LS and UC are clearly the safest and most efficient methods of coagulation, whereas ME and BE could cause serious clinical and histological complications. We found histological evidence that UC causes a slightly greater inflammatory response than LS, and the clinical implications of this warrant further investigation.
Strongyloides stercoralis is a helminth with the ability to autoinfect the human host and persist asymptomatically for several years. Immunosuppression can accelerate autoinfection and result in Strongyloides hyperinfection syndrome (SHS), which is associated with significant morbidity and mortality. Immunosuppressed solid organ transplant recipients, particularly in the setting of rejection, are at increased risk for reactivation of latent infections, such as Strongyloides. We describe a case of SHS in an intestinal transplant recipient; we hypothesize that she acquired the infection from the donor. We also review the current literature and address both prophylaxis and treatment of strongyloidiasis in the solid organ transplant patient.
Acute intermittent porphyria (AIP), the most common acute hepatic porphyria, is an autosomal-dominant disorder due to the half-normal activity of the heme biosynthetic enzyme, hydroxymethylbilane (HMB) synthase (1). Symptomatic heterozygotes, most (~90%) of which are women, experience episodic life-threatening acute neurovisceral attacks that typically begin with severe abdominal pain and may include hypertension, tachycardia, constipation, motor weakness and seizures. These attacks are precipitated by certain drugs, dieting and hormonal factors that increase the hepatic expression of 5-aminolevulinic acid synthase 1 (ALAS1) (1). When hepatic ALAS1 is induced, the half-normal activity of HMB synthase becomes ratelimiting, leading to decreased heme biosynthesis and depletion of the hepatic "free" heme pool. Depletion of the"free" heme pool leads to further induction of Acute intermittent porphyria (AIP) is an autosomal-dominant hepatic disorder caused by the half-normal activity of hydroxymethylbilane (HMB) synthase. Symptomatic individuals experience life-threatening acute neurovisceral attacks that are precipitated by factors that induce the hepatic expression of 5-aminolevulinic acid synthase 1 (ALAS1), resulting in the marked accumulation of the putative neurotoxic porphyrin precursors 5-aminolevulinic acid (ALA) and porphobilinogen (PBG). Here, we provide the first detailed description of the biochemical and pathologic alterations in the explanted liver of an AIP patient who underwent orthotopic liver transplantation (OLT) due to untreatable and debilitating chronic attacks. After OLT, the recipient's plasma and urinary ALA and PBG rapidly normalized, and her attacks immediately stopped. In the explanted liver, (a) ALAS1 mRNA and activity were elevated approximately ~3-and 5-fold, and ALA and PBG concentrations were increased ~3-and 1,760-fold, respectively; (b) uroporphyrin III concentration was elevated; (c) microsomal heme content was sufficient, and representative cytochrome P450 activities were essentially normal; (d) HMB synthase activity was approximately half-normal (~42%); (e) iron concentration was slightly elevated; and (f) heme oxygenase I mRNA was increased approximately three-fold. Notable pathologic findings included nodular regenerative hyperplasia, previously not reported in AIP livers, and minimal iron deposition, despite the large number of hemin infusions received before OLT. These findings suggest that the neurovisceral symptoms of AIP are not associated with generalized hepatic heme deficiency and support the neurotoxicity of ALA and/or PBG. Additionally, they indicate that substrate inhibition of hepatic HMB synthase activity by PBG is not a pathogenic mechanism in acute attacks.
Donor-derived bacterial infection is a recognized complication of solid organ transplantation (SOT). The present report describes the clinical details and successful outcome in a liver transplant recipient despite transmission of methicillin-resistant Staphylococcus aureus (MRSA) from a deceased donor with MRSA endocarditis and bacteremia. We further describe whole genome sequencing (WGS) and complete de novo assembly of the donor and recipient MRSA isolate genomes, which confirms that both isolates are genetically 100% identical. We propose that similar application of WGS techniques to future investigations of donor bacterial transmission would strengthen the definition of proven bacterial transmission in SOT, particularly in the presence of highly clonal bacteria such as MRSA. WGS will further improve our understanding of the epidemiology of bacterial transmission in SOT and the risk of adverse patient outcomes when it occurs.
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