Zabihollah Khaksar scite author profile

This investigation was conducted to evaluate the effect of maternal diabetes on fetal testicular structure and function, and reproductive hormones levels. Sixteen female rats were divided into two groups. Diabetes was induced in one group by alloxan. Blood was collected from 90-day-old male offspring of both groups, and the level of blood glucose, testosterone, FSH and LH in their serum was measured. Weight, volume and various histological parameters of testes were determined. A significant increase in blood glucose and decrease in LH, FSH and testosterone in sera of offspring of diabetic mothers (ODM) were observed. The weight and volume of testes in the ODM were 22.7 and 22.9% higher, respectively, than those of the control group (P < 0.05), while the ratio of testes to body weight did not change significantly. The number of seminiferous tubules increased (+21%) significantly (P < 0.05), while thickness of the testicular capsule (-25%), number of Leydig cells (-15.6%), number of Sertoli cells (-14.9%), number of spermatogonia (-26.3%) and diameter of seminiferous tubules (-11%) showed significantly reduced values in the ODM compare to the control. In conclusion, maternal hyperglycemia has a deleterious effect on testicular parameters during fetal life, which will affect reproductive endocrine during postpuberty.

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Bactericidal fully human single‐chain fragment variable antibodies protect mice against methicillin‐resistant Staphylococcusaureus bacteraemia

Soltanmohammadi

Piri-Gavgani

Basardeh

et al. 2021

Clin & Trans Imm

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Objectives. The increasing prevalence of antibiotic-resistant Staphylococcus aureus, besides the inadequate numbers of effective antibiotics, emphasises the need to find new therapeutic agents against this lethal pathogen. Methods. In this study, to obtain antibody fragments against S. aureus, a human single-chain fragment variable (scFv) library was enriched against living methicillin-resistant S. aureus (MRSA) cells, grown in three different conditions, that is human peripheral blood mononuclear cells with plasma, whole blood and biofilm. The antibacterial activity of scFvs was evaluated by the growth inhibition assay in vitro. Furthermore, the therapeutic efficacy of anti-S. aureus scFvs was appraised in a mouse model of bacteraemia. Results. Three scFv antibodies, that is MEH63, MEH158 and MEH183, with unique sequences, were found, which exhibited significant binding to S. aureus and reduced the viability of S. aureus in in vitro inhibition assays. Based on the results, MEH63, MEH158 and MEH183, in addition to their combination, could prolong the survival rate, reduce the bacterial burden in the blood and prevent inflammation and tissue destruction in the kidneys and spleen of mice with MRSA bacteraemia compared with the vehicle group (treated with normal saline). Conclusion. The combination therapy with anti-S. aureus scFvs and conventional antibiotics might shed light on the treatment of patients with S. aureus infections.

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Endocrine profile and testicular histomorphometry at puberty in rat offspring from diabetic mothers

2009

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Enhancement of Neural Stem Cell Survival, Proliferation, Migration, and Differentiation in a Novel Self-Assembly Peptide Nanofibber Scaffold

et al. 2016

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Considerable efforts have been made to combine biologically active molecules into the self-assembling peptide in order to improve cells growth, survival, and differentiation. In this study, a novel three-dimensional scaffold (RADAGGSIKVAV; R-GSIK) was designed by adding glycine and serine between RADA4 and IKVAV to promote the strength of the peptide. The cell adhesion, viability, proliferation, migration, and differentiation of rat embryonic neural stem cells (NSCs) in R-GSIK were investigated and compared to laminin-coated, two-dimensional, and Puramatrix cultures. The scanning electron microscopy studies of the R-GSIK showed an open porous structure and a suitable surface area available for cell interaction. R-GSIK promoted the cell adhesion, viability, proliferation, and migration compared to the other cultures. In addition, the R-GSIK enhanced NSCs differentiation into neuronal cells. The NSCs injected in R-GSIK had a lower glial differentiation rate than in the Puramatrix. The results suggest that R-GSIK holds great promise for cell therapies and neuronal tissue repair.

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Comparison of some physicochemical properties and toughness of camel meat and beef

Eskandari

Majlesi

Gheisari

et al. 2013

Journal of Applied Animal Research

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The objective of this study was to identify factors influencing the toughness of longissimus dorsi (LD) and psoas major (PM) muscles of camel and to compare it with that of beef. Total collagen content was slightly higher, whereas insoluble collagen content was significantly higher in muscles of older animals. The Warner-Bartzler shear force (WBSF) value was significantly (PB0.05) higher for camel meat than beef, and this value increased with age in camel meat. Significant correlations between insoluble collagen content and WBSF were found in camel meat (r 00.850; P B0.01) and beef (r 00.643; P B0.05). Sarcomere length was numerically higher in muscles of younger than older animals. Camel meat had significantly higher pH values than beef at 6 and 24 h post-slaughter and the LD and PM muscles of younger animals had a significant higher pH values than older ones.

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