Co-administration of Salvia miltiorrhiza and verapamil inhibits detrimental effects of torsion/detorsion on testicular tissue in rats

Testicular torsion/detorsion is one of the important emergencies that requires fast surgical intervention. This study aimed to investigate the effects of Salvia miltiorrhiza hydroalcoholic extract combined with verapamil on testicular ischaemia/reperfusion damage in Wistar albino rats. All animals were distributed in 3 groups (n = 8), including the sham-operated group, torsion/detorsion (TD) group and torsion/detorsion + pretreatment with 200 mg/kg Salvia miltiorrhiza extract combined with 0.3 mg/kg verapamil (SMV) group. Oxidative stress biomarkers (MDA, GPx, CAT and TAC) both in plasma and testicular tissue, sperm parameters (motility, vitality, concentration and morphology) and histopathological parameters (MSTD, GECT, Johnson's score, Cosentino's score and testicular cell thickness) were assessed in all groups. Ischaemia/reperfusion significantly increased MDA and decreased GPx, CAT and TAC levels (p < .05). Pretreatment with SMV significantly increased GPx, CAT and TAC levels (p < .05). SMV group increased progressive sperm motility and vitality and reduced non-progressive motility of spermatozoon (p < .05). Testicular torsion significantly decreased all histopathological parameters compared to the sham group (p < .05). SMV pretreatment remarkably increased MSTD, GECT and Cosentino's score in comparison with the TD group (p < .05). A combination of Salvia miltiorrhiza with verapamil could reduce damages triggered by testicular torsion detorsion and improve sperm functionality parameters and oxidative stress defence systems.     

Effects of cartilage impact with and without fracture on chondrocyte viability and the release of inflammatory markers

Post‐traumatic arthritis (PTA) frequently develops after intra‐articular fracture of weight bearing joints. Loss of cartilage viability and post‐injury inflammation have both been implicated as possible contributing factors to PTA progression. To further investigate chondrocyte response to impact and fracture, we developed a blunt impact model applying 70%, 80%, or 90% surface‐to‐surface compressive strain with or without induction of an articular fracture in a cartilage explant model. Following mechanical loading, chondrocyte viability, and apoptosis were assessed. Culture media were evaluated for the release of double‐stranded DNA (dsDNA) and immunostimulatory activity via nuclear factor kappa B (NF‐κB) activity in Toll‐like receptor (TLR) ‐expressing Ramos‐Blue reporter cells. High compressive strains, with or without articular fracture, resulted in significantly reduced chondrocyte viability. Blunt impact at 70% strain induced a loss in viability over time through a combination of apoptosis and necrosis, whereas blunt impact above 80% strain caused predominantly necrosis. In the fracture model, a high level of primarily necrotic chondrocyte death occurred along the fracture edges. At sites away from the fracture, viability was not significantly different than controls. Interestingly, both dsDNA release and NF‐κB activity in Ramos‐Blue cells increased with blunt impact, but was only significantly increased in the media from fractured cores. This study indicates that the mechanism of trauma determines the type of chondrocyte death and the potential for post‐injury inflammation. (c) 2013 Orthopaedic Research Society Published by Wiley Periodicals, Inc. J Orthop Res 31:1283–1292, 2013     

Prevalence of haptic feedback in robot-mediated surgery: a systematic review of literature

With the successful uptake and inclusion of robotic systems in minimally invasive surgery and with the increasing application of robotic surgery (RS) in numerous surgical specialities worldwide, there is now a need to develop and enhance the technology further. One such improvement is the implementation and amalgamation of haptic feedback technology into RS which will permit the operating surgeon on the console to receive haptic information on the type of tissue being operated on. The main advantage of using this is to allow the operating surgeon to feel and control the amount of force applied to different tissues during surgery thus minimising the risk of tissue damage due to both the direct and indirect effects of excessive tissue force or tension being applied during RS. We performed a two-rater systematic review to identify the latest developments and potential avenues of improving technology in the application and implementation of haptic feedback technology to the operating surgeon on the console during RS. This review provides a summary of technological enhancements in RS, considering different stages of work, from proof of concept to cadaver tissue testing, surgery in animals, and finally real implementation in surgical practice. We identify that at the time of this review, while there is a unanimous agreement regarding need for haptic and tactile feedback, there are no solutions or products available that address this need. There is a scope and need for new developments in haptic augmentation for robot-mediated surgery with the aim of improving patient care and robotic surgical technology further.     

Cartilage tissue engineering using differentiated and purified induced pluripotent stem cells

The development of regenerative therapies for cartilage injury has been greatly aided by recent advances in stem cell biology. Induced pluripotent stem cells (iPSCs) have the potential to provide an abundant cell source for tissue engineering, as well as generating patient-matched in vitro models to study genetic and environmental factors in cartilage repair and osteoarthritis. However, both cell therapy and modeling approaches require a purified and uniformly differentiated cell population to predictably recapitulate the physiological characteristics of cartilage. Here, iPSCs derived from adult mouse fibroblasts were chondrogenically differentiated and purified by type II collagen (Col2)-driven green fluorescent protein (GFP) expression. Col2 and aggrecan gene expression levels were significantly up-regulated in GFP+ cells compared with GFP− cells and decreased with monolayer expansion. An in vitro cartilage defect model was used to demonstrate integrative repair by GFP+ cells seeded in agarose, supporting their potential use in cartilage therapies. In chondrogenic pellet culture, cells synthesized cartilage-specific matrix as indicated by high levels of glycosaminoglycans and type II collagen and low levels of type I and type X collagen. The feasibility of cell expansion after initial differentiation was illustrated by homogenous matrix deposition in pellets from twice-passaged GFP+ cells. Finally, atomic force microscopy analysis showed increased microscale elastic moduli associated with collagen alignment at the periphery of pellets, mimicking zonal variation in native cartilage. This study demonstrates the potential use of iPSCs for cartilage defect repair and for creating tissue models of cartilage that can be matched to specific genetic backgrounds.     

Westernization of the Filipino population resident in Rome: obesity, diabetes and hypertension

BACKGROUND: Aims of the present study were to examine the anthropometrical and metabolic characteristics of the Filipino population migrant to the Southern European city of Rome, Italy. METHODS: A cross-sectional study was carried out in the city of Rome. Three hundred thirty-five Filipinos (95 M/240 F, mean age: 44.0+/-9.8 years, mean residence in Italy: 12.9+/-6.3 years) were studied. Data were collected by standardized questionnaires; anthropometrical parameters, arterial pressure, and fasting capillary blood glucose (FCG) were measured. RESULTS: Abdominal obesity was found in 52.5%, and BMI >or= 25 kg/m(2) in 44.5% of subjects. History of type 2 diabetes mellitus (T2DM) and hypertension were reported by 6.0 and 9.0% of subjects, respectively. Impaired fasting glucose was found in 13.1%, and FCG >or= 110 mg/dl in 18.5% of subjects. Altered systolic and/or diastolic blood pressure was found in 34.3% of subjects. About three-fourths of subjects were unaware of being diabetic and/or hypertensive. Years of Italy residence showed a direct significant correlation with the degree of changes in alimentary behaviours (rho=0.18, p=0.001), and with weight gain (rho=0.27, p<0.001). Multivariate analysis showed only age and waist circumference to be associated with both diabetes and hypertension. CONCLUSIONS: In the present study, the first to examine the metabolic disorders in a migrant Filipino population resident in Rome, a high prevalence of obesity, diabetes, and hypertension was found. The alarming results emerging from this study should be seriously considered by public health practitioners and decision makers, and made known to the Filipinos resident in Europe.     

Rare recombination events generate sequence diversity among balancer chromosomes in Drosophila melanogaster

Multiply inverted balancer chromosomes that suppress exchange with their homologs are an essential part of the Drosophila melanogaster genetic toolkit. Despite their widespread use, the organization of balancer chromosomes has not been characterized at the molecular level, and the degree of sequence variation among copies of balancer chromosomes is unknown. To map inversion breakpoints and study potential diversity in descendants of a structurally identical balancer chromosome, we sequenced a panel of laboratory stocks containing the most widely used X chromosome balancer, First Multiple 7 (FM7). We mapped the locations of FM7 breakpoints to precise euchromatic coordinates and identified the flanking sequence of breakpoints in heterochromatic regions. Analysis of SNP variation revealed megabase-scale blocks of sequence divergence among currently used FM7 stocks. We present evidence that this divergence arose through rare double-crossover events that replaced a female-sterile allele of the singed gene (sn^X2) on FM7c with a sequence from balanced chromosomes. We propose that although double-crossover events are rare in individual crosses, many FM7c chromosomes in the Bloomington Drosophila Stock Center have lost sn^X2 by this mechanism on a historical timescale. Finally, we characterize the original allele of the Bar gene (B¹) that is carried on FM7, and validate the hypothesis that the origin and subsequent reversion of the B¹ duplication are mediated by unequal exchange. Our results reject a simple nonrecombining, clonal mode for the laboratory evolution of balancer chromosomes and have implications for how balancer chromosomes should be used in the design and interpretation of genetic experiments in Drosophila.Balancer chromosomes are genetically engineered chromosomes that suppress crossing over with their homologs and are used for many purposes in genetics, including construction of complex genotypes, maintenance of stocks, and estimation of mutation rates. Balancers typically carry multiple inversions that suppress genetic exchange or result in the formation of abnormal meiotic products if crossing over does occur (Fig. 1A); for example, single crossovers inside the inverted segment create acentric or dicentric chromosomes that will fail to segregate properly during meiosis or large deletions or duplications that will likely result in inviable gametes (1, 2). Balancers also often carry recessive lethal or sterile mutations to prevent their propagation as homozygotes as well as dominant markers for easy identification. First developed for use in Drosophila melanogaster, balancer chromosomes remain some of the most powerful tools for genetic analysis in this species (3).Open in a separate windowFig. 1.Consequences of a single or double crossover between a WT X chromosome and an X chromosome carrying a single inversion, In(1)dl-49. Euchromatin is shown in blue, heterochromatin is shown in gray, and centromeres are depicted as circles. Thin white lines mark locations of inversion breakpoints, and yellow crosses/thin lines mark locations of crossover events. (A) A single crossover event within the inverted segment results in the formation of chromosomes with deletions and zero (acentric) centromeres or duplications and two (dicentric) centromeres, neither of which will segregate properly during meiosis. (B) A double crossover within an inverted segment results in intact chromosomes with one centromere that will segregate properly during meiosis.Despite their widespread use, very little is known about the organization of Drosophila balancer chromosomes at the molecular level. Since their original syntheses decades ago, balancers have undergone many manipulations, including the addition or removal of genetic markers. Moreover, rare recombination events can cause spontaneous loss of deleterious alleles on chromosomes kept over balancers in stock, as well as loss of marker alleles on balancer chromosomes themselves (3). Likewise, recent evidence has shown that sequence variants can be exchanged between balancer chromosomes and their wild type (WT) homologs via gene conversion during stock construction or maintenance (4, 5). Thus, substantial variation may exist among structurally identical balancer chromosomes owing to various types of sequence exchange.To gain insight into the structure and evolution of balancer chromosomes, we have undertaken a genomic analysis of the most commonly used X chromosome balancer in D. melanogaster, First Multiple 7 (FM7). We have focused on FM7 because this X chromosome balancer series lacks lethal mutations and thus can be easily sequenced in a hemizygous or homozygous state. In addition, the FM7 chromosome has been shown to pair normally along most of its axis with a standard X chromosome, providing a structural basis for possible exchange events (6). Moreover, although details of how early balancers in D. melanogaster were created are not fully recorded, the synthesis and cytology of the FM7 series is reasonably well documented (3).The earliest chromosome in the FM7 series, FM7a, was constructed using two progenitor X chromosome balancers, FM1 and FM6, to create a chromosome carrying three inversions—In(1)sc⁸, In(1)dl-49, and In(1)FM6—relative to the WT configuration (7, 8) (Fig. 2A). Subsequently, a female-sterile allele of singed (sn^X2) was introduced onto FM7a to create FM7c, which prevents the loss of balanced chromosomes carrying recessive lethal or female-sterile mutations (9). More recently, versions of FM7a and FM7c have been generated that carry transgene insertions that allow the determination of balancer genotypes in embryonic or pupal stages (10–14).Open in a separate windowFig. 2.Structure of the FM7 balancer chromosome. Euchromatin is shown in blue, and heterochromatin is shown in gray. (A) Schematic view of the organization of WT and FM7 X chromosomes. FM7 contains three inversions—In(1)sc⁸, In(1)dl-49, and In(1)FM6—relative to WT. The six breakpoint junctions for the three inversions are numbered 1–6 and are shown in detail in B. (B) Location and organization of inversion breakpoints in FM7. Each inversion has two breakpoints that can be represented as A/B and C/D in the standard WT arrangement and as A/C and B/D in the inverted FM7 arrangement, where A, B, C, and D represent the sequences on either side of the breakpoints. Locations of euchromatic breakpoints are on Release 5 genome coordinates, and the identity of the best BLAST match in FlyBase is shown for heterochromatic sequences. Primers used for PCR amplification are shown above each breakpoint; details are provided in Methods and Datasets S2 and S3. Forward and reverse primers are named with respect to the orientation of the assembled breakpoint contigs, not the orientation of the WT or FM7 X chromosome.To identify the inversion breakpoints in FM7 balancers and to study patterns of sequence variation that may have arisen since the origin of the FM7 series, we sequenced genomes of eight D. melanogaster stocks carrying the FM7 chromosome (four FM7a and four FM7c). We discovered several megabase-scale regions in which FM7c chromosomes differ from one another, which presumably arose via double-crossover (DCO) events from balanced chromosomes (Fig. 1B). These DCOs eliminate the female-sterile sn^X2 allele in the centrally located In(1)dl-49 inversion and are expected to confer a fitness advantage to sn⁺ chromosomes, either by allowing propagation of sn⁺ FM7 as homozygotes in females or by sn⁺ FM7 males outcompeting sn^X2 FM7 males in culture. We found that loss of the sn^X2 allele is common in FM7c chromosomes by screening other FM7c-carrying stocks at the Bloomington Drosophila Stock Center. We also identified the breakpoints of the B¹ duplication carried on FM7, and found direct molecular evidence for the role of unequal exchange in the origin and reversion of the B¹ allele (15–19). Our results provide clear evidence that the common assumption that balancers are fully nonrecombining chromosomes is incorrect on a historical timescale, and that substantial sequence variation exists among balancer chromosomes in circulation today.     

Cluster of Middle East Respiratory Syndrome Coronavirus Infections in Iran, 2014

During January 2013–August 2014, a total of 1,800 patients in Iran who had respiratory illness were tested for Middle East respiratory syndrome coronavirus. A cluster of 5 cases occurred in Kerman Province during May–July 2014, but virus transmission routes for some infections were unclear.     

2D Statistical Lung Shape Analysis Using Chest Radiographs: Modelling and Segmentation

Journal of Digital Imaging - Accurate information of the lung shape analysis and its anatomical variations is very noticeable in medical imaging. The normal variations of the lung shape can be...