Much has been learned of the pathogenesis and pathophysiology of the toxic shock syndrome (TSS) since the initial description in 1978 by Dr. James K, Todd. The clinical illness is defined by the criteria listed in the case definition formulated for epidemiologic studies. With the advent of widespread recognition of TSS, there have been numerous published reports describing the clinical and laboratory findings, primarily in menstruating females. And there have been also reported about six cases in Korea. Moreover, TSS is uncommon in the prepubertal age group and no case report in infant in Korea. We experienced two cases of TSS in infants aged 11/2 yrs and 9 months associated with respiratory infection-pneumonia, pyopneumothorax and localized skin abscess that were confused with Kawasaki disease (KD). The diagnosis was made on the basis of clinical features and laboratory findings, and the cases met the Centers of Disease Control case definition of TSS. And thus we report these cases and review related literatures.
Abscess ; Diagnosis ; Female ; Humans ; Infant* ; Korea ; Mucocutaneous Lymph Node Syndrome ; Shock, Septic* ; Skin

Abstinence from prolonged psychostimulant use prompts stimulant withdrawal syndrome. Molecular adaptations within the dorsal striatum have been considered the main hallmark of stimulant abstinence. Here we explored striatal miRNA-target interaction and its impact on circulating miRNA marker as well as behavioral dysfunctions in methamphetamine (MA) abstinence. We conducted miRNA sequencing and profiling in the nonhuman primate model of MA abstinence, followed by miRNA qPCR, LC-MS/MS proteomics, immunoassays, and behavior tests in mice. In nonhuman primates, MA abstinence triggered a lasting upregulation of miR-137 in the dorsal striatum but a simultaneous downregulation of circulating miR-137. In mice, aberrant increase in striatal miR-137-dependent inhibition of SYNCRIP essentially mediated the MA abstinence-induced reduction of circulating miR-137. Pathway modeling through experimental deduction illustrated that the MA abstinence-mediated downregulation of circulating miR-137 was caused by reduction of SYNCRIP-dependent miRNA sorting into the exosomes in the dorsal striatum. Furthermore, diminished SYNCRIP in the dorsal striatum was necessary for MA abstinence-induced behavioral bias towards egocentric spatial learning. Taken together, our data revealed circulating miR-137 as a potential blood-based marker that could reflect MA abstinence-dependent changes in striatal miR-137/SYNCRIP axis, and striatal SYNCRIP as a potential therapeutic target for striatum-associated cognitive dysfunction by MA withdrawal syndrome.