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9 results on '"D. Bettinelli"'

2. Quantitative comparison of five current protocols in gait analysis

Author

P. Crenna, D. Bettinelli, Alberto Ferrari, Alberto Leardini, Maria Grazia Benedetti, Carlo Albino Frigo, Esteban Pavan, Marco Rabuffetti, Ferrari A., Benedetti M.G., Pavan E., Frigo C., Bettinelli D., Rabuffetti M., Crenna P., and Leardini A.

Subjects
medicine.medical_specialty, Computer science, Physiology, Biophysics, Kinematics, Settore BIO/09 - Fisiologia, Young Adult, Physical medicine and rehabilitation, Gait (human), medicine, Humans, Orthopedics and Sports Medicine, Gait, Simulation, Protocol (science), Data collection, Rehabilitation, Data reduction, Gait analysis, Inter-protocol repeatability, Kinetics, Repeatability, Middle Aged, Trunk, Biomechanical Phenomena, Anatomical landmark
Abstract

Data collection and reduction procedures, coherently structured in protocols, are necessary in gait analysis to make kinematic and kinetic measurements clinically comprehensible. The current protocols differ considerably for the marker-set and for the biomechanical model implemented. Nevertheless, conventional gait variables are compared without full awareness of these differences. A comparison was made of five worldwide representative protocols by analysing kinematics and kinetics of the trunk, pelvis and lower limbs exactly over the same gait cycles. A single comprehensive arrangement of markers was defined by merging the corresponding five marker-sets. This resulted in 60 markers to be positioned either on the skin or on wands, and in 16 anatomical landmark calibrations to be performed with an instrumented pointer. Two healthy subjects and one patient who had a special two degrees of freedom knee prosthesis implanted were analysed. Data from up-right posture and at least three gait repetitions were collected. Five corresponding experts participated in the data collection and analysed independently the data according to their own procedures. All five protocols showed good intra-protocol repeatability. Joint flexion/extension showed good correlations and a small bias among protocols. Out-of-sagittal plane rotations revealed worse correlations, and in particular knee abduction/adduction had opposite trends. Joint moments compared well, despite the very different methods implemented. The abduction/adduction at the prosthetic knee, which was fully restrained, revealed an erroneous rotation as large as 30 degrees in one protocol. Higher correlations were observed between the protocols with similar biomechanical models, whereas little influence seems to be ascribed to the marker-set.

Published
2007

3. A SINGLE GAIT CYCLE AS MEASURED BY FOUR CURRENT PROTOCOLS

Author

Esteban Pavan, Carlo Albino Frigo, Maria Grazia Benedetti, D. Bettinelli, Alberto Ferrari, and Alberto Leardini

Subjects
medicine.medical_specialty, Physical medicine and rehabilitation, Computer science, Rehabilitation, Biophysics, medicine, Orthopedics and Sports Medicine, Gait cycle
Published
2006

4. Rear-foot, mid-foot and fore-foot motion during the stance phase of gait

Author

R. Nativo, Alberto Leardini, Lisa Berti, D. Bettinelli, Maria Grazia Benedetti, Sandro Giannini, Leardini A., Benedetti M.G., Berti L., Bettinelli D., Nativo R., and Giannini S.

Subjects
Adult, Male, Rotation, Movement, Population, Biophysics, Models, Biological, Gait (human), Foot Joints, medicine, Humans, Orthopedics and Sports Medicine, education, Gait, education.field_of_study, Foot, Foot Bones, Rehabilitation, Anatomy, Sagittal plane, Biomechanical Phenomena, Transverse plane, medicine.anatomical_structure, Photogrammetry, Gait analysis, Coronal plane, Female, Calcaneus, Metatarsal bones, Geology
Abstract

This paper proposes a new protocol designed to track a large number of foot segments during the stance phase of gait with the smallest possible number of markers, with particular clinical focus on coronal plane alignment of the rear-foot, transverse and sagittal plane alignment of the metatarsal bones, and changes at the medial longitudinal arch. The shank, calcaneus, mid-foot and metatarsus were assumed to be 3D rigid bodies. The longitudinal axis of the first, second and fifth metatarsal bones and the proximal phalanx of the hallux were also tracked independently. Skin markers were mounted on bony prominences or joint lines, avoiding the course of main tendons. Trajectories of the 14 markers were collected by an eight-camera motion capture system at 100 Hz on a population of 10 young volunteers. Three-dimensional joint rotations and planar angles were calculated according to anatomically based reference frames. The marker set was well visible throughout the stance phase of gait, even in a camera configuration typical of gait analysis of the full body. The time-histories of the joint rotations and planar angles were well repeatable among subjects and consistent with clinical and biomechanical knowledge. Several dynamic measurements were originally taken, such as elevation/drop of the medial longitudinal arch and of three metatarsal bones, rear-foot to fore-foot rotation and transverse plane deformation of the metatarsus. The information obtained from this protocol, consistent with previous clinical knowledge, enhanced our understanding of the dynamics of the human foot during stance.

Published
2006

5. Effect of gravity and posture on lung mechanics

Author

D. Bettinelli, André Capderou, P. Vaida, Giuseppe Miserocchi, Pierre Techoueyres, O. Bailliart, Jean-Luc Lachaud, C. Kays, Bettinelli, D, Kays, C, Bailliart, O, Capderou, A, Techoueyres, P, Lachaud, J, Vaida, P, and Miserocchi, G

Subjects
Adult, Male, Gravity (chemistry), Aircraft, Functional Residual Capacity, Physiology, Recoil pressure, Posture, interstitial pressure, Pulmonary compliance, Functional residual capacity, Esophagus, Physiology (medical), Diffusing capacity, Pressure, Medicine, Humans, Thoracic Wall, Lung Compliance, Body posture, Weightlessness, business.industry, Lung mechanics, Anatomy, Mechanics, respiratory system, Middle Aged, Respiratory Mechanics, esophageal pressure, Female, business
Abstract

The volume-pressure relationship of the lung was studied in six subjects on changing the gravity vector during parabolic flights and body posture. Lung recoil pressure decreased by ∼2.7 cmH2O going from 1 to 0 vertical acceleration (Gz), whereas it increased by ∼3.5 cmH2O in 30° tilted head-up and supine postures. No substantial change was found going from 1 to 1.8 Gz. Matching the changes in volume-pressure relationships of the lung and chest wall (previous data), results in a decrease in functional respiratory capacity of ∼580 ml at 0 Gz relative to 1 Gz and of ∼1,200 ml going to supine posture. Microgravity causes a decrease in lung and chest wall recoil pressures as it removes most of the distortion of lung parenchyma and thorax induced by changing gravity field and/or posture. Hypergravity does not greatly affect respiratory mechanics, suggesting that mechanical distortion is close to maximum already at 1 Gz. The end-expiratory volume during quiet breathing corresponds to the mechanical functional residual capacity in each condition.

Published
2002

6. Effect of gravity on chest wall mechanics

Author

O. Bailliart, Giuseppe Miserocchi, P. Vaida, D. Bettinelli, C. Kays, Pierre Techoueyres, Jean-Luc Lachaud, André Capderou, Bettinelli, D, Kays, C, Bailliart, O, Capderou, A, Techoueyres, P, Lachaud, J, Vaida, P, and Miserocchi, G

Subjects
Thorax, Male, medicine.medical_specialty, Gravity (chemistry), Physiology, Vital Capacity, Respiratory physiology, Chest wall mechanics, Physiology (medical), Internal medicine, medicine, Pressure, Humans, Lung volumes, Lung, Physics, Weightlessness, Total Lung Capacity, chest wall resting volume, Middle Aged, chest wall compliance, Surgery, Compliance (physiology), Residual Volume, Volume (thermodynamics), Inhalation, Cardiology, Respiratory Mechanics, esophageal pressure, Female, Lung Volume Measurements, supine posture, Compliance, Gravitation
Abstract

Chest wall mechanics was studied in four subjects on changing gravity in the craniocaudal direction (Gz) during parabolic flights. The thorax appears very compliant at 0 Gz: its recoil changes only from −2 to 2 cmH2O in the volume range of 30–70% vital capacity (VC). Increasing Gz from 0 to 1 and 1.8 Gzprogressively shifted the volume-pressure curve of the chest wall to the left and also caused a fivefold exponential decrease in compliance. For lung volume z than from 1 to 1.8 Gz. For a volume from 30 to 70% VC, the effect is inspiratory going from 0 to 1 Gz but expiratory from 1 to 1.8 Gz. For a volume greater than ∼70% VC, gravity always has an expiratory effect. The data suggest that the chest wall does not behave as a linear system when exposed to changing gravity, as the effect depends on both chest wall volume and magnitude of Gz.

Published
2002

7. Gait analysis results from five current protocols

Author

Carlo Albino Frigo, Maria Grazia Benedetti, P. Crenna, D. Bettinelli, Alberto Ferrari, Alberto Leardini, Marco Rabuffetti, and Esteban Pavan

Subjects
medicine.medical_specialty, Physical medicine and rehabilitation, Computer science, Gait analysis, Rehabilitation, Biophysics, medicine, Orthopedics and Sports Medicine, Current (fluid)
Published
2006
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9. Pulmonary microvascular and perivascular interstitial geometry during development of mild hydraulic edema

Author

Daniela Negrini, Beatrice Crisafulli, Giuseppe Miserocchi, D. Bettinelli, Federica Boschetti, Anna Candiani, Massimo Del Fabbro, Negrini, D, Candiani, A, Boschetti, F, Crisafulli, B, Del Fabbro, M, Bettinelli, D, and Miserocchi, G

Subjects
Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Pulmonary Circulation, perivascular interstitial volume, Physiology, Vasodilator Agents, Vasomotion, Blood Pressure, Pulmonary Edema, pulmonary arteriolar vasomotion, Sodium Chloride, Microcirculation, Interstitial space, Physiology (medical), Edema, Papaverine, medicine, Animals, mild interstitial edema, Lung, business.industry, Respiratory disease, Cell Biology, Anatomy, medicine.disease, Pulmonary Alveoli, medicine.anatomical_structure, Circulatory system, Rabbits, medicine.symptom, Pulmonary alveolus, business, Extracellular Space
Abstract

To study pulmonary arteriolar vasomotion in control conditions and in the transition to hydraulic edema, changes in subpleural pulmonary arteriolar diameter and perivascular interstitial volume were evaluated in anesthetized spontaneously breathing rabbits. Images of subpleural pulmonary microvessels were recorded in control conditions and for up to 180 min during a 0.5 ml x kg(-1) x min(-1) intravenous saline infusion through an intact parietal pleural window. Images were digitized and analyzed with a semiautomatic procedure to determine vessel diameter and perivascular interstitial thickness from which interstitial fluid volume was derived. In control vessels, the diameter of approximately 30-, approximately 50-, and approximately 80-microm arterioles and the perivascular interstitial thickness were fairly stable. During infusion, the diameter increased maximally by 20% in approximately 30 microm vessels, was unchanged in approximately 50 microm vessels, and decreased by 25% in approximately 80-microm arterioles; the perivascular interstitial volume increased by 54% only around 30-microm microvessels. In papaverine-treated rabbits, all arterioles dilated and a larger increase in perivascular interstitial thickness was observed. The data suggest that the opposite vasomotor behavior of 30- and 80-microm arterioles during development of mild edema may represent a local specific response of the pulmonary microcirculation to reduce capillary pressure in the face of an increased transendothelial fluid filtration, thus counteracting progression toward severe edema.

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