Your search keyword '"Armada-Da-silva, Paulo A. S."' showing total 20 results

1. Effect of Knee Angle, Contractile Activity, and Intensity of Force Production on Vastus Lateralis Stiffness: A Supersonic Shear Wave Elastography Pilot Study †.

Author

Santos, Rute, Valamatos, Maria João, Mil-Homens, Pedro, and Armada-da-Silva, Paulo A. S.

Subjects

MODULUS of rigidity, MUSCLE physiology, ULTRASONIC waves, SHEAR waves, TWO-way analysis of variance, MUSCLE contraction, VASTUS lateralis

Abstract

Supersonic shear image (SSI) ultrasound elastography provides a quantitative assessment of tissue stiffness using the velocity of shear waves. SSI's great potential has allowed researchers in fields like biomechanics and muscle physiology to study the function of complex muscle groups in different conditions. The aim of this study is to use SSI to investigate changes in the stiffness of the vastus lateralis (VL) muscle as a consequence of passive elongation, isometric contraction, and repeated muscle activity. In a single session, 15 volunteers performed a series of isometric, concentric, and eccentric contractions. SSI images were collected from the VL to assess its stiffness before and after the contractions and at various knee angles. Two-way within-subjects ANOVA was used to test the effects of muscle contraction type and knee angle on VL stiffness. Linear regression analysis was employed to assess the relationship between muscle stiffness and the intensity of isometric contractions. After maximal contractions, VL stiffness increased by approximately 10% compared to baseline values, and following maximal isometric (p < 0.01) and eccentric contractions (p < 0.05). Yet, there was no change in VL shear modulus at the end of concentric contractions. The relaxed VL shear modulus increased with knee flexion both before and after the knee extensor contractions (p < 0.001). A linear relationship between the shear modulus and the degree of isometric contraction was observed, although with notable individual variation (R2 = 0.125). Maximal contractile activity produces modest increases in relaxed muscle stiffness. The SSI-measured shear modulus increases linearly with the degree of isometric contraction. [ABSTRACT FROM AUTHOR]

Published

2024

2. Editorial: Exercise and diet: strategies and prescriptions to improve mental and cognitive health

Author

Sun, Shengyan, primary, Armada-da-Silva, Paulo A. S., additional, and Shao, Yongcong, additional

Published

2024

3. Editorial: Exercise and diet: strategies and prescriptions to improve mental and cognitive health.

Author

Shengyan Sun, Armada-da-Silva, Paulo A. S., and Yongcong Shao

Subjects

MENTAL health, DIET, MEDICAL prescriptions, HEALTH behavior

Published

2024

4. Cerebral oxygenation and cardiac output responses during short repeated sprints exercise and modulatory effect of glucose ingestion

Author

Armada-da-Silva, Paulo A. S., primary, Mingzhu, Hu, additional, Zongze, Wu, additional, Linjian, Wen, additional, Ruisen, Feng, additional, Zeng, Xinglin, additional, Yuan, Zhen, additional, and Kong, Zhaowei, additional

Published

2022

5. Editorial: Interaction effect of low carbohydrate diets and exercise on weight loss and cardio-metabolic health

Author

Sun, Fenghua, primary, Kong, Zhaowei, additional, Armada-da-Silva, Paulo A. S., additional, and Paoli, Antonio, additional

Published

2022

6. Altered Functional Connectivity in the Motor and Prefrontal Cortex for Children With Down's Syndrome: An fNIRS Study

Author

Xu, Shi-Yang, primary, Lu, Feng-Mei, additional, Wang, Meng-Yun, additional, Hu, Zhi-Shan, additional, Zhang, Juan, additional, Chen, Zhi-Yi, additional, Armada-da-Silva, Paulo A. S., additional, and Yuan, Zhen, additional

Published

2020

7. Effect of Three Months Detraining on Endurance and Maximum Isometric Force in Elderly Subjects: 2317: Board #230 June 1 9:00 AM −10:30 AM

Author

Yázigi, Flávia G. and Armada-da-Silva, Paulo A S

Published

2007

8. Use of hybrid chitosan membranes and human mesenchymal stem cells from the Wharton jelly of umbilical cord for promoting nerve regeneration in an axonotmesis rat model

Author

Gärtner, Andrea, Pereira, Tiago, Simões, Maria João, Armada da Silva, Paulo A. S., França, Miguel L., Sousa, Rosa, Bompasso, Simone, Raimondo, Stefania, Shirosaki, Yuki, Nakamura, Yuri, Hayakawa, Satoshi, Osakah, Akiyoshi, Porto, Beatriz, Luís, Ana Lúcia, Varejão, Artur S. P., and Maurício, Ana Colette

Subjects

mesenchymal stem cells, Special Issue, axonotmesis, functional analysis, Developmental Neuroscience, stem cells, stereological analysis, umbilical cord, karyotype analysis, Wharton jelly, rat, chitosan, Axonotmesis, Biomaterials, Chitosan, Functional analysis, Karyotype analysis, Mesenchymal stem cells, Rat, Stem cells, Stereological analysis, Umbilical cord, biomaterials

Abstract

Many studies have been dedicated to the development of scaffolds for improving post-traumatic nerve regeneration. The goal of this study was to assess the effect on nerve regeneration, associating a hybrid chitosan membrane with non-differentiated human mesenchymal stem cells isolated from Wharton's jelly of umbilical cord, in peripheral nerve reconstruction after crush injury. Chromosome analysis on human mesenchymal stem cell line from Wharton's jelly was carried out and no structural alterations were found in metaphase. Chitosan membranes were previously tested in vitro, to assess their ability in supporting human mesenchymal stem cell survival, expansion, and differentiation. For the in vivo testing, Sasco Sprague adult rats were divided in 4 groups of 6 or 7 animals each: Group 1, sciatic axonotmesis injury without any other intervention (Group 1-Crush); Group 2, the axonotmesis lesion of 3 mm was infiltrated with a suspension of 1 250–1 500 human mesenchymal stem cells (total volume of 50 μL) (Group 2-CrushCell); Group 3, axonotmesis lesion of 3 mm was enwrapped with a chitosan type III membrane covered with a monolayer of non-differentiated human mesenchymal stem cells (Group 3-CrushChitIIICell) and Group 4, axonotmesis lesion of 3 mm was enwrapped with a chitosan type III membrane (Group 4-CrushChitIII). Motor and sensory functional recovery was evaluated throughout a healing period of 12 weeks using sciatic functional index, static sciatic index, extensor postural thrust, and withdrawal reflex latency. Stereological analysis was carried out on regenerated nerve fibers. Results showed that infiltration of human mesenchymal stem cells, or the combination of chitosan membrane enwrapment and human mesenchymal stem cell enrichment after nerve crush injury provide a slight advantage to post-traumatic nerve regeneration. Results obtained with chitosan type III membrane alone confirmed that they significantly improve post-traumatic axonal regrowth and may represent a very promising clinical tool in peripheral nerve reconstructive surgery. Yet, umbilical cord human mesenchymal stem cells, that can be expanded in culture and induced to form several different types of cells, may prove, in future experiments, to be a new source of cells for cell therapy, including targets such as peripheral nerve and muscle.

Published

2012

9. Promoting Nerve Regeneration in a Neurotmesis Rat Model Using Poly(DL-lactide-ε-caprolactone) Membranes and Mesenchymal Stem Cells from the Wharton’s Jelly:In VitroandIn VivoAnalysis

Author

Pereira, T., primary, Gärtner, A., additional, Amorim, I., additional, Almeida, A., additional, Caseiro, A. R., additional, Armada-da-Silva, Paulo A. S., additional, Amado, Sandra, additional, Fregnan, Federica, additional, Varejão, A. S. P., additional, Santos, J. D., additional, Bartolo, P. J., additional, Geuna, S., additional, Luís, A. L., additional, and Mauricio, A. C., additional

Published

2014

10. The cadence and water temperature effect on physiological responses during water cycling

Author

Yazigi, Flávia, primary, Pinto, Stephanie, additional, Colado, Juan, additional, Escalante, Yolanda, additional, Armada-da-Silva, Paulo A. S., additional, Brasil, Roxana, additional, and Alves, Francisco, additional

Published

2013

11. PLGA 90/10 and caprolactone biodegradable nerve guides for the reconstruction of the rat sciatic nerve

Author

Luis, Ana L., primary, Rodrigues, Jorge M., additional, Amado, Sandra, additional, Veloso, António P., additional, Armada-Da-silva, Paulo A. S., additional, Raimondo, Stefania, additional, Fregnan, Federica, additional, Ferreira, António J., additional, Lopes, Maria A., additional, Santos, José D., additional, Geuna, Stefano, additional, Varejão, Artur S. P., additional, and Maurício, Ana C., additional

Published

2007

12. Promoting Nerve Regeneration in a Neurotmesis Rat Model Using Poly(DL-lactide-ε-caprolactone) Membranes and Mesenchymal Stem Cells from the Wharton's Jelly: In Vitro and In Vivo Analysis.

Author

Pereira, T., Gärtner, A., Amorim, I., Almeida, A., Caseiro, A. R., Armada-da-Silva, Paulo A. S., Amado, Sandra, Fregnan, Federica, Varejão, A. S. P., Santos, J. D., Bartolo, P. J., Geuna, S., Luís, A. L., and Mauricio, A. C.

Abstract

In peripheral nerves MSCs canmodulateWallerian degeneration and the overall regenerative response by acting through paracrine mechanisms directly on regenerating axons or upon the nerve-supporting Schwann cells. In the present study, the effect of humanMSCs fromWharton's jelly (HMSCs), differentiated into neuroglial-like cells associated to poly (DL-lactide-ε-caprolactone) membrane, on nerve regeneration, was evaluated in the neurotmesis injury rat sciatic nerve model. Results in vitro showed successful differentiation of HMSCs into neuroglial-like cells, characterized by expression of specific neuroglial markers confirmed by immunocytochemistry and by RT-PCR and qPCR targeting specific genes expressed. In vivo testing evaluated during the healing period of 20 weeks, showed no evident positive effect of HMSCs or neuroglial-like cell enrichment at the sciatic nerve repair site on most of the functional and nervemorphometric predictors of nerve regeneration although the nociception function was almost normal. EPT on the other hand, recovered significantly better after HMSCs enriched membrane employment, to values of residual functional impairment compared to other treated groups. When the neurotmesis injury can be surgically reconstructed with an end-to-end suture or by grafting, the addition of a PLC membrane associated with HMSCs seems to bring significant advantage, especially concerning the motor function recovery. [ABSTRACT FROM AUTHOR]

Published

2014

13. A moderate dose of caffeine ingestion does not change energy expenditure but decreases sleep time in physically active males: a double-blind randomized controlled trial.

Author

Júdice, Pedro B., Magalhães, João P., Santos, Diana A., Matias, Catarina N., Carita, Ana Isabel, Armada-Da-Silva, Paulo A. S., Sardinha, Luís B., and Silva, Analiza M.

Subjects

ANALYSIS of covariance, ANALYSIS of variance, CAFFEINE, CROSSOVER trials, ENERGY metabolism, HEART beat, INGESTION, RESEARCH funding, RANDOMIZED controlled trials, ACCELEROMETRY, BLIND experiment, PHYSICAL activity, DATA analysis software, DESCRIPTIVE statistics, PHOTON absorptiometry

Abstract

Copyright of Applied Physiology, Nutrition & Metabolism is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

14. Promoting Nerve Regeneration in a Neurotmesis Rat Model Using Poly(DL-lactide--caprolactone) Membranes and Mesenchymal Stem Cells from the Wharton's Jelly: In Vitro and In Vivo Analysis.

Author

Pereira, T, Gärtner, A, Amorim, I, Almeida, A, Caseiro, A R, Armada-da-Silva, Paulo A S, Amado, Sandra, Fregnan, Federica, Varejao, A S P, Santos, J D, Bartolo, P J, Geuna, S, Luís, A L, and Mauricio, A C

Published

2014

15. Role of physical exercise for improving posttraumatic nerve regeneration.

Author

Armada-da-Silva PA, Pereira C, Amado S, and Veloso AP

Subjects

Animals, Humans, Exercise Therapy, Nerve Regeneration physiology, Peripheral Nerve Injuries rehabilitation, Recovery of Function physiology

Abstract

Despite the great regenerative ability of the peripheral nervous system (PNS), traumatic peripheral nerve damage often causes severe chronic disability. Rehabilitation following PNS trauma usually employs therapeutic exercise in an attempt to reanimate the target organs and stimulate functional recovery. Over the past years, important neurobiological determinants of PNS regeneration and successful end-organ reinnervation were unveiled. Such knowledge provides cues for designing novel strategies for treating and rehabilitating traumatic PNS damage. Physical exercise, by means of treadmill or wheel running, is neuroprotective and neuroregenerative. Research conducted on rodents demonstrates that endurance exercise modulates several of the cellular and molecular responses to peripheral nerve injury and by doing so it stimulates nerve regeneration and functional recovery following experimental PNS injury. Treadmill running increases the number of regenerating neurons, the rate of axonal growth, and the extent of muscle reinnervation following peripheral nerve injury. Furthermore, treadmill running has the ability to increase the release of neurotrophins and growth factors in the spinal cord, the injured nerve, and reinnervating muscles. Treadmill running also seems to prevent the development of neuropathic pain and allodynia as a result of peripheral nerve damage. In addition, physical exercise, even if performed for a short period of time, exerts positive conditioning effects in neuroregeneration capacity, improving the acute response to peripheral nerve insults. Some of these effects can also be obtained with passive exercise or manual stimulation. In humans, however, evidence demonstrating a positive effect of exercise on nerve regeneration is at best poor., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

16. The sensitivity of two-dimensional hindlimb joint kinematics analysis in assessing functional recovery in rats after sciatic nerve crush.

Author

Amado S, Armada-da-Silva PA, João F, Maurício AC, Luís AL, Simões MJ, and Veloso AP

Subjects

Animals, Discriminant Analysis, Male, Models, Statistical, Rats, Rats, Sprague-Dawley, Sciatic Neuropathy diagnosis, Sciatic Neuropathy rehabilitation, Sensitivity and Specificity, Time Factors, Biomechanical Phenomena physiology, Gait physiology, Hindlimb physiology, Joints physiology, Nerve Crush rehabilitation, Recovery of Function physiology, Sciatic Neuropathy physiopathology

Abstract

Walking analysis in the rat is increasingly used to assess functional recovery after peripheral nerve injury. Here we assess the sensitivity and specificity of hindlimb joint kinematics measures during the rat gait early after sciatic nerve crush injury (DEN), after twelve weeks of recovery (REINN) and in sham-operated controls (Sham) using discriminant analysis. The analysis addressed gait spatiotemporal variables and hip, knee and ankle angle and angular velocity measures during the entire walking cycle. In DEN animals, changes affected all studied joints plus spatiotemporal parameters of gait. Both the spatiotemporal and ankle kinematics parameters recovered to normality within twelve weeks. At this time point, some hip and knee kinematics values were still abnormal when compared to sham controls. Discriminant models based on hip, knee and ankle kinematics displayed maximal sensitivity to identify DEN animals. However, the discriminant models based on spatiotemporal and ankle kinematics data showed a poor performance when assigning animals to the REINN and Sham groups. Models using hip and knee kinematics during walking showed the best sensitivity to recognize the reinnervated animals. The model construed on the basis of hip joint kinematics was the one combining highest sensitivity with robustness and high specificity. It is concluded that ankle joint kinematics fails in detecting minor functional deficits after long term recovery from sciatic nerve crush and extending the kinematic analysis during walking to the hip and knee joints improves the sensitivity of this functional test., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

17. Effects of collagen membranes enriched with in vitro-differentiated N1E-115 cells on rat sciatic nerve regeneration after end-to-end repair.

Author

Amado S, Rodrigues JM, Luís AL, Armada-da-Silva PA, Vieira M, Gartner A, Simões MJ, Veloso AP, Fornaro M, Raimondo S, Varejão AS, Geuna S, and Maurício AC

Subjects

Anastomosis, Surgical, Animals, Axotomy, Cell Differentiation, Male, Neurons cytology, Rats, Rats, Sprague-Dawley, Sciatic Nerve injuries, Tissue Engineering methods, Collagen Type III therapeutic use, Nerve Regeneration physiology, Neurons transplantation, Recovery of Function, Sciatic Nerve surgery

Abstract

Peripheral nerves possess the capacity of self-regeneration after traumatic injury but the extent of regeneration is often poor and may benefit from exogenous factors that enhance growth. The use of cellular systems is a rational approach for delivering neurotrophic factors at the nerve lesion site, and in the present study we investigated the effects of enwrapping the site of end-to-end rat sciatic nerve repair with an equine type III collagen membrane enriched or not with N1E-115 pre-differentiated neural cells. After neurotmesis, the sciatic nerve was repaired by end-to-end suture (End-to-End group), end-to-end suture enwrapped with an equine collagen type III membrane (End-to-EndMemb group); and end-to-end suture enwrapped with an equine collagen type III membrane previously covered with neural cells pre-differentiated in vitro from N1E-115 cells (End-to-EndMembCell group). Along the postoperative, motor and sensory functional recovery was evaluated using extensor postural thrust (EPT), withdrawal reflex latency (WRL) and ankle kinematics. After 20 weeks animals were sacrificed and the repaired sciatic nerves were processed for histological and stereological analysis. Results showed that enwrapment of the rapair site with a collagen membrane, with or without neural cell enrichment, did not lead to any significant improvement in most of functional and stereological predictors of nerve regeneration that we have assessed, with the exception of EPT which recovered significantly better after neural cell enriched membrane employment. It can thus be concluded that this particular type of nerve tissue engineering approach has very limited effects on nerve regeneration after sciatic end-to-end nerve reconstruction in the rat.

Published

2010

18. Use of chitosan scaffolds for repairing rat sciatic nerve defects.

Author

Simões MJ, Amado S, Gärtner A, Armada-Da-Silva PA, Raimondo S, Vieira M, Luís AL, Shirosaki Y, Veloso AP, Santos JD, Varejão AS, Geuna S, and Maurício AC

Subjects

Animals, Biocompatible Materials chemistry, Biocompatible Materials therapeutic use, Chitosan chemistry, Disease Models, Animal, Male, Rats, Rats, Sprague-Dawley, Sciatic Neuropathy pathology, Sciatic Neuropathy physiopathology, Tissue Scaffolds standards, Chitosan therapeutic use, Nerve Regeneration physiology, Neurosurgical Procedures methods, Sciatic Neuropathy surgery, Tissue Scaffolds trends

Abstract

Neurotmesis must be surgically treated by direct end-to-end suture of the two nerve stumps or by a nerve graft harvested from elsewhere in the body in case of tissue loss. To avoid secondary damage due to harvesting of the nerve graft, a tube-guide can be used to bridge the nerve gap. Previously, our group developed and tested hybrid chitosan membranes for peripheral nerve tubulization and showed that freeze-dried chitosan type III membranes were particularly effective for improving peripheral nerve functional recovery after axonotmesis. Chitosan type III membranes have about 110 microm pores and about 90% of porosity, due to the employment of freeze-drying technique. The present study aimed to verify if chitosan type III membranes can be successfully used also for improving peripheral nerve functional recovery after neurotmesis of the rat sciatic nerve. Sasco Sprague-Dawley adult rats were divided into 6 groups: Group 1: end-to-end neurorrhaphy enwrapped by chitosan membrane type III (End-to-EndChitll); Group 2: 10mm-nerve gap bridged by an autologous nerve graft enwrapped by chitosan membrane type III (Graf180degreeChitIII); Group 3: 10 mm-nerve gap bridged by chitosan type III tube-guides (GapChitIII); These 3 experimental groups were compared with 3 control groups, respectively: Group 4: 10 mm-nerve gap bridged by an autologous nerve graft (Graft180degree); Group 5: 10 mm-nerve gap bridged by PLGA 90:10 tube-guides (PLGA); Group 6: end-to-end neurorrhaphy alone (End-to-End). Motor and sensory functional recovery were evaluated throughout a healing period of 20 weeks using extensor postural thrust (EPT), withdrawal reflex latency (WRL) and ankle kinematics. Regenerated nerves withdrawn at the end of the experiment were analysed histologically. Results showed that nerve regeneration was successful in all experimental and control groups and that chitosan type III tubulization induced a significantly better nerve regeneration and functional recovery in comparison to PLGA tubulization control. Further investigation is needed to explore the mechanisms at the basis of the positive effects of chitosan type III on axonal regeneration.

Published

2010

19. Use of PLGA 90:10 scaffolds enriched with in vitro-differentiated neural cells for repairing rat sciatic nerve defects.

Author

Luís AL, Rodrigues JM, Geuna S, Amado S, Shirosaki Y, Lee JM, Fregnan F, Lopes MA, Veloso AP, Ferreira AJ, Santos JD, Armada-Da-silva PA, Varejão AS, and Maurício AC

Subjects

Animals, Biomechanical Phenomena, Cell Line, Tumor, Hydrogen-Ion Concentration, Male, Mice, Motor Neuron Disease pathology, Motor Neuron Disease physiopathology, Pain physiopathology, Polylactic Acid-Polyglycolic Acid Copolymer, Rats, Rats, Sprague-Dawley, Sciatic Nerve physiopathology, Water, Cell Differentiation, Lactic Acid metabolism, Nerve Regeneration, Neurons cytology, Polyglycolic Acid metabolism, Sciatic Nerve pathology, Tissue Scaffolds

Abstract

Poly(lactic-co-glycolic acid) (PLGA) nerve tube guides, made of a novel proportion (90:10) of the two polymers, poly(L-lactide): poly(glycolide) and covered with a neural cell line differentiated in vitro, were tested in vivo for promoting nerve regeneration across a 10-mm gap of the rat sciatic nerve. Before in vivo testing, the PLGA 90:10 tubes were tested in vitro for water uptake and mass loss and compared with collagen sheets. The water uptake of the PLGA tubes was lower, and the mass loss was more rapid and higher than those of the collagen sheets when immersed in phosphate-buffered saline (PBS) solution. The pH values of immersing PBS did not change after soaking the collagen sheets and showed to be around 7.4. On the other hand, the pH values of PBS after soaking PLGA tubes decreased gradually during 10 days reaching values around 3.5. For the in vivo testing, 22 Sasco Sprague adult rats were divided into four groups--group 1: gap not reconstructed; group 2: gap reconstructed using an autologous nerve graft; group 3: gap reconstructed with PLGA 90:10 tube guides; group 4: gap reconstructed with PLGA 90:10 tube guides covered with neural cells differentiated in vitro. Motor and sensory functional recovery was evaluated throughout a healing period of 20 weeks using sciatic functional index, static sciatic index, extensor postural thrust, withdrawal reflex latency, and ankle kinematics. Stereological analysis was carried out on regenerated nerve fibers. Both motor and sensory functions improved significantly in the three experimental nerve repair groups, although the rate and extent of recovery was significantly higher in the group where the gap was reconstructed using the autologous graft. The presence of neural cells covering the inside of the PLGA tube guides did not make any difference in the functional recovery. By contrast, morphometric analysis showed that the introduction of N1E-115 cells inside PLGA 90:10 tube guides led to a significant lower number and size of regenerated nerve fibers, suggesting thus that this approach is not adequate for promoting peripheral nerve repair. Further studies are warranted to assess the role of other cellular systems as a foreseeable therapeutic strategy in peripheral nerve regeneration.

Published

2008

20. Evaluation of two biodegradable nerve guides for the reconstruction of the rat sciatic nerve.

Author

Luis AL, Rodrigues JM, Lobato JV, Lopes MA, Amado S, Veloso AP, Armada-da-Silva PA, Raimondo S, Geuna S, Ferreira AJ, Varejão AS, Santos JD, and Maurício AC

Subjects

Animals, Lactic Acid chemistry, Male, Motor Activity, Pain Measurement, Polyesters chemistry, Polyglycolic Acid chemistry, Polylactic Acid-Polyglycolic Acid Copolymer, Polymers chemistry, Rats, Rats, Sprague-Dawley, Sciatic Nerve ultrastructure, Absorbable Implants, Guided Tissue Regeneration methods, Nerve Regeneration, Sciatic Nerve physiology

Abstract

The purpose of this study was to test in vivo two different nerve guides, one of PLGA made of a novel proportion (90:10) of the two polymers, Poly(L-lactide):Poly(glycolide), with (DL-lactide-epsilon-caprolactone) copolyester (Neurolac) tube, in promoting nerve regeneration across a 10 mm-gap of the rat sciatic nerve. Finally, end-to-end coaptation was performed. Motor and sensory functional recovery was assessed throughout the healing period of 20 weeks and the repaired nerves were processed for morphological analysis. Both motor and sensory functions improved significantly in all experimental nerve repair groups, although the rate and extent of recovery was significantly higher in the end-to-end group. No significant differences were detected in the comparison between the two types of tubes. Compatible with results of functional tests, morphological analysis showed that axon regeneration occurred in both PLGA and Neurolac experimental groups but disclosed a different pattern of degradation of the two types of tubes with larger biodegradation of PLGA material by the end of 20 weeks. These results suggest that both types of biomaterial are a good substrate for preparing tubular nerve guides and the different pattern of degradation does not seem to influence the degree of nerve regeneration.

Published

2007