Your search keyword '"Stefanini C."' showing total 245 results

201. 3D fiber deposited polymeric scaffolds for external auditory canal wall.

Author

Mota C, Milazzo M, Panetta D, Trombi L, Gramigna V, Salvadori PA, Giannotti S, Bruschini L, Stefanini C, Moroni L, Berrettini S, and Danti S

Subjects

Biocompatible Materials pharmacology, Blood Cells cytology, Blood Cells drug effects, Blood Cells physiology, Cell Culture Techniques, Cell Differentiation drug effects, Cells, Cultured, Guided Tissue Regeneration instrumentation, Guided Tissue Regeneration methods, Humans, Materials Testing, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells drug effects, Mesenchymal Stem Cells physiology, Models, Anatomic, Polymers chemical synthesis, Polymers chemistry, Polymers pharmacology, Printing, Three-Dimensional, Tissue Engineering instrumentation, Biocompatible Materials chemistry, Ear Canal cytology, Nanofibers chemistry, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

The external auditory canal (EAC) is an osseocartilaginous structure extending from the auricle to the eardrum, which can be affected by congenital, inflammatory, and neoplastic diseases, thus reconstructive materials are needed. Current biomaterial-based approaches for the surgical reconstruction of EAC posterior wall still suffer from resorption (biological) and extrusion (synthetic). In this study, 3D fiber deposited scaffolds based on poly(ethylene oxide terephthalate)/poly(butylene terephthalate) were designed and fabricated to replace the EAC wall. Fiber diameter and scaffold porosity were optimized, leading to 200 ± 33 µm and 55% ± 5%, respectively. The mechanical properties were evaluated, resulting in a Young's modulus of 25.1 ± 7.0 MPa. Finally, the EAC scaffolds were tested in vitro with osteo-differentiated human mesenchymal stromal cells (hMSCs) with different seeding methods to produce homogeneously colonized replacements of interest for otologic surgery. This study demonstrated the fabrication feasibility of EAC wall scaffolds aimed to match several important requirements for biomaterial application to the ear under the Tissue Engineering paradigm, including shape, porosity, surface area, mechanical properties and favorable in vitro interaction with osteoinduced hMSCs. This study demonstrated the fabrication feasibility of outer ear canal wall scaffolds via additive manufacturing. Aimed to match several important requirements for biomaterial application to ear replacements under the Tissue Engineering paradigm, including shape, porosity and pore size, surface area, mechanical properties and favorable in vitro interaction with osteo-differentiated mesenchymal stromal cells.

Published

2018

202. Behavioral asymmetries in ticks - Lateralized questing of Ixodes ricinus to a mechatronic apparatus delivering host-borne cues.

Author

Benelli G, Romano D, Rocchigiani G, Caselli A, Mancianti F, Canale A, and Stefanini C

Subjects

Animals, Humans, Behavior, Animal physiology, Functional Laterality physiology, Ixodes physiology

Abstract

Ticks are considered among the most dangerous arthropod vectors of disease agents to both humans and animals worldwide. Lateralization contributes to biological fitness in many animals, conferring important functional advantages, therefore studying its role in tick perception would critically improve our knowledge about their host-seeking behavior. In this research, we evaluated if Ixodes ricinus (L.) (Ixodiidae) ticks have a preference in using the right or the left foreleg to climb on a host. We developed a mechatronic device moving a tuft of fox skin with fur as host-mimicking combination of cues. This engineered approach allows to display a realistic combination of both visual and olfactory host-borne stimuli, which is prolonged over the time and standardized for each replicate. In the first experiment, the mechatronic apparatus delivered host-borne cues frontally, to evaluate the leg preference during questing as response to a symmetrical stimulus. In the second experiment, host-borne cues were provided laterally, in an equal proportion to the left and to the right of the tick, to investigate if the host direction affected the questing behavior. In both experiments, the large majority of the tested ticks showed individual-level left-biased questing acts, if compared to the ticks showing right-biased ones. Furthermore, population-level left-biased questing responses were observed post-exposure to host-mimicking cues provided frontally or laterally to the tick. Overall, this is the first report on behavioral asymmetries in ticks of medical and veterinary importance. Moreover, the mechatronic apparatus developed in this research can be exploited to evaluate the impact of repellents on tick questing in highly reproducible standardized conditions., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

203. Implantable Systems for Stress Urinary Incontinence.

Author

Al Adem KM, Bawazir SS, Hassen WA, Khandoker AH, Khalaf K, McGloughlin T, and Stefanini C

Subjects

Equipment Failure Analysis, Humans, Treatment Outcome, Urinary Incontinence, Stress diagnosis, Bioprosthesis, Prostheses and Implants, Prosthesis Design methods, Suburethral Slings, Urinary Incontinence, Stress physiopathology, Urinary Incontinence, Stress therapy, Urinary Sphincter, Artificial

Abstract

Stress urinary incontinence (SUI), the involuntary urine leakage due to failure of the urethral closure mechanism, is a global health challenge with substantial human suffering and socioeconomic costs. Approximately 167 million male and female patients are predicted to suffer from SUI in 2018, worldwide. A wide range of surgical interventions are available for the treatment of SUI. Severe cases, however, usually require the implantation of artificial urinary sphincter devices. This review comparatively presents and analyzes the working principles, as well as the challenges, associated with the current implantable SUI systems in clinical use. These include slings, urethral bulking agents, artificial urinary sphincters, and adjustable continence devices. It further reports on recent research progress and state-of-the-art in the field of SUI implants, including an original approach proposed by the authors with a pressure feedback sensory mechanism. The new emerging field of artificial muscle devices, including electroactive polymers, provides a promising innovative solution for replacing the weakened urethral sphincter in SUI patients.

Published

2017

204. Ossicular replacement prostheses from banked bone with ergonomic and functional geometry.

Author

Milazzo M, Danti S, Inglese F, Jansen van Vuuren G, Gramigna V, Bonsignori G, De Vito A, Bruschini L, Stefanini C, and Berrettini S

Subjects

Allografts, Humans, Male, Bioprosthesis, Bone Plates, Ear, Middle, Femur, Tissue Banks

Abstract

This study shows the fabrication of innovative ossicular replacement prostheses (ORPs) based on banked cortical bone using computer numerically controlled ultraprecision micromilling, as a substantial improvement of "second generation" ORPs. Our aim is to combine optimal middle ear compatibility and surgical manageability in a single device, by releasing off-the-shelf homograft ORPs provided with the appealing features of synthetic ORPs, such as lightness, safety, measurement accuracy, surface decoration, and geometric plasticity. The new total ORP prototype was 13.1 ± 0.1 mg, leading to 81% weight reduction with respect to the previous model. Surface motifs of the head plate were applied to prevent slipping and migration after surgery, as shown by finite element modeling analysis. In addition, bone ORPs were provided with holed head plates to facilitate their surgical positioning while reducing their mass. A comparative measurement of acoustic responses of bone against synthetic partial ORPs in the 250-8000 Hz frequency range demonstrated their superior behavior. This study showed that banked compact bone can be optimally manufactured, eventually enabling the fabrication of light, standardized, and highly performant ORPs. The new bone ORPs may represent the ideal combination of biocompatibility and technology which can ultimately accomplish unmet otosurgical needs. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 2495-2506, 2017., (© 2016 Wiley Periodicals, Inc.)

Published

2017

205. Escape and surveillance asymmetries in locusts exposed to a Guinea fowl-mimicking robot predator.

Author

Romano D, Benelli G, and Stefanini C

Subjects

Animals, Functional Laterality physiology, Locomotion physiology, Escape Reaction physiology, Galliformes physiology, Grasshoppers physiology, Predatory Behavior physiology, Robotics

Abstract

Escape and surveillance responses to predators are lateralized in several vertebrate species. However, little is known on the laterality of escapes and predator surveillance in arthropods. In this study, we investigated the lateralization of escape and surveillance responses in young instars and adults of Locusta migratoria during biomimetic interactions with a robot-predator inspired to the Guinea fowl, Numida meleagris. Results showed individual-level lateralization in the jumping escape of locusts exposed to the robot-predator attack. The laterality of this response was higher in L. migratoria adults over young instars. Furthermore, population-level lateralization of predator surveillance was found testing both L. migratoria adults and young instars; locusts used the right compound eye to oversee the robot-predator. Right-biased individuals were more stationary over left-biased ones during surveillance of the robot-predator. Individual-level lateralization could avoid predictability during the jumping escape. Population-level lateralization may improve coordination in the swarm during specific group tasks such as predator surveillance. To the best of our knowledge, this is the first report of lateralized predator-prey interactions in insects. Our findings outline the possibility of using biomimetic robots to study predator-prey interaction, avoiding the use of real predators, thus achieving standardized experimental conditions to investigate complex and flexible behaviours.

Published

2017

206. Nanoparticles as effective acaricides against ticks-A review.

Author

Benelli G, Maggi F, Romano D, Stefanini C, Vaseeharan B, Kumar S, Higuchi A, Alarfaj AA, Mehlhorn H, and Canale A

Subjects

Animals, Oxides pharmacology, Tick Control instrumentation, Acaricides pharmacology, Arachnid Vectors drug effects, Ixodidae drug effects, Metal Nanoparticles, Tick Control methods

Abstract

Ticks serve as vectors of a wide range of infectious agents deleterious to humans and animals. Tick bite prevention is based to a large extent on the use of chemical repellents and acaricides. However, development of resistance in targeted ticks, environmental pollution, and contamination of livestock meat and milk are major concerns. Recently, metal, metal oxide and carbon nanoparticles, particularly those obtained through green fabrication routes, were found to be highly effective against a wide array of arthropod pests and vectors. We summarize current knowledge on the toxicity of nanoparticles against tick vectors of medical and veterinary importance. We also discuss the toxicity of products from botanical- and bacterial-based as well as classic chemical nanosynthesis routes, showing differences in bioactivity against ticks based on the products used for the fabrication of nanoparticles. Further research is needed, to validate the efficacy of nanoparticle-based acaricides in the field and clarify mechanisms of action of nanoparticles against ticks. From a technical point of view, the literature analyzed here showed little standardization of size and weight of tested ticks, a lack of uniform methods to assess toxicity and concerns related to data analysis. Finally, an important challenge for future research is the need for ecotoxicology studies to evaluate potential negative effects on non-target organisms and site contamination arising from nanoparticle-based treatments in close proximity of livestock and farmers., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published

2017

207. Multiple cues produced by a robotic fish modulate aggressive behaviour in Siamese fighting fishes.

Author

Romano D, Benelli G, Donati E, Remorini D, Canale A, and Stefanini C

Subjects

Animals, Behavior, Animal physiology, Cues, Male, Visual Perception, Aggression physiology, Fishes physiology, Robotics instrumentation

Abstract

The use of robotics to establish social interactions between animals and robots, represents an elegant and innovative method to investigate animal behaviour. However, robots are still underused to investigate high complex and flexible behaviours, such as aggression. Here, Betta splendens was tested as model system to shed light on the effect of a robotic fish eliciting aggression. We evaluated how multiple signal systems, including a light stimulus, affect aggressive responses in B. splendens. Furthermore, we conducted experiments to estimate if aggressive responses were triggered by the biomimetic shape of fish replica, or whether any intruder object was effective as well. Male fishes showed longer and higher aggressive displays as puzzled stimuli from the fish replica increased. When the fish replica emitted its full sequence of cues, the intensity of aggression exceeded even that produced by real fish opponents. Fish replica shape was necessary for conspecific opponent perception, evoking significant aggressive responses. Overall, this study highlights that the efficacy of an artificial opponent eliciting aggressive behaviour in fish can be boosted by exposure to multiple signals. Optimizing the cue combination delivered by the robotic fish replica may be helpful to predict escalating levels of aggression.

Published

2017

208. Implantable bladder volume sensor based on resistor ladder network composed of conductive hydrogel composite.

Author

Mi Kyung Kim, Hyojung Kim, Jung YS, Adem KMA, Bawazir SS, Stefanini C, and Lee HJ

Subjects

Animals, Elastic Modulus, Hydrogel, Polyethylene Glycol Dimethacrylate, Prostheses and Implants, Sepharose, Swine, Urinary Bladder

Abstract

An accurate bladder volume monitoring system is a critical component in diagnosis and treatment of urological disorders. Here, we report an implantable bladder volume sensor with a multi-level resistor ladder which estimates the bladder volume through discrete resistance values. Discretization allows the sensor output to be resilient to the long-term drift, hysteresis, and degradation of the sensor materials. Our sensor is composed of biocompatible polypyrrole/agarose hydrogel composite. Because Young's modulus of this composite is comparable to that of the bladder wall, the effect of mechanical loading of the sensor on the bladder movement is minimized which allows more accurate volume monitoring. We also demonstrate the patterning and molding capability of this material by fabrication various structures. Lastly, we successfully demonstrate the functionality of the multi-level resistor ladder sensor as a bladder volume sensor by attaching the sensor on the pig's bladder and observing the impedance change of the sensor.

Published

2017

209. Bovine bone matrix/poly(l-lactic-co-ε-caprolactone)/gelatin hybrid scaffold (SmartBone ® ) for maxillary sinus augmentation: A histologic study on bone regeneration.

Author

D'Alessandro D, Perale G, Milazzo M, Moscato S, Stefanini C, Pertici G, and Danti S

Subjects

Animals, Cattle, Gelatin chemistry, Humans, Bone Matrix, Bone Regeneration, Bone Substitutes, Maxillary Sinus surgery, Polyesters chemistry, Tissue Scaffolds

Abstract

The ideal scaffold for bone regeneration is required to be highly porous, non-immunogenic, biostable until the new tissue formation, bioresorbable and osteoconductive. This study aimed at investigating the process of new bone formation in patients treated with granular SmartBone ® for sinus augmentation, providing an extensive histologic analysis. Five biopsies were collected at 4-9 months post SmartBone ® implantation and processed for histochemistry and immunohistochemistry. Histomorphometric analysis was performed. Bone-particle conductivity index (BPCi) was used to assess SmartBone ® osteoconductivity. At 4 months, SmartBone ® (12%) and new bone (43.9%) were both present and surrounded by vascularized connective tissue (37.2%). New bone was grown on SmartBone ® (BPCi=0.22). At 6 months, SmartBone ® was almost completely resorbed (0.5%) and new bone was massively present (80.8%). At 7 and 9 months, new bone accounted for a large volume fraction (79.3% and 67.4%, respectively) and SmartBone ® was resorbed (0.5% and 0%, respectively). Well-oriented lamellae and bone scars, typical of mature bone, were observed. In all the biopsies, bone matrix biomolecules and active osteoblasts were visible. The absence of inflammatory cells confirmed SmartBone ® biocompatibility and non-immunogenicity. These data indicate that SmartBone ® is osteoconductive, promotes fast bone regeneration, leading to mature bone formation in about 7 months., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

210. Measuring 3D-orthodontic actions to guide clinical treatments involving coil springs and miniscrews.

Author

Mencattelli M, Donati E, Spinelli P, Cultrone M, Luzi C, Cantarella D, and Stefanini C

Subjects

Humans, Mechanical Phenomena, Tooth Movement Techniques instrumentation

Abstract

The understanding of the phenomena at the base of tooth movement, due to orthodontic therapy, is an ambitious topic especially with regard to the "optimal forces" able to move teeth without causing irreversible tissue damages. To this aim, a measuring platform for detecting 3D orthodontic actions has been developed. It consists of customized load cells and dedicated acquisition electronics. The force sensors are able to detect, simultaneously and independently of each other, the six orthodontic components which a tooth is affected by. They have been calibrated and then applied on a clinical case that required NiTi closed coil springs and miniscrews for the treatment of upper post-extraction spaces closure. The tests have been conducted on teeth stumps belonging to a plaster cast of the patient's mouth. The load cells characteristics (sensor linearity and repeatability) have been analyzed (0.97 < R 2 < 1; 6.3*10 -6 % < STD < 8.8 %) and, on the basis of calibration data, the actions exerted on teeth have been determined. The biomechanical behavior of the frontal group and clinical interpretation of the results are discussed.

Published

2017

211. Investigation of Collective Behaviour and Electrocommunication in the Weakly Electric Fish, Mormyrus rume, through a biomimetic Robotic Dummy Fish.

Author

Donati E, Worm M, Mintchev S, van der Wiel M, Benelli G, von der Emde G, and Stefanini C

Subjects

Animal Communication, Animals, Applied Behavior Analysis instrumentation, Applied Behavior Analysis methods, Electrodes, Equipment Design, Locomotion, Behavior, Animal physiology, Biomimetic Materials, Biomimetics, Electric Fish physiology, Electric Organ physiology, Robotics instrumentation

Abstract

A robotic fish has been developed to create a mixed bio-hybrid system made up of weakly electric fish and a mobile dummy fish. Weakly electric fish are capable of interacting with each other via sequences of self-generated electric signals during electrocommunication. Here we present the design of an artificial dummy fish, which is subsequently tested in behavioural experiments. The robot consists of two parts: a flexible tail that can move at different frequencies and amplitudes, performing a carangiform oscillation, and a rigid head containing the motor for the tail oscillation. The dummy fish mimics the weakly electric fish Mormyrus rume in morphology, size and electric signal generation. In order to study electrical interactions, the dummy fish is equipped with ten electrodes that record electric signals of nearby real fish and generate electric dipole fields around itself that are similar to those produced by real fish in both waveform and sequence. Behavioural experiments demonstrate that the dummy fish is able to recruit both single individuals and groups of M. rume from a shelter into an exposed area. The development of an artificial dummy fish may help to understand fundamental aspects of collective behaviour in weakly electric fish and the properties necessary to initiate and sustain it in closed-loop feedback experiments based on electrocommunication.

Published

2016

212. Is bigger better? Male body size affects wing-borne courtship signals and mating success in the olive fruit fly, Bactrocera oleae (Diptera: Tephritidae).

Author

Benelli G, Donati E, Romano D, Ragni G, Bonsignori G, Stefanini C, and Canale A

Subjects

Animals, Body Size, Competitive Behavior, Courtship, Female, Male, Sexual Behavior, Animal, Wings, Animal physiology, Tephritidae physiology

Abstract

Variations in male body size are known to affect inter- and intrasexual selection outcomes in a wide range of animals. In mating systems involving sexual signaling before mating, body size often acts as a key factor affecting signal strength and mate choice. We evaluated the effect of male size on courtship displays and mating success of the olive fruit fly, Bactrocera oleae (Diptera: Tephritidae). Wing vibrations performed during successful and unsuccessful courtships by large and small males were recorded by high-speed videos and analyzed through frame-by-frame analysis. Mating success of large and small males was investigated. The effect of male-male competition on mating success was evaluated. Male body size affected both male courtship signals and mating outcomes. Successful males showed wing-borne signals with high frequencies and short interpulse intervals. Wing vibrations displayed by successful large males during copulation attempt had higher frequencies over smaller males and unsuccessful large males. In no-competition conditions, large males achieved higher mating success with respect to smaller ones. Allowing large and small males to compete for a female, large males achieve more mating success over smaller ones. Mate choice by females may be based on selection of the larger males, able to produce high-frequency wing vibrations. Such traits may be indicative of "good genes," which under sexual selection could means good social-interaction genes, or a good competitive manipulator of conspecifics., (© 2015 Institute of Zoology, Chinese Academy of Sciences.)

Published

2016

213. Singing on the wings! Male wing fanning performances affect female willingness to copulate in the aphid parasitoid Lysiphlebus testaceipes (Hymenoptera: Braconidae: Aphidiinae).

Author

Benelli G, Kavallieratos NG, Donati E, Giunti G, Stefanini C, and Canale A

Subjects

Animals, Copulation, Courtship, Female, Male, Sexual Behavior, Animal, Wings, Animal physiology, Aphids parasitology, Wasps physiology

Abstract

Lysiphlebus testaceipes (Hymenoptera: Braconidae: Aphidiinae) is a generalist endoparasitoid attacking more than 100 aphid species. In L. testaceipes, wing fanning is a main male courtship display evoked by a female-borne sex pheromone. However, no information is available on the characteristics and behavioral role of male fanning during courtship in this parasitoid. Here, the courtship behavior of a wild strain of L. testaceipes was quantified and the male wing fanning performances were analyzed through high-speed video recordings and examined in relation to mating success. Courtship sequence of wild L. testaceipes did not substantially differ from that previously reported for other populations mass reared on aphids. We observed that the male courtship duration did not affect mating success. However, video analysis revealed that the males producing high-frequency fanning signals achieved higher mating success over those that display low-frequency fanning. Wing fanning before successful and unsuccessful courtship differed in amplitude of wing movements and alignment toward the mate, highlighting that frontal courtship positively influence the female mating decisions. This study increases knowledge on sexual behavior in a key parasitoid of aphids, highlighting the importance of wing fanning among the range of sensory modalities used in the sexual communication of L. testaceipes. From a practical point of view, this information is useful in L. testaceipes-based biocontrol strategies, since it can help to establish parameters for quality checking of mass-reared wasps over time., (© 2015 Institute of Zoology, Chinese Academy of Sciences.)

Published

2016

214. Lateralized courtship in a parasitic wasp.

Author

Romano D, Donati E, Canale A, Messing RH, Benelli G, and Stefanini C

Subjects

Animals, Arthropod Antennae physiology, Female, Male, Video Recording, Courtship, Functional Laterality physiology, Wasps physiology

Abstract

Lateralization (i.e. left-right asymmetries in the brain and behaviour) of courtship displays has been examined in a growing number vertebrate species, while evidence for invertebrates is limited. In this study, we investigated lateralization of courtship and mating displays in the parasitic wasp Leptomastidea abnormis. Results showed a population-level lateralization of male courtship displays. Male antennal tapping on the female's head was right-biased. However, right-biased male courtship acts were not characterized by higher male antennal tapping frequencies, nor success in mating although antennal tapping frequency was higher in males with mating success with respect to unsuccessful males. Overall, our results add basic knowledge to the behavioural ecology of insect parasitoids. To the best of our knowledge, this is the first report of behavioural lateralization in parasitic Hymenoptera.

Published

2016

215. Analysis of the structural behaviour of colonic segments by inflation tests: Experimental activity and physio-mechanical model.

Author

Carniel EL, Mencattelli M, Bonsignori G, Fontanella CG, Frigo A, Rubini A, Stefanini C, and Natali AN

Subjects

Animals, Elasticity, Pressure, Swine, Tensile Strength, Viscosity, Biomechanical Phenomena physiology, Biomedical Research methods, Colon physiology, Models, Biological

Abstract

A coupled experimental and computational approach is provided for the identification of the structural behaviour of gastrointestinal regions, accounting for both elastic and visco-elastic properties. The developed procedure is applied to characterize the mechanics of gastrointestinal samples from pig colons. Experimental data about the structural behaviour of colonic segments are provided by inflation tests. Different inflation processes are performed according to progressively increasing top pressure conditions. Each inflation test consists of an air in-flow, according to an almost constant increasing pressure rate, such as 3.5 mmHg/s, up to a prescribed top pressure, which is held constant for about 300 s to allow the development of creep phenomena. Different tests are interspersed by 600 s of rest to allow the recovery of the tissues' mechanical condition. Data from structural tests are post-processed by a physio-mechanical model in order to identify the mechanical parameters that interpret both the non-linear elastic behaviour of the sample, as the instantaneous pressure-stretch trend, and the time-dependent response, as the stretch increase during the creep processes. The parameters are identified by minimizing the discrepancy between experimental and model results. Different sets of parameters are evaluated for different specimens from different pigs. A statistical analysis is performed to evaluate the distribution of the parameters and to assess the reliability of the experimental and computational activities., (© IMechE 2015.)

Published

2015

216. Novel universal system for 3-dimensional orthodontic force-moment measurements and its clinical use.

Author

Mencattelli M, Donati E, Cultrone M, and Stefanini C

Subjects

Biomechanical Phenomena, Humans, Models, Anatomic, Dental Stress Analysis, Orthodontic Appliance Design

Abstract

Introduction: Orthodontic treatment is an important part of dental health care in Europe: the percentages of the population undergoing therapy vary from 10% to 55%. Therefore, quantifying effective orthodontic loads is a challenging topic with regard to the predictability of tooth movements and the reduction of traumatic side effects., Methods: A customized measuring platform was developed and used for detecting orthodontic forces in a range between 0.1 and 2 N. The system consists of 6 load cells, each equipped with 6 strain gauges. The tests were conducted on a 3-dimensional printed malocclused mouth model and on a plaster cast. Four types of superelastic ligation and 2 types of invisible aligners were tested to analyze, respectively, a malocclusion with a high maxillary canine, and the effects on the axial rotation of a maxillary central incisor with and without a divot in the invisible aligners., Results: Optimal treatment forces are exerted by low-friction wires, especially if they are partially engaged. Moreover, by reducing the treatment force, there is less necessity of anchoring to surrounding teeth, thus decreasing the side effects. The efficacy of using invisible aligners with a divot was validated., Conclusions: This platform allowed measurement, at the radicular level, of the resultant forces of orthodontic treatments performed with different orthodontic appliances. In addition to customizing and calibrating the therapy for each patient, this platform could be used to develop new specific instruments able to exert lower treatment forces, thus preventing irreversible damages., (Copyright © 2015 American Association of Orthodontists. Published by Elsevier Inc. All rights reserved.)

Published

2015

217. Multiscale fabrication of biomimetic scaffolds for tympanic membrane tissue engineering.

Author

Mota C, Danti S, D'Alessandro D, Trombi L, Ricci C, Puppi D, Dinucci D, Milazzo M, Stefanini C, Chiellini F, Moroni L, and Berrettini S

Subjects

Bone Marrow Cells cytology, Cell Survival, Cells, Cultured, Humans, Mesenchymal Stem Cells cytology, Microscopy, Electron, Scanning, Polylactic Acid-Polyglycolic Acid Copolymer, Porosity, Tympanic Membrane anatomy & histology, Tympanic Membrane pathology, Biomimetics, Lactic Acid chemistry, Polyglycolic Acid chemistry, Tissue Engineering, Tissue Scaffolds

Abstract

The tympanic membrane (TM) is a thin tissue able to efficiently collect and transmit sound vibrations across the middle ear thanks to the particular orientation of its collagen fibers, radiate on one side and circular on the opposite side. Through the combination of advanced scaffolds and autologous cells, tissue engineering (TE) could offer valuable alternatives to autografting in major TM lesions. In this study, a multiscale approach based on electrospinning (ES) and additive manufacturing (AM) was investigated to fabricate scaffolds, based on FDA approved copolymers, resembling the anatomic features and collagen fiber arrangement of the human TM. A single scale TM scaffold was manufactured using a custom-made collector designed to confer a radial macro-arrangement to poly(lactic-co-glycolic acid) electrospun fibers during their deposition. Dual and triple scale scaffolds were fabricated combining conventional ES with AM to produce poly(ethylene oxide terephthalate)/poly(butylene terephthalate) block copolymer scaffolds with anatomic-like architecture. The processing parameters were optimized for each manufacturing method and copolymer. TM scaffolds were cultured in vitro with human mesenchymal stromal cells, which were viable, metabolically active and organized following the anisotropic character of the scaffolds. The highest viability, cell density and protein content were detected in dual and triple scale scaffolds. Our findings showed that these biomimetic micro-patterned substrates enabled cell disposal along architectural directions, thus appearing as promising substrates for developing functional TM replacements via TE.

Published

2015

218. Lateralisation of aggressive displays in a tephritid fly.

Author

Benelli G, Donati E, Romano D, Stefanini C, Messing RH, and Canale A

Subjects

Animals, Female, Male, Sex Factors, Time Factors, Aggression physiology, Ceratitis capitata physiology, Functional Laterality physiology

Abstract

Lateralisation (i.e. different functional and/or structural specialisations of the left and right sides of the brain) of aggression has been examined in several vertebrate species, while evidence for invertebrates is scarce. In this study, we investigated lateralisation of aggressive displays (boxing with forelegs and wing strikes) in the Mediterranean fruit fly, Ceratitis capitata. We attempted to answer the following questions: (1) do medflies show lateralisation of aggressive displays at the population-level; (2) are there sex differences in lateralisation of aggressive displays; and (3) does lateralisation of aggression enhance fighting success? Results showed left-biased population-level lateralisation of aggressive displays, with no consistent differences among sexes. In both male-male and female-female conflicts, aggressive behaviours performed with left body parts led to greater fighting success than those performed with right body parts. As we found left-biased preferential use of body parts for both wing strikes and boxing, we predicted that the left foreleg/wing is quicker in exploring/striking than the right one. We characterised wing strike and boxing using high-speed videos, calculating mean velocity of aggressive displays. For both sexes, aggressive displays that led to success were faster than unsuccessful ones. However, left wing/legs were not faster than right ones while performing aggressive acts. Further research is needed on proximate causes allowing enhanced fighting success of lateralised aggressive behaviour. This is the first report supporting the adaptive role of lateralisation of aggressive displays in insects.

Published

2015

219. First-in-class thyrotropin-releasing hormone (TRH)-based compound binds to a pharmacologically distinct TRH receptor subtype in human brain and is effective in neurodegenerative models.

Author

Kelly JA, Boyle NT, Cole N, Slator GR, Colivicchi MA, Stefanini C, Gobbo OL, Scalabrino GA, Ryan SM, Elamin M, Walsh C, Vajda A, Goggin MM, Campbell M, Mash DC, O'Mara SM, Brayden DJ, Callanan JJ, Tipton KF, Della Corte L, Hunter J, O'Boyle KM, Williams CH, and Hardiman O

Subjects

Animals, Caco-2 Cells, Dose-Response Relationship, Drug, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Middle Aged, Neurodegenerative Diseases drug therapy, Protein Binding physiology, Random Allocation, Rats, Rats, Wistar, Thyrotropin-Releasing Hormone therapeutic use, Brain metabolism, Disease Models, Animal, Neurodegenerative Diseases metabolism, Receptors, Thyrotropin-Releasing Hormone metabolism, Thyrotropin-Releasing Hormone analogs & derivatives, Thyrotropin-Releasing Hormone metabolism

Abstract

JAK4D, a first-in-class thyrotropin-releasing hormone (TRH)-based compound, is a prospective therapeutic candidate offering a multifaceted approach to treating neurodegeneration and other CNS conditions. The purpose of these studies was to determine the ability of JAK4D to bind to TRH receptors in human brain and to evaluate its neuropharmacological effects in neurodegenerative animal models. Additionally, JAK4D brain permeation was examined in mouse, and initial toxicology was assessed in vivo and in vitro. We report that JAK4D bound selectively with nanomolar affinity to native TRH receptors in human hippocampal tissue and showed for the first time that these receptors are pharmacologically distinct from TRH receptors in human pituitary, thus revealing a new TRH receptor subtype which represents a promising neurotherapeutic target in human brain. Systemic administration of JAK4D elicited statistically significant and clinically-relevant neuroprotective effects in three established neurodegenerative animal models: JAK4D reduced cognitive deficits when administered post-insult in a kainate (KA)-induced rat model of neurodegeneration; it protected against free radical release and neuronal damage evoked by intrastriatal microdialysis of KA in rat; and it reduced motor decline, weight loss, and lumbar spinal cord neuronal loss in G93A-SOD1 transgenic Amyotrophic Lateral Sclerosis mice. Ability to cross the blood-brain barrier and a clean initial toxicology profile were also shown. In light of these findings, JAK4D is an important tool for investigating the hitherto-unidentified central TRH receptor subtype reported herein and an attractive therapeutic candidate for neurodegenerative disorders., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

220. A bioinspired multi-modal flying and walking robot.

Author

Daler L, Mintchev S, Stefanini C, and Floreano D

Subjects

Animals, Computer Simulation, Computer-Aided Design, Equipment Design, Equipment Failure Analysis, Models, Biological, Aircraft instrumentation, Biomimetics instrumentation, Chiroptera physiology, Flight, Animal physiology, Robotics instrumentation, Walking physiology, Wings, Animal physiology

Abstract

With the aim to extend the versatility and adaptability of robots in complex environments, a novel multi-modal flying and walking robot is presented. The robot consists of a flying wing with adaptive morphology that can perform both long distance flight and walking in cluttered environments for local exploration. The robot's design is inspired by the common vampire bat Desmodus rotundus, which can perform aerial and terrestrial locomotion with limited trade-offs. Wings' adaptive morphology allows the robot to modify the shape of its body in order to increase its efficiency during terrestrial locomotion. Furthermore, aerial and terrestrial capabilities are powered by a single locomotor apparatus, therefore it reduces the total complexity and weight of this multi-modal robot.

Published

2015

221. Associative learning for danger avoidance nullifies innate positive chemotaxis to host olfactory stimuli in a parasitic wasp.

Author

Benelli G, Stefanini C, Giunti G, Geri S, Messing RH, and Canale A

Subjects

Animals, Cues, Electricity, Female, Odorants, Plants chemistry, Avoidance Learning physiology, Chemotaxis physiology, Host-Parasite Interactions physiology, Wasps physiology

Abstract

Animals rely on associative learning for a wide range of purposes, including danger avoidance. This has been demonstrated for several insects, including cockroaches, mosquitoes, drosophilid flies, paper wasps, stingless bees, bumblebees and honeybees, but less is known for parasitic wasps. We tested the ability of Psyttalia concolor (Hymenoptera: Braconidae) females to associate different dosages of two innately attractive host-induced plant volatiles (HIPVs), ethyl octanoate and decanal, with danger (electric shocks). We conducted an associative treatment involving odours and shocks and two non-associative controls involving shocks but not odours and odours but not shocks. In shock-only and odour-only trained wasps, females preferred on HIPV-treated than on blank discs. In associative-trained wasps, however, P. concolor's innate positive chemotaxis for HIPVs was nullified (lowest HIPV dosage tested) or reversed (highest HIPV dosage tested). This is the first report of associative learning of olfactory cues for danger avoidance in parasitic wasps, showing that the effects of learning can override innate positive chemotaxes.

Published

2014

222. Constitutive formulations for the mechanical investigation of colonic tissues.

Author

Carniel EL, Gramigna V, Fontanella CG, Stefanini C, and Natali AN

Subjects

Animals, Biomechanical Phenomena, Colon anatomy & histology, Finite Element Analysis, Stress, Mechanical, Sus scrofa, Tensile Strength physiology, Colon physiology

Abstract

A constitutive framework is provided for the characterization of the mechanical behavior of colonic tissues, as a fundamental tool for the development of numerical models of the colonic structures. The constitutive analysis is performed by a multidisciplinary approach that requires the cooperation between experimental and computational competences. The preliminary investigation pertains to the review of the tissues histology. The complex structural configuration of the tissues and the specific distributions of fibrous elements entail the nonlinear mechanical behavior and the anisotropic response. The identification of the mechanical properties requires to perform mechanical tests according to different loading situations, as different loading directions. Because of the typical functionality of colon structures, the tissues mechanics is investigated by tensile tests, which are performed on taenia coli and haustra specimens from fresh pig colons. Accounting for the histological investigation and the results from the mechanical tests, a specific hyperelastic framework is provided within the theory of fiber-reinforced composite materials. Preliminary analytical formulations are defined to identify the constitutive parameters by the inverse analysis of the experimental tests. Finite element models of the specimens are developed accounting for the actual configuration of the colon structures to verify the quality of the results. The good agreement between experimental and numerical model results suggests the reliability of the constitutive formulations and parameters. Finally, the developed constitutive analysis makes it possible to identify the mechanical behavior and properties of the different colonic tissues., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2014

223. Piezoelectric energy harvesting solutions.

Author

Caliò R, Rongala UB, Camboni D, Milazzo M, Stefanini C, de Petris G, and Oddo CM

Abstract

This paper reviews the state of the art in piezoelectric energy harvesting. It presents the basics of piezoelectricity and discusses materials choice. The work places emphasis on material operating modes and device configurations, from resonant to non-resonant devices and also to rotational solutions. The reviewed literature is compared based on power density and bandwidth. Lastly, the question of power conversion is addressed by reviewing various circuit solutions.

Published

2014

224. The green leafhopper, Cicadella viridis (Hemiptera, Auchenorrhyncha, Cicadellidae), jumps with near-constant acceleration.

Author

Bonsignori G, Stefanini C, Scarfogliero U, Mintchev S, Benelli G, and Dario P

Subjects

Animals, Biomechanical Phenomena, Italy, Likelihood Functions, Models, Biological, Video Recording, Acceleration, Hemiptera physiology, Locomotion physiology

Abstract

Jumping insects develop accelerations that can greatly exceed gravitational acceleration. Although several species have been analysed using different tools, ranging from a purely physical to a morpho-physiological approach, instantaneous dynamic and kinematic data concerning the jumping motion are lacking. This is mainly due to the difficulty in observing in detail events that occur in a few milliseconds. In this study, the behaviour of the green leafhopper, Cicadella viridis, was investigated during the take-off phase of the jump, through high-speed video recordings (8000 frames s(-1)). We demonstrate that C. viridis is able to maintain fairly constant acceleration during overall leg elongation. The force exerted at the foot-ground interface is nearly constant and differs from the force expected from other typical motion models. A biomechanical model was used to highlight that this ability relies on the morphology of C. viridis hind legs, which act as a motion converter with a variable transmission ratio and use the time-dependent musculo-elastic force to generate a nearly constant thrust at the body-ground interface. This modulation mechanism minimizes the risk of breaking the substrate thanks to the absence of force peaks. The results of this study are of broad relevance in different research fields ranging from biomechanics to robotics.

Published

2013

225. Special issue featuring selected papers from the International Workshop on Bio-Inspired Robots (Nantes, France, 6-8 April 2011).

Author

Boyer F, Stefanini C, Ruffier F, and Viollet S

Subjects

Animals, Biomimetics instrumentation, Biomimetics methods, Locomotion physiology, Models, Biological, Robotics instrumentation, Robotics methods

Published

2012

226. Mutations in KANSL1 cause the 17q21.31 microdeletion syndrome phenotype.

Author

Zollino M, Orteschi D, Murdolo M, Lattante S, Battaglia D, Stefanini C, Mercuri E, Chiurazzi P, Neri G, and Marangi G

Subjects

Adolescent, Child, Preschool, Chromosomes, Human, Pair 17, Facies, Female, Haploinsufficiency, Humans, Intellectual Disability genetics, Phenotype, Smith-Magenis Syndrome, Syndrome, Abnormalities, Multiple genetics, Chromosome Deletion, Nuclear Proteins genetics

Abstract

The chromosome 17q21.31 deletion syndrome is a genomic disorder characterized by highly distinctive facial features, moderate-to-severe intellectual disability, hypotonia and friendly behavior. Here, we show that de novo loss-of-function mutations in KANSL1 (also called KIAA1267) cause a full del(17q21.31) phenotype in two unrelated individuals that lack deletion at 17q21.31. These findings indicate that 17q21.31 deletion syndrome is a monogenic disorder caused by haploinsufficiency of KANSL1.

Published

2012

227. Highly reactive oxygen species: detection, formation, and possible functions.

Author

Freinbichler W, Colivicchi MA, Stefanini C, Bianchi L, Ballini C, Misini B, Weinberger P, Linert W, Varešlija D, Tipton KF, and Della Corte L

Subjects

Free Radicals, Iron, Reactive Oxygen Species metabolism, Singlet Oxygen, Transition Elements chemistry, Reactive Oxygen Species chemistry

Abstract

The so-called reactive oxygen species (ROS) are defined as oxygen-containing species that are more reactive than O(2) itself, which include hydrogen peroxide and superoxide. Although these are quite stable, they may be converted in the presence of transition metal ions, such as Fe(II), to the highly reactive oxygen species (hROS). hROS may exist as free hydroxyl radicals (HO·), as bound ("crypto") radicals or as Fe(IV)-oxo (ferryl) species and the somewhat less reactive, non-radical species, singlet oxygen. This review outlines the processes by which hROS may be formed, their damaging potential, and the evidence that they might have signaling functions. Since our understanding of the formation and actions of hROS depends on reliable procedures for their detection, particular attention is given to procedures for hROS detection and quantitation and their applicability to in vivo studies.

Published

2011

228. Good manufacturing practices--grade preformed ossicular prostheses from banked bone via computer numerically controlled micromilling.

Author

Berrettini S, Bruschini L, Stefanini C, D'Alessandro D, D'Acunto M, and Danti S

Subjects

Computers, Humans, Male, Ossicular Replacement, Prosthesis Design, Bone Banks, Ossicular Prosthesis standards

Abstract

Objectives: The aim of this study was the fabrication of ossicular replacement prostheses (ORPs) from decellularized banked cortical bone via computer numerically controlled (CNC) ultraprecision micromilling, in order to obtain preformed clinical-grade tissue products, reproducing shape, size, and details perfectly comparable to those of synthetic devices., Methods: Banked femoral compact bone was used to fabricate partial and total ORPs via CNC micromilling according to Good Manufacturing Practices procedures. Drawings of ORPs with different shapes and sizes were uploaded to the computer interface, and different surface-finish parameters were tested. The obtained products underwent dimensional, weight, and surface characterizations. A histologic analysis was pursued to compare the bone matrix compactness of the produced ORPs to that of the ear ossicles., Results: Banked-bone ORPs were produced with high dimensional accuracy. Partial ORP weights averaged (+/- SD) 31.2 +/- 0.6 mg, and total ORP weights averaged 69.3 +/- 0.7 mg. The best-finish mode allowed microscale or nanoscale roughness free from machinery textures to be obtained. Finally, the histologic analysis confirmed that the extracellular matrix compactness of the produced ORPs was suitable for ossicular chain replacement., Conclusions: This study assesses the fabrication feasibility of novel banked-bone ORPs of extremely high dimensional accuracy. Such devices are aimed at combining the most favorable aspects of both synthetic (reproducibility, convenience, and biosafety) and biological replacements (total biocompatibility).

Published

2011

229. Preliminary results on the design of a tool for inserting of transverse intrafascicular multichannel electrodes (TIME) into the peripheral nervous system.

Author

Ghionzoli A, Genovese V, Bossi S, Stefanini C, and Micera S

Subjects

Animals, Biomechanical Phenomena, Equipment Design, Robotics, Sus scrofa surgery, Electric Stimulation instrumentation, Electrodes, Implanted, Fasciotomy, Peripheral Nerves surgery

Abstract

Transverse intrafascicular multichannel electrodes (TIMEs) are polyimide-based microelectrodes, which are potentially very interesting to restore sensorimotor functions in disabled people. By means of microstimulation of the nerve stump of an amputee, it can be possible to manipulate the phantom limb sensation, to provide sensory feedback to upper limb amputees, and to investigate methods of treatment of phantom limb pain. The current insertion procedure of TIMEs is completely done by hand. This makes the task difficult. This paper presents the preliminary results related to the development of a robotic tool to increase the accuracy in electrode placement and reduced size of the working area. The possibility to manage insertion parameters such as force, velocity, and positioning, could decrease the risk of damaging the nervous tissue, improving the coordination, and making placements repeatable. With the aim of solving the issues avbove, we developed a first prototype of a 4DoF multi-axis device. Additional strategies concerning system components and control are discussed. We performed characterization of implantation mechanics to derive mechanical design specifications for the robotic device. Force caracterization of the pig peripheral nerve during penetration of the needle at three velocities (1, 30, 40mm/sec) was executed. Results shown inverse relationship between maximal force and velocities values. The force values extracted varied between 0.081-0.174 N.

Published

2011

230. Real-time control and evaluation of a teleoperated miniature arm for Single Port Laparoscopy.

Author

Sánchez LA, Petroni G, Piccigallo M, Scarfogliero U, Niccolini M, Liu C, Stefanini C, Zemiti N, Menciassi A, Poignet P, and Dario P

Subjects

Biomechanical Phenomena, Computers, Equipment Design, Humans, Laparoscopes, Reproducibility of Results, Robotics, Surgery, Computer-Assisted instrumentation, Surgery, Computer-Assisted methods, Time Factors, Transducers, User-Computer Interface, Laparoscopy instrumentation, Laparoscopy methods

Abstract

This paper presents the control architecture and the first performance evaluation results of a novel and highly-dexterous 18 degrees of freedom (DOF) miniature master/slave teleoperated robotic system called SPRINT (Single-Port la-paRoscopy bimaNual roboT). The system was evaluated in terms of positioning accuracy, repeatability, tracking error during local teleoperation and end-effector payload. Moreover, it was experimentally verified that the control architecture is real-time compliant at an operating frequency of 1 kHz and it is also reliable in terms of safety. The architecture accounts for cases when the robot is lead through singularities, and includes other safety mechanisms, such as supervision tasks and watchdog timers. Peliminary tests that were performed by surgeons in-vitro suggest that the SPRINT robot, along with its real-time control architecture, could become in the near future a reliable system in the field of Single Port Laparoscopy.

Published

2011

231. Migraine-like headache and status migrainosus as attacks of multiple sclerosis in a child.

Author

Mariotti P, Nociti V, Cianfoni A, Stefanini C, De Rose P, Martinelli D, Dittoni S, Vollono C, Batocchi AP, and Della Marca G

Subjects

Antineoplastic Agents therapeutic use, Ataxia diagnosis, Ataxia epidemiology, Brain Edema complications, Brain Edema pathology, Child, Preschool, Female, Humans, Interferon beta-1a, Interferon-beta therapeutic use, Meninges pathology, Multiple Sclerosis, Relapsing-Remitting drug therapy, Neurologic Examination, Nociceptors pathology, Reflex, Babinski, Headache complications, Migraine Disorders complications, Multiple Sclerosis, Relapsing-Remitting epidemiology, Multiple Sclerosis, Relapsing-Remitting pathology

Abstract

The incidence of headache at the onset of relapsing-remitting pediatric multiple sclerosis (MS) is more frequent than in the adult MS population, but headache as the only symptom of a relapse, both in adults and children, is unusual. Here we describe the case of a 5-year-old child who developed MS and in whom migraine-like headache was the presenting symptom at both the onset of the disease and the following 2 relapses. Moreover, the first relapse was characterized by the occurrence of headache that fulfilled the time criteria for status migrainosus. The presence of headache during MS might depend on the anatomic distribution of lesions. In our case, the demyelinating plaques localized in the midbrain, the periaqueductal gray matter, and the upper cervical cord together with the meningeal reaction and the diffuse brain swelling might have caused the onset of migraine-like headache and the status migrainosus. The causal relationship between headache and MS attacks, in our case, was also confirmed by the improvement of headache under immunomodulatory treatment for MS, because it is known that headache is often caused or exacerbated by interferon beta therapy.

Published

2010

232. A novel bioinspired PVDF micro/nano hair receptor for a robot sensing system.

Author

Li F, Liu W, Stefanini C, Fu X, and Dario P

Subjects

Animals, Equipment Design, Equipment Failure Analysis, Polyvinyls chemistry, Biomimetic Materials, Biosensing Techniques instrumentation, Hair physiology, Insecta physiology, Mechanoreceptors physiology, Robotics instrumentation, Transducers

Abstract

This paper describes the concept and design of a novel artificial hair receptor for the sensing system of micro intelligent robots such as a cricket-like jumping mini robot. The concept is inspired from the natural hair receptor of animals, also called cilium or filiform hair by different research groups, which is usually used as a vibration receptor or a flow detector by insects, mammals and fishes. The suspended fiber model is firstly built and the influence of scaling down is analyzed theoretically. The design of this artificial hair receptor is based on aligned suspended PVDF (polyvinylidene fluoride) fibers, manufactures with a novel method called thermo-direct drawing technique, and aligned suspended submicron diameter fibers are thus successfully fabricated on a flexible Kapton. In the post process step, some key problems such as separated electrodes deposition along with the fiber drawing direction and poling of micro/nano fibers to impart them with good piezoeffective activity have been presented. The preliminary validation experiments show that the artificial hair receptor has a reliable response with good sensibility to external pressure variation and, medium flow as well as its prospects in the application on sensing system of mini/micro bio-robots.

Published

2010

233. Novel biological/biohybrid prostheses for the ossicular chain: fabrication feasibility and preliminary functional characterization.

Author

Danti S, Stefanini C, D'Alessandro D, Moscato S, Pietrabissa A, Petrini M, and Berrettini S

Subjects

Cells, Cultured, Humans, Mechanotransduction, Cellular, Porosity, Stromal Cells cytology, Bioprosthesis, Extracellular Matrix, Mesenchymal Stem Cells cytology, Ossicular Prosthesis, Tissue Engineering methods

Abstract

Alternatives for ossicular replacements were fabricated in order to overcome persisting rejections in middle ear prosthetization. Unlike the synthetic prostheses in fashion, we propose biological and biohybrid replacements containing extra cellular matrix (ECM) molecules to improve biointegration. In this study, ECM-containing devices shaped as Partial Ossicular Replacement Prostheses (PORPs) were fabricated reproducing the current synthetic models. Biological PORPs were obtained from human decellularized cortical bone allografts by computer numerically controlled ultraprecision micromilling. Moreover, porous PORP-like scaffolds were produced and cultured with osteoinduced human mesenchymal stromal cells to generate in vitro bone ECM within the scaffold porosity (biohybrid PORPs). The acoustic responses of such devices were investigated and compared to those of commercial prostheses. Results showed that biological PORPs transmit mechanical signals with appropriate frequencies, amplitudes, and with early extinction time. Although signal transmission in biohybrid PORPs showed insufficient amplitude, we believe that tissue engineered constructs represent the new challenge in ossiculoplasty.

Published

2009

234. Modeling a vertebrate motor system: pattern generation, steering and control of body orientation.

Author

Grillner S, Kozlov A, Dario P, Stefanini C, Menciassi A, Lansner A, and Hellgren Kotaleski J

Subjects

Animals, Lampreys physiology, Nerve Net physiology, Nervous System cytology, Locomotion physiology, Models, Biological, Motor Skills physiology, Nervous System pathology, Orientation physiology

Abstract

The lamprey is one of the few vertebrates in which the neural control system for goal-directed locomotion including steering and control of body orientation is well described at a cellular level. In this report we review the modeling of the central pattern-generating network, which has been carried out based on detailed experimentation. In the same way the modeling of the control system for steering and control of body orientation is reviewed, including neuromechanical simulations and robotic devices.

Published

2007

235. Towards active capsular endoscopy: preliminary results on a legged platform.

Author

Menciassi A, Stefanini C, Orlandi G, Quirini M, and Dario P

Subjects

Animals, Equipment Design, Equipment Failure Analysis, Humans, Locomotion, Miniaturization, Motion, Biomimetics instrumentation, Capsule Endoscopes, Gastrointestinal Tract surgery, Robotics, Video Recording instrumentation

Abstract

This paper illustrates the problem of active locomotion in the gastrointestinal tract for endoscopic capsules. Authors analyze the problem of locomotion in unstructured, flexible and tubular environments and explain the reasons leading to the selection of a legged system. They present a theoretical simulation of legged capsule locomotion, which is used to define the optimal parameters for capsule design and gait selection. Finally, a legged capsule--about 3 cm3 in volume--is presented; it consists of 4 back legs whose actuation is achieved thanks to a miniaturized DC brushless motor. In vitro tests demonstrate good performance in terms of achievable speed (92 mm/min).

Published

2006

236. Locomotion of a legged capsule in the gastrointestinal tract: theoretical study and preliminary technological results.

Author

Menciassi A, Stefanini C, Gorini S, Pernorio G, Kim B, Park JO, and Dario P

Abstract

This work illustrates the analysis of locomotion in the gastrointestinal tract obtainable by a legged capsule for diagnostic and therapeutic purposes. A preliminary simulation of the legged locomotion onto slippery and deformable substrates has been performed and -simultaneously- mechanisms for on board actuation of the legs have been developed and tested. Moreover, an engineering translation of medical needs in endoscopy is presented, with some ad hoc solutions for improving diagnostic capabilities.

Published

2004

237. Effects of chronic administration of ephedrine during very-low-calorie diets on energy expenditure, protein metabolism and hormone levels in obese subjects.

Author

Pasquali R, Casimirri F, Melchionda N, Grossi G, Bortoluzzi L, Morselli Labate AM, Stefanini C, and Raitano A

Subjects

Adult, Catecholamines urine, Double-Blind Method, Drug Administration Schedule, Ephedrine administration & dosage, Female, Humans, Male, Methylhistidines urine, Middle Aged, Obesity diet therapy, Thyroid Hormones blood, Weight Loss drug effects, Diet, Reducing, Energy Metabolism drug effects, Ephedrine pharmacology, Nitrogen metabolism, Obesity metabolism

Abstract

1. We investigated the effects of the chronic administration of a sympathomimetic agent on energy expenditure, protein metabolism and levels of thyroid hormones and catecholamines in 10 obese subjects after a 6-week very-low-calorie-diet programme (1965 kJ, 60 g of protein, 45 g of carbohydrates). L-(-)-Ephedrine hydrochloride (50 mg three times a day by mouth) or placebo were administered during 2-week periods (weeks 2-5 of the VLCD programme) in a randomized, double-blind, cross-over design. Five subjects began with ephedrine and five with placebo. 2. The results were analysed separately in the two groups. No difference was found between them as regards weight loss during the very-low-calorie diet and drug treatments. Conversely, ephedrine therapy induced a significantly lower daily urinary excretion of nitrogen (and, consequently, a better nitrogen balance) with respect to placebo, independently of the drug sequence. Daily urinary levels of 3-methylhistidine during ephedrine and placebo treatments were similar. The fasting resting metabolic rate (oxygen consumption, ml STP/min) fell significantly during the very-low-calorie diet in both groups, but this effect was partially and significantly prevented by administration of ephedrine. Diet therapy significantly reduced 24 h urine levels of vanillylmandelic acid and homovanillic acid, which, however, increased to pretreatment values during ephedrine treatment. No significant effects were shown on 24 h urinary concentrations of adrenaline, noradrenaline and dopamine during the very-low-calorie diet and/or ephedrine treatment.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1992

238. Does ephedrine promote weight loss in low-energy-adapted obese women?

Author

Pasquali R, Cesari MP, Melchionda N, Stefanini C, Raitano A, and Labo G

Subjects

Adult, Clinical Trials as Topic, Diet, Reducing, Double-Blind Method, Female, Humans, Middle Aged, Obesity diet therapy, Random Allocation, Body Weight drug effects, Energy Metabolism, Ephedrine pharmacology, Obesity metabolism

Abstract

A double-blind cross-over randomized study was performed in 10 selected adult overweight and obese (body mass index greater than 27) women who had been adapted to low-energy intake for a long period of time and who had shown difficulty in losing weight with conventional hypocaloric treatment. Combined with diet therapy (1000-1400 kcal/day), l(-)ephedrine hydrochloride (50 mg three times a day per os) or placebo were administered daily before each meal, after a period of stabilization with diet only for 1 month. Each pharmacological treatment lasted for 2 months. Weight loss was significantly (P less than 0.05) greater during the ephedrine period (2.41 +/- 0.61 kg) than during the placebo period (0.64 +/- 0.50 kg). None of the patients presented clinically important side-effects. These preliminary results seem to suggest a possible role for a thermogenic compound such as ephedrine in promoting weight loss in low-energy-adapted obese women.

Published

1987

239. A controlled trial using ephedrine in the treatment of obesity.

Author

Pasquali R, Baraldi G, Cesari MP, Melchionda N, Zamboni M, Stefanini C, and Raitano A

Subjects

Adolescent, Adult, Aged, Body Temperature Regulation, Clinical Trials as Topic, Double-Blind Method, Ephedrine adverse effects, Female, Humans, Male, Middle Aged, Obesity physiopathology, Ephedrine therapeutic use, Obesity drug therapy

Abstract

A double-blind controlled study was performed in unselected obese outpatients to assess the effects of ephedrine on weight loss. Patients were treated for 3 months with placebo (group I), 25 mg t.i.d. or 50 mg t.i.d. of ephedrine hydrochloride orally administered (groups II and III, respectively). Dietary treatment consisted of 1000 kcal/day for females and 1200 kcal/day for males. The three groups were matched for age, sex, body mass index and pre-treatment spontaneous caloric intake. Weight loss was similar in all groups. Patients in group III (ephedrine 150 mg/day) showed significantly more side effects than the placebo group. These results do not seem to favour the hypothesis that ephedrine, a thermogenic agent, may be effective in the therapy of unselected simple obesity. On the other hand, it cannot be excluded that the drug may be useful in obese patients in whom defective thermogenesis may be clearly demonstrated.

Published

1985

240. [Vaginal myxosarcoma, spontaneous remission].

Author

STEFANINI C

Subjects

Female, Humans, Mesenchymoma, Vaginal Neoplasms

Published

1954

241. Distant results from 63 splanchnicectomies for various conditions (apart from permanent chronic arterial hypertension).

Author

FONTAINE R, FORSTER E, and STEFANINI C

Subjects

Humans, Splanchnic Nerves

Published

1946

242. [Angioma of the left hand and shoulder with osteolysis].

Author

STEFANINI C

Subjects

Humans, Bone Diseases, Hand, Hemangioma, Neoplasms, Osteolysis, Shoulder

Published

1954

243. [Two cases of articular osteochondromatosis of the knee: pathogenesis].

Author

STEFANINI C

Subjects

Humans, Chondroma, Knee, Knee Joint, Neoplasms, Osteochondromatosis

Published

1954

244. [Right superficial femoral arteriovenous aneurysm: suture of the fistula, venous graft].

Author

STEFANINI C

Subjects

Humans, Aneurysm, Arteries, Arteriovenous Fistula, Femoral Artery, Femoral Vein, Fistula, Sutures, Transplantation, Veins transplantation

Published

1954

245. [Three parathyroid interventions].

Author

STEFANINI C

Subjects

Humans, Ankylosis, Osteitis Deformans surgery, Parathyroid Glands surgery, Spondylitis, Spondylitis, Ankylosing surgery, Thyroid Gland

Published

1954