Experimental investigations into the possibility of differentiating early from invasive carcinoma of the stomach by means of ultrasound

Using high-resolution ultrasound such as is employed, for example, in endoscopic ultrasonography, the walls of hollow organs are visualized as layered structures. The correlation of these "acoustic layers" with the histological layers, is of particular interest for the staging of early malignant lesions. Both clinically and experimentally, we made an attempt to determine the extent to which, at a transducer frequency of 7 MHz, such a correlation is possible. Our investigations show that, although reflection phenomena can mimic and "overlap" anatomical layers, the important boundary between the submucosa and the muscularis propria is principially identifiable.     

Comparative toxicity of physiological and biochemical parameters in Euglena gracilis to short-term exposure to potassium sorbate

Ecotoxicology - Potassium sorbate is the potassium salt of sorbic acid, is a widespread and efficient antioxidant that has multiple functions in plants, traditionally associated with the reactions...     

Measurement of the Fowler dead space in patients with pulmonary emphysema using C18O2

In patients with lung emphysema, changes in lung volumes as well as changes in airway resistance are well known. The change in airway resistance is caused by obstruction of central airways, which is supposed to reduce the respiratory dead space. Until now, it was not possible to measure the respiratory dead space in patients with lung emphysema using the method of Fowler [2], because in this method distinction of the three phases of an inert gas expirogram is essential. While this distinction is easy in healthy subjects (fig. 1; expirogram 3), the separation of the three phases in patients with lung emphysema is not possible due to gradual transition of phase II into phase III in these patients (fig. 1; expirogram 2). The use of C18O2 as tracer gas allows to separate phase II and phase III even if the patients have severe emphysema (fig. 1; expirogram 1). CO2 labeled with the stable oxygen isotope 18O (C18O2) is completely taken up in the gas exchanging region of the lung, but not from the conducting airways. Therefore C18O2 is only expired from the dead space of the lung, but not from the alveolar region. Hence, C18O2 allows exact measurement of the respiratory dead space in patients with lung emphysema. 21 healthy nonsmoking subjects and 29 patients with clinical signs of lung emphysema participated in this study. There was a good correlation between respiratory dead space, measured by the use of Ar-gas and C18O2-gas in healthy subjects (fig. 2). This indicates, that the use of C18O2 is a valid method to measure the functional dead space. As expected, there was also a correlation between the airway resistance and respiratory dead space in patients with lung emphysema (fig. 3), but not in healty subjects. There was no significant difference of the mean values of the respiratory dead space between these two groups (223 +/- 43 ml in healthy subjects vs. 227 +/- 52 ml in patients), even though there were large differences in airway resistance (0.20 +/- 0.10 kPa/l/s vs. 0.49 +/- 0.27 kPa/l/s). This may be due to a loss of alveolar function in the area of the terminal bronchioli, which is typical for emphysematous patients. This entails a shift of functional dead space towards lung periphery and therefore causes an increase of the volume of functional dead space. But this enlargement may be compensated by the volume reduction, caused by the airway obstruction. Hence, these two oppositional mechanisms may result in only minimal change of dead space volume.     

Increased fine particle deposition in women with asymptomatic nonspecific airway hyperresponsiveness

Previous studies suggest that lung function tests using monodisperse aerosols can help to identify early stages of lung diseases. We investigated intrapulmonary particle loss and aerosol bolus dispersion-a marker of convective gas transport-in 32 women with asymptomatic nonspecific bronchial hyperresponsiveness (BHR) compared with 60 women without BHR. Deposition of inhaled particles (0.9 micrometer mass median aerodynamic diameter [MMAD]) was calculated from particle losses of inhaled aerosol boluses consisting of di-2-ethylhexyl sebacate droplets. Convective gas mixing was assessed by the aerosol bolus dispersion method. Women with BHR, nonsmokers as well as smokers, showed significantly increased deposition of aerosol particles (nonsmokers: 45.6 +/- 8.8%; smokers: 49.2 +/- 5.4%; mean +/- SD) compared with the control group of female nonsmokers without BHR (38.2 +/- 9.1%; mean +/- SD) (p < 0.01). Aerosol bolus dispersion values showed a trend for higher values in subjects with BHR (nonsmokers: 572 +/- 122 cm3; smokers: 587 +/- 85 cm3) compared with the control group (542 +/- 88 cm3) (p = 0.2). Also, the maximal expiratory flow at 25% vital capacity (MEF25) showed a trend for decreased values in nonsmokers with BHR compared with nonsmokers without BHR (64 +/- 16% of predicted versus 78 +/- 24% of predicted; p = 0.03). These results suggest that deposition of inhaled particles (0.9 micrometer MMAD) administered by the aerosol bolus technique is a sensitive index of peripheral lung injury that is usually not assessable by conventional methods.     

Increased Sputum IL-8 and IL-5 in Asymptomatic Nonspecific Airway Hyperresponsiveness

Since asymptomatic, nonspecific airway hyperresponsiveness (BHR) may be due to an enhanced local inflammatory response, we studied molecular markers of inflammation in induced sputum from subjects with asymptomatic BHR (n = 14) compared with control subjects (n = 13) and patients with chronic obstructive pulmonary disease (COPD) (n = 10). Pulmonary lung function parameters were measured by spirometry and body plethysmography. Hyperresponsiveness was defined based on histamine challenge. Induced sputum samples were collected and the solid phase was isolated and analyzed for leukocyte numbers and differential and for cytokines (ELISA). IL-8 was 2.4-fold increased (p = 0.036) in the sputum of subjects with asymptomatic BHR (24.8 +/- 22.0 ng/mL; +/- SD) and 11.2-fold enhanced in patients with COPD (117.8 +/- 106.3 ng/mL) as compared with control subjects (10.5 +/- 7.7 ng/mL). In control subjects, no IL-5 was measured, however, sputum of those with asymptomatic BHR contained IL-5 at 0.044 +/- 0.090 ng/mL fluid and COPD patients at 1.00 +/- 2.01 ng/mL. GM-CSF could not be detected in sputum samples of any subjects investigated. Number of total leukocytes was higher in those with asymptomatic BHR and COPD (with BHR: 9.4 +/- 10.8 x 10(5); COPD: 83.5 +/- 182.5 x 10(5)) compared with persons without BHR (2.9 +/- 3.4 x 10(5)). PMN were increased in patients with asymptomatic BHR (4.1 +/- 5.3 x 10(5)) (38.8 +/- 24.7%) and COPD (32.9 +/- 71.0 x 10(5)) (75.4 +/- 18.6%) compared with controls (0.7 +/- 0.9 x 10(5)) (25.8 +/- 25.7%). In contrast to PMN counts in those with asymptomatic BHR (0.06 +/- 0.11 x 10(5)) (1.5 +/- 3.7%), eosinophil counts were only slightly increased compared with control subjects (0.01 +/- 0.02 x 10(5)) (0.6 +/- 0.9%). This study supports the hypothesis that BHR in asymptomatic people is associated with airway inflammation that may predispose to development of chronic diseases such as COPD.     

D-Ribose improves diastolic function and quality of life in congestive heart failure patients: a prospective feasibility study

Patients with chronic coronary heart disease often suffer from congestive heart failure (CHF) despite multiple drug therapies. D-Ribose has been shown in animal models to improve cardiac energy metabolism and function following ischaemia. This was a prospective, double blind, randomized, crossover design study, to assess the effect of oral D-ribose supplementation on cardiac hemodynamics and quality of life in 15 patients with chronic coronary artery disease and CHF. The study consisted of two treatment periods of 3 weeks, during which either oral D-ribose or placebo was administered followed by a 1-week wash out period, and then administration of the other supplement. Assessment of myocardial functional parameters by echocardiography, quality of life using the SF-36 questionnaire and functional capacity using cycle ergometer testing was performed. The administration of D-ribose resulted in an enhancement of atrial contribution to left ventricular filling (40+/-11 vs. 45+/-9%, P=0.02), a smaller left atrial dimension (54+/-20 vs. 47+/-18 ml, P=0.02) and a shortened E wave deceleration (235+/-64 vs. 196+/-42, P=0.002) by echocardiography. Further, D-ribose also demonstrated a significant improvement of the patient's quality of life (417+/-118 vs. 467+/-128, P< or =0.01). In comparison, placebo did not result in any significant echocardiographic changes or in quality of life. This feasibility study in patients with coronary artery disease in CHF revealed the beneficial effects of D-ribose by improving diastolic functional parameters and enhancing quality of life.     

Realtime visualization of tumor cell/endothelial cell interactions during transmigration across the endothelial barrier

PURPOSE: In cancer the blood-borne spread of tumor cells leads to the formation of secondary tumors at distant loci whereby the extravasation of tumor cells is a prerequisite step during hematogenous metastasis. Here, we describe a novel in vitro realtime model which shows the complete sequence of the extravasation process. METHODS: We developed an in vitro system allowing us to monitor the sequence of extravasation events of tumor cell clusters across a monolayer of human umbilical cord endothelial cells (HUVEC). Fluorescence markers and laser scanning confocal microscopy were used to visualize the interactions between tumor cells and endothelium. RESULTS: Our model indicates that the extravasation of tumor cell clusters derived from the invasive human bladder carcinoma cell line T24 occurs in a relatively short time-frame up to 4 h after adhesion to the endothelium. We demonstrate that the vascular endothelium is irreversibly damaged at the site of tumor cell extravasation. CONCLUSION: Realtime laser scanning confocal microscopy leads to a better understanding of the complex and dynamic cell-to-cell and cell-to-matrix interactions during the extravasation process.     

Lung volume is a determinant of aerosol bolus dispersion.

The technique of inhaling a small volume element labeled with particles ("aerosol bolus") can be used to assess convective gas mixing in the lung. While a bolus undergoes mixing in the lung, particles are dispersed in an increasing volume of the respired air. However, determining factors of bolus dispersion are not yet completely understood. The present study tested the hypothesis that bolus dispersion is related, among others, to the total volume in which the bolus is allowed to mix--i.e., to the individual lung size. Bolus dispersion was measured in 32 anesthetized, mechanically ventilated dogs with total lung capacities (TLCs) of 1.1-2.5 L. Six-milliliter aerosol boluses were introduced at various preselected time-points during inspiration to probe different volumetric lung depths. Dispersion (SD) was determined by moment analysis of particle concentrations in the expired air. We found linear correlations between SD at a given lung depth and the individual end-inspiratory lung volume (V(L)). The relationship was tightest for boluses inhaled deepest into the lungs: SD(40) = 0.068 V(L) - 1.77, r(2) = 0.59. Normalizing SD to V(L) abolished this dependency and resulted in a considerable reduction of inter-individual variability as compared to the uncorrected measurements. These data indicate that lung size influences measurements of bolus dispersion. It therefore appears reasonable to apply a normalization procedure before interpreting the data. Apart from a reduction in measurement variability, this should help to separate the effects on bolus dispersion of altered lung volumes and altered mixing processes in diseased lungs.