Your search keyword '"Lopomo, N.F."' showing total 3 results

1. A Comprehensive Framework to Evaluate the Effects of Anterior Cruciate Ligament Injury and Reconstruction on Graft and Cartilage Status through the Analysis of MRI T2 Relaxation Time and Knee Laxity: A Pilot Study

Author

Gregorio Marchiori, Giorgio Cassiolas, Matteo Berni, Alberto Grassi, Giacomo Dal Fabbro, Milena Fini, Giuseppe Filardo, Stefano Zaffagnini, Nicola Francesco Lopomo, Marchiori G., Cassiolas G., Berni M., Grassi A., Dal Fabbro G., Fini M., Filardo G., Zaffagnini S., and Lopomo N.F.

Subjects

Healing proce, Knee laxity, graft maturation, knee cartilage, anterior cruciate ligament reconstruction, quantitative magnetic resonance imaging, Science, Paleontology, musculoskeletal system, Article, General Biochemistry, Genetics and Molecular Biology, T2 mapping, Space and Planetary Science, Healing process, anterior cruciate ligament tear, knee functionality, knee laxity, healing process, Knee functionality, human activities, Anterior cruciate ligament reconstruction, Anterior cruciate ligament tear, Graft maturation, Knee cartilage, Quantitative magnetic resonance imaging, Ecology, Evolution, Behavior and Systematics

Abstract

Background: Anterior cruciate ligament (ACL) tear represents a common orthopedic traumatic issue that often leads to an early development of osteoarthritis. To improve the diagnostic and prognostic techniques involved in the assessment of the joint after the trauma and during the healing process, the present work proposes a multi-parametric approach that aims to investigate the relationship between joint function and soft tissue status before and after ACL reconstruction. Methods: Thirteen consecutive patients who underwent ACL reconstruction were preliminarily enrolled in this study. Joint laxity assessment as well as magnetic resonance imaging with T2 mapping were performed in the pre-operative stage, at four and 18 months after surgery to acquire objective information to correlate knee function and soft tissue condition. Results: Correlations were found between graft and cartilage T2 signal, suggesting an interplay between these tissues within the knee joint. Moreover, graft maturation resulted in being connected to joint laxity, as underlined by the correlation between the graft T2 signal and the temporal evolution of knee function. Conclusions: This preliminary study represents a step forward in assessing the effects of ACL graft maturation on knee biomechanics, and vice versa. The presented integrated framework underlines the possibility to quantitatively assess the impact of ACL reconstruction on trauma recovery and cartilage homeostasis. Moreover, the reported findings—despite the preliminary nature of the clinical impacts—evidence the possibility of monitoring the surgery outcomes using a multi-parametric prognostic investigation tool.

Published

2021

2. INK-JET PRINTED STRETCHABLE SENSORS FOR CELL MONITORING UNDER MECHANICAL STIMULI: A FEASIBILITY STUDY

Author

Daniela Uberti, Maria Letizia Focarete, Mauro Serpelloni, Nicoletta Inverardi, Patrizia Dell'Era, Michela Borghetti, Emilio Sardini, Mariagrazia Marziano, Nicola Lopomo, Sarah Tonello, Marialaura Serzanti, Chiara Gualandi, Tonello S., Borghetti M., Lopomo N.F., Serpelloni M., Sardini E., Marziano M., Serzanti M., Uberti D., Dell'era P., Inverardi N., Gualandi C., and Focarete M.L.

Subjects

Materials science, cell monitoring, Field (physics), Acoustics, 010401 analytical chemistry, equivalent circuit modeling, stretchable sensors, Biomedical Engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Impedance-based sensor, 0104 chemical sciences, ink-jet printed sensors, Impedance-based sensors, Current (fluid), ink-jet printed sensor, 0210 nano-technology, Electrical impedance

Abstract

Impedance-based sensors represent a promising tool for cell monitoring to improve current invasive biological assays. A novel research field is represented by measurements performed in dynamic conditions, monitoring cells (e.g., myocytes) for which the mechanical stimulus plays an important role for promoting maturation. In this picture, we applied printed and stretchable electronics principles, developing a system able to evaluate cells adhesion during substrate cyclic strain. Cytocompatible and stretchable sensors were ink-jet printed using carbon-based ink on crosslinked poly([Formula: see text]-caprolactone) electrospun mats. Moreover, a customized stretching device was produced, with a complete user interface to control testing condition, validated in order to correlate impedance changes with myoblasts — i.e., myocytes precursors — adhesion. Overall system sensitivity was evaluated using three different cell concentrations and DAPI imaging assay was performed to confirm myoblast adhesion. Preliminary results showed the possibility to correlate an average increase of impedance magnitude of 1[Formula: see text]k[Formula: see text] every 15,000 cells/cm2 seeded, suggesting the possibility to discriminate between different cell concentrations, with a sensitivity of 80[Formula: see text]m[Formula: see text]/(cells/cm2). In conclusion, the present system might be generalized in the development of future applications, including the differentiation process of cardiac myocytes with the aid of mechanical stimuli.

Published

2019

3. How cartilage status can be related to joint loads in anterior cruciate ligament reconstruction: a preliminary analysis including MRI t2 mapping and joint biomechanics

Author

Cassiolas, G., Berni, M., Marchiori, G., Bontempi, M., LAURA BRAGONZONI, Valente, G., Grassi, A., Zaffagnini, S., Visani, A., Lopomo, N. F., Cassiolas, G., Berni, M., Marchiori, G., Bontempi, M., Bragonzoni, L., Valente, G., Grassi, A., Zaffagnini, S., Visani, A., and Lopomo, N.F.

Subjects

musculoskeletal diseases, Cartilage, Articular, Cancer Research, Anterior Cruciate Ligament Reconstruction, Knee Joint, Physiology, Endocrinology, Diabetes and Metabolism, Anterior Cruciate Ligament Injuries, Immunology, musculoskeletal system, Magnetic Resonance Imaging, Biomechanical Phenomena, Endocrinology, Oncology, Physiology (medical), Immunology and Allergy, Humans, human activities

Abstract

The knee is the largest and most complex joint in the human body. Traumatic events, such as anterior cruciate ligament (ACL) tear, can lead to an alteration of joint tissues homeostasis. Literature reports an evident correlation between abnormal joint biomechanics and the status of articular tissues. These alterations, due to a sub-optimal ACL reconstruction, may result in an increasing risk of developing degenerative pathologies, such as osteoarthritis. Thus, the identification of the optimal surgical technique is a highly demanding issue in ACL reconstruction. The aim of this study was to analyze the correlation between joint cartilage conditions and knee biomechanics in ACL reconstructions, by integrating MRI T2 mapping investigations, radiostereophotogrammetry-based gait analysis and subject-specific musculoskeletal modelling.