Use of enzyme-linked immunosorbent assay and dipstick assay for detection of Strongyloides stercoralis infection in humans.
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A homemade enzyme-linked immunosorbent assay (ELISA) (Academic Medical Center ELISA [AMC-ELISA]) and a dipstick assay for the detection of anti-Strongyloides stercoralis antibodies in serum were developed and evaluated together with two commercially available ELISAs (IVD-ELISA [IVD Research, Inc.] and Bordier-ELISA [Bordier Affinity Products SA]) for their use in the serodiagnosis of imported strongyloidiasis. Both commercially available ELISAs have not been evaluated previously. The sensitivities of the assays were evaluated using sera from 90 patients with parasitologically proven intestinal strongyloidiasis and from 9 patients with clinical larva currens. The sensitivities of the AMC-ELISA, dipstick assay, IVD-ELISA, and Bordier-ELISA were 93, 91, 89, and 83%, respectively, for intestinal strongyloidiasis. In all tests, eight of nine sera from patients with larva currens were positive. The specificity was assessed using a large serum bank of 220 sera from patients with various parasitic, bacterial, viral, and fungal infectious diseases; sera containing autoimmune antibodies; and sera from healthy blood donors. The specificities of AMC-ELISA, dipstick assay, IVD-ELISA, and Bordier-ELISA were 95.0, 97.7, 97.2, and 97.2%, respectively. Our data suggest that all four assays are sensitive and specific tests for the diagnosis of both intestinal and cutaneous strongyloidiasis. (+info)
Reduction of neurite outgrowth in a model of glial scarring following CNS injury is correlated with the expression of inhibitory molecules on reactive astrocytes.
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The extracellular matrix (ECM) molecules chondroitin-6-sulfate proteoglycan (CS-PG) and cytotactin/tenascin (CT), present on subpopulations of astroglia or their precursors during development, can inhibit neurite outgrowth in vitro. However, it is not known whether these molecules are expressed within the mature CNS following injury, where they could contribute to regenerative failure. Thus, the expression of various ECM molecules that affect axon growth was examined in areas of reactive gliosis caused by implanting a piece of nitrocellulose into the cortex of neonatal and adult animals. The expression of these molecules was compared to the amount of neurite outgrowth that occurred in vitro when the damaged CNS tissue from animals of various ages was removed intact and used as a substrate in explant culture. The results demonstrate that the growth-promoting molecules laminin, collagen type IV, and fibronectin were present around the implant in all experimental groups. In comparison, CS-PG and CT were present within and around the area of the lesion only in adult animals. In vivo, these molecules were colocalized with intensely glial fibrillary acidic protein (GFAP)-positive astrocytes in and immediately adjacent to the scar, but not with other equally intensely GFAP-positive astrocytes in the cortex away from the site of injury. CT and CS-PG were present in gray matter areas of the cortex that had been directly damaged during the implant procedure and in the corpus callosum when lesioned during implantation. In vitro, the glial tissue removed from the lesion site of neonatal animals supported neurite outgrowth, while scars removed from adult animals did not. The inability of the adult glial scar tissue to support neurite outgrowth was best correlated with the expression of CS-PG and CT, suggesting that these molecules may be involved in limiting the growth of regenerating axons in the CNS after injury. (+info)
Quantification of nucleic acids on nitrocellulose membranes with time-resolved fluorometry.
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We use a streptavidin-based macromolecular complex (SBMC) labelled with the europium chelate of 4,7-bis (chlorosulfophenyl)-1,10-phenanthroline-2,9-dicarboxylic acid (BCPDA) as a staining reagent for biotinylated DNA present on nitrocellulose filters. The fluorescent spots or bands obtained can either be observed under UV illumination, photographed by instant camera photography or quantified by using a specially designed instrument working as a high resolution time-resolved fluorometric scanner. The detection limit is approximately 10 pg of target DNA. Various experiments with use of biotinylated DNA probes hybridized to Southern transferred targets have shown that the new procedure is a useful versatile non-isotopic methodology for staining DNA on solid supports. (+info)
Dexamethasone-coated neural probes elicit attenuated inflammatory response and neuronal loss compared to uncoated neural probes.
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Glial scar formation around implanted silicon neural probes compromises their ability to facilitate long-term recordings. One approach to modulate the tissue reaction around implanted probes in the brain is to develop probe coatings that locally release anti-inflammatory drugs. In this study, we developed a nitrocellulose-based coating for the local delivery of the anti-inflammatory drug dexamethasone (DEX). Silicon neural probes with and without nitrocellulose-DEX coatings were implanted into rat brains, and inflammatory response was evaluated 1 week and 4 weeks post implantation. DEX coatings significantly reduced the reactivity of microglia and macrophages 1 week post implantation as evidenced by ED1 immunostaining. CS56 staining demonstrated that DEX treatment significantly reduced chondroitin sulfate proteoglycan (CSPG) expression 1 week post implantation. Both at 1-week and at 4-week time points, GFAP staining for reactive astrocytes and neurofilament (NF) staining revealed that local DEX treatment significantly attenuated astroglial response and reduced neuronal loss in the vicinity of the probes. Weak ED1, neurocan, and NG2-positive signal was detected 4 weeks post implantation for both coated and uncoated probes, suggesting a stabilization of the inflammatory response over time in this implant model. In conclusion, this study demonstrates that the nitrocellulose-DEX coating can effectively attenuate the inflammatory response to the implanted neural probes, and reduce neuronal loss in the vicinity of the coated probes. Thus anti-inflammatory probe coatings may represent a promising approach to attenuate astroglial scar and reduce neural loss around implanted neural probes. (+info)
Use of monoclonal antibodies with neutralizing effects on toxic antigens from human bacterial plaque to detect specific bacteria by colony blotting.
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Inflammatory periodontal diseases are provoked by bacteria which adhere to teeth at the gingival margin and form plaques containing toxins detectable by their effect on mammalian cells in culture. The aim of this study was to make toxin-neutralizing monoclonal antibodies and determine whether they detect antigen in specific oral bacteria. Bacterial plaque was collected from teeth and homogenized, and the fluid phase (plaque extract) was boiled or first fractionated over Sephacryl S-300. Hybridomas from immunized mice secreted immunoglobulin M (IgM) antibodies which reacted to plaque antigens. Neutralization was detected by an increase in the growth of HL60 cells which were exposed to plaque toxins in the presence of IgM from hybridoma culture or ascitic fluids. However, the neutralization was obvious only when the plaque toxins reduced growth by 50% or less. Plaque toxin preparations were found to contain proteases which hydrolyzed all of the IgM in ascitic fluids within 24 h. Replenishing the IgM daily preserved protection compared with protection from IgM from other hybridomas or saline only. The decrease in the specific activity of plaque proteins caused by replenishing one such antibody (3hE5) was 2.5-fold compared with activity with unreplenished 3hE5, 3.8-fold compared with activity with saline only, and 10.7-fold compared with activity with replenished, unrelated antibody. The neutralizing IgM detected an array of 14,000- to 22,000-molecular-weight antigens. The native toxins may be aggregates of these antigens, or the array may indicate fragments of an undetected, larger antigen or a common, nonpeptide adduct. Only 0.5 to 0.8% of the bacteria from sites with periodontitis and grown on blood agar contained antigen. One group of reactive bacteria was identified as Actinomyces odontolyticus serotype I. Other isolates were identified as Staphylococcus epidermidis, but antigen disappeared from the these isolates within 6 weeks of subculture. Epitope-containing antigens were also found in streptococcal and Eikenella isolates, and it is likely that the antigens from only some of these bacteria are toxic. (+info)
Rapid, low-technology field- and laboratory-applicable enzyme-linked immunosorbent assays for immunodiagnosis of Schistosoma mansoni.
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Simple and rapid polystyrene- and nitrocellulose-based enzyme-linked immunosorbent assays were developed for detecting antibodies against adult Schistosoma mansoni microsomal antigens. The polystyrene test uses the Nunc Immuno Stick System. A single dilution of the antibody source being tested, the conjugate, and the substrate (3,3',5,5'-tetramethylbenzidine) are placed in tubes. Dried, antigen-coated polystyrene sticks are then exposed to the reagents by immersion. Once the sticks are sensitized, an entire assay can be completed in 8 min. Positive reactions result in a rich blue color in the substrate tube and can be distinguished with the naked eye. In the nitrocellulose-based test, a nitrocellulose sheet with antigen drawn in a line by pen is cut to produce identical strips. The ligand-binding steps and washings are performed in the troughs of incubation trays. The exposure times required for a single dilution of the antibody source being tested, the conjugate, and the substrate (3,3'-diaminobenzidine) are 5 min, 5 min, and 7.5 min, respectively. Once sensitized strips are available, an entire assay can be run in 50 min. Both techniques can assay serum or whole blood. The characteristics of polystyrene- and nitrocellulose-based techniques allow them to be used successfully in field studies and in minimally equipped laboratories. (+info)
New surgical approach to overcome the inability of injured mammalian axons to grow within their environment.
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We present a new method for creating conditions conductive to axonal growth in injured optic nerves of adult rabbits. The surgical approach consists of making a cavity in the adult rabbit optic nerve, into which a piece of nitrocellulose soaked with conditioned medium originating from regenerating fish optic nerves is implanted. In addition, daily irradiation (10 days, 5 min, 35 mW) with low energy He-Ne laser is carried out. Such a combined treatment may open a door to neurobiologists and clinicians, hoping to unravel the enigma of mammalian CNS regeneration. (+info)
Optical disector counting in cryosections and vibratome sections underestimates particle numbers: effects of tissue quality.
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Optical disector counting is currently applied most often to cryosections, followed in frequency by resin-embedded tissues, paraffin, and vibratome sections. The preservation quality of these embedding options differs considerably; yet, the effect of tissue morphology on numerical estimates is unknown. We tested whether different embedding media significantly influence numerical estimates in optical disector counting, using the previously calibrated trochlear motor nucleus of hatchling chickens. Animals were perfusion-fixed with paraformaldehyde (PFA) only or in addition with glutaraldehyde (GA), or by Methacarn immersion fixation. Brains were prepared for paraffin, cryo-, vibratome- or celloidin sectioning. Complete penetration of the thionin stain was verified by z-axis analysis. Neuronal nuclei were counted using an unbiased counting rule, numbers were averaged for each group and compared by ANOVA. In paraffin sections, 906 +/- 12 (SEM) neurons were counted, similar to previous calibrated data series, and results obtained from fixation with Methacarn or PFA were statistically indistinguishable. In celloidin sections, 912 +/- 28 neurons were counted-not statistically different from paraffin. In cryosections, 812 +/- 12 neurons were counted (underestimate of 10.4%) when fixed with PFA only, but 867 +/- 17 neurons were counted when fixed with PFA and GA. Vibratome sections had the most serious aberration with 729 +/- 31 neurons-a deficit of 20%. Thus, our analysis shows that PFA-fixed cryosections and vibratome sections result in a substantial numerical deficit. The addition of GA to the PFA fixative significantly improved counts in cryosections. These results may explain, in part, the significant numerical differences reported from different labs and should help investigators select optimal conditions for quantitative morphological studies. (+info)