A preliminary investigation into the relationship between functional movement screen scores and athletic physical performance in female team sport athletes

There is little research investigating relationships between the Functional Movement Screen (FMS) and athletic performance in female athletes. This study analyzed the relationships between FMS (deep squat; hurdle step [HS]; in-line lunge [ILL]; shoulder mobility; active straight-leg raise [ASLR]; trunk stability push-up; rotary stability) scores, and performance tests (bilateral and unilateral sit-and-reach [flexibility]; 20-m sprint [linear speed]; 505 with turns from each leg; modified T-test with movement to left and right [change-of-direction speed]; bilateral and unilateral vertical and standing broad jumps; lateral jumps [leg power]). Nine healthy female recreational team sport athletes (age = 22.67 ± 5.12 years; height = 1.66 ± 0.05 m; body mass = 64.22 ± 4.44 kilograms) were screened in the FMS and completed the afore-mentioned tests. Percentage between-leg differences in unilateral sit-and-reach, 505 turns and the jumps, and difference between the T-test conditions, were also calculated. Spearman''s correlations (p ≤ 0.05) examined relationships between the FMS and performance tests. Stepwise multiple regressions (p ≤ 0.05) were conducted for the performance tests to determine FMS predictors. Unilateral sit-and-reach positive correlated with the left-leg ASLR (r = 0.704-0.725). However, higher-scoring HS, ILL, and ASLR related to poorer 505 and T-test performance (r = 0.722-0.829). A higher-scored left-leg ASLR related to a poorer unilateral vertical and standing broad jump, which were the only significant relationships for jump performance. Predictive data tended to confirm the correlations. The results suggest limitations in using the FMS to identify movement deficiencies that could negatively impact athletic performance in female team sport athletes.     

Differences in the BAL proteome after <Emphasis Type="Italic">Klebsiella pneumoniae</Emphasis> infection in wild type and SP-A-/- mice

Background  

Surfactant protein-A (SP-A) has been shown to play a variety of roles related to lung host defense function. Mice lacking SP-A are more susceptible to infection than wild type C57BL/6 mice. We studied bronchoalveolar lavage (BAL) protein expression in wild type and SP-A-/- mice infected with Klebsiella pneumoniae by 2D-DIGE.     

Studies on the mitogenic effect of transferrin by membrane signal transduction

One of the earliest events leading to cell activation and growth is the hydrolysis of inositol phospholipids producing various membrane signals induced by an interaction between growth factors or hormones with their respective receptors on the cell membrane [1].To demonstrate the mitogenic action of transferrin,our results show that an addition of transferrin to “serum-deprived” rat hepatoma cells produced a rapid but transient rise in inositol 1,4,5-trisphosphate(IP3) level,and at the same time,an increased intracellular Ca^2 activity and a cytoplasmic alkalinization were observed.These signal transductions further lend support to the mitogenic nature of transferrin.In addition,a possible link between the receptor-mediated endocytosis of transferrin with the generation of intracellular signals is discussed herewith.     

Prevention of recurrence and prolonged survival in primary central nervous system lymphoma (PCNSL) patients treated with adjuvant high-dose methylprednisolone

Five patients at risk for primary central nervous system lymphoma (PCNSL) recurrence were treated with high-dose methylprednisolone, (HDMP) to prevent ‘trafficking’ of malignant lymphocytes into the central nervous system (CNS). HDMP was chosen because of its ability to stabilize the ‘blood brain barrier (BBB)’. Three men with newly diagnosed PCNSL, ages 62, 76 and 78 y, whose survival was projected to be 6.6 months, began treatment after achieving complete response (CR) to initial radiation therapy alone and survived 27, 37 and 59 months after treatment. In none was death from recurrent disease in CNS but one patient did die of systemic non-Hodgkin’s lymphoma (NHL) five years after PCNSL diagnosis. A 20 y old man was treated with HDMP after successful combined modality therapy and is alive 75+months after initial diagnosis without evidence of disease recurrence. A 34 y old man relapsed after combined modality initial treatment and failed to respond to HDMP when treatment was begun after unsuccessful salvage therapy; he died of disease 12 months after initial diagnosis. There were no treatment complications. The promising results in this pilot study from the basis for a North Central Cancer Treatment Group (NCCTG) 96-73-51, a Phase 2 clinical trial of brain radiotherapy and HDMP for PCNSL patients 70 y of age and older, a group of patients at high risk for toxicity from intensive combined modality therapy.     

Housing Conditions Modulate the Severity of Mycoplasma pulmonis Infection in Mice Deficient in Class A Scavenger Receptor

Mycoplasmosis is a frequent causative microbial agent of community-acquired pneumonia and has been linked to exacerbation of chronic obstructive pulmonary disease. The macrophage class A scavenger receptor (SRA) facilitates the clearance of noxious particles, oxidants, and infectious organisms by alveolar macrophages. We examined wildtype and SRA^−/− mice, housed in either individually ventilated or static filter-top cages that were cycled with fresh bedding every 14 d, as a model of gene–environment interaction on the outcome of pulmonary Mycoplasma pulmonis infection. Intracage NH₃ gas measurements were recorded daily prior to infection. Mice were intranasally infected with 1 × 10⁷ cfu M. pulmonis UAB CT and evaluated at 3, 7, and 14 d after inoculation. Wildtype mice cleared 99.5% of pulmonary M. pulmonis by 3 d after infection but remained chronically infected through the study. SRA^−/− mice were chronically infected with 40-fold higher mycoplasma numbers than were wildtype mice. M. pulmonis caused a chronic mixed inflammatory response that was accompanied with high levels of IL1β, KC, MCP1, and TNFα in SRA^−/− mice, whereas pulmonary inflammation in WT mice was represented by a monocytosis with elevation of IL1β. Housing had a prominent influence on the severity and persistence of mycoplasmosis in SRA^−/− mice. SRA^-/- mice housed in static cages had an improved recovery and significant changes in surfactant proteins SPA and SPD compared with baseline levels. These results indicate that SRA is required to prevent chronic mycoplasma infection of the lung. Furthermore, environmental conditions may exacerbate chronic inflammation in M. pulmonis-infected SRA^−/− mice.Abbreviations: BAL, bronchoalveolar lavage; COPD, chronic obstructive pulmonary disease; KC, keratinocyte-derived chemokine (CXCL1); MCP1, monocyte chemotactic protein 1; SPA, surfactant protein A (SFTPA1); SPB, surfactant protein B (SFTPB); SPD, surfactant protein D (SFTPD); SRA, class A scavenger receptor (MSR1); WT, wildtypeThere are numerous options for the housing and husbandry of rodents in the laboratory setting. Various available choices in caging, bedding material, and cage-change frequency have the potential to effect physiologic values and thus experimental outcomes.^20,108 In many facilities, current practices involve performing cage changes every 1 to 2 wk, with some facilities exploring the possibility of extending these practices to every 4 wk.⁹⁷ Cage-change frequency practices are established at various institutions after consideration of several variables that affect animal health, welfare, and cost. Ideally, an appropriate sanitation program provides clean and dry bedding, adequate air quality, and clean cage surfaces and accessories.⁴⁴ When establishing performance standards for a sanitation program that are different from those which are recommended in the Guide for the Care and Use of Animals in Research,⁴⁴ microenvironmental conditions, including intracage humidity, temperature, animal behavior and appearance, microbiologic loads, and levels of pollutants such as CO₂ and NH₃, should be evaluated and verified. Although there are currently no established NH₃ exposure limits for laboratory animals, the human occupational exposure limit of 25 ppm as an 8-h time-weighted average, established by the National Institute for Occupational Safety and Health, is often referenced as a guideline for animals.⁹⁵ Multiple factors, such as animal cage density, sex, age, bedding type, reusable compared with disposable caging, static caging compared with IVC, and cage-change frequency, influence intracage and ambient NH₃ levels.^82,83,97 Only limited information is available that addresses the effect of natural intracage NH₃ levels on respiratory function in experimental rodents and whether exposure to high NH₃ levels under current standard practices affects the results of respiratory disease research.Ammonia is an alkaline, corrosive, and irritant gas that is very water soluble. It reacts with the moisture of the mucous membranes of the eyes, mouth, and respiratory tract to form ammonium hydroxide in an exothermic reaction, resulting in thermal and chemical burns.⁶⁸ Clinical symptoms in humans exposed to high levels of NH₃ include eye irritation, headaches, and multiple acute and chronic respiratory symptoms, such as irritation of the nose, pharynx, and sinuses, and in severe cases, development of bronchitis and hyper-reactive airway disease.⁷⁹ Animals are similarly susceptible to NH₃-induced pulmonary disease.^23,31,48Mice exposed to naturally increasing levels of intracage NH₃ can develop lesions in the rostral nasal cavity, with decreasing severity of the lesions moving caudally into the nasopharynx, and no lesions in the lung.⁹⁷ However, dust is another common environmental pollutant that is often present in animal settings. Dust particles readily absorb NH₃, which then serve as a source of NH₃ deposition into the lower respiratory tract. Dust particulate can range from large (300 µm), minimally respirable particles to very fine (< 50 µm) particulate matter, which can settle deep within the alveoli.^10,102 The mucociliary system of the respiratory tract is the first line of defense against inspired noxious stimuli and pathogens. Exposure of the ciliated respiratory epithelium to the damaging effects of NH₃ are known to cause decreased mucociliary beating.⁵⁶ Disruption of the respiratory mucociliary escalator initiated by NH₃ exposure can then promote establishment of chronic infections and inflammation of the airway mucosa.^11,87 Therefore, NH₃ potentially can cause pathophysiologic changes of the lung in the absence of histopathologic lesions.Our primary goal was to analyze the effect of 2 housing modalities, which result in different intracage NH₃ concentrations, on mice that were challenged with a respiratory pathogen. Mycoplasma pulmonis was chosen as a model because it is a well-established model in rodents which causes chronic mycoplasmosis and reproduces the features of M. pneumoniae in humans.^22,41 M. pneumoniae infection is a frequent and contagious etiology of community-acquired pneumonia causing tracheobronchitis, sneezing, cough, and inflammation of the respiratory tract.^8,12,47,63 Moreover, atypical and difficult-to-detect respiratory pathogens such as Chlamydophila pneumoniae and Mycoplasma pneumoniae that can establish chronic asymptomatic infections may contribute to both the development and exacerbation of COPD^{26,45,57,58,62,63,66,72,96,103} and asthma.^8,51,65 Infection with M. pulmonis in rodents causes rhinitis, otitis media, tracheitis, and pneumonia, which can be exacerbated by housing conditions and genetic background.^14,32,85 The mechanism of pathogenicity of mycoplasmas continues to be an area of interest in the research.The innate host factors protecting against pulmonary mycoplasmosis include the secreted surfactant protein opsonins SPA and SPD, surfactant phospholipids, and the molecular pattern-recognition receptor TLR2.^15,16,54,74 Therefore, compared with their wildtype (WT) counterparts, SPA-deficient mice infected with either M. pulmonis or M. pneumoniae develop more severe inflammation and have decreased capacity to clear these infections from the lungs.⁴³ In addition, TLR2-deficient mice exhibit decreased clearance and increased inflammation in response to mycoplasma infection.^60,104Second, we wanted to study the effects of SRA deficiency in mycoplasmosis. The class A scavenger receptor (SRA) modulates inflammatory responses and mediates the clearance of airborne oxidants, particulates, and respiratory pathogens.^{3,17,18,49,88,101} Inhibition of SRA expression in alveolar macrophages in an elastase–LPS model of COPD was associated with decreased clearance of Haemophilus influenzae.³³ Lack of SRA similarly impaired alveolar macrophage-mediated clearance of Streptococcus pneumoniae,⁵ environmental particles,⁶ and ozone-oxidized lipids¹⁸ by alveolar macrophages. Absence of SRA also enhanced hyperoxia-induced lung injury⁴⁹ and exacerbated inflammation in response to Staphylococcus aureus infection.⁸⁸ SRA appears to have antiinflammatory properties with the capacity to modify macrophage phenotype and suppress polarization toward the M1 alternative macrophage activation state.¹³ The SRA gene (MSR1) is polymorphic in both mice and humans.^19,29,105 Genetic association studies in humans, however, showed that subjects with truncations or point mutations in MSR1 have significantly increased risk for the development of pulmonary diseases such as COPD^33,38,71,94 and asthma.⁵ Our understanding of the immune factors that contribute to mycoplasmosis is far from complete.In the present study, by investigating the role of SRA in mycoplasmosis jointly with the effects of housing, we demonstrated that genetic and environmental factors both serve as critical players in disease progression. We show that SRA-deficient mice are susceptible to chronic colonization with M. pulmonis and development of chronic mycoplasma-induced bronchopneumonia characterized by persistent multicellular inflammation. Furthermore, we show that housing conditions influence the effect of SRA deficiency on the severity of mycoplasmosis. Taken together, these results indicate that lack of SRA function impairs host protection against both infectious and environmental insults.     

XcisClique: analysis of regulatory bicliques

Background  

Modeling of cis-elements or regulatory motifs in promoter (upstream) regions of genes is a challenging computational problem. In this work, set of regulatory motifs simultaneously present in the promoters of a set of genes is modeled as a biclique in a suitably defined bipartite graph. A biologically meaningful co-occurrence of multiple cis-elements in a gene promoter is assessed by the combined analysis of genomic and gene expression data. Greater statistical significance is associated with a set of genes that shares a common set of regulatory motifs, while simultaneously exhibiting highly correlated gene expression under given experimental conditions.     

Efficacy of a progressive walking program and glucosamine sulphate supplementation on osteoarthritic symptoms of the hip and knee: a feasibility trial

Introduction  

Management of osteoarthritis (OA) includes the use of non-pharmacological and pharmacological therapies. Although walking is commonly recommended for reducing pain and increasing physical function in people with OA, glucosamine sulphate has also been used to alleviate pain and slow the progression of OA. This study evaluated the effects of a progressive walking program and glucosamine sulphate intake on OA symptoms and physical activity participation in people with mild to moderate hip or knee OA.     

Impact of ozone exposure on the phagocytic activity of human surfactant protein A (SP-A) and SP-A variants

Surfactant protein A (SP-A) enhances phagocytosis of Pseudomonas aeruginosa. SP-A1 and SP-A2 encode human (h) SP-A; SP-A2 products enhance phagocytosis more than SP-A1. Oxidation can affect SP-A function. We hypothesized that in vivo and in vitro ozone-induced oxidation of SP-A (as assessed by its carbonylation level) negatively affects its function in phagocytosis (as assessed by bacteria cell association). To test this, we used P. aeruginosa, rat alveolar macrophages (AMs), hSP-As with varying levels of in vivo (natural) oxidation, and ozone-exposed SP-A2 (1A, 1A0) and SP-A1 (6A2, 6A4) variants. SP-A oxidation levels (carbonylation) were measured; AMs were incubated with bacteria in the presence of SP-A, and the phagocytic index was calculated. We found: 1) the phagocytic activity of hSP-A is reduced with increasing levels of in vivo SP-A carbonylation; 2) in vitro ozone exposure of hSP-A decreases its function in a dose-dependent manner as well as its ability to enhance phagocytosis of either gram-negative or gram-positive bacteria; 3) the activity of both SP-A1 and SP-A2 decreases in response to in vitro ozone exposure of proteins with SP-A2 being affected more than SP-A1. We conclude that both in vivo and in vitro oxidative modifications of SP-A by carbonylation reduce its ability to enhance phagocytosis of bacteria and that the activity of SP-A2 is affected more by in vitro ozone-induced oxidation. We speculate that functional differences between SP-A1 and SP-A2 exist in vivo and that the redox status of the lung microenvironment differentially affects function of SP-A1 and SP-A2.     

Comparative Estimation of Genetic Diversity in Population Studies using Molecular Sampling and Traditional Sampling Methods

Entomopathogenic nematodes (EPN) are efficient biological pest control agents. Population genetics studies on EPN are seldom known. Therefore, it is of interest to evaluate the significance of molecular sampling method (MSM) for accuracy, time needed, and cost effectiveness over traditional sampling method (TSM). The study was conducted at the Mohican Hills golf course at the state of Ohio where the EPN H. bacteriophora has been monitored for 18 years. The nematode population occupies an area of approximately 3700 m² with density range from 0.25-2 per gram soil. Genetic diversity of EPN was studied by molecular sampling method (MSM) and traditional sampling method (TSM) using the mitochondrial gene pcox1. The MSM picked 88% in compared to TSM with only 30% of sequenced cox 1 gene. All studied genetic polymorphism measures (sequence and haplotype) showed high levels of genetic diversity of MSM over TSM. MSM minimizes the chance of mitochondrial genes amplification from non target organisms (insect or other contaminating microorganisms). Moreover, it allows the sampling of more individuals with a reliable and credible representative sample size. Thus, we show that MSM supersedes TSM in labour intensity, time consumption and requirement of no special experience and efficiency.