Your search keyword '"Lisignoli G."' showing total 7 results

1. ULTRASOUND COUNTERACTS INFLAMMATION AND INDUCES CHONDROGENIC DIFFERENTIATION OF ASCS IN 3D PIEZOELECTRIC HYDROGELS

Author

Manferdini, C., primary, Gabusi, E., additional, Dolzani, P., additional, Trucco, D., additional, Lenzi, E., additional, D'Atri, G., additional, Vannozzi, L., additional, Cafarelli, A., additional, Ricotti, L., additional, and Lisignoli, G., additional

Published

2024

2. Knee osteotomy combined with meniscal allograft transplantation versus knee osteotomy alone in patients with unicompartmental knee osteoarthritis: a prospective double-blind randomised controlled trial protocol.

Author

Zanasi L, Boffa A, De Marziani L, Lisignoli G, Belvedere C, Miceli M, Zaffagnini S, Filardo G, and Di Martino A

Subjects

Humans, Prospective Studies, Middle Aged, Double-Blind Method, Adult, Menisci, Tibial surgery, Female, Male, Randomized Controlled Trials as Topic, Knee Joint surgery, Range of Motion, Articular, Young Adult, Treatment Outcome, Allografts, Osteoarthritis, Knee surgery, Osteotomy methods

Abstract

Introduction: Knee osteotomy combined with meniscal allograft transplantation (MAT) showed promising results to treat unicompartmental knee osteoarthritis (OA) secondary to meniscal deficiency and knee malalignment. However, there is still no high-level evidence to demonstrate whether the combination of these two treatments is superior to osteotomy alone., Methods and Analysis: 52 patients with unicompartmental knee OA Kellgren-Lawrence grade ≤3 secondary to meniscal deficiency and knee malalignment (aged 20-60 years) are randomised to undergo knee osteotomy associated with MAT or knee osteotomy alone in a 1:1 ratio. The primary outcome is the International Knee Documentation Committee (IKDC) subjective score at 12 months. The secondary outcomes are the IKDC subjective score at 1, 3 and 6 months, the Western Ontario and McMaster Universities Osteoarthritis Index score, the Knee Injury and Osteoarthritis Outcome Score, the Visual Analogue Scale, the EuroQol Visual Analogue Scale, the Tegner Activity Level Scale, objective parameters (transpatellar circumference, suprapatellar circumference and range of motion), patient expectation on treatment efficacy and patient satisfaction at 1, 3, 6 and 12 months. Radiographs are performed at baseline and at 1-, 6- and 12-month follow-ups and magnetic resonance evaluations at baseline and at 12 months. Biomechanical assessment is performed through gait analysis before surgery and at 12 months, investigating motion data, biomechanical parameters and muscle activation through electromyography. In addition, to detect early joint environment changes and potential MAT effects in protecting the articular surface providing a better knee homeostasis, biological markers of cartilage turnover and inflammation obtained from synovial fluid, serum and urine are evaluated at baseline and at 24 hours, 1-, 3-, 6- and 12-month follow-ups., Ethics and Dissemination: The study protocol has been approved by Emilia Romagna's Ethics Committee (CE-AVEC), Bologna, Italy. Written informed consent is obtained from all participants. Findings of this study will be disseminated through peer-reviewed publications and conference presentations., Protocol Version: March 2023., Trial Registration Number: NCT05840887., Competing Interests: Competing interests: SZ has received institutional support from FidiaFarmaceutici S.p.A., Cartiheal, IGEA Clinical Biophysics, BIOMET and Kensey Nash; grant support from I+ SRL; and royalties from Springer outside the submitted work. The principal investigator and the other authors declare no financial or competing interest., (© Author(s) (or their employer(s)) 2024. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ Group.)

Published

2024

3. Arthroscopic device with bendable tip for the controlled extrusion of hydrogels on cartilage defects.

Author

Guarnera D, Restaino F, Vannozzi L, Trucco D, Mazzocchi T, Worwąg M, Gapinski T, Lisignoli G, Zaffagnini S, Russo A, and Ricotti L

Subjects

Humans, Animals, Equipment Design, Hydrogels chemistry, Arthroscopy methods, Cartilage, Articular surgery, Chondrocytes

Abstract

Advanced tools for the in situ treatment of articular cartilage lesions are attracting a growing interest in both surgery and bioengineering communities. The interest is particularly high concerning the delivery of cell-laden hydrogels. The tools currently available in the state-of-the-art hardly find an effective compromise between treatment accuracy and invasiveness. This paper presents a novel arthroscopic device provided with a bendable tip for the controlled extrusion of cell-laden hydrogels. The device consists of a handheld extruder and a supply unit that allows the extrusion of hydrogels. The extruder is equipped with a disposable, bendable nitinol tip (diameter: 4 mm, length: 92 mm, maximum bending angle: 90°) that guarantees access to hard-to-reach areas of the joint, which are difficult to get to, with conventional arthroscopic instruments. The tip accommodates a biocompatible polymer tube that is directly connected to the cartridge containing the hydrogel, whose plunger is actuated by a volumetric or pneumatic supply unit (both tested, in this study). Three different chondrocyte-laden hydrogels (RGD-modified Vitrogel®, methacrylated gellan gum, and an alginate-gelatine blend) were considered. First, the performance of the device in terms of resolution in hydrogel delivery was assessed, finding values in the range between 4 and 102 µL, with better performance found for the pneumatic supply unit and no significant differences between straight tip and bent tip conditions. Finite element simulations suggested that the shear stresses and pressure levels generated during the extrusion process were compatible with a safe deposition of the hydrogels. Biological analyses confirmed a high chondrocyte viability over a 7-day period after the extrusion of the three cell-laden hydrogel types, with no differences between the two supply units. The arthroscopic device was finally tested ex vivo by nine orthopedic surgeons on human cadaver knees. The device allowed surgeons to easily deliver hydrogels even in hard-to-reach cartilage areas. The outcomes of a questionnaire completed by the surgeons demonstrated a high usability of the device, with an overall preference for the pneumatic supply unit. Our findings provide evidence supporting the future arthroscopic device translation in pre-clinical and clinical scenarios, dealing with osteoarticular treatments., (© 2024. The Author(s).)

Published

2024

4. Ultrasound Imaging in Knee Osteoarthritis: Current Role, Recent Advancements, and Future Perspectives.

Author

D'Agostino V, Sorriento A, Cafarelli A, Donati D, Papalexis N, Russo A, Lisignoli G, Ricotti L, and Spinnato P

Abstract

While conventional radiography and MRI have a well-established role in the assessment of patients with knee osteoarthritis, ultrasound is considered a complementary and additional tool. Moreover, the actual usefulness of ultrasound is still a matter of debate in knee osteoarthritis assessment. Despite that, ultrasound offers several advantages and interesting aspects for both current clinical practice and future perspectives. Ultrasound is potentially a helpful tool in the detection of anomalies such as cartilage degradation, osteophytes, and synovitis in cases of knee osteoarthritis. Furthermore, local diagnostic and minimally invasive therapeutic operations pertaining to knee osteoarthritis can be safely guided by real-time ultrasound imaging. We are constantly observing a growing knowledge and awareness among radiologists and other physicians, concerning ultrasound imaging. Ultrasound studies can be extremely useful to track the response to various therapies. For this specific aim, tele-ultrasonography may constitute an easy tool aiding precise and repeated follow-up controls. Moreover, raw radio-frequency data from US backscattering signals contain more information than B-mode imaging. This paves the way for quantitative in-depth analyses of cartilage, bone, and other articular structures. Overall, ultrasound technologies and their rapid evolution have the potential to make a difference at both the research and clinical levels. This narrative review article describes the potential of such technologies and their possible future implications.

Published

2024

5. Wharton's jelly-derived multifunctional hydrogels: New tools to promote intervertebral disc regeneration in vitro and ex vivo.

Author

Penolazzi L, Chierici A, Notarangelo MP, Dallan B, Lisignoli G, Lambertini E, Greco P, Piva R, and Nastruzzi C

Subjects

Humans, Intervertebral Disc Degeneration therapy, Intervertebral Disc Degeneration pathology, Tissue Scaffolds chemistry, Cells, Cultured, Wharton Jelly cytology, Hydrogels chemistry, Hydrogels pharmacology, Intervertebral Disc, Regeneration

Abstract

The degeneration of intervertebral disc (IVD) is a disease of the entire joint between two vertebrae in the spine caused by loss of extracellular matrix (ECM) integrity, to date with no cure. The various regenerative approaches proposed so far have led to very limited successes. An emerging opportunity arises from the use of decellularized ECM as a scaffolding material that, directly or in combination with other materials, has greatly facilitated the advancement of tissue engineering. Here we focused on the decellularized matrix obtained from human umbilical cord Wharton's jelly (DWJ) which retains several structural and bioactive molecules very similar to those of the IVD ECM. However, being a viscous gel, DWJ has limited ability to retain ordered structural features when considered as architecture scaffold. To overcome this limitation, we produced DWJ-based multifunctional hydrogels, in the form of 3D millicylinders containing different percentages of alginate, a seaweed-derived polysaccharide, and gelatin, denatured collagen, which may impart mechanical integrity to the biologically active DWJ. The developed protocol, based on a freezing step, leads to the consolidation of the entire polymeric dispersion mixture, followed by an ionic gelation step and a freeze-drying process. Finally, a porous, stable, easily storable, and suitable matrix for ex vivo experiments was obtained. The properties of the millicylinders (Wharton's jelly millicylinders [WJMs]) were then tested in culture of degenerated IVD cells isolated from disc tissues of patients undergoing surgical discectomy. We found that WJMs with the highest percentage of DWJ were effective in supporting cell migration, restoration of the IVD phenotype (increased expression of Collagen type 2, aggrecan, Sox9 and FOXO3a), anti-inflammatory action, and stem cell activity of resident progenitor/notochordal cells (increased number of CD24 positive cells). We are confident that the DWJ-based formulations proposed here can provide adequate stimuli to the cells present in the degenerated IVD to restart the anabolic machinery., (© 2024 Wiley Periodicals LLC.)

Published

2024

6. Engagement of CD99 Activates Distinct Programs in Ewing Sarcoma and Macrophages.

Author

Manara MC, Manferdini C, Cristalli C, Carrabotta M, Santi S, De Feo A, Caldoni G, Pasello M, Landuzzi L, Lollini PL, Salamanna F, Dominici S, Fiori V, Magnani M, Lisignoli G, and Scotlandi K

Subjects

Humans, Child, Cell Death, Cell Line, Tumor, Macrophages metabolism, Tumor Microenvironment, 12E7 Antigen, Sarcoma, Ewing genetics, Bone Neoplasms

Abstract

Ewing sarcoma (EWS) is the second most common pediatric bone tumor. The EWS tumor microenvironment is largely recognized as immune-cold, with macrophages being the most abundant immune cells and their presence associated with worse patient prognosis. Expression of CD99 is a hallmark of EWS cells, and its targeting induces inhibition of EWS tumor growth through a poorly understood mechanism. In this study, we analyzed CD99 expression and functions on macrophages and investigated whether the concomitant targeting of CD99 on both tumor and macrophages could explain the inhibitory effect of this approach against EWS. Targeting CD99 on EWS cells downregulated expression of the "don't eat-me" CD47 molecule but increased levels of the "eat-me" phosphatidyl serine and calreticulin molecules on the outer leaflet of the tumor cell membrane, triggering phagocytosis and digestion of EWS cells by macrophages. In addition, CD99 ligation induced reprogramming of undifferentiated M0 macrophages and M2-like macrophages toward the inflammatory M1-like phenotype. These events resulted in the inhibition of EWS tumor growth. Thus, this study reveals what we believe to be a previously unrecognized function of CD99, which engenders a virtuous circle that delivers intrinsic cell death signals to EWS cells, favors tumor cell phagocytosis by macrophages, and promotes the expression of various molecules and cytokines, which are pro-inflammatory and usually associated with tumor regression. This raises the possibility that CD99 may be involved in boosting the antitumor activity of macrophages., (©2023 The Authors; Published by the American Association for Cancer Research.)

Published

2024

7. Ultrasound Stimulation of Piezoelectric Nanocomposite Hydrogels Boosts Chondrogenic Differentiation in Vitro , in Both a Normal and Inflammatory Milieu.

Author

Ricotti L, Cafarelli A, Manferdini C, Trucco D, Vannozzi L, Gabusi E, Fontana F, Dolzani P, Saleh Y, Lenzi E, Columbaro M, Piazzi M, Bertacchini J, Aliperta A, Cain M, Gemmi M, Parlanti P, Jost C, Fedutik Y, Nessim GD, Telkhozhayeva M, Teblum E, Dumont E, Delbaldo C, Codispoti G, Martini L, Tschon M, Fini M, and Lisignoli G

Subjects

Nanogels, Hydrogels pharmacology, Cell Differentiation, Tissue Engineering, Chondrogenesis, Proteomics

Abstract

The use of piezoelectric nanomaterials combined with ultrasound stimulation is emerging as a promising approach for wirelessly triggering the regeneration of different tissue types. However, it has never been explored for boosting chondrogenesis. Furthermore, the ultrasound stimulation parameters used are often not adequately controlled. In this study, we show that adipose-tissue-derived mesenchymal stromal cells embedded in a nanocomposite hydrogel containing piezoelectric barium titanate nanoparticles and graphene oxide nanoflakes and stimulated with ultrasound waves with precisely controlled parameters (1 MHz and 250 mW/cm 2 , for 5 min once every 2 days for 10 days) dramatically boost chondrogenic cell commitment in vitro . Moreover, fibrotic and catabolic factors are strongly down-modulated: proteomic analyses reveal that such stimulation influences biological processes involved in cytoskeleton and extracellular matrix organization, collagen fibril organization, and metabolic processes. The optimal stimulation regimen also has a considerable anti-inflammatory effect and keeps its ability to boost chondrogenesis in vitro , even in an inflammatory milieu. An analytical model to predict the voltage generated by piezoelectric nanoparticles invested by ultrasound waves is proposed, together with a computational tool that takes into consideration nanoparticle clustering within the cell vacuoles and predicts the electric field streamline distribution in the cell cytoplasm. The proposed nanocomposite hydrogel shows good injectability and adhesion to the cartilage tissue ex vivo , as well as excellent biocompatibility in vivo, according to ISO 10993. Future perspectives will involve preclinical testing of this paradigm for cartilage regeneration.

Published

2024