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1.
A number of 3,200 febrile patients who presented upon admission to hospital primary pulmonary or upper respiratory tract impairment either as single forms of manifestation or associated to other syndromes were tested. The cases were screened by the rapid slide agglutination reaction with heat inactivated Patoc antigen and leptospirotic etiology was confirmed by the ultramicroscopic agglutination reaction with 18 live circulating pathogenic antigens. 64 leptospirosis cases with pulmonary impairment were confirmed and in 52 cases the upper respiratory tract was involved. Particular aspects of leptospirosis with pulmonary impairment: 71.8% of cases had a clinical diagnosis of interstitial pneumonia; 89% of cases presented important chest x-ray modifications; in an approximately equal number of cases the pulmonary involvement was the single manifestation or was associated with other syndromes; icterohaemorrhagiae, wolffi and pomona were the frequently encountered infecting serotypes. Particular aspects for leptospirosis involving the upper respiratory tract: 84.6% of cases had a clinical diagnosis of acute rhino-pharyngotracheitis; in 86.5% of cases the upper respiratory tract impairment was the single feature; the infecting serotypes were in decreasing order of frequency as follows: icterohaemorrhagiae, pomona, wolffi, canicola, grippotyphosa.  相似文献   

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The results of the inoculation of material taken from the anterior section of the nasal cavity and from the pharyngeal mucosa of 50 healthy young children and 298 acute pneumonia patients were analyzed. 23 microbial species were isolated. In the samples taken from the anterior section of the nasal cavity, monocultures were detected in 86 samples and 54 variants of associations including 2-4 species, in 139 samples. In the samples taken from the pharynx, monocultures were detected in 59 samples and 180 variants of associations including 2-6 species, in 282 samples. Differences in the contamination of the nasal cavity and the pharynx in healthy children and in pneumonia patients were revealed. These differences were manifested in the structure of the microflora (monocultures, associations, their composition), the assortment of microbial species and their concentration. In young children with pneumonia the microflora of the upper respiratory tract was found to reflect the severity of acute pneumonia and the intensity of the pathological process in the lungs (uncomplicated, pyodestructive pneumonia, pyodestructive pneumonia with fatal termination, acute purulent pleurisy).  相似文献   

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Material obtained from the mucous membranes of the upper respiratory tract (the anterior section of the nasal cavity, the fauces) in young children, both healthy and suffering with different forms of acute pneumonia, has been analyzed with due regard to the structure of the microflora, its specific composition and the size of populations formed by different species constituting the microflora. This analysis has made it possible to determine the species constituting normal microflora, to detect its dysbiotic changes, and to determine their degree (partial or complete dysbacteriosis). The degree of pathologic changes in the microecological balance of the upper respiratory tract has been shown to reflect the severity of acute pneumonia and to be determined by the characteristics of the natural resistance system in young children.  相似文献   

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The distribution and type of cytokeratins present in the normal human epithelia of the nasopharynx, oropharynx, tongue, palatine tonsil, epiglottis, vocal cord, and laryngeal ventricle were studied using immunohistochemical techniques and by gel electrophoresis of cytoskeletal proteins microdissected from frozen tissues. Noncornifying stratified epithelia covering the oropharynx, tongue, surface of the palatine tonsil, pharyngeal surface of the epiglottis, and vocal cord were all found to contain cytokeratins nos. 4, 5, 6, 13, 14, and 15, together with minor amounts of cytokeratin no. 19, i.e., a pattern similar to that previously reported for esophageal epithelium. The immunohistochemical reaction with KA4, an antibody specific for cytokeratins nos. 14, 15, 16, and 19, revealed reactivity confined to the basal epithelial cells of the tongue, oropharynx, pharyngeal epiglottis, and two out of five samples of vocal cords. This same antibody reacted with the entire thickness of three out of the five true vocal cords which were shown by gel electrophoresis to also contain cytokeratins nos. 16 and 17. Gel electrophoresis revealed that the pseudostratified columnar epithelium covering the laryngeal ventricle was more complex, in that it contained cytokeratins nos. 5, 13, 14, 15, and 17, which are typical of stratified epithelia, as well as cytokeratins nos. 7, 8, 18, and 19, which are characteristic of simple epithelia. This pattern is similar to that found in bronchial epithelium. The laryngeal surface of the epiglottis exhibited cytokeratins nos. 4, 5, 7, 8, 13, 14, 15, 17, 18, and 19, i.e., a pattern combining features of both esophageal- and bronchial-type epithelia. The reaction of these epithelia containing columnar cells with antibody RGE-53, which is specific for cytokeratin no. 18, revealed a staining reaction confined to the superficial columnar cells, whereas KA1 stained only the basal cells of these epithelia. The results of our study make it possible to distinguish two types of noncornifying stratified squamous epithelium, namely the 'esophageal type' which covers the tongue, oropharynx, and pharyngeal surface of the epiglottis, and another type which overlies the vocal cords and the transitional zone between the pharyngeal and laryngeal surfaces of the epiglottis. Furthermore, there appear to be variants of pseudostratified columnar epithelium, i.e., the usual bronchial type lining the laryngeal ventricle, and a type with a thicker subcolumnar cell compartment that is found on the laryngeal surface of the epiglottis. The patterns of expression of cytokeratins in the respiratory tract are compared with those of other epithelia.  相似文献   

6.
《Small Ruminant Research》2010,93(1-3):104-107
Increased audibility of normal lung sounds is commonly caused by hyperventilation after exercise and during hot weather. Tachypnoea is common in toxaemic and septicaemic conditions, but there may be no adventitious sounds. Moderate to pronounced coarse crackles are readily identified in advanced cases of ovine pulmonary adenocarcinoma, but auscultation findings do not correspond well to the distribution of lesion(s) revealed at necropsy. Auscultation does not detect pleural abscesses (up to 10 cm diameter). Marked attenuation of normal lung sounds results from marked fibrinous pleurisy and extensive unilateral pyothorax. Pleural frictions rubs are not heard in cases of marked fibrinous pleurisy associated with pleural abscesses. Rumen contraction sounds are often superimposed upon lung sounds. Auscultation of the ovine chest alone does not allow the clinician to determine the presence of all superficial lung pathology nor accurately define its distribution. Ultrasonography provides more accurate information regarding the nature and extent of superficial lung pathology in sheep.  相似文献   

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Airborne disease and the upper respiratory tract   总被引:2,自引:0,他引:2  
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Könönen E 《Anaerobe》2005,11(3):131-136
Development of the indigenous microbiota begins on the surfaces of the human body after birth when infants are exposed to continuous person-to-person and environmental contacts with microbes. Anaerobes constitute a significant part of indigenous bacterial communities at different body sites. Pioneering anaerobic commensals are able to colonize and survive in the oral cavity during the first months of life. After teeth emerge, more attachment sites and potential niches are available for anaerobic bacterial colonization. Specific partner relationships influence the composition and stability of forming multigeneric communities, biofilms, where Fusobacterium nucleatum is of specific interest. In infancy, the oral colonization seems to be rather stable at species level, though not at clonal level. The colonization pattern in the nasopharynx is different from that in the oral cavity; anaerobes are absent from healthy nasopharynges but transiently colonize this anatomical site during infection. The most plausible origin for nasopharyngeal anaerobes is the oral cavity and, conceivably, saliva is the most likely transmission vehicle. Whether anaerobic bacteria colonize the nasopharynx just because of ecological changes favoring their growth or whether they could play an active role in the pathogenesis of respiratory infections is not known.  相似文献   

10.
Computer simulations of airflow patterns within the human upper respiratory tract (URT) are presented. The URT model includes airways of the head (nasal and oral), throat (pharyngeal and laryngeal), and lungs (trachea and main bronchi). The head and throat morphology was based on a cast of a medical school teaching model; tracheobronchial airways were defined mathematically. A body-fitted three-dimensional curvilinear grid system and a multiblock method were employed to graphically represent the surface geometries of the respective airways and to generate the corresponding mesh for computational fluid dynamics simulations. Our results suggest that for a prescribed phase of breath (i.e., inspiration or expiration), convective respiratory airflow patterns are highly dependent on flow rate values. Moreover, velocity profiles were quite different during inhalation and exhalation, both in terms of the sizes, strengths, and locations of localized features such as recirculation zones and air jets. Pressure losses during inhalation were 30-35% higher than for exhalation and were proportional to the square of the flow rate. Because particles are entrained and transported within airstreams, these results may have important applications to the targeted delivery of inhaled drugs.  相似文献   

11.
Airborne disease and the upper respiratory tract.   总被引:1,自引:0,他引:1       下载免费PDF全文
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Respiratory syncytial virus (RSV) is a major cause of lower respiratory tract infections in infants and the elderly. While the primary infection is the most serious, reinfection of the upper airway throughout life is the rule. Although relatively little is known about either RSV infection of the upper respiratory tract or host mucosal immunity to RSV, recent literature suggests that RSV is the predominant viral pathogen predisposing to bacterial otitis media (OM). Herein, we describe mouse and chinchilla models of RSV infection of the nasopharynx and Eustachian tube. Both rodent hosts were susceptible to RSV infection of the upper airway following intranasal challenge; however, the chinchilla proved to be more permissive than the mouse. The chinchilla model will likely be extremely useful to test the role of RSV in bacterial OM and the efficacy of RSV vaccine candidates designed to provide mucosal and cytotoxic T-lymphocyte immunity. Ultimately, we hope to investigate the relative ability of these candidates to potentially protect against viral predisposal to bacterial OM.  相似文献   

19.
Autoflora in the upper respiratory tract of Apollo astronauts.   总被引:1,自引:1,他引:0       下载免费PDF全文
The typical microbial inhabitants of the oral and nasal cavities of Apollo astronauts were identified before space flight and generally found to be similar to those previously reported for healthy male adults. Additional analyses of samples collected immediately after return of the Apollo 13, 14, 15, and 16 crew members to earth were performed to evaluate the effects of space travel on the microbial bioburden of the upper respiratory tract. In-flight cross-contamination and buildup of pathogens such as Staphylococcus aureus were noted, although significant increases in nonpathogenic species were absent. Other proposed alterations, such as dysbacteriosis (flooding of the mouth with a single species) and simplification of the autoflora, did not occur. Generally, the incidence and quantitation of each species after flight was within the preflight range, although the number of viable Haemophilus cells recovered from the mouth decreased significantly after space flight. Except for those minor alterations listed above, the aerobic and anaerobic bacterial components of the upper respiratory autoflora of Apollo astronauts was found to be stable after space flight of up to 295 h.  相似文献   

20.
Bacterial pneumonia is a major cause of morbidity and mortality in elderly. We hypothesize that dysbiosis between regular residents of the upper respiratory tract (URT) microbiome, that is balance between commensals and potential pathogens, is involved in pathogen overgrowth and consequently disease. We compared oropharyngeal microbiota of elderly pneumonia patients (n=100) with healthy elderly (n=91) by 16S-rRNA-based sequencing and verified our findings in young adult pneumonia patients (n=27) and young healthy adults (n=187). Microbiota profiles differed significantly between elderly pneumonia patients and healthy elderly (PERMANOVA, P<0.0005). Highly similar differences were observed between microbiota profiles of young adult pneumonia patients and their healthy controls. Clustering resulted in 11 (sub)clusters including 95% (386/405) of samples. We observed three microbiota profiles strongly associated with pneumonia (P<0.05) and either dominated by lactobacilli (n=11), Rothia (n=51) or Streptococcus (pseudo)pneumoniae (n=42). In contrast, three other microbiota clusters (in total n=183) were correlated with health (P<0.05) and were all characterized by more diverse profiles containing higher abundances of especially Prevotella melaninogenica, Veillonella and Leptotrichia. For the remaining clusters (n=99), the association with health or disease was less clear. A decision tree model based on the relative abundance of five bacterial community members in URT microbiota showed high specificity of 95% and sensitivity of 84% (89% and 73%, respectively, after cross-validation) for differentiating pneumonia patients from healthy individuals. These results suggest that pneumonia in elderly and young adults is associated with dysbiosis of the URT microbiome with bacterial overgrowth of single species and absence of distinct anaerobic bacteria. Whether the observed microbiome changes are a cause or a consequence of the development of pneumonia or merely coincide with disease status remains a question for future research.  相似文献   

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