A case of Strongyloides stercoralis infection wss experienced in a 73-year old Korean female patient, was hospitalized with relapse of cholecystitis. The patient developed cough and dyspnea 17 days after the admission. On the 27th hospitalized day, diarrhoea, nausea, vomiting and abdominal pain started. A number of parasitic larvae were incubated at 25 degrees C for 2 days. Typical fork tailed filariform larvae of S. stercoralis (Bavay, 1876) Stiles and Hassall, 1902, were identified after cultivation. There was no improvement of diarrhoea after the medication with mebendazole. After the administration of thiabendazole, however, diarrhoea was stopped. On the 6th day of medication, S. stercoralis larvae were no more detected, and thereafter no larva was observed by repeated stool examinations upto 2 months after chemotherapy. The patient had the history of administration of steroid for articular rheumatism. Therefore this case seems to be a hyperinfection of S. stercoralis due to an autoinfection and to be the first report on the hyperinfected strongyloidiasis in Korea. Related literature was briefly reviewed.
Although
low-molecular-weight (LMW) biothiols function as a disease
indicator in plasma, rapidly and effectively analyzing them remains
challenging in the extracellular oxidative environment due to technical
difficulties. Here, we report a newly designed, affinity pulldown
platform using a Bacillus subtilis-derived organic
hydroperoxide resistance regulatory (OhrRBS) protein and
its operator dsDNA for rapid and cost-effective analyses of plasma
LMW biothiols. In the presence of organic hydroperoxide, LMW biothiols
triggered the rapid dissociation of FAM-labeled dsDNA from FLAG-tagged
OhrRBS via S-thiolation of OhrRBS on anti-FLAG
antibody-coated beads, which led to a strong increase of fluorescence
intensity in the supernatant after pulldown. This method was easily
extended by using a reducing agent to detect free and total LMW biothiols
simultaneously in mouse plasma. Unlike free plasma LMW biothiols,
total plasma LMW biothiols were more elevated in ΔLDLR mice
than those in normal mice. Owing to the rapid dissociation of OhrR/dsDNA
complexes in response to LMW biothiols, this pulldown platform is
immediately suitable for monitoring rapid redox changes in plasma
LMW biothiols as well as studying oxidative stress and diseases in
blood.
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