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Query: UMLS:C0030794 (pelvic pain)
 4,056 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chlamydia are obligate intracellular eubacteria that are phylogenetically separated from other bacterial divisions. C. trachomatis and C. pneumoniae are both pathogens of humans but differ in their tissue tropism and spectrum of diseases. C. pneumoniae is a newly recognized species of Chlamydia that is a natural pathogen of humans, and causes pneumonia and bronchitis. In the United States, approximately 10% of pneumonia cases and 5% of bronchitis cases are attributed to C. pneumoniae infection. Chronic disease may result following respiratory-acquired infection, such as reactive airway disease, adult-onset asthma and potentially lung cancer. In addition, C. pneumoniae infection has been associated with atherosclerosis. C. trachomatis infection causes trachoma, an ocular infection that leads to blindness, and sexually transmitted diseases such as pelvic inflammatory disease, chronic pelvic pain, ectopic pregnancy and epididymitis. Although relatively little is known about C. trachomatis biology, even less is known concerning C. pneumoniae. Comparison of the C. pneumoniae genome with the C. trachomatis genome will provide an understanding of the common biological processes required for infection and survival in mammalian cells. Genomic differences are implicated in the unique properties that differentiate the two species in disease spectrum. Analysis of the 1,230,230-nt C. pneumoniae genome revealed 214 protein-coding sequences not found in C. trachomatis, most without homologues to other known sequences. Prominent comparative findings include expansion of a novel family of 21 sequence-variant outer-membrane proteins, conservation of a type-III secretion virulence system, three serine/threonine protein kinases and a pair of parologous phospholipase-D-like proteins, additional purine and biotin biosynthetic capability, a homologue for aromatic amino acid (tryptophan) hydroxylase and the loss of tryptophan biosynthesis genes.
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PMID:Comparative genomes of Chlamydia pneumoniae and C. trachomatis. 1019 88

Helicobacter pylori (H. pylori) is a atypical gram-negative bacteria preferring gastric mucosa which also have bizarre multisystem effects extended to some malignancies, hematologic and vascular disorders through some not well defined pathophysiologic pathways. Our pioneer data was pointing that the urinary system stone existence was seemed to be high in the group of H. pylori+cases. While the explanation of the reason of the coincidence of renal-gall bladder stones, it was previously suggested that there may be a shift mechanism of intestinal microbial flora, from Oxalobacter formigenes that may reduce the risk of renal stone by consuming intestinal oxalate, to H. pylori which is known to induce gallstone by unknown mechanism. This hypothesis is an indirect one and highly controversial for the effect of H. pylori in the renal stone formation because intestinal absorption of oxalate is not significant when it is compared with the endogen oxalate. The present preliminary unique data in connection with our hypothesis claimed that a possible relation between H. pylori and renal stones. We think that this detrimental effect is due to the possible systemic influence such as vascular and/or endoluminal sickness due to the H. pylori other than directs bacteriologic colonization. There is strong evidence that H. pylori have some role in the atherosclerotic procedure. The vascular theory of Randall plaque formation at renal papilla and subsequent calcium oxalate stone development that suggests microvascular injury of renal papilla in an atherosclerotic-like fashion results in calcification near vessel walls that eventually erodes as a calculus format into the urinary system. Briefly, theories of stone and atherosclerosis seemed to be overlap and H. pylori is one of the factor of both processes. In addition to our hypothesis, we claimed that H. pylori might have same detrimental effect on endoluminal surfaces of urinary and genital systems and resulting in some special pathologies as Hunner's ulcers in interstitial cystitis and even posttesticular infertility. The accumulating knowledge about extragastric sequelae of H. pylori may open new aspects on therapeutic and the prevention strategies of urolithiasis and even this progress may reach to chronic pelvic pain syndromes and idiopathic infertility.
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PMID:Helicobacter pylori and urinary system stones: endoluminal damage as sub-hypothesis to support the current stone theory. 2579 4