Dynamic in vivo 3-dimensional moment arms of the individual quadriceps components

The purpose of this study was to provide the first in vivo 3-dimensional (3D) measures of knee extensor moment arms, measured during dynamic volitional activity. The hypothesis was that the vastus lateralis (VL) and vastus medialis (VM) have significant off-axis moment arms compared to the central quadriceps components. After obtaining informed consent, three 3D dynamic cine phase contrast (PC) MRI sets (x,y,z velocity and anatomic images) were acquired from 22 subjects during active knee flexion and extension. Using a sagittal-oblique and two coronal-oblique imaging planes, the origins and insertions of each quadriceps muscle were identified and tracked through each time frame by integrating the cine-PC velocity data. The moment arm (MA) and relative moment (RM, defined as the cross product of the tendon line-of-action and a line connecting the line-of-action with the patellar center of mass) were calculated for each quadriceps component. The tendencies of the VM and VL to produce patellar tilt were evenly balanced. Interestingly, the magnitude of RM-P_Spin for the VM and VL is approximately four times greater than the magnitude of RM-P_Tilt for the same muscles suggesting that patellar spin may play a more important role in patellofemoral kinematics than previously thought. Thus, a force imbalance that leads to excessive lateral tilt, such as VM weakness in patellofemoral pain syndrome, would produce excessive negative spin (positive spin: superior patellar pole rotates laterally) and to a much greater degree. This would explain the increased negative spin found in recent studies of patellar maltracking. Assessing the contribution of each quadriceps component in three dimensions provides a more complete understanding of muscle functionality.     

Estimates of Achilles tendon moment arm differ when axis of ankle rotation is derived from ankle motion

The plantarflexor moment arm of the Achilles tendon determines the mechanical advantage of the triceps surae and also indirectly affects muscle force generation by setting the amount of muscle-tendon shortening per unit of ankle joint rotation. The Achilles tendon moment arm may be determined geometrically from an axis (or center) of joint rotation and the line of action of the tendon force, but such moment arms may be sensitive to the location of the joint axis. Using motion analysis to track an ultrasound probe overlying the Achilles tendon along with markers on the shank and foot, we measured Achilles tendon moment arm during loaded and unloaded dynamic plantarflexion motions in 15 healthy subjects. Three representations of the axis or center of rotation of the ankle were considered: (1) a functional axis, defined by motions of the foot and shank; (2) a transmalleolar axis; and (3) a transmalleolar midpoint. Moment arms about the functional axis were larger than those found using the transmalleolar axis and transmalleolar midpoint (all p < 0.001). Moment arms computed with the functional axis increased with plantarflexion angle (all p < 0.001), and increased with loading in the most plantarflexed position (p < 0.001) but these patterns were not observed when either using a transmalleolar axis or transmalleolar midpoint. Functional axis moment arms were similar to those estimated previously using magnetic resonance imaging, suggesting that using a functional axis for ultrasound-based geometric estimates of Achilles tendon moment arm is an improvement over landmark-based methods.     

The human patellar tendon moment arm assessed in vivo using dual-energy X-ray absorptiometry

Accurate assessment of muscle–tendon forces in vivo requires knowledge of the muscle–tendon moment arm. Dual-energy X-ray absorptiometry (DXA) can produce 2D images suitable for visualising both tendon and bone, thereby potentially allowing the moment arm to be measured but there is currently no validated DXA method for this purpose. The aims of this study were (i) to compare in vivo measurements of the patellar tendon moment arm (d_PT) assessed from 2D DXA and magnetic resonance (MR) images and (ii) to compare the reliability of the two methods. Twelve healthy adults (mean±SD: 31.4±9.5 yr; 174.0±9.5 cm; 76.2±16.6 kg) underwent two DXA and two MR scans of the fully extended knee at rest. The tibiofemoral contact point (TFCP) was used as the centre of joint rotation in both techniques, and the d_PT was defined as the perpendicular distance from the patellar tendon axis to the TFCP. The d_PT was consistently longer when assessed via DXA compared to MRI (+3.79±1.25 mm or +9.78±3.31%; P<0.001). The test–retest reliability of the DXA [CV=2.13%; ICC=0.94; ratio limits of agreement (RLA)=1.01 (?/÷1.07)] and MR [(CV=2.27%; ICC=0.96; RLA=1.00 (?/÷1.07)] methods was very high and comparable between techniques. Moreover, the RLA between the mean DXA and MRI d_PT values [1.097 (?/÷1.061)] demonstrated very strong agreement between the two methods. In conclusion, highly reproducible d_PT measurements can be determined from DXA imaging with the knee fully extended at rest. This has implications for the calculation of patellar tendon forces in vivo where MR equipment is not available.     

Impact of ankle foot orthosis stiffness on Achilles tendon and gastrocnemius function during unimpaired gait

Ankle foot orthoses (AFOs) are designed to improve gait for individuals with neuromuscular conditions and have also been used to reduce energy costs of walking for unimpaired individuals. AFOs influence joint motion and metabolic cost, but how they impact muscle function remains unclear. This study investigated the impact of different stiffness AFOs on medial gastrocnemius muscle (MG) and Achilles tendon (AT) function during two walking speeds. We performed gait analyses for eight unimpaired individuals. Each individual walked at slow and very slow speeds with a 3D printed AFO with no resistance (free hinge condition) and four levels of ankle dorsiflexion stiffness: 0.25 Nm/°, 1 Nm/°, 2 Nm/°, and 3.7 Nm/°. Motion capture, ultrasound, and musculoskeletal modeling were used to quantify MG and AT lengths with each AFO condition. Increasing AFO stiffness increased peak AFO dorsiflexion moment with decreased peak knee extension and peak ankle dorsiflexion angles. Overall musculotendon length and peak AT length decreased, while peak MG length increased with increasing AFO stiffness. Peak MG activity, length, and velocity significantly decreased with slower walking speed. This study provides experimental evidence of the impact of AFO stiffness and walking speed on joint kinematics and musculotendon function. These methods can provide insight to improve AFO designs and optimize musculotendon function for rehabilitation, performance, or other goals.     

Phagocytosis by carp granulocytes; in vivo and in vitro observations

The phagocytic ability of carp (Cyprinus carpio L.) granulocytes was evaluated in vivo and in vitro. In suspensions of head kidney cells, neutrophil granulocytes incorporated both latex beads and coccidian merozoites. In intestinal tissues from carp with a Goussia carpelli infection, all granulocyte cell types (neutrophils and cells of the basophilic-eosinophilic complex) phagocytosed cell detritus and coccidian developmental stages, mainly merozoites.     

Bioimaging nitric oxide in activated macrophages in vitro and hepatic inflammation in vivo based on a copper–naphthoimidazol coordination compound

Nitric oxide (NO) serves as a messenger for cellular signaling and physiological reactions such as inflammatory responses in vivo. Fluorescent bioimaging of nitric oxide is a very useful tool in NO functional research. Although many encouraging results have been achieved in the field of NO fluorescent detection, there is rarely satisfying result in inflammatory NO imaging in vivo. Here we report that fluorescent 5′-chloro-2-(2′-hydroxyphenyl)-1H-naphtho[2,3-d]imidazol can coordinate with Cu(II) to form a non-fluorescent coordination compound, which is able to directly and quickly image NO in cellular system or in vivo inflammation system with a turn-on fluorescence, based on a redox action of Cu(II). It was used to image NO produced by inducible nitric oxide synthase (iNOS) in lipopolysaccharide (LPS) activated murine macrophages. More importantly, it could image the NO production in an acute severe hepatic injury (ASHI) model of BALB/c mice induced by integrative LPS and d-galactosamine (GalN) treatment. The results prove that the 5′-chloro-2-(2′-hydroxyphenyl)-1H-naphtho[2,3-d]imidazol coordinated with cupric ions can serve as an excellent NO bioimaging agent in different biological systems especially in inflammation related systems, and it may be valuable for diagnostic and pathological studies of NO related diseases.     

Suppressive effects of swainsonine on C6 glioma cell in vitro and in vivo

Swainsonine, an extract from Astragalus membranaceus, is known for its anti-cancer effects and could prevent metastases. In order to investigate the effects and mechanisms of swainsonine in C6 glioma cells, we carry out correlated experiments in vitro and in vivo. After treatment with swainsonine, the effective dose and IC₅₀ value of swainsonine in the C6 glioma cell were examined using the MTT assay. Cell cycle distribution and apoptotic rates were analyzed using FCM and [Ca²⁺]_i was measured by LSCM. Expressions of p16 and p53 protein were evaluated by immunocytochemical methods. Simultaneously, glioma-bearing rats were administered swainsonine at doses of 2, 4 and 8 mg/kg body wt. The inhibition rate was calculated and pathological sections were observed. The results indicated that the growth of C6 glioma cells is inhibited by swainsonine in vitro, with an IC₅₀ value within 24 h of 0.05 μg/ml. Increases in swainsonine correlate with S phase percentages of 11.3%, 11.6% and 12.4%, respectively. Moreover, the expression of apoptosis inhibiting p53 and p16 protein decreases gradually. Tumor weight in vivo decreased clearly and HE dyeing of tumor tissue showed gray, its texture was soft, with necrosis and hemorrhagic concentrated inward. Swainsonine could inhibit the proliferation of C6 glioma cells in vitro and the growth of C6 glioma in vivo. The mechanisms of swainsonine-induced apoptosis may relate with the expression of apoptosis-related genes and overloading-[Ca²⁺]_i-induced endoplasmic reticulum stress.     

Activity identification of chimeric anti-caspase-3 mRNA hammerhead ribozyme in vitro and in vivo

To study the expression activity of various vectors containing anti-caspase-3 ribozyme cassettesin vivo, and to further study the role of caspas-3 in the apoptotic pathway, we constructed anti-caspase-3 hammerhead ribozyme embedded into the human snRNA U6, and detected the activity of the ribozymein vitro andin vivo. Meanwhile we compared it with the self-cleaving hammerhead ribozymes that we previously studied, and with the general ribozyme, cloned into RNA polymerase II expression systems. The results showed that the three ribozymes, p1.5RZ107, pRZ107 and pU6RZ107 had the correct structure, and that they could cleave caspase-3 mRNA exactly to produce two fragments: 143nt/553nt. p1.5RZ107 has the highest cleavage efficiencyin vitro, almost 80%. However, the U6 chimeric ribozyme, pU6RZ107, has the highest cleavage activityin vivo, almost to 65%, though it has lower cleavage activityin vitro. The cleavage results demonstrated that the pU6RZ107, the U6 chimeric ribozyme, could more efficiently express and downregulate the level of caspase-3in vivo, and the ribozyme could provide an alternative approach to the research into the mechanism of apoptosis and human gene therapy also.     

金属硫蛋白与红细胞的相互作用

根据金属硫蛋白(MT)对标记在膜上的马来酰亚胺自旋标记物的ESR波谱的影响,研究了MT与红细胞膜的相互作用,发现不同种属的MT对膜构象的影响不同.体外实验表明,MT可以吸附在红细胞的表面,用CdCl₂诱导家兔,对血浆和红细胞溶血液中的MT组分进行色谱分离,发现血液中的MT主要存在于血细胞中.进而对血液MT的来源、分布及其重要的生物学意义进行了讨论.     

常规培养与缺氧条件下BCG菌体内外sRNA的表达检测

近期发现细菌的sRNA在菌体内和菌体外均具有一定的生物学功能.为研究结核分枝杆菌菌体内外sRNA的表达情况,通过分析卡介苗(Bacillus Calmette-Guerin Vaccine,BCG)菌体和外泌体RNA测序结果,采用RT-qPCR法检测常规培养与缺氧条件下BCG菌体内外sRNA相对表达量,分析菌体内外sR...     

黄芩苷对嗜水气单胞菌生物膜形成的影响及体内外的抑菌作用

[目的]探讨中药单体黄芩苷对嗜水气单胞菌在体内外生长及生物膜形成的影响.[方法]体外实验中,利用牛津杯法检测抑菌圈直径,结晶紫法检测生物膜的形成,通过泳动实验检测黄芩苷对嗜水气单胞菌运动性的影响,紫外吸收法检测细胞膜完整性,用透射电镜技术观察黄芩苷对细菌形态的影响.体内实验利用草鱼为对象检测黄芩苷对嗜水气单胞菌增殖的影...     

Antidepressant-like effect of Cecropia glazioui Sneth and its constituents – In vivo and in vitro characterization of the underlying mechanism

The present study aimed to characterize the antidepressant-like effect of a standardized aqueous extract (AE) of Cecropia glazioui Sneth and its purified fractions on in vivo (forced swimming test), ex vivo (hippocampal monoamines levels) and in vitro (serotonin, noradrenaline and dopamine uptake) tests, searching for the active principles and the underlying mechanisms of action. Treatment with AE, or with its butanolic fraction (BuF), the latter rich in catechins, procyanidins and flavonoids, reduced the immobility of rats in the forced swimming test indicating an antidepressant-like effect. Biochemical analysis of the hippocampal neurotransmitters in BuF-treated rats showed significant increase in monoamines levels. BuF and six of its purified constituents inhibited the uptake of [(3)H]-serotonin, [(3)H]-dopamine and [(3)H]-noradrenaline by synaptosomes of different brain regions. Catechin, catechin (4alpha-->8) ent-catechin (Procyanidin B3 isomer) and epicatechin (4beta-->8) epicatechin (Procyanidin B2) were the most active compounds. Comparatively, the uptake of [(3)H]-noradrenaline was the most affected. These results show that the antidepressant-like effect promoted by C. glazioui extract is most likely due to the blockade of the monoamines uptake in the CNS.     

Comparative in vivo forefoot kinematics of Homo sapiens and Pan paniscus

The human metatarsophalangeal joints play a key role in weight transmission and propulsion during bipedal gait, but at present, the identification of when a habitual, human-like metatarsi-fulcrimating mechanism first appeared in the fossil record is debated. Part of this debate can be attributed to the absence of certain detailed quantitative data distinguishing human and great ape forefoot form and function.The aim of this study is to quantitatively test previous observations that human metatarsophalangeal joints exhibit greater amounts of dorsal excursion (i.e., dorsiflexion) than those of Pan at the terminal stance phase of terrestrial locomotion. Video recordings were made in order to measure sagittal excursions of the medial metatarsophalangeal joints in habitually shod/unshod adult humans and adult bonobos (Pan paniscus). Results indicate that the human first and second metatarsophalangeal joints usually dorsiflex more than those of bonobos. When timing of maximum excursion of the first metatarsophalangeal joint is coupled with existing plantar pressure data, the unique role of the human forefoot as a key site of leverage and weight transmission is highlighted. These results support hypotheses that significant joint functional differences between great apes and humans during gait underlie taxonomic distinctions in trabecular bone architecture of the forefoot.     

Relationship between in vivo synchronicity of Plasmodium falciparum and allelic diversity

Plasmodium falciparum cells tend to grow in synchronicity during their cyclic intraerythrocytic development in vivo. Both host and parasite factors appear to be involved in this synchronization. We examined the link between mixed-allelic-family P. falciparum infection and synchronicity in parasitized red blood cells (PRBC) from symptomatic children.The distribution of rings and trophozoites in each PRBC sample was determined by standard microscopy. P. falciparum was genotyped by using a polymerase chain reaction (PCR) targeting three loci (merozoite surface proteins (MSP) 1 and 2, and 175-kD erythrocyte binding antigen (EBA), allowing us to distinguish parasite clones belonging to a single-allelic family (SAF) and those belonging to a mixed-allelic family (MAF). Parasite development was considered synchronous when peripheral blood contained at least 95% of rings or 95% of trophozoites.Parasite development was synchronous in 22 (21.2%) of the 104 children studied. Twenty (90.9%) of these infections were SAF and two (9.1%) were MAF. Rings and trophozoites predominated in respectively 12 (60%) and 8 (40%) SAF infections. Respectively 17.1% and 82.9% of the 82 asynchronous cases corresponded to SAF and MAF infection. Parasite synchronicity was therefore significantly related to single-allelic-family infection (p < 2 × 10^− 10).Twenty different MSP-1 alleles and thirteen different MSP-2 alleles were identified. Only three isolates from patients with SAF infection comprised a single allele or genotype, the other isolates harboring at least two alleles. The mean number of alleles or clones was respectively 3.0 and 10.0 in SAF and MAF infection. These results reflect the allelic diversity of the MSP loci and show that SAF infection can correspond to multiple parasite clones (or genotypes) but, in general, fewer than in MAF infection (p ≤ 0.0007).These results confirm the extensive polymorphism of P. falciparum vaccine candidates MSP-1 and -2 in southeastern Gabon and demonstrate that parasite synchronicity in vivo is strongly associated with single-allelic-family infection.     

低分子质量魔芋甘露寡糖的长期毒性与遗传毒性研究

魔芋甘露寡糖是一种具有肠道菌群调节作用的新型食品添加剂．本研究首次通过酶解与有机溶剂沉淀法制备了低分子质量的甘露寡糖(聚合度2～7),并对这类寡糖进行了长期毒性与遗传毒性评价．在长期毒性试验中,以大鼠为实验对象,分低、中、高(2.25,5.25,7.50 g/kg)药物剂量组和阴性对照组,连续灌胃给药90天．一般状况观察、生化指标、血液学指标、病理学等与对照组比较均无显著性差异,而大体解剖观察发现,部分大鼠的肝脏与肾脏形态发生变化,但这些变化均在正常范围内,且其他各项指标差异均无统计学意义．此外,一系列实验包括小鼠骨髓微核实验、Ames试验、小鼠精子畸变试验均未发现低分子质量甘露寡糖有明显的遗传毒性．试验结果提示,本研究方法获得的低分子质量甘露寡糖在本实验条件下未发现长期毒性与遗传毒性．     

蒲公英糖蛋白体内外抗氧化作用研究

为了探讨蒲公英糖蛋白(TMGP)体内外抗氧化活性,采用H2O2、Fe2+、DPPH.和总抗氧化能力反应体系,检测蒲公英糖蛋白体外抗氧化活性,并与VC进行比较;同时建立D-半乳糖所致衰老小鼠模型,测定并比较TMGP组与模型组的血清、肝脏和脑内MDA含量和SOD、CAT、GSH-Px活性。结果显示:(1)随着TMGP浓度增加,其Fe2+、H2O2和DPPH.清除率均有所增加,当TMGP浓度为1.72mg/mL时,对H2O2、Fe2+清除率分别达到76.8%和55%,接近VC水平;当TMGP浓度为1.5mg/mL时,对DPPH.的清除率达到77%,也与VC水平相当,说明TMGP具有一定的体外总体抗氧化能力。(2)将TMGP按低、中、高剂量分别给小白鼠灌胃,可显著增强小鼠体内血清、肝脏、脑组织中SOD、CAT、GSH-Px活性,降低MDA含量,从而提高衰老小白鼠体内的抗氧化能力。研究表明,TMGP具有明显的体内外抗氧化作用。