Your search keyword '"Opto-electronic plethysmography"' showing total 38 results

1. Lung and chest wall volume during vital capacity manoeuvre in Osteogenesis Imperfecta

Author

Antonella LoMauro, Davide Lacca, Vittorio Landoni, and Andrea Aliverti

Subjects

Osteogenesis Imperfecta, Spirometry, Opto-electronic plethysmography, Vital capacity, Thoraco-abdominal volume, Medicine

Abstract

Abstract Background Although Osteogenesis Imperfecta (OI) affects the connective tissue, pulmonary function might be compromised because of thoracic deformities. OI is known to be a restrictive lung disease, but spirometry provides global measurement without localizing the site of the restriction. Opto-electronic plethysmography (OEP), is a non-invasive method able to underline altered respiratory function as well as ventilatory thoraco-abdominal paradoxes during spontaneous breathing. We aimed to reconstruct the thoraco-abdominal surface, to perform local analyses of trunk motion and to make quantitative comparison of trunk shape and respiratory kinematics according to OI severity, particularly during maximal inspiratory and expiratory expansions. This is a cross-sectional study where we have studied the thoraco-abdominal compartmental analysis in 26 adult OI patients (14 Type III) at rest and during vital capacity manoeuvre using OEP. We have also applied a new method that created realistic and accurate 3D models to perform local analyses of trunk motion and to make quantitative comparison of trunk shape and respiratory kinematics. Results Type III patients were characterized by lower spirometric lung volume, by lower sleep quality, by a more compressed thoracic configuration aggravated by severe scoliosis, by reduced global expansion at rest and during maximal maneuvers because of the reduced expansion of the pulmonary ribcage at rest (12% vs. 65% in healthy subjects), during maximal inspiration (37% vs. 69%) and expiration (16% vs. 68%) with local paradoxical movement occurring on the side of the ribcage region. Conclusion The kinematics of the trunk changed to compensate for the severe structural deformities by shifting the expansion in the abdomen both at rest and during maximal manoeuvre because of a restricted thorax. For the first time, we have quantified and localized the site of the restriction in OI patients in the lateral part of the thorax. The 3D analysis proposed seemed a promising graphical immediate new method for pathophysiology study of chest wall restriction.

Published

2022

2. Lung and chest wall volume during vital capacity manoeuvre in Osteogenesis Imperfecta.

Author

LoMauro, Antonella, Lacca, Davide, Landoni, Vittorio, and Aliverti, Andrea

Subjects

*OSTEOGENESIS imperfecta, *VITAL capacity (Respiration), *LUNGS, *LUNG volume, *SLEEP quality, *MOTION analysis, *CONNECTIVE tissues

Abstract

Background: Although Osteogenesis Imperfecta (OI) affects the connective tissue, pulmonary function might be compromised because of thoracic deformities. OI is known to be a restrictive lung disease, but spirometry provides global measurement without localizing the site of the restriction. Opto-electronic plethysmography (OEP), is a non-invasive method able to underline altered respiratory function as well as ventilatory thoraco-abdominal paradoxes during spontaneous breathing. We aimed to reconstruct the thoraco-abdominal surface, to perform local analyses of trunk motion and to make quantitative comparison of trunk shape and respiratory kinematics according to OI severity, particularly during maximal inspiratory and expiratory expansions. This is a cross-sectional study where we have studied the thoraco-abdominal compartmental analysis in 26 adult OI patients (14 Type III) at rest and during vital capacity manoeuvre using OEP. We have also applied a new method that created realistic and accurate 3D models to perform local analyses of trunk motion and to make quantitative comparison of trunk shape and respiratory kinematics.Results: Type III patients were characterized by lower spirometric lung volume, by lower sleep quality, by a more compressed thoracic configuration aggravated by severe scoliosis, by reduced global expansion at rest and during maximal maneuvers because of the reduced expansion of the pulmonary ribcage at rest (12% vs. 65% in healthy subjects), during maximal inspiration (37% vs. 69%) and expiration (16% vs. 68%) with local paradoxical movement occurring on the side of the ribcage region.Conclusion: The kinematics of the trunk changed to compensate for the severe structural deformities by shifting the expansion in the abdomen both at rest and during maximal manoeuvre because of a restricted thorax. For the first time, we have quantified and localized the site of the restriction in OI patients in the lateral part of the thorax. The 3D analysis proposed seemed a promising graphical immediate new method for pathophysiology study of chest wall restriction. [ABSTRACT FROM AUTHOR]

Published

2022

3. Eat, breathe, sleep with Osteogenesis Imperfecta

Author

Antonella LoMauro, Carlo Vittorio Landoni, Paolo Fraschini, Franco Molteni, Andrea Aliverti, Simona Bertoli, and Ramona De Amicis

Subjects

Osteogenesis Imperfecta, Spirometry, Opto-electronic plethysmography, Obstructive sleep apnea, Non-invasive ventilation, Fat mass, Medicine

Abstract

Abstract Background Although Osteogenesis Imperfecta (OI) affects the connective tissue causing extremely brittle bones with consequent skeletal deformities, it is important to go beyond bones. Indeed, the quality of life in OI does not only depend on bones status, as OI might affect also other important functions. We have therefore implemented a multidisciplinary study to assess lung function, breathing pattern, sleep quality and nutritional status in 27 adult OI type III and IV patients (median age: 34.6 years; 19 women; 14 type III). Results According to nocturnal oxygen desaturation, two groups were identified: 13 patients with (OI_OSA, incidence: 48.2%) and 14 without (no_OSA) obstructive sleep apnea. The former was characterized by higher spinal and ribcage deformity, by more restrictive lung function, by paradoxical thoracic breathing in supine position, by rapid and shallow breathing, by higher body mass index, by longer neck and waist circumferences; by higher abdominal volume and by greater percentage of body fat mass, particularly localized in the trunk. The best predictor of OI_OSA was the negative value of the supine ribcage contribution to tidal volume, followed by the ratio between the neck and the waist circumferences with body height and the supine thoraco-abdominal volumes phase shift angle. Conclusions The pathophysiology of OI ensued a dangerous vicious circle, in which breathing, sleep and nutritional status are tightly linked, and they might all end up in negatively affecting the quality of life. The vicious circle is fed by some intrinsic characteristics of the disease (thoracic, cranial and mandibular deformities) and some bad daily habits of the patients (i.e. physical inactivity and low dietary quality). The former impacts on restricting the respiratory function, the latter makes Olers more prone to experience overweight or obesity. The main consequence is a high incidence of obstructive sleep apnea, which remains an underdiagnosed disorder in individuals with severe OI who are obese, with a neck to height ratio over than 31.6%, and characterized by paradoxical breathing in supine position. A multidisciplinary approach, including evaluations of breathing, sleep and nutrition, is required to better manage the disease and fulfil the maximizing well-being of OI patients.

Published

2021

4. Quantitative Analysis by 3D Graphics of Thoraco-Abdominal Surface Shape and Breathing Motion

Author

Andrea Aliverti, Davide Lacca, and Antonella LoMauro

Subjects

chest wall, opto-electronic plethysmography, breathing, volume, shape, kinematics, Biotechnology, TP248.13-248.65

Abstract

Chest wall motion can provide information on respiratory muscles' action and on critical vital signs, like respiration and cardiac activity. The chest wall is a structure with three compartments that are independent to each other and can move paradoxically according to the pathophysiology of the disease. Opto-electronic plethysmography (OEP) allows for non-invasively 3D tracking of body movements. We aimed to extend the characteristics of OEP analysis to local analyses of thoraco-abdominal surface geometry and kinematics during respiration. Starting from the OEP output file, the 3D markers’ coordinates were combined with a triangulation matrix. A smoothing procedure (an automatic and iterative interpolation process to increase the number of vertices from 93 to 548) was applied to allow for precise local analysis of the thoraco-abdominal surface. A series of measurements can be performed to characterize the geometry of the trunk and its three compartments, in terms of volumes, height, diameters, perimeters, and area. Some shape factors, such as surface-to-volume ratio or height-to-perimeter ratio, can be also computed. It was also possible to build the vector field associated with the breathing motion of all the vertices, in terms of magnitude and motion direction. The vector field data were analyzed and displayed through two graphic tools: a 3D heatmap, in which the magnitude of motion was associated to different colors, and a 3D arrow plot, that allowed us to visualize both the magnitude and the direction of motion with color-coded arrows. The methods were applied to 10 healthy subjects (5 females) and also applied to two cases: a pregnant woman at each trimester of gestation and a patient before and after a demolition thoracic surgery. The results proved to be coherent with the physiology of healthy subjects and the physiopathology of the cases. We developed a new non-invasive method for respiratory analysis that allowed for the creation of realistic 3D models of the local and global trunk surface during respiration. The proposed representation constituted a very intuitive method to visualize and compare thoraco-abdominal surface movements within and between subjects, therefore enforcing the potential clinical translational value of the method.

Published

2022

5. Eat, breathe, sleep with Osteogenesis Imperfecta.

Author

LoMauro, Antonella, Landoni, Carlo Vittorio, Fraschini, Paolo, Molteni, Franco, Aliverti, Andrea, Bertoli, Simona, and De Amicis, Ramona

Subjects

*OSTEOGENESIS imperfecta, *ADIPOSE tissues, *SLEEP apnea syndromes, *MALNUTRITION, *PATHOLOGICAL physiology, *SEDENTARY behavior, *LUNGS, *NECK

Abstract

Background: Although Osteogenesis Imperfecta (OI) affects the connective tissue causing extremely brittle bones with consequent skeletal deformities, it is important to go beyond bones. Indeed, the quality of life in OI does not only depend on bones status, as OI might affect also other important functions. We have therefore implemented a multidisciplinary study to assess lung function, breathing pattern, sleep quality and nutritional status in 27 adult OI type III and IV patients (median age: 34.6 years; 19 women; 14 type III).Results: According to nocturnal oxygen desaturation, two groups were identified: 13 patients with (OI_OSA, incidence: 48.2%) and 14 without (no_OSA) obstructive sleep apnea. The former was characterized by higher spinal and ribcage deformity, by more restrictive lung function, by paradoxical thoracic breathing in supine position, by rapid and shallow breathing, by higher body mass index, by longer neck and waist circumferences; by higher abdominal volume and by greater percentage of body fat mass, particularly localized in the trunk. The best predictor of OI_OSA was the negative value of the supine ribcage contribution to tidal volume, followed by the ratio between the neck and the waist circumferences with body height and the supine thoraco-abdominal volumes phase shift angle.Conclusions: The pathophysiology of OI ensued a dangerous vicious circle, in which breathing, sleep and nutritional status are tightly linked, and they might all end up in negatively affecting the quality of life. The vicious circle is fed by some intrinsic characteristics of the disease (thoracic, cranial and mandibular deformities) and some bad daily habits of the patients (i.e. physical inactivity and low dietary quality). The former impacts on restricting the respiratory function, the latter makes Olers more prone to experience overweight or obesity. The main consequence is a high incidence of obstructive sleep apnea, which remains an underdiagnosed disorder in individuals with severe OI who are obese, with a neck to height ratio over than 31.6%, and characterized by paradoxical breathing in supine position. A multidisciplinary approach, including evaluations of breathing, sleep and nutrition, is required to better manage the disease and fulfil the maximizing well-being of OI patients. [ABSTRACT FROM AUTHOR]

Published

2021

6. Effect of portable noninvasive ventilation on thoracoabdominal volumes in recovery from intermittent exercise in patients with COPD.

Author

Chynkiamis, N., Lane, N. D., Megaritis, D., Manifield, J., Loizou, I., Alexiou, C., Riazati, S., LoMauro, A., Bourke, S. C., and Vogiatzis, I.

Abstract

We previously showed that use of portable noninvasive ventilation (pNIV) during recovery periods within intermittent exercise improved breathlessness and exercise tolerance in patients with COPD compared with pursed-lip breathing (PLB). However, in a minority of patients recovery from dynamic hyperinflation (DH) was better with PLB, based on inspiratory capacity. We further explored this using Optoelectronic Plethysmography to assess total and compartmental thoracoabdominal volumes. Fourteen patients with COPD (means ± SD) (FEV1: 55% ± 22% predicted) underwent, in a balanced order sequence, two intermittent exercise protocols on the cycle ergometer consisting of five repeated 2-min exercise bouts at 80% peak capacity, separated by 2-min recovery periods, with application of pNIV or PLB in the 5 min of recovery. Our findings identified seven patients showing recovery in DH with pNIV (DH responders) whereas seven showed similar or better recovery in DH with PLB. When pNIV was applied, DH responders compared with DH nonresponders exhibited greater tidal volume (by 0.8 ± 0.3 L, P = 0.015), inspiratory flow rate (by 0.6 ± 0.5 L/s, P = 0.049), prolonged expiratory time (by 0.6 ± 0.5 s, P = 0.006), and duty cycle (by 0.7 ± 0.6 s, P = 0.007). DH responders showed a reduction in end-expiratory thoracoabdominal DH (by 265 ± 633 mL) predominantly driven by reduction in the abdominal compartment (by 210 ± 494 mL); this effectively offset end-inspiratory rib-cage DH. Compared with DH nonresponders, DH responders had significantly greater body mass index (BMI) by 8.4 ± 3.2 kg/m2 , P = 0.022 and tended toward less severe resting hyperinflation by 0.3 ± 0.3 L. Patients with COPD who mitigate end-expiratory rib-cage DH by expiratory abdominal muscle recruitment benefit from pNIV application. NEW & NOTEWORTHY Compared with the pursed-lip breathing technique, acute application of portable noninvasive ventilation during recovery from intermittent exercise improved end-expiratory thoracoabdominal dynamic hyperinflation (DH) in 50% of patients with COPD (DH responders). DH responders, compared with DH nonresponders, exhibited a reduction in end-expiratory thoracoabdominal DH predominantly driven by the abdominal compartment that effectively offset end-expiratory rib cage DH. The essential difference between DH responders and DH nonresponders was, therefore, in the behavior of the abdomen. [ABSTRACT FROM AUTHOR]

Published

2021

7. Rib Cage Anomalies in Severe Osteogenesis Imperfecta – Functional Investigations

Author

Aliverti, Andrea, Lo Mauro, Antonella, and Saxena, Amulya K., editor

Published

2017

8. Comparison of different methods for lung immobilization in an animal model.

Author

LoMauro, Antonella, Aliverti, Andrea, Joensen, Odin, Karaca, Irfan, Nyström, Petra Witt, Larsson, Anders, Frykholm, Peter, and Sütterlin, Robert

Subjects

*ANIMAL immobilization, *CONTINUOUS positive airway pressure, *THERAPEUTIC immobilization, *BIOMARKERS, *RANGE of motion of joints, *BREATH holding

Abstract

• Apnea and HFJV at 300–400 Hz induce minimal surrogate marker movement. • Apnea and HFJV at 300–400 Hz induce hypercapnia. • Tidal volume of 80 ml observed with HFJV at 200 Hz results in effective CO 2 removal. • HFJV at 200 Hz is the best compromise between lung immobilization and gas exchange. • Abdominal motion is highly correlated to diaphragm motion. Respiratory-induced motion introduces uncertainties in the delivery of dose in radiotherapy treatments. Various methods are used clinically, e.g. breath-holding, while there is limited experience with other methods such as apneic oxygenation and high frequency jet ventilation (HFJV). This study aims to compare the latter approaches for lung immobilization and their clinical impact on gas exchange in an animal model. Two radiopaque tumor surrogate markers (TSM) were placed in the central (cTSM) and peripheral (dTSM) regions of the lungs in 9 anesthetized and muscle relaxed pigs undergoing 3 ventilatory interventions (1) HFJV at rates of 200 (JV200), 300 (JV300) and 400 (JV400) min−1; (2) apnea at continuous positive airway pressure (CPAP) levels of 0, 8 and 16 cmH 2 O; (3) conventional mechanical ventilation (CMV) as reference mode. cTSM and dTSM were visualized using fluoroscopy and their coordinates were computed. The ventilatory pattern was registered, and oxygen and carbon dioxide (pCO 2) partial pressures were measured. The highest range of TSM motion, and ventilation was found during CMV, the lowest during apnea. During HFJV the amount of motion varied inversely with increasing frequency. The reduction of TSM motion at JV300, JV400 and all CPAP levels came at the cost of increased pCO 2 , however the relatively low frequency of 200 min−1 for HFJV was the only ventilatory setting that enabled adequate CO 2 removal. In this model , HFJV at 200 min−1 was the best compromise between immobilization and gas exchange for sessions of 10-min duration. [ABSTRACT FROM AUTHOR]

Published

2020

9. The impaired diaphragmatic function after bilateral lung transplantation: A multifactorial longitudinal study.

Author

LoMauro, Antonella, Righi, Ilaria, Privitera, Emilia, Vergari, Maurizio, Nigro, Martina, Aliverti, Andrea, Frykholm, Peter, Tarsia, Paolo, Morlacchi, Letizia, Nosotti, Mario, and Palleschi, Alessandro

Subjects

*LUNG transplantation, *PHRENIC nerve, *OPERATIVE surgery, *NEURAL stimulation, *SUPINE position, *LONGITUDINAL method

Abstract

Lung transplantation is a complex but effective treatment of end-stage pulmonary disease. Among the post-operative complications, phrenic nerve injury, and consequent diaphragmatic dysfunction are known to occur but are hitherto poorly described. We aimed to investigate the effect of lung transplantation on diaphragmatic function with a multimodal approach. A total of 30 patients were studied at 4 time points: pre-operatively, at discharge after surgery, and after approximately 6 and subsequently 12 months post surgery. The diaphragmatic function was studied in terms of geometry (assessed by the radius of the diaphragmatic curvature delineated on chest X-ray), weakness (considering changes in forced vital capacity when the patient shifted from upright to supine position), force (maximal pressure during sniff), mobility (excursion of the dome of the diaphragm delineated by ultrasound), contractility (thickening fraction assessed by ultrasound), electrical activity (latency and area of compound muscle action potential during electrical stimulation of phrenic nerve), and kinematics (relative contribution of the abdominal compartment to tidal volume). Despite good clinical recovery (indicated by spirometry and 6 minutes walking test), a reduction of the diaphragmatic function was detected at discharge; it persisted 6 months later to recover fully 1 year after transplantation. Diaphragmatic dysfunction was demonstrated in terms of force, weakness, electrical activity, and kinematics. Our data suggest that the dysfunction was caused by phrenic nerve neurapraxia or moderate axonotmesis, potentially as a consequence of the surgical procedure (i.e., the use of ice and pericardium manipulation). The occurrence of diaphragmatic dysfunction in patients with a good clinical recovery indicates that the evaluation of diaphragmatic function should be included in the post-operative assessment after lung transplantation. [ABSTRACT FROM AUTHOR]

Published

2020

10. Mechanical in-Exsufflation Improves the Breathing Pattern in Patients with Duchenne Muscular Dystrophy

Author

Cesareo, Ambra, Santi, Marika, LoMauro, Antonella, Biffi, Emilia, D’Angelo, Maria Grazia, Aliverti, Andrea, Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Kyriacou, Efthyvoulos, editor, Christofides, Stelios, editor, and Pattichis, Constantinos S., editor

Published

2016

11. Efficacy of lung volume optimization maneuver monitored by optoelectronic pletismography in the management of congenital diaphragmatic hernia

Author

G. Lista, I. Bresesti, F. Cavigioli, F. Castoldi, E. Lupo, A. LoMauro, and A. Aliverti

Subjects

CDH, Lung volume, Ventilation strategy, Newborn, Opto-electronic plethysmography, Diseases of the respiratory system, RC705-779

Abstract

Newborns affected by congenital diaphragmatic hernia (CDH) need cardio-respiratory stabilization before undergoing surgical repair. Open lung strategy is a well-established approach to optimize lung volume in preterm infants with Respiratory Distress Syndrome (RDS), using both High Frequency Oscillatory Ventilation (HFOV) and Conventional Mechanical Ventilation (CMV). We report a case of left CDH with severe lung hypoplasia, managed applying open lung strategy in HFOV (pre-surgery period) and in Assist-Control with Volume Guarantee (post-surgery period), guided by SpO2 changes, TcPO2 and TcPCO2 monitoring. Opto-electronic plethysmography was used to measure end-expiratory chest wall volume changes (ΔEEcw) related to lung volume variations occurring during pressure changes. OEP confirmed the efficacy of using SpO2 and transcutaneous gas monitoring during this recruitment maneuver.

Published

2017

12. A New Method for Measuring Bell-Shaped Chest Induced by Impaired Ribcage Muscles in Spinal Muscular Atrophy Children

Author

Antonella LoMauro, Paolo Banfi, Chiara Mastella, Katia Alberti, Giovanni Baranello, and Andrea Aliverti

Subjects

bell-shaped chest, opto-electronic plethysmography, breathing pattern, paradoxical breathing, SMA, ribcage muscles, Neurology. Diseases of the nervous system, RC346-429

Abstract

The involvement of the respiratory muscular pump makes SMA children prone to frequent hospitalization and morbidity, particularly in type 1. Progressive weakness affects ribcage muscles resulting in bell-shaped chest that was never quantified. The aims of the present work were: (1) to quantify the presence of bell-shaped chest in SMA infants and children and to correlate it with the action of ribcage muscles, assessed by the contribution of pulmonary ribcage to tidal volume (ΔVRC, p); (2) to verify if and how the structure of the ribcage and ΔVRC, p change after 1-year in SMA type 2. 91 SMA children were studied in supine position during awake spontaneous breathing: 32 with type 1 (SMA1, median age: 0.8 years), 51 with type 2 (SMA2, 3.7 years), 8 with type 3 (SMA3, 5.4 years) and 20 healthy children (HC, 5.2 years). 14 SMA2 showed negative ΔVRC, p (SMA2px), index of paradoxical inspiratory inward motion. The bell-shaped chest index was defined as the ratio between the distance of the two anterior axillary lines at sternal angle and the distance between the right and left 10th costal cartilage. If this index was < < 1, it indicated bell shape, if ~1 it indicated rectangular shape, while if >> 1 an inverted triangle shape was identified. While the bell-shaped index was similar between HC (0.92) and SMA3 (0.91), it was significantly (p < 0.05) reduced in SMA2 (0.81), SMA2px (0.74) and SMA1 (0.73), being similar between the last two. There was a good correlation (Spearman's rank correlation coefficient, ρ = 0.635, p < 0.001) between ribcage geometry and ΔVRC, p. After 1 year, ΔVRC, p reduced while bell-shaped chest index did not change being significantly lower than HC. The shape of the ribcage was quantified and correlated with the action of ribcage muscles in SMA children. The impaired ribcage muscles function alters the ribcage structure. HC and SMA3 show an almost rectangular ribcage shape, whereas SMA2, SMA2px and SMA1 are characterized by bell-shaped chest. In SMA, therefore, a vicious cycle starts since infancy: the disease progressively affects ribcage muscles resulting in reduced expansion of lung and ribcage that ultimately alters ribcage shape. This puts the respiratory muscles at mechanical disadvantage.

Published

2018

13. A New Method for Measuring Bell-Shaped Chest Induced by Impaired Ribcage Muscles in Spinal Muscular Atrophy Children.

Author

LoMauro, Antonella, Banfi, Paolo, Mastella, Chiara, Alberti, Katia, Baranello, Giovanni, and Aliverti, Andrea

Subjects

RANK correlation (Statistics), PLETHYSMOGRAPHY, RESPIRATORY muscles

Abstract

The involvement of the respiratory muscular pump makes SMA children prone to frequent hospitalization and morbidity, particularly in type 1. Progressive weakness affects ribcage muscles resulting in bell-shaped chest that was never quantified. The aims of the present work were: (1) to quantify the presence of bell-shaped chest in SMA infants and children and to correlate it with the action of ribcage muscles, assessed by the contribution of pulmonary ribcage to tidal volume (ΔVRC, p); (2) to verify if and how the structure of the ribcage and ΔVRC, p change after 1-year in SMA type 2. 91 SMA children were studied in supine position during awake spontaneous breathing: 32 with type 1 (SMA1, median age: 0.8 years), 51 with type 2 (SMA2, 3.7 years), 8 with type 3 (SMA3, 5.4 years) and 20 healthy children (HC, 5.2 years). 14 SMA2 showed negative ΔVRC, p (SMA2px), index of paradoxical inspiratory inward motion. The bell-shaped chest index was defined as the ratio between the distance of the two anterior axillary lines at sternal angle and the distance between the right and left 10th costal cartilage. If this index was < < 1, it indicated bell shape, if ~1 it indicated rectangular shape, while if >> 1 an inverted triangle shape was identified. While the bell-shaped index was similar between HC (0.92) and SMA3 (0.91), it was significantly (p < 0.05) reduced in SMA2 (0.81), SMA2px (0.74) and SMA1 (0.73), being similar between the last two. There was a good correlation (Spearman's rank correlation coefficient, ρ = 0.635, p < 0.001) between ribcage geometry and ΔVRC, p. After 1 year, ΔVRC, p reduced while bell-shaped chest index did not change being significantly lower than HC. The shape of the ribcage was quantified and correlated with the action of ribcage muscles in SMA children. The impaired ribcage muscles function alters the ribcage structure. HC and SMA3 show an almost rectangular ribcage shape, whereas SMA2, SMA2px and SMA1 are characterized by bell-shaped chest. In SMA, therefore, a vicious cycle starts since infancy: the disease progressively affects ribcage muscles resulting in reduced expansion of lung and ribcage that ultimately alters ribcage shape. This puts the respiratory muscles at mechanical disadvantage. [ABSTRACT FROM AUTHOR]

Published

2018

14. Ribcage kinematics during exercise justifies thoracoscopic versus postero-lateral thoracotomy lobectomy prompt recovery.

Author

Lomauro, Antonella, Aliverti, Andrea, Chiesa, Melania, Cattaneo, Margherita, Privitera, Emilia, Tosi, Davide, Nosotti, Mario, Santambrogio, Luigi, and Palleschi, Alessandro

Subjects

*THORACIC surgery, *OPTOELECTRONIC devices, *PLETHYSMOGRAPHY, *LOBECTOMY (Lung surgery), *LUNG cancer

Abstract

OBJECTIVES: The video-assisted thoracic surgery (VATS) approach is encouraged over postero-lateral thoracotomy (PLT) for lobectomy in lung cancer. We compare the ribcage kinematics during exercise before and after both procedures, assuming that VATS, being minimally invasive, could better preserve ribcage expansion. METHODS: Thirty-one patients undergoing lobectomy by means of VATS (n = 20) or PLT (n = 11) were compared presurgery, after chest drainage removal (T1) and 2 months post-surgery (T2) during quiet breathing and incremental exercise. Spirometry, chest pain, ventilatory pattern and expansions of the ribcage (ΔVRC) and abdomen were measured. Furthermore, the expansion of the ribcage and abdomen in the operated (ΔVRC-OP and ΔVAB-OP, respectively) and non-operated (ΔVRC-NO and ΔVAB-NO, respectively) sides was also considered. RESULTS: At T1, in both groups, spirometry worsened and chest pain increased, being higher after PLT. Tidal volume (VT) decreased after PLT because the ribcage expanded less due to reduced ΔVRC-OP. Contrary to this, in VATS, there were no changes in VT and ΔVRC, although ΔVRC-OP was lower, because ΔVRC-NO increased at high level of exercise. At T2, ΔVRC-OP was completely restored after VATS. At high levels of exercise following PLT, although patients still showed reduced ΔVRC and ΔVRC-OP, VT was restored owing to increased ΔVAB-NO. CONCLUSIONS: We demonstrate VATS to have a reduced impact on ribcage kinematics while PLT induced restriction more markedly during exercise and still present 2 months after surgery. Patients adopt 2 different compensatory mechanisms, by shifting the expansion toward the contralateral ribcage after VATS and toward the abdomen after PLT. Our study justifies thoracoscopic lobectomy prompt recovery. [ABSTRACT FROM AUTHOR]

Published

2017

15. Efficacy of lung volume optimization maneuver monitored by optoelectronic pletismography in the management of congenital diaphragmatic hernia.

Author

Lista, G., Bresesti, I., Cavigioli, F., Castoldi, F., Lupo, E., LoMauro, A., and Aliverti, A.

Abstract

Newborns affected by congenital diaphragmatic hernia (CDH) need cardio-respiratory stabilization before undergoing surgical repair. Open lung strategy is a well-established approach to optimize lung volume in preterm infants with Respiratory Distress Syndrome (RDS), using both High Frequency Oscillatory Ventilation (HFOV) and Conventional Mechanical Ventilation (CMV). We report a case of left CDH with severe lung hypoplasia, managed applying open lung strategy in HFOV (pre-surgery period) and in Assist-Control with Volume Guarantee (post-surgery period), guided by SpO 2 changes, TcPO 2 and TcPCO 2 monitoring. Opto-electronic plethysmography was used to measure end-expiratory chest wall volume changes (ΔEEcw) related to lung volume variations occurring during pressure changes. OEP confirmed the efficacy of using SpO 2 and transcutaneous gas monitoring during this recruitment maneuver. [ABSTRACT FROM AUTHOR]

Published

2017

16. Acute effects of different inspiratory efforts on ventilatory pattern and chest wall compartmental distribution in elderly women.

Author

Muniz de Souza, Helga, Rocha, Taciano, Campos, Shirley Lima, Brandão, Daniella Cunha, Fink, James B., Aliverti, Andrea, and de Andrade, Armele Dornelas

Subjects

*PLETHYSMOGRAPHY, *CHEST physiology, *ARTIFICIAL respiration, *HEALTH of older women, *FATIGUE (Physiology)

Abstract

It is not completely described how aging affect ventilatory kinematics and what are the mechanisms adopted by the elderly population to overcome these structural modifications. Given this, the aim was to evaluate the acute effects of different inspiratory efforts on ventilatory pattern and chest wall compartmental distribution in elderly women. Variables assessed included: tidal volume (Vt), total chest wall volume (Vcw), pulmonary rib cage (Vrcp%), abdominal rib cage (Vrca%) and abdominal compartment (Vab%) relative contributions to tidal volume. These variables were assessed during quiet breathing, maximal inspiratory pressure maneuver (MIP), and moderate inspiratory resistance (MIR; i.e., 40% of MIP). 22 young women (age: 23.9 ± 2.5 years) and 22 elderly women (age: 68.2 ± 5.0 years) participated to this study. It was possible to show that during quiet breathing, Vab% was predominant in elderly ( p < 0.001), in young, however, Vab% was similar to Vrcp% ( p = 0.095). During MIR, Vrcp% was predominant in young ( p < 0.001) and comparable to Vab% in elderly ( p = 0.249). When MIP was imposed, both groups presented a predominance of Vrcp%. In conclusion, there are differences in abdominal kinematics between young and elderly women during different inspiratory efforts. In elderly, during moderate inspiratory resistance, the pattern is beneficial, deep, and slow. Although, during maximal inspiratory resistance, the ventilatory pattern seems to predict imminent muscle fatigue. [ABSTRACT FROM AUTHOR]

Published

2016

17. Respiratory function assessment at the time of a new respiratory virus pandemic

Author

Arnaldo Andreoli, Fabrizio Gervasoni, Antonella LoMauro, and Andrea Aliverti

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Short Communication, opto-electronic plethysmography, thoraco-abdominal volume, Pulmonary function testing, Post-Acute COVID-19 Syndrome, surgical mask, Pandemic, medicine, Plethysmograph, Humans, Respiratory function, Intensive care medicine, respiratory function assessment, business.industry, pandemic, COVID-19, Respiratory Function Tests, Plethysmography, Surgical mask, Respiratory Mechanics, Respiratory virus, business, Respiratory minute volume

Abstract

We must be aware that new respiratory virus pandemic can happen frequently. Standard lung function tests should keep their crucial role to assist the clinicians in the decision-making process, but they are at risk for the spread of infection because of the generated droplets. We used opto-electronic plethysmography to investigate the post-COVID-19 syndrome on 12 patients after ICU. We found normal ventilatory pattern at rest, a restrictive pattern located in the ribcage during vital capacity and surgical mask to significantly increase minute ventilation. The attention on unconventional respiratory function tests should be sponsored for the important information they can provide.

Published

2021

18. Comparison of different methods for lung immobilization in an animal model

Author

Lo Mauro, Antonella, Aliverti, Andrea, Joensen, Odin, Karaca, Irfan, Witt Nyström, Petra, Larsson, Anders, Frykholm, Peter, Sütterlin, Robert, Lo Mauro, Antonella, Aliverti, Andrea, Joensen, Odin, Karaca, Irfan, Witt Nyström, Petra, Larsson, Anders, Frykholm, Peter, and Sütterlin, Robert

Abstract

BACKGROUND AND PURPOSE: Respiratory-induced motion introduces uncertainties in the delivery of dose in radiotherapy treatments. Various methods are used clinically, e.g. breath-holding, while there is limited experience with other methods such as apneic oxygenation and high frequency jet ventilation (HFJV). This study aims to compare the latter approaches for lung immobilization and their clinical impact on gas exchange in an animal model. MATERIALS AND METHODS: Two radiopaque tumor surrogate markers (TSM) were placed in the central (cTSM) and peripheral (dTSM) regions of the lungs in 9 anesthetized and muscle relaxed pigs undergoing 3 ventilatory interventions (1) HFJV at rates of 200 (JV200), 300 (JV300) and 400 (JV400) min-1; (2) apnea at continuous positive airway pressure (CPAP) levels of 0, 8 and 16 cmH2O; (3) conventional mechanical ventilation (CMV) as reference mode. cTSM and dTSM were visualized using fluoroscopy and their coordinates were computed. The ventilatory pattern was registered, and oxygen and carbon dioxide (pCO2) partial pressures were measured. RESULTS: The highest range of TSM motion, and ventilation was found during CMV, the lowest during apnea. During HFJV the amount of motion varied inversely with increasing frequency. The reduction of TSM motion at JV300, JV400 and all CPAP levels came at the cost of increased pCO2, however the relatively low frequency of 200 min-1 for HFJV was the only ventilatory setting that enabled adequate CO2 removal. CONCLUSION: In this model, HFJV at 200 min-1 was the best compromise between immobilization and gas exchange for sessions of 10-min duration.

Published

2020

19. Alterations of thoraco-abdominal volumes and asynchronies in patients with spinal muscle atrophy type III.

Author

LoMauro, Antonella, Romei, Marianna, Priori, Rita, Laviola, Marianna, D’Angelo, Maria Grazia, and Aliverti, Andrea

Subjects

*MUSCULAR atrophy, *MOTOR neurons, *NEURODEGENERATION, *MUSCLE weakness, *RESPIRATORY diaphragm contraction, *RESPIRATION, *PATIENTS

Abstract

Highlights: [•] In SMA motor neurons degenerate and determine muscle wasting and weakness. [•] In SMA II and IIIA, intercostal muscles are weakened and the diaphragm is spared. [•] In SMA II and IIIA, diaphragm leads inspiration with possible thoracic inwarding. [•] In SMA IIIB all inspiratory muscles are preserved. [•] SMA III sub-classification is valid both for motor and respiratory function. [ABSTRACT FROM AUTHOR]

Published

2014

20. Comparison of different methods for lung immobilization in an animal model

Author

Odin Joensen, Robert Sütterlin, Irfan Karaca, Petra Witt Nyström, Antonella LoMauro, Peter Frykholm, Andrea Aliverti, and Anders Larsson

Subjects

Tumour surrogate marker, Swine, medicine.medical_treatment, pCO2, 030218 nuclear medicine & medical imaging, High-Frequency Jet Ventilation, 03 medical and health sciences, 0302 clinical medicine, Apneic oxygenation, medicine, Fluoroscopy, Animals, Radiology, Nuclear Medicine and imaging, High frequency jet ventilation, Continuous positive airway pressure, Opto-electronic plethysmography, Lung, Mechanical ventilation, medicine.diagnostic_test, business.industry, Respiration, Apnea, Hematology, Respiration, Artificial, Peripheral, Oxygen, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Anesthesia, Breathing, Lung immobilization, medicine.symptom, business

Abstract

Background and purpose Respiratory-induced motion introduces uncertainties in the delivery of dose in radiotherapy treatments. Various methods are used clinically, e.g. breath-holding, while there is limited experience with other methods such as apneic oxygenation and high frequency jet ventilation (HFJV). This study aims to compare the latter approaches for lung immobilization and their clinical impact on gas exchange in an animal model. Materials and methods Two radiopaque tumor surrogate markers (TSM) were placed in the central (cTSM) and peripheral (dTSM) regions of the lungs in 9 anesthetized and muscle relaxed pigs undergoing 3 ventilatory interventions (1) HFJV at rates of 200 (JV200), 300 (JV300) and 400 (JV400) min−1; (2) apnea at continuous positive airway pressure (CPAP) levels of 0, 8 and 16 cmH2O; (3) conventional mechanical ventilation (CMV) as reference mode. cTSM and dTSM were visualized using fluoroscopy and their coordinates were computed. The ventilatory pattern was registered, and oxygen and carbon dioxide (pCO2) partial pressures were measured. Results The highest range of TSM motion, and ventilation was found during CMV, the lowest during apnea. During HFJV the amount of motion varied inversely with increasing frequency. The reduction of TSM motion at JV300, JV400 and all CPAP levels came at the cost of increased pCO2, however the relatively low frequency of 200 min−1 for HFJV was the only ventilatory setting that enabled adequate CO2 removal. Conclusion In this model, HFJV at 200 min−1 was the best compromise between immobilization and gas exchange for sessions of 10-min duration.

Published

2020

21. Chest wall regional volumes in obese women.

Author

Barcelar, Jacqueline de Melo, Aliverti, Andrea, Melo, Talita Lourdes Lins de Barros, Dornelas, Camila Soares, Lima, Catarina Souza Ferreira Rattes, Reinaux, Cyda Maria A., and de Andrade, Armèle Dornelas

Subjects

*CHEST (Anatomy), *LUNG volume, *OBESITY in women, *RESPIRATION, *RIB cage, *LUNG physiology

Abstract

Highlights: [•] We evaluated obese women during quiet breathing. [•] The chest wall volumes and breathing patterns were assessed. [•] Obese women were characterized by lung restriction and higher minute ventilation at rest. [•] Volume variations of the pulmonary rib cage are lower and volume variations of the abdomen are higher in obese women. [•] The kind of obesity, either central or peripheral, does not further influence lung function and thoraco-abdominal pattern. [ABSTRACT FROM AUTHOR]

Published

2013

22. Quantitative Analysis by 3D Graphics of Thoraco-Abdominal Surface Shape and Breathing Motion.

Author

Aliverti A, Lacca D, and LoMauro A

Abstract

Chest wall motion can provide information on respiratory muscles' action and on critical vital signs, like respiration and cardiac activity. The chest wall is a structure with three compartments that are independent to each other and can move paradoxically according to the pathophysiology of the disease. Opto-electronic plethysmography (OEP) allows for non-invasively 3D tracking of body movements. We aimed to extend the characteristics of OEP analysis to local analyses of thoraco-abdominal surface geometry and kinematics during respiration. Starting from the OEP output file, the 3D markers' coordinates were combined with a triangulation matrix. A smoothing procedure (an automatic and iterative interpolation process to increase the number of vertices from 93 to 548) was applied to allow for precise local analysis of the thoraco-abdominal surface. A series of measurements can be performed to characterize the geometry of the trunk and its three compartments, in terms of volumes, height, diameters, perimeters, and area. Some shape factors, such as surface-to-volume ratio or height-to-perimeter ratio, can be also computed. It was also possible to build the vector field associated with the breathing motion of all the vertices, in terms of magnitude and motion direction. The vector field data were analyzed and displayed through two graphic tools: a 3D heatmap, in which the magnitude of motion was associated to different colors, and a 3D arrow plot, that allowed us to visualize both the magnitude and the direction of motion with color-coded arrows. The methods were applied to 10 healthy subjects (5 females) and also applied to two cases: a pregnant woman at each trimester of gestation and a patient before and after a demolition thoracic surgery. The results proved to be coherent with the physiology of healthy subjects and the physiopathology of the cases. We developed a new non-invasive method for respiratory analysis that allowed for the creation of realistic 3D models of the local and global trunk surface during respiration. The proposed representation constituted a very intuitive method to visualize and compare thoraco-abdominal surface movements within and between subjects, therefore enforcing the potential clinical translational value of the method., 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., (Copyright © 2022 Aliverti, Lacca and LoMauro.)

Published

2022

23. Effects of gender and posture on thoraco-abdominal kinematics during quiet breathing in healthy adults

Author

Romei, M., Mauro, A. Lo, D’Angelo, M.G., Turconi, A.C., Bresolin, N., Pedotti, A., and Aliverti, A.

Subjects

*POSTURE, *PHYSIOLOGY, *GENDER, *PLETHYSMOGRAPHY, *CHEST (Anatomy), *RESPIRATION, *KINEMATICS, *SUPINE position

Abstract

Abstract: To investigate the effects of posture and gender on thoraco-abdominal motion and breathing pattern, 34 healthy men and women were studied by Opto-Electronic Plethysmography during quiet breathing in five different postures from seated (with and without back support) to supine position. Chest wall kinematics and breathing pattern were significantly influenced by position and gender. The progressively increased inclination of the trunk determined a progressive reduction of rib cage displacement, tidal volume, and minute ventilation and a progressive increase of abdominal contribution to tidal volume. Female subjects were characterized by smaller dimensions of the rib cage compartment and during quiet breathing by lower tidal volume, minute ventilation and abdominal contribution to tidal volume than males. The effect of posture on abdominal kinematics was significant only in women. The presence of a back support in seated position determined differences in breathing pattern. In conclusion, posture and gender have a strong influence on breathing and on chest wall kinematics. [Copyright &y& Elsevier]

Published

2010

24. Pulmonary kinetics at the onset of exercise is faster when actual changes in alveolar O2 stores are considered

Author

Aliverti, A., Kayser, B., Cautero, M., Dellacà, R.L., di Prampero, P.E., and Capelli, C.

Subjects

*PULMONARY diffusing capacity, *PHYSIOLOGICAL transport of oxygen, *PHYSIOLOGICAL aspects of cycling, *PLETHYSMOGRAPHY, *LUNGS, *EXERCISE physiology, *BRONCHOALVEOLAR lavage

Abstract

Abstract: Breath-by-breath (BbB) oxygen uptake rate was measured at the mouth (MO) and at the alveolar level, at the onset of square wave cycling exercise of moderate intensity in six healthy male subjects. Alveolar BbB values were calculated correcting MO values by (i) estimating (GR); and (ii) measuring (opto-electronic plethysmography, OEP) BbB lung O2 store changes. kinetics was then described by a bi-exponential model. GR yielded larger values of the time constants (τ 2) of the primary phase of kinetics. The mean response times (MRTs) calculated by analysing GR BbB values were larger than (i) those obtained by using MO and OEP at 90W; and (ii) that by using MO at 120W. OEP corrected yielded the highest normalised amplitude of the cardiodynamic phase of the on-response. Correction of BbB for actual BbB changes of lung O2 stores by OEP thus seems more appropriate for the study of the early cardiodynamic phase of kinetics than GR. [Copyright &y& Elsevier]

Published

2009

25. Efficacy of lung volume optimization maneuver monitored by optoelectronic pletismography in the management of congenital diaphragmatic hernia

Author

Gianluca Lista, Francesco Cavigioli, Antonella LoMauro, Andrea Aliverti, Enrica Lupo, Ilia Bresesti, and Francesca Castoldi

Subjects

Pulmonary and Respiratory Medicine, CDH, Lung volume, Newborn, Opto-electronic plethysmography, Ventilation strategy, medicine.medical_treatment, Case Report, 03 medical and health sciences, 0302 clinical medicine, 030225 pediatrics, Medicine, Plethysmograph, Lung volumes, Surgical repair, Mechanical ventilation, lcsh:RC705-779, Lung, Respiratory distress, business.industry, Congenital diaphragmatic hernia, lcsh:Diseases of the respiratory system, respiratory system, medicine.disease, medicine.anatomical_structure, 030228 respiratory system, Anesthesia, business, High frequency oscillatory ventilation

Abstract

Newborns affected by congenital diaphragmatic hernia (CDH) need cardio-respiratory stabilization before undergoing surgical repair. Open lung strategy is a well-established approach to optimize lung volume in preterm infants with Respiratory Distress Syndrome (RDS), using both High Frequency Oscillatory Ventilation (HFOV) and Conventional Mechanical Ventilation (CMV). We report a case of left CDH with severe lung hypoplasia, managed applying open lung strategy in HFOV (pre-surgery period) and in Assist-Control with Volume Guarantee (post-surgery period), guided by SpO2 changes, TcPO2 and TcPCO2 monitoring. Opto-electronic plethysmography was used to measure end-expiratory chest wall volume changes (ΔEEcw) related to lung volume variations occurring during pressure changes. OEP confirmed the efficacy of using SpO2 and transcutaneous gas monitoring during this recruitment maneuver.

Published

2017

26. The impaired diaphragmatic function after bilateral lung transplantation: A multifactorial longitudinal study

Author

Maurizio Vergari, Alessandro Palleschi, Emilia Privitera, Mario Nosotti, Martina Nigro, Ilaria Righi, Letizia Corinna Morlacchi, Antonella LoMauro, Peter Frykholm, Andrea Aliverti, and Paolo Tarsia

Subjects

Pulmonary and Respiratory Medicine, Adult, Male, Vital capacity, medicine.medical_specialty, opto-electronic plethysmography, medicine.medical_treatment, Diaphragm, Vital Capacity, Diaphragmatic breathing, 030204 cardiovascular system & hematology, Phrenic Nerve Injury, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Internal medicine, medicine, Lung transplantation, Humans, Postoperative Period, Prospective Studies, Lung, Phrenic nerve, Transplantation, ultrasound, business.industry, Neurapraxia, Middle Aged, medicine.disease, Diaphragm (structural system), Phrenic Nerve, 030228 respiratory system, Spirometry, Cardiology, Surgery, Female, Cardiology and Cardiovascular Medicine, business, Follow-Up Studies, Lung Transplantation

Abstract

BACKGROUND Lung transplantation is a complex but effective treatment of end-stage pulmonary disease. Among the post-operative complications, phrenic nerve injury, and consequent diaphragmatic dysfunction are known to occur but are hitherto poorly described. We aimed to investigate the effect of lung transplantation on diaphragmatic function with a multimodal approach. METHODS A total of 30 patients were studied at 4 time points: pre-operatively, at discharge after surgery, and after approximately 6 and subsequently 12 months post surgery. The diaphragmatic function was studied in terms of geometry (assessed by the radius of the diaphragmatic curvature delineated on chest X-ray), weakness (considering changes in forced vital capacity when the patient shifted from upright to supine position), force (maximal pressure during sniff), mobility (excursion of the dome of the diaphragm delineated by ultrasound), contractility (thickening fraction assessed by ultrasound), electrical activity (latency and area of compound muscle action potential during electrical stimulation of phrenic nerve), and kinematics (relative contribution of the abdominal compartment to tidal volume). RESULTS Despite good clinical recovery (indicated by spirometry and 6 minutes walking test), a reduction of the diaphragmatic function was detected at discharge; it persisted 6 months later to recover fully 1 year after transplantation. Diaphragmatic dysfunction was demonstrated in terms of force, weakness, electrical activity, and kinematics. Our data suggest that the dysfunction was caused by phrenic nerve neurapraxia or moderate axonotmesis, potentially as a consequence of the surgical procedure (i.e., the use of ice and pericardium manipulation). CONCLUSIONS The occurrence of diaphragmatic dysfunction in patients with a good clinical recovery indicates that the evaluation of diaphragmatic function should be included in the post-operative assessment after lung transplantation.

Published

2019

27. A New Method for Measuring Bell-Shaped Chest Induced by Impaired Ribcage Muscles in Spinal Muscular Atrophy Children

Author

Paolo Banfi, Andrea Aliverti, Giovanni Baranello, Katia Alberti, Chiara Mastella, and Antonella LoMauro

Subjects

Supine position, opto-electronic plethysmography, bell-shaped chest, breathing pattern, paradoxical breathing, SMA, ribcage muscles, Sternal angle, lcsh:RC346-429, 03 medical and health sciences, 0302 clinical medicine, Medicine, Respiratory system, Tidal volume, lcsh:Neurology. Diseases of the nervous system, Lung, business.industry, Anatomy, Costal cartilage, medicine.anatomical_structure, 030228 respiratory system, Neurology, Breathing, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

The involvement of the respiratory muscular pump makes SMA children prone to frequent hospitalization and morbidity, particularly in type 1. Progressive weakness affects ribcage muscles resulting in bell-shaped chest that was never quantified. The aims of the present work were: (1) to quantify the presence of bell-shaped chest in SMA infants and children and to correlate it with the action of ribcage muscles, assessed by the contribution of pulmonary ribcage to tidal volume (ΔVRC, p); (2) to verify if and how the structure of the ribcage and ΔVRC, p change after 1-year in SMA type 2. 91 SMA children were studied in supine position during awake spontaneous breathing: 32 with type 1 (SMA1, median age: 0.8 years), 51 with type 2 (SMA2, 3.7 years), 8 with type 3 (SMA3, 5.4 years) and 20 healthy children (HC, 5.2 years). 14 SMA2 showed negative ΔVRC, p (SMA2px), index of paradoxical inspiratory inward motion. The bell-shaped chest index was defined as the ratio between the distance of the two anterior axillary lines at sternal angle and the distance between the right and left 10th costal cartilage. If this index was < < 1, it indicated bell shape, if ~1 it indicated rectangular shape, while if >> 1 an inverted triangle shape was identified. While the bell-shaped index was similar between HC (0.92) and SMA3 (0.91), it was significantly (p < 0.05) reduced in SMA2 (0.81), SMA2px (0.74) and SMA1 (0.73), being similar between the last two. There was a good correlation (Spearman's rank correlation coefficient, ρ = 0.635, p < 0.001) between ribcage geometry and ΔVRC, p. After 1 year, ΔVRC, p reduced while bell-shaped chest index did not change being significantly lower than HC. The shape of the ribcage was quantified and correlated with the action of ribcage muscles in SMA children. The impaired ribcage muscles function alters the ribcage structure. HC and SMA3 show an almost rectangular ribcage shape, whereas SMA2, SMA2px and SMA1 are characterized by bell-shaped chest. In SMA, therefore, a vicious cycle starts since infancy: the disease progressively affects ribcage muscles resulting in reduced expansion of lung and ribcage that ultimately alters ribcage shape. This puts the respiratory muscles at mechanical disadvantage.

Published

2018

28. Manubrio-sternal joint mobility during forced ventilation using non-invasive opto-electronic plethysmography: cases studies.

Author

Gaillard, L., Debraux, L., and Houel, N.

Subjects

*PLETHYSMOGRAPHY, *NONINVASIVE ventilation, *STERNUM, *RIB cage, *DIVERGENCE theorem, *FAST Fourier transforms

Abstract

Keywords: Sternal angle; opto-electronic plethysmography; Euler angles EN Sternal angle opto-electronic plethysmography Euler angles S411 S412 2 01/29/21 20191002 NES 191002 1. Cross product is used to generate two direct orthonormal vector fields: (Graph HT ht Graph HT ht Graph HT ht ) attached to the manubrium orientation in space and (Graph HT ht Graph HT ht Graph HT ht ) attached to the sternum orientation in space. [Extracted from the article]

Published

2019

29. Respiratory function assessment at the time of a new respiratory virus pandemic.

Author

LoMauro A, Gervasoni F, Andreoli A, and Aliverti A

Subjects

COVID-19 diagnosis, COVID-19 physiopathology, Humans, Post-Acute COVID-19 Syndrome, COVID-19 complications, Plethysmography, Respiratory Function Tests, Respiratory Mechanics physiology

Abstract

We must be aware that new respiratory virus pandemic can happen frequently. Standard lung function tests should keep their crucial role to assist the clinicians in the decision-making process, but they are at risk for the spread of infection because of the generated droplets. We used opto-electronic plethysmography to investigate the post-COVID-19 syndrome on 12 patients after ICU. We found normal ventilatory pattern at rest, a restrictive pattern located in the ribcage during vital capacity and surgical mask to significantly increase minute ventilation. The attention on unconventional respiratory function tests should be sponsored for the important information they can provide., (Copyright © 2021. Published by Elsevier Ltd.)

Published

2021

30. Ribcage deformity and the altered breathing pattern in children with osteogenesis imperfecta

Author

Paolo Fraschini, Maria Grazia D'Angelo, Antonella LoMauro, M. Romei, Andrea Aliverti, and Simona Pochintesta

Subjects

0301 basic medicine, Pulmonary and Respiratory Medicine, medicine.medical_specialty, opto-electronic plethysmography, Kyphosis, Scoliosis, platyspondyly, Spinal Curvatures, 03 medical and health sciences, 0302 clinical medicine, Pectus carinatum, diaphragm, ribcage muscles, Internal medicine, Deformity, medicine, Humans, Respiratory function, Child, Lung, Rib cage, Shallow breathing, business.industry, Respiration, Rib Cage, Osteogenesis Imperfecta, medicine.disease, Plethysmography, 030104 developmental biology, 030228 respiratory system, Osteogenesis imperfecta, Child, Preschool, Pediatrics, Perinatology and Child Health, Cardiology, medicine.symptom, business, Respiratory Insufficiency

Abstract

AIM Osteogenesis Imperfecta (OI) is a genetic disease characterized by bones fragility and progressive deformity. Life expectancy is reduced in the non-lethal most severe type III form before the age of 10 years. The main cause of death in OI is respiratory insufficiency resulting from impaired thoracic function worsened by ribcage deformity and scoliosis. METHODS We used opto-electronic plethysmography to study chest geometry, the ventilatory, and the thoraco-abdominal pattern at rest in supine position in children younger than 10 years. Radiographic measurements were used to describe spinal deformity. RESULTS Eight severe OI (sOI), seven affected by other moderate forms (mOI), and nine healthy controls (CTR) were analyzed. sOI were characterized by Pectus carinatum (sternal angle: 165.2°, CTR: 183.1°; P

Published

2017

31. Ribcage kinematics during exercise justifies thoracoscopic versus postero-lateral thoracotomy lobectomy prompt recovery

Author

Davide Tosi, Melania Chiesa, Alessandro Palleschi, Luigi Santambrogio, Mario Nosotti, M. Cattaneo, Emilia Privitera, Andrea Aliverti, and Antonella LoMauro

Subjects

Pulmonary and Respiratory Medicine, Spirometry, Male, medicine.medical_specialty, Lung Neoplasms, Chest wall, medicine.medical_treatment, VATS, 030204 cardiovascular system & hematology, Chest pain, Incremental exercise, 03 medical and health sciences, 6MWT, Dyspnoea, Opto-electronic plethysmography, 0302 clinical medicine, Carcinoma, Non-Small-Cell Lung, Thoracoscopy, Medicine, Humans, Thoracotomy, Postoperative Period, Pneumonectomy, Exercise, Tidal volume, Retrospective Studies, medicine.diagnostic_test, business.industry, Thoracic Surgery, Video-Assisted, Rib Cage, General Medicine, Recovery of Function, Middle Aged, Surgery, Biomechanical Phenomena, medicine.anatomical_structure, 030228 respiratory system, Cardiothoracic surgery, Abdomen, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Follow-Up Studies

Abstract

OBJECTIVES The video-assisted thoracic surgery (VATS) approach is encouraged over postero-lateral thoracotomy (PLT) for lobectomy in lung cancer. We compare the ribcage kinematics during exercise before and after both procedures, assuming that VATS, being minimally invasive, could better preserve ribcage expansion. METHODS Thirty-one patients undergoing lobectomy by means of VATS (n = 20) or PLT (n = 11) were compared presurgery, after chest drainage removal (T1) and 2 months post-surgery (T2) during quiet breathing and incremental exercise. Spirometry, chest pain, ventilatory pattern and expansions of the ribcage (ΔVRC) and abdomen were measured. Furthermore, the expansion of the ribcage and abdomen in the operated (ΔVRC-OP and ΔVAB-OP, respectively) and non-operated (ΔVRC-NO and ΔVAB-NO, respectively) sides was also considered. RESULTS At T1, in both groups, spirometry worsened and chest pain increased, being higher after PLT. Tidal volume (VT) decreased after PLT because the ribcage expanded less due to reduced ΔVRC-OP. Contrary to this, in VATS, there were no changes in VT and ΔVRC, although ΔVRC-OP was lower, because ΔVRC-NO increased at high level of exercise. At T2, ΔVRC-OP was completely restored after VATS. At high levels of exercise following PLT, although patients still showed reduced ΔVRC and ΔVRC-OP, VT was restored owing to increased ΔVAB-NO. CONCLUSIONS We demonstrate VATS to have a reduced impact on ribcage kinematics while PLT induced restriction more markedly during exercise and still present 2 months after surgery. Patients adopt 2 different compensatory mechanisms, by shifting the expansion toward the contralateral ribcage after VATS and toward the abdomen after PLT. Our study justifies thoracoscopic lobectomy prompt recovery. Clinical trial registration clinicaltrials.gov (NCT02910453).

Published

2017

32. Acute effects of different inspiratory efforts on ventilatory pattern and chest wall compartmental distribution in elderly women

Author

James B Fink, Andrea Aliverti, Armèle Dornelas de Andrade, Daniella Cunha Brandão, Shirley Lima Campos, Taciano Rocha, and Helga De Souza

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Aging, Physiology, Respiratory mechanics, Physiological, Neuroscience(all), Respiratory physiology, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Internal medicine, Abdomen, medicine, Tidal Volume, Plethysmograph, Humans, Breathing pattern, Opto-electronic plethysmography, Adaptation, Physiological, Aged, Biomechanical Phenomena, Cross-Sectional Studies, Female, Inhalation, Plethysmography, Rib Cage, Neuroscience (all), Adaptation, Young adult, Tidal volume, Rib cage, Muscle fatigue, business.industry, General Neuroscience, Surgery, medicine.anatomical_structure, 030228 respiratory system, Cardiology, business, 030217 neurology & neurosurgery

Abstract

It is not completely described how aging affect ventilatory kinematics and what are the mechanisms adopted by the elderly population to overcome these structural modifications. Given this, the aim was to evaluate the acute effects of different inspiratory efforts on ventilatory pattern and chest wall compartmental distribution in elderly women. Variables assessed included: tidal volume (Vt), total chest wall volume (Vcw), pulmonary rib cage (Vrcp%), abdominal rib cage (Vrca%) and abdominal compartment (Vab%) relative contributions to tidal volume. These variables were assessed during quiet breathing, maximal inspiratory pressure maneuver (MIP), and moderate inspiratory resistance (MIR; i.e., 40% of MIP). 22 young women (age: 23.9 ± 2.5 years) and 22 elderly women (age: 68.2 ± 5.0 years) participated to this study. It was possible to show that during quiet breathing, Vab% was predominant in elderly (p

Published

2015

33. Development Of A Bio-Inspired Mechatronic Chest Wall Simulator For Evaluating The Performances Of Opto-Electronic Plethysmography

Author

Scorza A, Bastianini F, Massaroni C, Silvestri S, Schena E, Sciuto S. A, Lupi G, Botta F, Saccomandi P, Massaroni, C, Schena, E, Bastianini, F, Scorza, Andrea, Saccomandi, P, Lupi, G, Botta, Fabio, Sciuto, SALVATORE ANDREA, and Silvestri, S.

Subjects

Accuracy and precision, Motion analysis, Chest wall kinematic, Chest wall simulator, Computer science, opto-electronic plethysmography, Biomedical Engineering, metrological assessment, Medicine (miscellaneous), Bioengineering, Kinematics, Respiratory monitoring, Displacement (vector), Article, Opto-electronic plethysmography, Simulation, Breathing pattern, motion analysis, chest wall kinematic, respiratory monitoring, Metrological assessment, Motion analysi, Gait analysis, Breathing, Measurement uncertainty, chest wall simulator

Abstract

Instrumented gait analysis based on optoelectronic systems is an expensive technique used to objectively measure the human movement features and it is generally considered as the gold standard. Opto-electronic plethysmography (OEP) is a particular motion analysis system able to: (i) determine chest wall kinematic via the evaluation of marker displacements placed on the thorax and (ii) compute respiratory volumes during breathing. The aim of this work is to describe the performances of a custom made, bio-inspired, mechatronic chest wall simulator (CWS), specifically designed to assess the metrological performances of the OEP system. The design of the simulator is based on the chest wall kinematic analysis of three healthy subjects previously determined. Two sets of experiments were carried out: (i) to investigate the CWS dynamic response using different target displacements (1 - 12 mm), and (ii) to assess the CWS accuracy and precision in simulating quite breathing, covering the physiological range of respiratory frequency and tidal volume. Results show that the CWS allows simulating respiratory frequency up to ~ 60 bpm. The difference between the actual displacement and the set one is always < 9 μm. The precision error, expressed as the ratio between measurement uncertainty and the actual displacement, is lower than 0.32 %. The observed good performances permit to consider the CWS prototype feasible to be employed for assessing the performances of OEP system in periodical validation routines.

Published

2015

34. Tidal volume measurements in infants: Opto-electronic plethysmography versus pneumotachograph

Author

Reinaux, Cyda Maria Albuquerque, Aliverti, Andrea, da Silva, Lívia Gabriely Melo, da Silva, Rafael Justino, Gonçalves, Juliane Neves, Noronha, Jessica Brito, Filho, José Eulálio Cabral, de Andrade, Armèle Dornelas, and de Amorim Britto, Murilo Carlos

Subjects

Pulmonary and Respiratory Medicine, Male, opto-electronic plethysmography, Rib Cage, Infant, Gestational Age, Perinatology and Child Health, chest wall, Pediatrics, Respiratory Function Tests, tidal breathing, Plethysmography, Abdomen, Tidal Volume, Humans, infant, tidal volume, Pediatrics, Perinatology and Child Health, Female, Sleep, Thoracic Wall, Retrospective Studies

Abstract

Tidal breathing measurements by Opto-Electronic Plethysmography (OEP) has been reported for infants limited to protocols with two chest wall compartments. Standard protocol for the analysis of adults, with three compartments of chest wall, has been unavailable for analysis of infants. We aimed to study the agreement of simultaneous measurements of tidal volume by OEP (VT,OEP ) and a heated pneumotachograph (PNT) (VT,PNT ) performed during sleeping in 20 infants (gestational age 35.1 ± 4.6 weeks) at 3-4 months postconceptual age with a three compartment protocol. From PNT and OEP measurements, tidal volume corrected (VT,PNT ) for ambient conditions were calculated with a total number of 200 breaths. The two methods were in good agreement with tidal volume mean difference of 0.02 ml and limit of agreement -4.11 to 4.08 ml (95%CI), no relationship was found between differences and means of OEP and PNT measurements. Pulmonary rib cage, abdominal rib cage and abdomen contributed by 12.4 ± 9.7%, 5.2 ± 5.1%, and 82.4 ± 11.4% to VT,OEP , respectively. The OEP experimental protocol based on 52 markers and a three-compartment model of the chest wall could be used in spontaneously sleeping infants. Pediatr Pulmonol. 2016;51:850-857. © 2016 Wiley Periodicals, Inc.

Published

2014

35. Pulmonary V(O)(2) kinetics at the onset of exercise is faster when actual changes in alveolar O2 stores are considered

Author

Aliverti, A, Kayser, Bengt E., Cautero, M, Dellacà, R L, di Prampero, P E, and Capelli, C

Subjects

Adult, Male, opto-electronic plethysmography, Forced Expiratory Volume/physiology, Pulmonary Alveoli/blood supply/physiology, O2 lung stores, Oxygen Consumption/physiology, ddc:616.9802, Oxygen Consumption, BbB V'O2 consumption, VO2 kinetics, Forced Expiratory Volume, Exercise/physiology, Reaction Time, Humans, Biomechanics, Exercise, Mouth, Pulmonary Gas Exchange, Respiration, Exercise Test/methods, V'O2-on, Middle Aged, Biomechanical Phenomena, Plethysmography, Pulmonary Alveoli, Reaction Time/physiology, Exercise Test, Pulmonary Gas Exchange/physiology, Plethysmography/methods

Abstract

Breath-by-breath (BbB) oxygen uptake rate (V(O)(2)) was measured at the mouth (MO) and at the alveolar level, at the onset of square wave cycling exercise of moderate intensity in six healthy male subjects. Alveolar BbB V(O)(2) values were calculated correcting MO V(O)(2) values by (i) estimating (GR); and (ii) measuring (opto-electronic plethysmography, OEP) BbB lung O(2) store changes.V(O)(2) kinetics was then described by a bi-exponential model. GR yielded larger values of the time constants (tau2) of the primary phase of V(O)(2) kinetics. The mean response times (MRTs) calculated by analysing GR BbB V(O)(2) values were larger than (i) those obtained by using MO and OEP at 90W; and (ii) that by using MO at 120W. OEP corrected V(O)(2) yielded the highest normalised amplitude of the cardiodynamic phase of the V(O)(2) on-response. Correction of BbB V(O)(2) for actual BbB changes of lung O(2) stores by OEP thus seems more appropriate for the study of the early cardiodynamic phase of V(O)(2) kinetics than GR.

Published

2009

36. Ribcage deformity and the altered breathing pattern in children with osteogenesis imperfecta.

Author

LoMauro A, Fraschini P, Pochintesta S, Romei M, D'Angelo MG, and Aliverti A

Subjects

Child, Child, Preschool, Humans, Lung physiopathology, Osteogenesis Imperfecta physiopathology, Plethysmography, Respiration, Respiratory Insufficiency physiopathology, Spinal Curvatures epidemiology, Spinal Curvatures physiopathology, Osteogenesis Imperfecta epidemiology, Respiratory Insufficiency epidemiology, Rib Cage abnormalities

Abstract

Aim: Osteogenesis Imperfecta (OI) is a genetic disease characterized by bones fragility and progressive deformity. Life expectancy is reduced in the non-lethal most severe type III form before the age of 10 years. The main cause of death in OI is respiratory insufficiency resulting from impaired thoracic function worsened by ribcage deformity and scoliosis., Methods: We used opto-electronic plethysmography to study chest geometry, the ventilatory, and the thoraco-abdominal pattern at rest in supine position in children younger than 10 years. Radiographic measurements were used to describe spinal deformity., Results: Eight severe OI (sOI), seven affected by other moderate forms (mOI), and nine healthy controls (CTR) were analyzed. sOI were characterized by Pectus carinatum (sternal angle: 165.2°, CTR: 183.1°; P < 0.01), rapid and shallow breathing (RSBi: 267.4 L -1 min -1 , CTR: 150.7 L -1 min -1 ; P < 0.05) and reduced pulmonary rib cage contribution to tidal volume (5.1%, CTR: 14.6%; P < 0.001) that evolved with age approaching the paradoxical inspiratory inward movement previously found in adults. mOI showed almost normal ventilatory pattern (RSBi: 189.2 -1 min -1 ) and absence of sternal deformity (sternal angle: 176.8°). Platyspondyly and kyphosis were common features in all OI children., Conclusion: An altered breathing pattern in severe OI is present since childhood and it worsens with age. This is caused by the combination of pectus carinatum, brittle ribs and spinal deformity that put the ribcage muscles in mechanical disadvantage. These results suggest that in severe OI the assessment of the respiratory function should start in early childhood in order to try to reduce the incidence of premature death., (© 2018 Wiley Periodicals, Inc.)

Published

2018

37. Tidal volume measurements in infants: Opto-electronic plethysmography versus pneumotachograph.

Author

Reinaux CM, Aliverti A, da Silva LG, da Silva RJ, Gonçalves JN, Noronha JB, Filho JE, de Andrade AD, and de Amorim Britto MC

Subjects

Abdomen physiology, Female, Gestational Age, Humans, Infant, Male, Retrospective Studies, Rib Cage physiology, Sleep, Thoracic Wall physiology, Plethysmography methods, Respiratory Function Tests instrumentation, Respiratory Function Tests methods, Tidal Volume

Abstract

Tidal breathing measurements by Opto-Electronic Plethysmography (OEP) has been reported for infants limited to protocols with two chest wall compartments. Standard protocol for the analysis of adults, with three compartments of chest wall, has been unavailable for analysis of infants. We aimed to study the agreement of simultaneous measurements of tidal volume by OEP (VT,OEP ) and a heated pneumotachograph (PNT) (VT,PNT ) performed during sleeping in 20 infants (gestational age 35.1 ± 4.6 weeks) at 3-4 months postconceptual age with a three compartment protocol. From PNT and OEP measurements, tidal volume corrected (VT,PNT ) for ambient conditions were calculated with a total number of 200 breaths. The two methods were in good agreement with tidal volume mean difference of 0.02 ml and limit of agreement -4.11 to 4.08 ml (95%CI), no relationship was found between differences and means of OEP and PNT measurements. Pulmonary rib cage, abdominal rib cage and abdomen contributed by 12.4 ± 9.7%, 5.2 ± 5.1%, and 82.4 ± 11.4% to VT,OEP , respectively. The OEP experimental protocol based on 52 markers and a three-compartment model of the chest wall could be used in spontaneously sleeping infants. Pediatr Pulmonol. 2016;51:850-857. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

38. Development of a bio-inspired mechatronic chest wall simulator for evaluating the performances of opto-electronic plethysmography.

Author

C M, E S, F B, A S, P S, G L, F B, S A S, and S S

Abstract

Instrumented gait analysis based on optoelectronic systems is an expensive technique used to objectively measure the human movement features and it is generally considered as the gold standard. Opto-electronic plethysmography (OEP) is a particular motion analysis system able to: (i) determine chest wall kinematic via the evaluation of marker displacements placed on the thorax and (ii) compute respiratory volumes during breathing. The aim of this work is to describe the performances of a custom made, bio-inspired, mechatronic chest wall simulator (CWS), specifically designed to assess the metrological performances of the OEP system. The design of the simulator is based on the chest wall kinematic analysis of three healthy subjects previously determined. Two sets of experiments were carried out: (i) to investigate the CWS dynamic response using different target displacements (1 - 12 mm), and (ii) to assess the CWS accuracy and precision in simulating quite breathing, covering the physiological range of respiratory frequency and tidal volume. Results show that the CWS allows simulating respiratory frequency up to ~ 60 bpm. The difference between the actual displacement and the set one is always < 9 μm. The precision error, expressed as the ratio between measurement uncertainty and the actual displacement, is lower than 0.32 %. The observed good performances permit to consider the CWS prototype feasible to be employed for assessing the performances of OEP system in periodical validation routines.

Published

2014