Chronic diarrheal illness and malabsorption are challenging diagnostic and clinical problems. The identification of the causative pathogens that are involved in gastrointestinal infections is often difficult. It took ...Chronic diarrheal illness and malabsorption are challenging diagnostic and clinical problems. The identification of the causative pathogens that are involved in gastrointestinal infections is often difficult. It took 85 years after the first description of a case of intestinal lipodystrophy by GeorgWhipple in 1907 until the causative bacterium was characterized by using molecular genetics techniques. We here report the complicated clinical course of a young patient with chronic diarrhea accompanied by severe, life- threate- ning malabsorption with extensive weight loss. Histology and glucose hydrogen breath test were suggestive of a bacterial overgrowth syndrome in the small bow el, but standard culture- based techniques and serology failed to identify the causative bacteria. Thus, bacterial ribosomalDNA (16S ribosomal DNA) was extract ed from duodenal biopsy samples and analyzed by community fingerprinting and spe cies- specific polymerase chain reaction. Stenotrophomonas mal- tophilia was identified as the cause of chronic infectious enteritis. Only specific long- term antibiotic treatment with co- trimoxazole had a durable clinical effect and led to normalization of 16S ribosomal DNA profiles. This case shows the role of rare and uncommon bacteria in refractory and chronic human gastrointestinal infections. Genomic techniques, including 16S- based single- strand conformation polymorphism analysis, will play an increasing role in the diagnosis of chronic infections with facultatively pathogenic bacteria or in the clinical analysis of complex bacterial communities such as the intestinal bacterial microflora. Future enhancements in detection techniques will show that chronic bacterial infections are more frequent as a cause of gastrointestinal malfunction than com- monly thought.展开更多
文摘Chronic diarrheal illness and malabsorption are challenging diagnostic and clinical problems. The identification of the causative pathogens that are involved in gastrointestinal infections is often difficult. It took 85 years after the first description of a case of intestinal lipodystrophy by GeorgWhipple in 1907 until the causative bacterium was characterized by using molecular genetics techniques. We here report the complicated clinical course of a young patient with chronic diarrhea accompanied by severe, life- threate- ning malabsorption with extensive weight loss. Histology and glucose hydrogen breath test were suggestive of a bacterial overgrowth syndrome in the small bow el, but standard culture- based techniques and serology failed to identify the causative bacteria. Thus, bacterial ribosomalDNA (16S ribosomal DNA) was extract ed from duodenal biopsy samples and analyzed by community fingerprinting and spe cies- specific polymerase chain reaction. Stenotrophomonas mal- tophilia was identified as the cause of chronic infectious enteritis. Only specific long- term antibiotic treatment with co- trimoxazole had a durable clinical effect and led to normalization of 16S ribosomal DNA profiles. This case shows the role of rare and uncommon bacteria in refractory and chronic human gastrointestinal infections. Genomic techniques, including 16S- based single- strand conformation polymorphism analysis, will play an increasing role in the diagnosis of chronic infections with facultatively pathogenic bacteria or in the clinical analysis of complex bacterial communities such as the intestinal bacterial microflora. Future enhancements in detection techniques will show that chronic bacterial infections are more frequent as a cause of gastrointestinal malfunction than com- monly thought.