Bayford, Richard, and Kallio, Merja

Subjects
RESPIRATORY distress syndrome, ELECTRICAL impedance tomography, PNEUMOTHORAX, VENTILATION, EXPIRATORY flow
Abstract

The article presents a case study of a female infant, born at 34 weeks of gestation, having respiratory distress syndrome. Her observational electrical impedance tomography (EIT) analysis identified a progressive pattern of EIT parameters that indicated a potential pneumothora with increased end-expiratory lung impedance and increased air content and reduced ventilation. It mentions recognition of a pneumothorax complicating respiratory distress syndrome. more...

Published
2019
Full Text
View/download PDF

36. Use of Electrical Impedance Tomography (EIT) to Estimate Tidal Volume in Anaesthetized Horses Undergoing Elective Surgery.

Author

Crivellari, Benedetta, Raisis, Anthea, Hosgood, Giselle, Waldmann, Andreas D., Murphy, David, Mosing, Martina, Benazzi, Cinzia, and Zucca, Enrica

Subjects
ELECTRICAL impedance tomography, ELECTIVE surgery, HORSES, ELECTRIC impedance, VOLUME measurements, RESPIRATORY organs
Abstract

Simple Summary: The aim of this study was to explore the usefulness of electrical impedance tomography (EIT), a novel monitoring tool measuring impedance change, to estimate tidal volume (volume of gas in litres moved in and out the airways and lungs with each breath) in anaesthetised horses. The results of this study, performed in clinical cases, demonstrated that there was a positive linear relationship between tidal volume measurements obtained with spirometry and impedance changes measured by EIT within each subject and this individual relationship could be used to estimate tidal volume that showed acceptable agreement with a measured tidal volume in each horse. Thus, EIT can be used to observe changes in tidal volume by the means of impedance changes. However, absolute measurement of tidal volume is only possible after establishment of the individual relationship. This study explores the application of electric impedance tomography (EIT) to estimate tidal volume (VT) by measuring impedance change per breath (∆Zbreath). Seventeen healthy horses were anaesthetised and mechanically ventilated for elective procedures requiring dorsal recumbency. Spirometric VT (VTSPIRO) and ∆Zbreath were recorded periodically; up to six times throughout anaesthesia. Part 1 assessed these variables at incremental delivered VT of 10, 12 and 15 mL/kg. Part 2 estimated VT (VTEIT) in litres from ∆Zbreath at three additional measurement points using a line of best fit obtained from Part 1. During part 2, VT was adjusted to maintain end-tidal carbon dioxide between 45–55 mmHg. Linear regression determined the correlation between VTSPIRO and ∆Zbreath (part 1). Estimated VTEIT was assessed for agreement with measured VTSPIRO using Bland Altman analysis (part 2). Marked variability in slope and intercepts was observed across horses. Strong positive correlation between ∆Zbreath and VTSPIRO was found in each horse (R2 0.9–0.99). The agreement between VTEIT and VTSPIRO was good with bias (LOA) of 0.26 (−0.36–0.88) L. These results suggest that, in anaesthetised horses, EIT can be used to monitor and estimate VT after establishing the individual relationship between these variables. [ABSTRACT FROM AUTHOR] more...

Published
2021
Full Text
View/download PDF

37. Regional distribution of ventilation in horses in dorsal recumbency during spontaneous and mechanical ventilation assessed by electrical impedance tomography: a case series.

Author

Mosing, Martina, Marly-Voquer, Charlotte, MacFarlane, Paul, Bardell, David, Böhm, Stephan H., Bettschart-Wolfensberger, Regula, and Waldmann, Andreas D.

Subjects
*ARTIFICIAL respiration, *ELECTRICAL impedance tomography, *ATELECTASIS, *MEDETOMIDINE, *DIAGNOSIS, *THERAPEUTICS
Abstract

Objective To evaluate the regional distribution of ventilation in horses during spontaneous breathing and controlled mechanical ventilation (CMV) using electrical impedance tomography (EIT). Study design Prospective, experimental case series. Animals Four anaesthetized experimental horses. Methods Horses were anaesthetized with isoflurane in an oxygen-air mixture and medetomidine continuous rate infusion, placed in dorsal recumbency with an EIT belt around the thorax, and allowed to breathe spontaneously until PaCO2 reached 13.3 kPa (100 mmHg), when volume CMV was started. For each horse, the EIT signal was recorded for at least 2 minutes immediately before (T1), and at 30 (n = 3) or 60 (n = 1) minutes after the start of CMV (T2). The centre of ventilation (CoV), dependent silent spaces (DSS) (likely to represent atelectatic lung areas), nondependent silent spaces (NSS) (likely to represent lung areas with low ventilation) and total ventilated area (TVA) were evaluated. Cardiac output (CO) was measured and venous admixture and oxygen delivery (DO2) were calculated at T1 and T2. Data are presented as median and range. Results After the initiation of CMV, the CoV moved ventrally towards the non-dependent lung by 10% [from 57.4% (49.6-60.2%) to 48.3% (41.9-54.4%)]. DSS increased [from 4.1% (0.2-13.9%) to 18.7% (7.5-27.5%)], while NSS [21.7% (9.4-29.2%) to 9.9% (1.0-20.7%)] and TVA [920 (699-1051) to 837 (662-961) pixels] decreased. CO, venous admixture and DO2 also decreased. Conclusions and clinical relevance In spontaneously breathing anaesthetized horses in dorsal recumbency, ventilation was essentially centred within the dependent dorsal lung regions and moved towards non-dependent ventral regions as soon as CMV was started. This shows a major lack of ventilation in the dependent lung, which may be indicative of atelectasis. [ABSTRACT FROM AUTHOR] more...

Published
2017
Full Text
View/download PDF