ABSTRACT
Introducción. Las cardiopatías congénitas (CC) en Chile corresponden a la segunda causa de muerte en menores de 1 año, requiriendo cirugías paliativas y/o correctivas el 65% de estas. En el post operatorio frecuentemente se utiliza ventilación mecánica invasiva (VM) y succión endotraqueal (SET) para remover secreciones. Sin embargo, la kinesiología respiratoria (KTR) ha mostrado mejoras significativas en la distensibilidad toracopulmonar (Cest) y resistencia de vía aérea (Rva) en otros grupos de usuarios pediátricos y adultos en VM. Objetivo. Comparar los cambios en la Cest y Rva en usuarios pediátricos en VM post cirugía de cardiopatía congénita (CCC) sometidos a KTR versus SET exclusiva. Métodos. Revisión sistemática de estudios publicados en bases de datos PUBMED, PeDro, Scielo y Google Scholar que comparan el uso de KTR ó SET sobre los cambios en mecánica ventilatoria en usuarios pediátricos en VM post cirugía de cardiopatía congénita, limitados a inglés, español y portugués, excluyendo a sujetos con traqueostomía o con oxigenación por membrana extracorpórea. Se utilizó guía PRISMA para la selección de artículos. Se revisaron 397 artículos y se seleccionó 1 artículo extra de los artículos sugeridos. Se eliminó 1 artículo por duplicidad. Por títulos y resúmenes se seleccionaron 2 artículos, los cuales al leer el texto completo fueron retirados debido a que la población no correspondía a cardiópatas. Resultados. El final de artículos seleccionados fue de 0 artículos, debido a lo cual se removió el operador Booleano "NOT", y se removió la población de cardiopatías. De este modo quedaron 2 artículos seleccionados para la revisión cualitativa final donde se compara KTR versus SET, y KTR en kinesiólogos especialistas y no especialistas, mostrando ambos aumento en la Cest y disminución de la Rva a favor de la KTR, hasta los 30 minutos post intervención. Conclusiones. No se encontraron artículos que demuestren cambios en Cest y Rva con el uso de KTR + SET versus SET exclusiva, en usuarios pediátricos ventilados posterior a CCC. Con la remoción de filtros seleccionamos 2 artículos que demuestran aumento de Cest y disminución de Rva en sujetos pediátricos en VM, uno comparando con SET, y por grupos de especialistas y no especialistas en respiratorio. Se sugieren estudios primarios para evaluar los efectos de esta intervención en esta población.
Introduction. Congenital heart diseases (CHD) are the second general cause for children death under 1 year. In Chile, approximately 65% CHD need surgery, could was palliative or corrective. In the postoperative period, invasive mechanical ventilation (MV) is frequently used as a life support method, but it is associated with complications. Tracheal suction (SET) is regularly used to remove secretions; however, respiratory chest physiotherapy (KTR) has shown significant improvements in thoraco-pulmonary compliance and airway resistance in other groups of pediatrics and adult's users in MV. Objetive. to compare changes in thoraco-pulmonary compliance and airway resistance in pediatric subjects under mechanical ventilation after congenital heart disease surgery comparing chest physiotherapy and exclusive tracheal suction. Methods. systematic review of studies published in PUBMED, PeDro, Scielo and Google Scholar databases who compares KTR or SET use on changes in ventilatory mechanics in pediatric users under MV after congenital heart disease surgery, limited to English, Spanish and Portuguese languages, excluding user with tracheostomy or extracorporeal membrane of oxygenation. It was use the PRISMA guide to articles selection. A search was carried out, with a total of 397 articles reviewed (English: PubMed = 3, PeDro = 8, Scholar = 383; Spanish: Scholar = 3, Scielo = 0; and Portuguese: Scielo = 0). One extra article was selected from the suggested articles, and 1 article was eliminated due to duplication. By titles and abstracts, 2 articles were selected, but the population did not correspond to heart disease. Results. the final selected articles were 0 articles. By this reason, it were removed: Boolean operator "NOT", and congenital heart disease population. Thus, 2 articles were selected for the final qualitative review where it was compares KTR versus SET, and KTR by specialist and non-specialist. Both articles shown improvement in compliance and resistance until 30 minutes post intervention. The CC population was in a 40 to 60% range in both studies. Conclusions. it was no found articles that demonstrate changes in compliance and resistance in the airway with the use of KTR + SET versus exclusive SET in pediatric users after CCC connected to MV. After filter remotion, we found 2 studies shown improves in increase compliance and reduce resistance in pediatric user in MV, ones comparing with SET, and the other one comparing between specialists in respiratory pediatric physiotherapy and not specialists. It suggests to made primary clinical studies about this intervention in CC population.
ABSTRACT
INTRODUÇÃO: A interação coração-pulmão influenciada pela Ventilação Mecânica (VM), que impacta diretamente no retorno venoso e débito cardíaco através, e não somente, de ajustes da Pressão Positiva Expiratória Final (PEEP) e Pressão média nas vias aéreas (Pmed). Além disso, as pausas inspiratórias para avaliação da mecânica pulmonar interrompem o movimento torácico, pode impactar mais nesta interação. OBJETIVO: Comparar as alterações hemodinâmicas durante os tempos de 0,5 e 2,0 segundos de pausa inspiratória durante as mensurações de mecânica respiratória. MÉTODOS: Trata-se de um estudo transversal, realizado nas unidades de terapia intensivas de um hospital público de Salvador/BA. Foram incluídos pacientes em uso de VM e acima de 18 anos. Os excluídos foram aqueles que apresentassem instabilidade hemodinâmica e hipoxemia sustentada durante a avaliação. Para caracterização amostral, os pacientes foram divididos em grupos daqueles com e sem afecções pulmonares. Os principais dados coletados e analisados foram PEEP, Pmed, Pressão Arterial Sistólica (PAS), Pressão Arterial Diastólica (PAD), Pressão Arterial Média (PAM), Frequência Cardíaca (FC). Para comparação de dados foram utilizados os testes Wilcoxon-Rank e Mann-Whitney para dados pareados e não pareados, respectivamente. RESULTADOS: Foram incluídos 37 pacientes, mediana de idade 63 anos, 19 (51,4%) do sexo masculino, 30 (81,1%) com diagnóstico admissional de natureza clínica. Não foram identificadas alterações hemodinâmicas estatisticamente significantes entre os tempos de pausa inspiratória de 0,5 e 2,0 segundos nas variáveis PAS (p=0,99), PAD (p=0,11), PAM (p=0,29) e FC (p=0,25). CONCLUSÃO: Não foram identificadas variações hemodinâmicas durante as mensurações da mecânica respiratória nas pausas de 0,5 e 2,0 segundos.
INTRODUCTION: The heart-lung interaction is influenced by Mechanical Ventilation (MV), which directly impacts venous return and cardiac output through, but not limited to, adjustments in Positive End-Expiratory Pressure (PEEP) and mean airway pressure (Pmean). Additionally, inspiratory pauses for the assessment of pulmonary mechanics interrupt thoracic movement, potentially further impacting this interaction. OBJECTIVE: To compare hemodynamic changes during 0.5 and 2.0-second inspiratory pauses during respiratory mechanics measurements. METHODS: This is a cross-sectional study conducted in the intensive care units of a hospital in Salvador/BA. Patients on MV and over 18 years old were included. Exclusions were made for those with hemodynamic instability and sustained hypoxemia during the evaluation. For sample characterization, patients were divided into groups with and without pulmonary conditions. The main data collected and analyzed were PEEP, Pmean, Systolic Blood Pressure (SBP), Diastolic Blood Pressure (DBP), Mean Arterial Pressure (MAP), and Heart Rate (HR). For data comparison, Wilcoxon-Rank and Mann-Whitney tests were used for paired and unpaired data, respectively. RESULTS: Thirty-seven patients were included, with a median age of 63 years, 19 (51.4%) males, and 30 (81.1%) with an admission diagnosis of a clinical nature. No statistically significant hemodynamic changes were identified between the 0.5 and 2.0-second inspiratory pause times in the variables SBP (p=0.99), DBP (p=0.11), MAP (p=0.29), and HR (p=0.25). CONCLUSION: No hemodynamic variations were identified during respiratory mechanics measurements at 0.5 and 2.0-second inspiratory pauses.
Subject(s)
Respiratory Mechanics , Respiration, Artificial , Physical Therapy ModalitiesABSTRACT
BACKGROUND:Three-point mechanics is an effective method for ankle foot orthosis correction and prevention of various foot diseases.At present,the clinical application research on 3D printing ankle foot orthosis has been widespread;however,there are relatively few reports on numerical simulation and finite element analysis involving three-point mechanical correction.There is a lack of relevant biomechanical experimental verification. OBJECTIVE:Three-point force was loaded to analyze the composite model of ankle foot orthosis and foot by finite element method,observing the effect of foot correction with ankle foot orthosis under three-point force intervention,verifying the effectiveness of three-point force and the reliability of ankle foot orthosis. METHODS:A three-dimensional foot and ankle model of a healthy volunteer was constructed based on the medical image processing software Mimics.Rodin 4D and Geomagic reverse engineering software were used to optimize the models and design personalized ankle foot orthosis models.Solidworks software was utilized to turn the ankle model inside for 10° to simulate the foot varus disease.Static loading was carried out on the foot force application area by ANSYS software combined with the three-point mechanics principle.The deformation and stress changes of the foot and ankle tissues were analyzed when the human foot pain threshold was met.The display dynamics was used to further verify the effectiveness of the three-point force applied by the ankle foot orthosis. RESULTS AND CONCLUSION:(1)The personalized ankle foot orthosis designed in this paper had the effect of preventing and fixing foot and ankle varus.The ankle varus was 1.81 mm after being loaded with 1 N·m of varus when not wearing ankle foot orthosis,while it was only 0.44 mm after wearing ankle foot orthosis,the deformation rate was reduced by 75.7%,and the effect of preventing varus was significantly enhanced.(2)When only coronal correction was performed,the low calcaneal force would aggravate the varus angle of the front foot.After adjusting the correction force on the inside of the heel and above the medial malleolus,the varus angle of the front foot and the calcaneus position were improved;however,the medial phalangeal region of the foot still had different degrees of adduction and displacement,which would aggravate the adduction deformity of the patient's front foot.(3)The correction effect of the coronal plane and horizontal plane was better than that of the single coronal plane.There was no adduction and displacement of the medial phalanges of the front foot and the varus angle of the front foot decreased under the force(25,10,10,20 N)of the medial heel,the medial shaft of the first metatarsal,below the lateral malleolus and above the medial malleolus,and the valgus along the X-axis was corrected by 1.395 mm,the calcaneus valgus was corrected by 1.227 mm.The calcaneus varus angle was corrected from 10.21° to 7.25°,and the varus angle was improved by 28.9%.(4)The lateral plantar metatarsal load decreased,the medial plantar metatarsal load increased under the action of a two-plane three-point force,and the plantar bone stress was significantly improved after correction.Thus,the reliability of the three-point force principle was further verified.This study provides an important theoretical support for the implementation of ankle foot orthosis in the treatment of varus in clinical practice.
ABSTRACT
BACKGROUND:Current fracture simulation for cortical bone structure is mainly based on three numerical methods:the element instantaneous failure,continuum damage mechanics,and extended finite element methods.Although many studies focus on cortical bone fracture simulation,few have compared the differences in prediction accuracy using the three numerical methods. OBJECTIVE:To probe the accuracy and applicability of the three numerical methods in simulating cortical bone fracture under bending load. METHODS:The rat femur samples were primarily used to perform the three-point bending experiment.The rat femoral finite element models were established based on the micro-CT images of the femur samples and the three numerical methods were used to conduct the fracture simulations under three-point bending loads.The predicted fracture loads and fracture patterns were compared with the experimental data to determine the accuracy of various numerical methods in simulating cortical bone fracture. RESULTS AND CONCLUSION:(1)The discernible differences in the failure processes could be observed in the same finite element model under the three numerical simulations due to different element failure strategies.(2)The simulation results showed that the fracture simulation using the continuum damage mechanics method was in better agreement with the experimental results.(3)The numerical method that was suitable for simulating cortical bone fracture under bending load could be determined by comparing it with experimental results.The variations in the fracture parameters were observed,and the reason for the differences in the predicted results using different numerical methods was also discussed,which aided in determining the range of applicability of structural fracture simulation for each numerical method and then improving the simulation accuracy.
ABSTRACT
BACKGROUND:The development of tissues and organs in the body is a precise and autonomously regulated process,and the function of biomechanical factors at this macroscale is a basic scientific question worth exploring. OBJECTIVE:To investigate the roles of cell mechanics in morphogenesis of the lobular organoid of 3D Madin-Darby canine kidney(MDCK). METHODS:The formation of MDCK lobular organoid was visualized by fluorescence resonance energy transfer technology,and the influence of different cellular mechanical signals and extracellular matrix environment on lobular organoid formation and corresponding changes in extracellular regulated protein kinases(ERK)activity were examined. RESULTS AND CONCLUSION:(1)Inhibition of ERK signaling pathway can inhibit the growth of MDCK lobular organoid.(2)Inhibition of cell contractile force signals such as ROCK pathway and Myosin Ⅱ activity,reduced ERK activity and lobular organoid size.(3)Selective inhibition of calcium channels in plasma membrane and endoplasmic reticulum led to reduced ERK activity and lobular organoid growth.(4)By inhibiting the mechanically-sensitive receptor Piezo ion channel or integrin signal on the cell membrane,the lobular organoid became smaller or MDCK cells could not generate tissue morphology.(5)Extracellular matrix compositions affected the morphogenesis of lobular organoid.The addition of type I collagen in Matrigel changed the lobular organoid to elongated shape.(6)The results of this study preliminarily show that mechanical signals in the cells and extracellular matrix environment play an important role in culturing MDCK lobular organoid,and provides certain molecular mechanisms.
ABSTRACT
Objective To observe the effects of inverse ratio ventilation on respiratory mechanics and postoperative pulmonary com-plications in morbidly obese patients during laparoscopic sleeve gastrectomy Methods A total of 62 morbidly obese patients for a laparo-scopic sleeve gastrectomy were scheduled(18-65 years old,BMI≥35kg/m2 in combination with diabetes,hypertension,hyperlipemia,and other metabolic diseases,or BMI≥40kg/m2,ASA Ⅱ or Ⅲ).Patients were randomly assigned to two groups:inverse ratio ventilation group(IRV)and control group(PVG).Two groups were adjusted with an actual tidal volume(VT)of 7-8ml/kg,and respiratory rates of 12 breaths/min.In the IRV group,the ratio of I∶E was 2∶1;in the control group,the ratio of I∶E was 1∶2.We recorded the indexes of respiratory mechanics and the blood gas at the baseline(T0),5min after anesthesia(T,),15min after pneumoperitoneum(T2),30min after pneumoperitoneum(T3),60min after pneumoperitoneum(T4)and the end of surgery(T5),and the occurrence of pulmonary com-plications on day 1,day 2 after operation was observed,and the cumulative incidence of PPCs at 7 days was counted.Results Compared to the control group,the dynamic lung compliance(Cdyn),mean airway pressure(Pmean),positive end expiratory pressure(PEEP),and the PaO2 at T,-T5 of the inverse ventilation group were increased significantly(P<0.05),the Ppeak、Pplat at T2-T5 and dynamic lung compliance(VD/VT)at T3-T5 were decreased significantly(P<0.05),and no difference in the PaCO2 and PETCO2 in the two groups.Grade 1 pulmonary complications occurred in both groups,and there was no difference in the total occurrence of pulmonary com-plications at 7 days.Conclusion Inverse ventilation effectively may improve respiratory mechanics and oxygenation in morbidly obese pa-tients undergoing laparoscopic sleeve gastrectomy.
ABSTRACT
ABSTRACT Objective: To assess the rib cage expansion and respiratory rate in newborns using an abdominal stabilization band. Methods: The study included 32 newborns of both genders, with gestational age between 35 and 41 weeks. The abdominal stabilization band was used for 15 minutes between the xiphoid process and the anterosuperior iliac crest, with an abdominal contention 0.5cm smaller than the abdominal circumference. The rib cage expansion was evaluated by a breathing transducer (Pneumotrace II™) three minutes before using the band, during the use (15 minutes), and ten minutes after removing the band. The Shapiro-Wilk test verified data normality, and the Wilcoxon test compared the variables considering rib cage expansion and respiratory rate. Significance was set to p<0.05. Results: There was an increase in respiratory rate when comparing before and ten minutes after removing (p=0.008) the abdominal stabilization band, as well as when comparing during its use and ten minutes after its removal (p=0.001). There was also an increase in rib cage expansion when comparing before and during the use of the abdominal stabilization band (p=0.005). Conclusions: The use of the abdominal stabilization band promoted an increase in the rib cage expansion and respiratory rate in the assessed newborns and may be a viable option to improve the respiratory kinematics of this population.
RESUMO Objetivo: Avaliar a expansibilidade torácica e a frequência respiratória em recém-nascidos que fizeram uso de uma faixa de estabilização abdominal. Métodos: O estudo incluiu 32 recém-nascidos de ambos os sexos, com idade gestacional entre 35 e 41 semanas. A faixa de estabilização abdominal foi mantida por 15 minutos entre o processo xifoide e a espinha ilíaca anterossuperior, com contenção abdominal 0,5 cm menor do que a circunferência abdominal. A expansibilidade torácica foi avaliada por um transdutor piezoelétrico (Pneumotrace II™) 3 minutos antes do uso da faixa, durante 15 minutos, e 10 minutos após sua retirada. A normalidade das variáveis foi testada pelo teste de Shapiro-Wilk e a análise comparativa da expansibilidade torácica e da frequência respiratória foi realizada por meio do teste t pareado, considerando-se p<0,05. Resultados: Houve aumento da frequência respiratória quando comparados os tempos antes do uso da faixa e 10 minutos após a retirada (p=0,008), bem como quando comparados os tempos durante o uso e 10 minutos após a retirada da faixa (p=0,001). Houve aumento da expansibilidade torácica quando comparados os tempos antes e durante o uso da faixa (p=0,005). Conclusões: O uso da faixa de estabilização abdominal conferiu aumento da expansibilidade torácica e da frequência respiratória nos recém-nascidos estudados, podendo ser uma opção viável para a melhora da cinemática respiratória dessa população.
ABSTRACT
ABSTRACT Objective: To investigate the effect of bronchodilator on the respiratory mechanics and pulmonary function of children and adolescents with cystic fibrosis. Methods: Cross-sectional study on clinically stable children and adolescents with cystic fibrosis aged from six to 15 years. Participants underwent impulse oscillometry and spirometry evaluations before and 15 minutes after bronchodilator inhalation. The Kolmogorov-Smirnov test was applied to verify the sample distribution, and the Student's t-test and Wilcoxon test were used to compare the data before and after bronchodilator inhalation. Results: The study included 54 individuals with a mean age of 9.7±2.8 years. The analysis showed a statistically significant improvement in impulse oscillometry and spirometry parameters after bronchodilator inhalation. However, according to the American Thoracic Society (ATS) and European Respiratory Society (ERS) recommendations (2020 and 2021), this improvement was not sufficient to classify it as a bronchodilator response. Conclusions: The use of bronchodilator medication improved respiratory mechanics and pulmonary function parameters of children and adolescents with cystic fibrosis; however, most patients did not show bronchodilator response according to ATS/ERS recommendations.
RESUMO Objetivo: Investigar o efeito do broncodilatador na mecânica respiratória e função pulmonar de crianças e adolescentes com fibrose cística. Métodos: Estudo transversal em crianças e adolescentes com fibrose cística clinicamente estáveis, com idade entre seis e 15 anos. Os participantes realizaram avaliações por meio do sistema de oscilometria de impulso e espirometria antes e 15 minutos depois da inalação de broncodilatador. Foi aplicado o teste Kolmogorov-Smirnov para verificar a distribuição da amostra. Para comparar os dados antes e depois do broncodilatador foram utilizados os testes t de Student e Wilcoxon. Resultados: Participaram do estudo 54 indivíduos com média de idade de 9,7±2,8 anos. Houve melhora estatisticamente significativa nos parâmetros do oscilometria de impulso e espirometria após a inalação com broncodilatador. No entanto, de acordo com recomendações da American Thoracic Society (ATS) e European Respiratory Society (ERS) (2020 and 2021), essa melhora não foi suficiente para classificar como reposta broncodilatadora. Conclusões: O uso de medicamento broncodilatador melhorou a mecânica respiratória e função pulmonar de crianças e adolescentes com fibrose cística, no entanto a maioria da amostra não apresentou resposta ao broncodilatador de acordo com as recomendações da ATS/ERS.
ABSTRACT
El control neurológico de la tos o la neurofisiología de la tos, implica una serie de eventos complejos en el sistema nervioso que coordinan y desencadenan este reflejo protector pulmonar. Esta intrincada red de señales nerviosas y coordinación muscular se origina en los receptores de la tos, pasa por el centro de la tos en el bulbo raquídeo y finalmente activa los músculos necesarios para la adecuada eliminación del agente irritante. Este mecanismo involucra, la detección del estímulo por receptores especializados, transducción de señales que viajan a lo largo de fibras nerviosas aferentes hacia el sistema nervioso central, centro integrador a nivel del bulbo raquídeo, en el centro de la tos es donde se procesa las señales de los receptores y se coordina la respuesta. La integración de las señales y la respuesta radica en este centro de la tos y en la corteza cerebral quien regula y modula la tos. El control neuronal cortical de la tos implica la participación consciente y voluntaria de la corteza cerebral en la percepción, regulación y adaptación de la tos. La coordinación muscular requiere que la señal viaje por vías nerviosas eferentes motoras hacia los músculos involucrados, la contracción muscular se integra en una secuencia específica que desencadena las fases de la tos, inspiración máxima, compresión y expulsiva.
The neurological control of cough, or the neurophysiology of cough, involves a series of complex events in the nervous system that coordinate and trigger this lung protective reflex. This intricate network of nerve signals and muscle coordination originates from the cough receptors, passes through the cough center in the medulla oblongata, and finally activates the muscles necessary for proper elimination of the irritant. This mechanism involves the detection of the stimulus by specialized receptors, transduction of signals that travel along afferent nerve fibers towards the central nervous system, integrating center at the level of the medulla oblongata, in the cough center is where the signals are processed. receptors and the response is coordinated. The integration of signals and response resides in this cough center and in the cerebral cortex, which regulates and modulates coughing. Cortical neural control of cough involves the conscious and voluntary participation of the cerebral cortex in the perception, regulation, and adaptation of cough. Muscle coordination requires that the signal travel through efferent motor nerve pathways to the muscles involved; muscle contraction is integrated into a specific sequence that triggers the cough, maximum inspiration, compression, and expulsive phases.
ABSTRACT
Introdução: As desordens temporomandibulares (DTM) são um grupo de patologias com implicação direta no entendimento das comorbidades que podem envolver o sistema estomatognático. Tal grupo patológico apresenta característica multifatorial e, por isso, tem sido observada sua possível relação com acometimentos sistêmicos, como problemas articulares, psicológicos e, mais especificamente, os distúrbios respiratórios crônicos (DRC). Objetivo: Conduzir uma revisão sistemática da literatura, utilizando ferramentas com validação metodológica, a fim de fornecer dados relevantes acerca da relação entre as DTM e os DRC. Metodologia: Foram pesquisadas as bases de dados MedLine/PubMed, Colaboração Cochrane, Plataforma Capes, Biblioteca Virtual em Saúde, Scopus, Web of Science e SciElo, cobrindo o período de 2000 a 2021 e utilizando a combinação dos descritores "temporomandibular disorders and breathing and pain and mouth breathing". Resultados: Após a busca, que culminou em 698 documentos encontrados, apenas 12 foram selecionados a partir dos critérios de elegibilidade predefinidos. No tocante à relação entre a presença de DTM e o diagnóstico de apneia obstrutiva do sono (AOS), foram encontrados 45 indivíduos com essa associação, reportados por dois estudos. É relatado, também, acometimento por infecções de vias áreas superiores associadas às DTM (7.012 indivíduos reportados), além de diagnóstico de respiração bucal em pacientes que apresentavam o diagnóstico de DTM (30 indivíduos reportados). Conclusão: A associação entre desordens do sono relacionadas à respiração, respiração bucal, AOS e dor relacionada à ATM foi fundamentada por alguns autores, destacando a influência desses parâmetros na qualidade de vida dos indivíduos. Observou-se, ainda, que esses acometimentos podem influenciar a postura do indivíduo, a qual está diretamente relacionada com a sintomatologia das DTM, principalmente pela ocorrência de anteriorização da cabeça.
Introduction: Temporomandibular disorders (TMD) are a group of pathologies that directly affect the understanding of comorbidities that may appear in the stomatognathic system. This group of pathologies has a multifactorial characteristic and, therefore, it has been observed a possible relation with systemic disorders, such as joint and psychological problems and, more specifically, chronic respiratory disorders (CRD). Objective: To conduct a systematic review based on reliable scientific web tools, in order to provide relevant data on the relation between TMD and CRD. Methods: MedLine/PubMed, Collaboration Cochrane, Plataforma Capes, Biblioteca Virtual em Saúde, Scopus, Web of Science and SciElo were searched in order to retrieve scientific articles, covering the period from 2000 to 2021. It was used the following combination of the descriptors: "temporomandibular disorders and breathing and pain and mouth breathing". Results: After the search, which resulted in 698 documents found, 12 were selected based on the pre-defined eligibility criteria. Regarding the relationship between TMD and the diagnosis of obstructive sleep apnea (OSA), there were found 45 individuals with this association, reported by two studies. It was also reported the involvement of upper airway infections in TMD (7,012 individuals reported). Furthermore, the search found patients diagnosed with TMD which were also diagnosed with mouth breathing (30 individuals reported). Conclusion: Some of the authors supported the combination between sleep disorders related to breathing, sleep quality and TMJ related pain, highlighting the influence of these parameters on quality of life. It was also observed that, even though the breathing pattern and its influences are a subject that is rarely mentioned in relation to TMD, this involvement can influence the individual's posture, which is directly related to the TMD symptomatology, mainly due to the occurrence of forward head posture.
ABSTRACT
ABSTRACT Objectives: To evaluate the factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. Methods: This was a retrospective, multicenter cohort study that included 425 mechanically ventilated adult patients with COVID-19 admitted to 4 intensive care units. Clinical data comprising the SOFA score, laboratory data and mechanical characteristics of the respiratory system were collected in a standardized way immediately after the start of invasive mechanical ventilation. The risk factors for death were analyzed using Cox regression to estimate the risk ratios and their respective 95%CIs. Results: Body mass index (RR 1.17; 95%CI 1.11 - 1.20; p < 0.001), SOFA score (RR 1.39; 95%CI 1.31 - 1.49; p < 0.001) and driving pressure (RR 1.24; 95%CI 1.21 - 1.29; p < 0.001) were considered independent factors associated with mortality in mechanically ventilated patients with acute respiratory distress syndrome due to COVID-19. Respiratory system compliance (RR 0.92; 95%CI 0.90 - 0.93; p < 0.001) was associated with lower mortality. The comparative analysis of the survival curves indicated that patients with respiratory system compliance (< 30mL/cmH2O), a higher SOFA score (> 5 points) and higher driving pressure (> 14cmH2O) were more significantly associated with the outcome of death at 28 days and 60 days. Conclusion: Patients with a body mass index > 32kg/m2, respiratory system compliance < 30mL/cmH2O, driving pressure > 14cmH2O and SOFA score > 5.8 immediately after the initiation of invasive ventilatory support had worse outcomes, and independent risk factors were associated with higher mortality in this population.
RESUMO Objetivos: Avaliar os fatores associados à mortalidade em pacientes ventilados mecanicamente com síndrome o desconforto respiratório agudo por evolução da COVID-19. Métodos: Estudo de coorte retrospectiva, multicêntrica, que incluiu 425 pacientes adultos com COVID-19, ventilados mecanicamente, internados em 4 unidades de terapia intensiva. Foram coletados dados clínicos que compõem o escore SOFA, dados laboratoriais e características mecânicas do sistema respiratório, de forma padronizada, imediatamente após o início da ventilação mecânica invasiva. Os fatores de risco para óbito foram analisados por meio da regressão de Cox, para estimar as razões de risco, e seus respectivos IC95%. Resultados: Índice de massa corporal (RR de 1,17; IC95% 1,11 - 1,20; p < 0,001), escore SOFA (RR de 1,39; IC95% 1,31 - 1,49; p < 0,001) e driving pressure (RR de 1,24; IC95% 1,21 - 1,29; p < 0,001) foram considerados fatores independentes associados à mortalidade em pacientes ventilados mecanicamente com síndrome do desconforto respiratório agudo por COVID-19. Já a complacência do sistema respiratório (RR de 0,92; IC95% 0,90 - 0,93; p < 0,001) foi associada à menor mortalidade. A análise comparativa das curvas de sobrevida demonstra que pacientes com complacência do sistema respiratório (< 30mL/cmH2O), maior SOFA escore (> 5 pontos) e maior driving pressure (> 14cmH2O) apresentaram maior associação ao desfecho morte em 28 dias e 60 dias. Conclusão: Pacientes com índice de massa corporal > 32kg/m2, complacência do sistema respiratório < 30mL/cmH2O, driving pressure > 14cmH2O e SOFA escore > 5,8, imediatamente após o início da assistência ventilatória invasiva, apresentam piores desfechos no segmento, sendo fatores de risco independentes associados à maior mortalidade nessa população.
ABSTRACT
The mechanical microenvironment of cells plays a critical role in regulating the physiological function of cells. Cells in vivo are often subjected to a variety of mechanical forces from their mechanical micro-environment, such as shear, tension, and compression. At the same time, cells can adhere to the extracellular matrix (ECM) through adhesion molecules (such as integrin-ligand binding), and further sense the stiffness of the ECM. Cell mechanics mainly studies the properties and behavior of living cells under mechanical forces, and how they relate to cell functions. This review summarized the advances in cell mechanics in 2022, focusing on integrin-ligand interactions and the effects of matrix stiffness and mechanical forces on cell physiological behavior and morphogenesis.
ABSTRACT
Objective Aiming at the medial prosthetic loosening failure and lateral cartilage degeneration after unicompartmental knee arthroplasty ( UKA), the effects of prosthetic installation errors of joint line in UKA on knee contact mechanics and kinematics during different physiologic activities were studied using musculoskeletal multi-body dynamic method. Methods Taking the medial natural joint line as 0 mm error, six installation errors ofjoint line including ±2 mm, ±4 mm and ±6 mm were considered respectively, and seven musculoskeletal multi body dynamic models of medial UKA were established, to comparatively study the variations in knee contact mechanics and kinematics during walking and squatting. Results At 70% of walking gait cycle, compared with 0 mm error, the medial prosthetic contact force was increased by 127. 3% and the contact force of the lateral cartilage was decreased by 12. 0% under 2 mm elevation in joint line, the medial prosthetic contact force was close to 0 N, but the lateral cartilage contact forces were increased by 10. 1% under 4 mm reduction in joint line. The tibiofemoral total contact forces were increased by 19. 7% and decreased by 14. 2% under 2 mm elevation and 2 mm reduction in joint line, respectively. At the 100°knee flexion during squatting, compared with 0 mm error, the medial prosthetic contact force and the tibiofemoral total contact force increased by 31. 6% and 11. 1% under 2 mm elevation in joint line, and decreased by 24. 5% and 8. 5% under 2 mm reduction in joint line, respectively. The change in the lateral cartilage contact force was not marked. Moreover, at 70% of walking gait cycle, the varus angle decreased, the internal rotation and the anterior translation increased along with the elevation of joint line in UKA, while it was just the opposite along with the reduction of joint line in UKA. The trends of the varus valgus movement and anterior-posterior translation during squatting were consistent with those during swing phase of walking, but the trend of the internal-external rotation was opposite. Conclusions In order to reduce the risk of medial prosthetic loosening failure and lateral cartilage degeneration, it is recommended that the installation error of joint line in UKA should be controlled in the range of -2 mm to +2 mm. This study provides theoretical basis for UKA clinical failure caused by changes in joint line
ABSTRACT
Objective To propose a new multi-joint series venipuncture system, explore the mechanics and kinematics-based related control problems involved in needle insertion and needle picking during the puncture process, and verify feasibility of this system. Methods A puncture manipulator was built, and needle displacement control algorithm was proposed by combing with the puncture mechanics model. The the forward kinematics was calculated by using DH method, so as to obtain the tip coordinates. Then the inverse kinematics was calculated by using the geometric method. The forward and inverse processes were closely connected. The position error of the end coordinates before and after needle picking was compared by using the method of kinematics positive solution-inverse solution-re-positive solution. Finally, experimental verification and simulation were conducted by combining with the physical object. Results Through simulation and experiments, accuracy of the theoretical model was verified. The needle insertion algorithm could be used to achieve success with only one needle insertion, which provided theoretical basis for the control of robot arm. The position error before and after needle picking could be controlled within 1 mm from the end trajectory. The end needle tip of robot arm was almost kept fixed during the needle picking process. Therefore, this needle picking scheme was feasible and could basically verify that the needle picking action of robot arm met the accuracy and safety requirements. Conclusions The venipuncture manipulator truly simulates the needle insertion and needle picking action during the puncture process, and can safely and accurately realize the needle insertion and needle picking action with needle tip as the fixed point, indicating that it has certain clinical value.
ABSTRACT
Objective:To compare the effects of pressure controlled ventilation (PCV) and volume controlled ventilation (VCV) on respiratory mechanics, hemodynamics and biochemical metabolism in patients undergoing laparoscopic colorectal cancer surgery.Methods:The clinical data of 78 patients underwent laparoscopic colorectal cancer surgery from August 2019 to June 2020 in Inner Mongolia People′s Hospital were retrospectively analyzed. Among them, 39 patients were treated with PCV (PCV group), and 39 were treated with VCV (VCV group). The respiratory mechanics, hemodynamics and biochemical metabolism indexes 10 min after anesthesia induction (T 1), 10 min after pneumoperitoneum + low head and foot height (T 2), 60 min after pneumoperitoneum + low head and foot height (T 3) and 120 min after pneumoperitoneum + low head and foot height (T 4) were recorded. The respiratory mechanical indexes included mean airway pressure (P mean), airway peak pressure (P peak), pressure of end tidal carbon dioxide (P ETCO 2) and dynamic lung compliance (C Ldyn); hemodynamic indexes included mean arterial pressure (MAP) and heart rate; and biochemical metabolic indexes included base excess, serum natrium, serum potassium, negative logarithm of the hydrogen ion concentration (pH) and blood glucose. Results:The P mean, P peak and P ETCO 2 T 1 to T 4 in PCV group were significantly lower than those in VCV group, P mean: (7.12 ± 1.37) cmH 2O (1 cmH 2O = 0.098 kPa) vs. (8.54 ± 1.84) cmH 2O, (9.80 ± 2.26) cmH 2O vs. (11.63 ± 2.87) cmH 2O, (9.51 ± 2.17) cmH 2O vs. (11.72 ± 2.90) cmH 2O, (7.04 ± 1.34) cmH 2O vs. (8.65 ± 1.88) cmH 2O; P peak: (13.41 ± 2.68) cmH 2O vs. (15.06 ± 3.05) cmH 2O, (20.92 ± 3.11) cmH 2O vs. (23.45 ± 4.02) cmH 2O, (21.14 ± 3.50) cmH 2O vs. (23.69 ± 4.26) cmH 2O, (15.03 ± 2.74) cmH 2O vs. (16.45 ± 3.21) cmH 2O; P ETCO 2: (30.59 ± 1.57) mmHg (1 mmHg = 0.133 kPa) vs. (32.04 ± 2.11) mmHg, (35.02 ± 4.15) mmHg vs. (39.88 ± 4.76) mmHg, (35.90 ± 4.22) mmHg vs. (40.11 ± 4.87) mmHg, (34.33 ± 4.17) mmHg vs. (37.65 ± 2.69) mmHg; the C Ldyn was significantly higher than that in VCV group: (40.68 ± 3.98) ml/cmH 2O vs. (35.47 ± 2.56) ml/cmH 2O, (30.25 ± 3.21) ml/cmH 2O vs. (22.40 ± 2.75) ml/cmH 2O, (29.78 ± 3.06) ml/cmH 2O vs. (22.60 ± 2.81) ml/cmH 2O, (40.32 ± 4.25) ml/cmH 2O vs. (33.61 ± 2.81) ml/cmH 2O, and there were statistical differences ( P<0.01 or <0.05). The MAP and heart rate T 1 to T 4 in PCV group were significantly lower than those in VCV group, and there was statistical difference ( P<0.01 or <0.05). The base excess, serum natrium, serum potassium and pH T 1 to T 4 in PCV group were significantly higher than those in VCV group, while the blood glucose was significantly lower than that in VCV group, and there was statistical difference ( P<0.01 or <0.05). Conclusions:Compared with VCV, PCV can promote the recovery of respiratory mechanics index, stabilize hemodynamics and improve biochemical metabolism index in patients undergoing laparoscopic colorectal cancer surgery.
ABSTRACT
As an important intracellular genetic and regulatory center, the nucleus is not only a terminal effector of intracellular biochemical signals, but also has a significant impact on cell function and phenotype through direct or indirect regulation of nuclear mechanistic cues after the cell senses and responds to mechanical stimuli. The nucleus relies on chromatin-nuclear membrane-cytoskeleton infrastructure to couple signal transduction, and responds to these mechanical stimuli in the intracellular and extracellular physical microenvironments. Changes in the morphological structure of the nucleus are the most intuitive manifestation of this mechanical response cascades and are the basis for the direct response of the nucleus to mechanical stimuli. Based on such relationships of the nucleus with cell behavior and phenotype, abnormal nuclear morphological changes are widely used in clinical practice as disease diagnostic tools. This review article highlights the latest advances in how nuclear morphology responds and adapts to mechanical stimuli. Additionally, this article will shed light on the factors that mechanically regulate nuclear morphology as well as the tumor physio-pathological processes involved in nuclear morphology and the underlying mechanobiological mechanisms. It provides new insights into the mechanisms that nuclear mechanics regulates disease development and its use as a potential target for diagnosis and treatment.
Subject(s)
Cell Nucleus , Biophysics , Cytoskeleton , Phenotype , Signal TransductionABSTRACT
A novel structural dynamics test method and device were designed to test the biomechanical effects of dynamic axial loading on knee cartilage and meniscus. Firstly, the maximum acceleration signal-to-noise ratio of the experimental device was calculated by applying axial dynamic load to the experimental device under unloaded condition with different force hammers. Then the experimental samples were divided into non-specimen group (no specimen loaded), sham specimen group (loaded with polypropylene samples) and bovine knee joint specimen group (loaded with bovine knee joint samples) for testing. The test results show that the experimental device and method can provide stable axial dynamic load, and the experimental results have good repeatability. The final results confirm that the dynamic characteristics of experimental samples can be distinguished effectively by this device. The experimental method proposed in this study provides a new way to further study the biomechanical mechanism of knee joint structural response under axial dynamic load.
Subject(s)
Animals , Cattle , Biomechanical Phenomena , Knee Joint/physiology , Meniscus , Mechanical Phenomena , Weight-BearingABSTRACT
The clinical performance and failure issues are significantly influenced by prosthetic malposition in unicompartmental knee arthroplasty (UKA). Uncertainty exists about the impact of the prosthetic joint line height in UKA on tibial insert wear. In this study, we combined the UKA musculoskeletal multibody dynamics model, finite element model and wear model to investigate the effects of seven joint line height cases of fixed UKA implant on postoperative insert contact mechanics, cumulative sliding distance, linear wear depth and volumetric wear. As the elevation of the joint line height in UKA, the medial contact force and the joint anterior-posterior translation during swing phase were increased, and further the maximum von Mises stress, contact stress, linear wear depth, cumulative sliding distance, and the volumetric wear also were increased. Furthermore, the wear area of the insert gradually shifted from the middle region to the rear. Compared to 0 mm joint line height, the maximum linear wear depth and volumetric wear were decreased by 7.9% and 6.8% at -2 mm joint line height, and by 23.7% and 20.6% at -6 mm joint line height, the maximum linear wear depth and volumetric wear increased by 10.7% and 5.9% at +2 mm joint line height, and by 24.1% and 35.7% at +6 mm joint line height, respectively. UKA prosthetic joint line installation errors can significantly affect the wear life of the polyethylene inserted articular surfaces. Therefore, it is conservatively recommended that clinicians limit intraoperative UKA joint line height errors to -2-+2 mm.
Subject(s)
Humans , Arthroplasty, Replacement, Knee , Knee Joint , Knee Prosthesis , Mechanical Phenomena , Polyethylene , Osteoarthritis, Knee/surgery , Tibia/surgery , Biomechanical PhenomenaABSTRACT
Objective:To investigate the effect of penehyclidine hydrochloride on respiratory mechanics, arterial blood gas, and inflammatory factors in patients undergoing one-lung ventilation during thoracoscopic lobectomy.Methods:A total of 100 patients who underwent thoracoscopic lobectomy with one-lung ventilation at Jinhua Central Hospital from January to November 2022 were included in this randomized controlled study. They were divided into groups A and B ( n = 50 per group) using a random digital number table. Patients in group A received an intravenous infusion of 0.02 mg/kg of pentylenethyclidine hydrochloride 30 minutes before surgery, while patients in group B received an equal amount of 0.9% sodium chloride injection 30 minutes before surgery. Clinical indicators, respiratory mechanical indicators (peak airway pressure, lung compliance), arterial blood gas analysis indicators (blood oxygen saturation, arterial pressure of oxygen, oxygenation index), inflammatory factor levels (interleukin-6, interleukin-8, tumor necrosis factor level-α), and pulmonary complications were compared between the two groups. Results:There were no significant differences in mechanical ventilation time or total infusion volume between the two groups (both P > 0.05). At the end of surgery (T1) and 1 day after surgery (T2), peak airway pressure in group A was (17.43 ± 2.69) cm H 2O and (16.81 ± 2.28) cm H 2O (1 cm H 2O = 0.098 kPa), respectively, which were significantly lower than (19.23 ± 3.40) cm H 2O and (18.29 ± 2.06) cm H 2O in group B, respectively ( t = 2.94, 3.41, P = 0.002, < 0.001). At T1 and T2, lung compliance in group A was (34.67 ± 2.93) cm H 2O and (36.26 ± 3.11) cm H 2O, respectively, which were significantly higher than (32.23 ± 2.85) cm H 2O and (33.84 ± 2.87) cm H 2O in group B, respectively ( t = 4.22, 4.04, P = 0.000, < 0.001). At T1 and T2, blood oxygen saturation, arterial partial pressure of oxygen, and oxygenation index in group A were significantly higher than those in group B ( t = 8.12, 3.07, 10.47, 3.16, 3.81, 4.15, all P < 0.05). At T1 and T2, interleukin-6, interleukin-8, and tumor necrosis factor-α levels in group A were significantly lower than those in group B ( t = 11.67, 13.55, 9.60, 15.71, 6.13, 11.50, all P < 0.001). The incidence of complications in group A was 4% (2/50), which was significantly lower than 16% (8/50) in group B ( χ2 = 4.00, P < 0.05). Conclusion:Penehyclidine hydrochloride has a good effect on respiratory mechanics, arterial blood gas, and inflammatory factors in patients undergoing thoracoscopic lobectomy with one-lung ventilation and thereby deserves clinical promotion.
ABSTRACT
Objective To explore whether the single leg vertical jump height limb symmetry index(LSI)>90%can represent the normal lower limb biomechanics in athletes after anterior cruciate liga-ment reconstruction(ACLR)during jumping.Methods Forty-six athletes after ACLR were divided into a low symmetry group(jump height LSI<90%,n=23)and a high symmetry group(jump height LSI>90%,n=23)according to the symmetry of single leg vertical jump height,while 24 healthy counter-part athletes were chosen into the control group.The kinematic and kinetic characteristics were com-pared among the three groups.Results(1)At the take-off stage,compared with the control group,both sides of the low-symmetry group had higher peak hip flexion angle(P<0.05),but only the operat-ed side showed lower knee flexion moment(P=0.002),knee power(P=0.01),ankle power(P=0.045)and peak vertical ground reaction force(P=0.008).(2)At the take-off stage,there were no significant differences between the operated side of the high symmetry group and the control group in all measure-ments.However,compared with the healthy side,the operated side demonstrated lower knee flexion moment(P=0.001),knee power(P=0.002),total power of lower limb(P=0.001)and peak vertical ground reaction force(P=0.046).(3)During landing,compared with the control group,bilateral sides of the low symmetry group showed a higher peak hip flexion angle(P<0.05)and a lower peak flexion knee angle(P<0.05),but its operated side demonstrated lower peak ankle dorsiflexion angle(P=0.018),knee flexion moment(P=0.005),knee power(P=0.037),ankle power(P=0.002),total power of lower limb(P=0.042),and peak vertical ground reaction force(P=0.022).(4)During landing,there were no significant differences in all variables between the operated side of the high symmetry group and the control group.However,compared with its healthy side,the affected side of the high symmetry group demonstrated lower knee flexion moment(P=0.002),ankle dorsiflexion moment(P=0.003),knee power(P<0.001),total power of lower limbs(P=0.001),and peak vertical ground reaction force(P=0.023).Conclusion Despite achieving the single leg vertical jump height LSI>90%,athletes after ACLR still showed abnormal lower limb biomechanical characteristics during propulsion and landing.In addition,such abnormality is more obvious in athletes after ACLR with jump height LSI<90%.Therefore,sym-metry in jump height does not represent normal lower extremity biomechanics in athletes after ACLR.