Antonio Carlos Shimano

Efeitos da estimulação elétrica neuromuscular durante a imobilização nas propriedades mecânicas do músculo esquelético

A estimulacao eletrica neuromuscular (EENM) e um importante recurso utilizado em medicina esportiva para acelerar processos de recuperacao. O objetivo deste estudo foi analisar os efeitos da EENM durante a imobilizacao do musculo gastrocnemio, em posicoes de alongamento (LP) e encurtamento (SP). Para tanto, 60 ratas femeas jovens Wistar foram distribuidas em seis grupos e acompanhadas durante sete dias: controle (C), eletroestimuladas (EE), imobilizadas em encurtamento (ISP), imobilizadas em alongamento (ILP), imobilizadas em encurtamento e eletroestimuladas (ISP + EE) e imobilizadas em alongamento e eletroestimuladas (ILP + EE). Para a imobilizacao, o membro posterior direito foi envolvido por uma malha tubular e ataduras de algodao juntamente a atadura gessada. A EENM foi utilizada com frequencia de 50Hz, 10 minutos por dia, totalizando 20 contracoes em cada sessao. Apos sete dias os animais foram submetidos a eutanasia e os musculos gastrocnemios retirados para a realizacao do ensaio mecânico de tracao em uma maquina universal de ensaios (EMIC®). A partir dos graficos carga versus alongamento, foram calculadas as seguintes propriedades mecânicas: alongamento no limite de proporcionalidade (ALP), carga no limite de proporcionalidade (CLP) e rigidez. As imobilizacoes SP e LP promoveram reducoes significativas (p < 0,05) nas propriedades de ALP e CLP, sendo mais acentuada no grupo ISP. Quando utilizada a EENM, houve acrescimo significativo (p < 0,05) dessas propriedades somente no grupo ISP. Ja em relacao a rigidez, foi observada reducao significativa (p < 0,05) somente do grupo C para o grupo ISP. Quando utilizada a EENM, a rigidez do grupo ILP + EE foi significativamente (p < 0,05) maior e mais proxima do grupo C que a do grupo ISP + EE. Neste modelo experimental, a imobilizacao dos musculos em alongamento atrasou o processo de atrofia, e a estimulacao eletrica, realizada durante a imobilizacao, contribuiu para a manutencao das propriedades mecânicas durante o periodo de imobilismo, principalmente no grupo ILP + EE.The neuromuscular electric stimulation (NMES) is an important tool used in sports medicine to accelerate the recovery process. The objective of this study was to analyze the effects of NMES during immobilization of the gastrocnemius muscle, in lengthened (LP) and shortened positions (SP). Sixty young female Wistar rats were distributed into six groups and followed for 7 days: control (C); electric stimulation (ES); immobilized in shortening (ISP); immobilized in lengthening (ILP); immobilized in shortening and electric stimulation (ISP + ES) and immobilized in lengthening and electric stimulation (ILP + ES). For the immobilization, a tubular mesh and cotton rolls together with the plaster were wrapped around the rats right posterior paw. NMES in a frequency of 50 Hz was used 10 minutes a day, totaling 20 contractions in each session. After 7 days the animals were sacrificed and their gastrocnemius muscles of the right paw were submitted to a mechanical test of traction in a universal test machine (EMIC®). From the load versus elongation curves the following mechanical properties were obtained: elongation in the yield limit (EPL), load in the yield limit (LPL) and stiffness. The SP and LP immobilizations promoted significant reductions (p < 0.05) in the EPL and LPL properties, being more remarkable in the ISP group. When the NMES was used, there was significant increase (p < 0.05) of these properties only in the ISP group. As for stiffness, significant reduction was observed (p < 0.05) only of the C group for the ISP group. When the NMES was used, the stiffness of the ILP + EE group was significantly (p < 0.05) higher and closer to the C group than of the ISP + EE group. We conclude that in this experimental model the immobilization of the muscles in the lengthened position delayed the atrophy process and the electric stimulation during the immobilization contributed to the maintenance of the mechanical properties during the immobilization period, mainly for the ILP + ES group.

The effect of repetitive pilot-hole use on the insertion torque and pullout strength of vertebral system screws.

Study Design. In vitro biomechanical investigation of the screw-holding capacity. Objective. To evaluate the effect of repetitive screw-hole use on the insertional torque and retentive strength of vertebral system screws. Summary and Background Data. Placement and removal of vertebral system screws is sometimes necessary during the surgical procedures in order to assess the walls of the pilot hole. This procedure may compromise the holding capacity of the implant. Methods. Screws with outer diameter measuring 5, 6, and 7 mm were inserted into wood, polyurethane, polyethylene, and cancellous bone cylindrical blocks. The pilot holes were made with drills of a smaller, equal, or wider diameter than the inner screw diameter. Three experimental groups were established based on the number of insertions and reinsertions of the screws and subgroups were created according to the outer diameter of the screw and the diameter of the pilot hole used. Results. A reduction of screw-holding capacity was observed between the first and the following insertions regardless the anchorage material. The pattern of reduction of retentive strength was not similar to the pattern of torque reduction. The pullout strength was more pronounced between the first and the last insertions, while the torque decreased more proportionally from the first to the last insertions. Conclusion. Insertion and reinsertion of the screws of the vertebral fixation system used in the present study reduced the insertion torque and screw purchase.

Força de preensão palmar e pinças em indivíduos sadios entre 6 e 19 anos

OBJECTIVE: This study aimed to determine and compare the values of maximum isometric palmar grip and pinch forces in healthy children between 6 and 19 years old using dynamometry, considering gender, dominance and age. METHODS: 199 subjects were evaluated using Jamar® dynamometer to measure palmar grip strength and Preston Pinch Gauge® dynamometer to evaluate pulp to pulp, lateral and three points pinch strength in a standardization testing protocol. The mean of three consecutive grip tests was recorded. Linear regression with mixed effects was used to statistically analyze the differences between data. RESULTS: Mean values found for palmar grip, pulp to pulp, three points and lateral pinch were 24,51kgf, 3,64kgf, 5,37kgf and 6,78kgf, respectively, regardless of the variables. There was statistical difference in all measures by gender and dominance, and the dominant hand and the males had higher grip forces. It was verified that mean values varied with age, with significant difference in most of comparisons between the age groups. CONCLUSION: We concluded that pinch and palmar grip strength demonstrated significant differences in gender, dominance and in most of age subgroups studied, being important to consider them on dynamometry. This study was relevant as reference of normality of hand strength in children and adolescents.

Efeitos do ultra-som terapêutico nas propriedades mecânicas do músculo esquelético após contusão

BACKGROUND: Therapeutic ultrasound is a resource commonly applied to speed up tissue repair in muscle injuries. The absorption of the ultrasound waves is determined by their frequency and intensity. For a given intensity, the depth reached by 1MHz is greater than the depth reached by 3MHz. OBJECTIVE: To analyze the mechanical properties of muscles subjected to acute impact injury treated with therapeutic ultrasound at the frequencies of 1 and 3MHz. METHODS: Forty female Wistar rats (200.1±17.8g) were used, divided into four groups: (1) control; (2) muscle injury without treatment; (3) muscle injury treated with therapeutic ultrasound at the frequency of 1MHz (0.5W/cm2); and (4) muscle injury treated with therapeutic ultrasound at the frequency of 3MHz (0.5W/cm2). The injury was produced in the gastrocnemius muscle by means of an impact mechanism. The treatment consisted of a single five-minute session per day, for six consecutive days. The muscles were subjected to mechanical traction tests in a universal test machine. RESULTS: Means and standard deviations for the mechanical properties of the injured groups that received therapeutic ultrasound were significantly greater than those of the injured group without treatment (p<0.05). The property of stiffness should be highlighted: the application of therapeutic ultrasound increased muscle stiffness by approximately 38%. CONCLUSIONS: Therapeutic ultrasound increased the mechanical properties of the injured muscles, and brought them to a level close to the control group. However, no significant difference in mechanical properties was observed between the groups treated with ultrasound at the frequencies of 1MHz and 3MHz.

Analysis of primary stability of dental implants inserted in different substrates using the pullout test and insertion torque.

The aim of the study was to evaluate mechanical behavior of implants inserted in three substrates, by measuring the pullout strength and the relative stiffness. 32 implants (Master Porous-Conexao, cylindrical, external hexagon, and surface treatment) were divided into 4 groups (n = 8): pig rib bone, polyurethane Synbone, polyurethane Nacional 40 PCF, and pinus wood. Implants were installed with the exact distance of 5 mm of another implant. The insertion torque (N·cm) was quantified using the digital Kratos torque meter and the pullout test (N) was performed by an axial traction force toward the long axis of the implant (2 min/mm) through mount implant devices attached to a piece adapted to a load cell of 200 Kg of a universal testing machine (Emic DL10000). Data of insertion torque and maximum pullout force were submitted to one-way ANOVA and Bonferroni tests (α = 0.05). Polyurethane Nacional 40 PCF and pinus wood showed the highest values of insertion torque and pullout force, with significant statistical difference (P < 0.05) with other groups. The analysis showed stiffness materials with the highest values for primary stability.

Análise biomecânica dos efeitos da crioterapia no tratamento da lesão muscular aguda

Cryotherapy is widespread used in the acute treatment of muscle injuries of professional and unprofessional athletes. The purpose of this study was the investigation of mechanical properties of gastrocnemius muscle submitted to a impact mechanism of injury and treated with cryoterapy. Therefore, twenty four female Wistar rats were divided into three groups: Control (C): animals housed in standard cages for six days; Lesion (L): animals submitted to a direct impact mechanism of injury in the gastrocnemius muscle, without any treatment and kept into standard cages during six days; Lesion e cryotherapy (LC): animals submitted to the contusion, treated with a single session of cryotherapy immediately after lesion and housed in standard cages during six days. After those protocols, the rats were killed and their right gastrocnemius muscle were dissected and submitted to a mechanical test of traction in a universal assays machine (EMIC®). From the load versus elongation curves, the following mechanical properties were obtained: Maximum limit load (MLL), maximum limit elongation (MLE) and stiffness (St). There was a statistically difference between all groups in MLL and St. However, in the MLE there was statistically difference only between groups C and L (p<0,05). The results showed that the muscle contusion without treatment led to exasperation of all analyzed mechanical properties. Conversely, cryotherapy improved the muscle properties, although they had not reached the control group values. It can be concluded that the cryotherapy applied immediately after muscle contusion improved the muscle mechanical properties.Cryotherapy is widespread used in the acute treatment of muscle injuries of professional and unprofessional athletes. The purpose of this study was the investigation of mechanical properties of gastrocnemius muscle submitted to a impact mechanism of injury and treated with cryoterapy. Therefore, twenty four female Wistar rats were divided into three groups: Control (C): animals housed in standard cages for six days; Lesion (L): animals submitted to a direct impact mechanism of injury in the gastrocnemius muscle, without any treatment and kept into standard cages during six days; Lesion e cryotherapy (LC): animals submitted to the contusion, treated with a single session of cryotherapy immediately after lesion and housed in standard cages during six days. After those protocols, the rats were killed and their right gastrocnemius muscle were dissected and submitted to a mechanical test of traction in a universal assays machine (EMIC®). From the load versus elongation curves, the following mechanical properties were obtained: Maximum limit load (MLL), maximum limit elongation (MLE) and stiffness (St). There was a statistically difference between all groups in MLL and St. However, in the MLE there was statistically difference only between groups C and L (p<0,05). The results showed that the muscle contusion without treatment led to exasperation of all analyzed mechanical properties. Conversely, cryotherapy improved the muscle properties, although they had not reached the control group values. It can be concluded that the cryotherapy applied immediately after muscle contusion improved the muscle mechanical properties.

Influência do diâmetro do orifício piloto na resistência ao arrancamento dos parafusos do corpo vertebral

SUMMARY Mechanical assays were performed in order to assess the influence of pilot hole diameter versus screw’s inner diameter on screw pullout resistance in the vertebral fixation systems applied to the vertebral body. The study was conducted in two stages. In the first, polyurethane test bodies were used for placing 5 and 6 mm screws, and, in the second stage, the screws were inserted into the lateral surface of the lumbar vertebral bodies of pigs. The pilot hole was built with drills with smaller, similar or larger diameter than screws’ inner diameter. Mechanical pullout assays were performed using a universal test machine for the assessment of maximum pullout screw resistance. The diameter of the pilot hole versus screw’s inner diameter was shown to influence screw pullout resistance.

Effect of local anaesthetic infiltration with bupivacaine and ropivacaine on wound healing: a placebo‐controlled study

Infiltration of surgical wounds with long‐acting local anaesthetics (LA) is used to reduce postoperative incisional pain. We hypothesised that infiltration with LA interferes with wound healing in rats. Seventy‐two rats were allocated into nine groups. After intraperitoneal anaesthesia, the interscapular dorsal region was infiltrated with equivolumes of saline, 0·5% bupivacaine or ropivacaine, in a randomised double‐blind fashion. A standardised incision was performed in the infiltrated area and sutured closed. The rats were euthanised on the 3rd or 14th day after the operation and tissue from the incision site was subjected to histochemical analyses and mechanical testing (MT). Compared with the control group, bupivacaine displayed a significant increase in the macrophage number on day 3 (+63% versus +27% for ropivacaine). The transforming growth factor β‐1 expression had a significant increase in the LA (versus saline) groups, +63% in ropivacaine group and +115% in bupivacaine group on day 3 (P < 0·05). The collagen fibres as measured by dyed area were significantly higher in the bupivacaine group on day 3 (+56%, P < 0·01 versus +15% for ropivacaine). CD34 was reduced in bupivacaine group (−51%, P < 0·05 versus +3% for ropivacaine). On day 14, no statistical differences were observed in either LA group (versus saline) with respect to histopathologic or inflammatory mediators. MT on day 14 showed no differences between the LA and saline groups. The LA‐induced increases in histological markers did not extend beyond the third day, suggesting that wound infiltration with long‐acting LA does not impair the wound healing process in rats.

Propriedades mecânicas do gastrocnêmio eletroestimulado pós-imobilização

Introduction: Mechanical properties (MP) are clinically applicable tools for healthcare professionals working on the musculoskeletal system. Objectives: The aim of this study was to evaluate two protocols of neuromuscular electric stimulation (NMES) to improve MP regeneration of the myotendinous complex after segment immobilization in female rats. Materials and Methods: Fifty animals were equally distributed into five groups: Control (CG, n=10); Immobilized (IG, n=10); Immobilized and freely remobilized (IFG, n=10); Immobilized and NMES once /day (IEG1, n=10); Immobilized and MNES twice/day (IEG2, n=10). Immobilization was kept for 14 days, and remobilization was subsequently released for 10 days. NMES was applied for 10 days, post-immobilization, every morning for 10 minutes to IEG1 animals and every morning and afternoon (total 20 minutes) to the IEG2 group. After these procedures, the gastrocnemius muscle was submitted to the mechanical traction assay to evaluate stiffness, resilience, load and stretching at maximum limit MPs. Results: Immobilization reduced the MP values concerning load and stiffness (p 0.05). Conclusion: It is concluded that the gastrocnemius muscle became structurally better organized through a single NMES application and by remobilization.

Estimulação elétrica neuromuscular e o alongamento passivo manual na recuperação das propriedades mecânicas do músculo gastrocnêmio imobilizado

We evaluated the influence of immobilization, free remobilization, remobilization with manual passive stretching, remobilization with neuromuscular electric stimulation (NMES) and remobilization with electric stimulation and associated passive stretching on some mechanical properties of the gastrocnemius muscle of female rats. Sixty female rats were assessed, being distributed into 6 experimental groups. One of these groups served as control. The animals of the five remaining groups had their right posterior limb immobilized for 14 consecutive days. From the five groups, one was sacrificed right after the immobilization period, a second group was released from immobilization, a third was submitted to the manual passive stretching technique for 10 consecutive days, a fourth was submitted to NMES for 10 consecutive days and the last one was submitted to NMES and manual passive stretching for 10 consecutive days. We found that the immobilization caused a significant reduction of the mechanical properties values evaluated on the muscle. The free remobilization could not reestablish any of the properties. The remobilization by manual passive stretching restored the mechanical properties of stretching at the proportionality limit, stiffness and resilience. The remobilization stimulated by NMES reestablished all of studied properties. The remobilization by electric stimulation and passive stretching reestablished the mechanical properties of stretching at the maximum limit, proportionality limit, and stiffness.