Relation Between Helicobacter Pylori, Inflammatory (neutrophil) Activity, Chronic Gastritis, Gastric Atrophy And Intestinal Metaplasia

Background: To determine the relation of Helicobacter pylori infection with chronic inflammation, atrophy, activity level and intestinal metaplasia. Patients and Methods: A cross-sectional study of 100 consecutive patients with dyspepsia. These patients were fasted for 12 hours and gastroscopic biopsy specimens were obtained from their gastric mucosae. The specimens were histologically evaluated for H. pylori, inflammatory activity, chronic inflammation, gastric atrophy and intestinal metaplasia. Results: There were 50(50%) females and 50(50%) males. The average ages of women and men were 36.3±11.5 and 42.9±12.8 respectively. Helicobacter pylori was found in 79%. Neutrophil activity was observed in 83%. Inflammation was found in 95%, glandular atrophy in 38%, intestinal metaplasia in 28% of the cases. Incidental (early gastric) cancer was found in 3%, dysplasia in 2% and reactive gastropathy in 7% of the cases. A statistically significant relationship was found between Helicobacter pylori colonization intensity and the degrees of neutrophil activity, chronic inflammation and intestinal metaplasia. Conclusion: We concluded that Helicobacter pylori infection results in neutrophil activation and chronic gastritis, and that it has a role in the development of intestinal metaplasia. The greater the intensity of Helicobacter pylori infection, the greater the degrees of neutrophil activation, chronic gastritis and intestinal metaplasia. Keywords: Helicobacter pylori, Gastritis, atrophy, Intestinal metaplasia, Gastric cancer, Jos Nigerian Journal of Clinical Practice Vol. 11 (3) 2008: pp. 270-27

Predicting range shifts of African apes under global change scenarios

Aim: Modelling African great ape distribution has until now focused on current or past conditions, while future scenarios remain scarcely explored. Using an ensemble forecasting approach, we predicted changes in taxon-specific distribution under future scenarios of climate, land use and human populations for (1) areas outside protected areas (PAs) only (assuming complete management effectiveness of PAs), (2) the entire study region and (3) interspecies range overlap. Location: Tropical Africa. Methods: We compiled occurrence data (n = 5,203) on African apes from the IUCN A.P.E.S. database and extracted relevant climate-, habitat- and human-related predictors representing current and future (2050) conditions to predict taxon-specific range change under a best- and a worst-case scenario, using ensemble forecasting. Results: The predictive performance of the models varied across taxa. Synergistic interactions between predictors are shaping African ape distribution, particularly human-related variables. On average across taxa, a range decline of 50% is expected outside PAs under the best scenario if no dispersal occurs (61% in worst scenario). Otherwise, an 85% range reduction is predicted to occur across study regions (94% worst). However, range gains are predicted outside PAs if dispersal occurs (52% best, 21% worst), with a slight increase in gains expected across study regions (66% best, 24% worst). Moreover, more than half of range losses and gains are predicted to occur outside PAs where interspecific ranges overlap. Main Conclusions: Massive range decline is expected by 2050, but range gain is uncertain as African apes will not be able to occupy these new areas immediately due to their limited dispersal capacity, migration lag and ecological constraints. Given that most future range changes are predicted outside PAs, Africa's current PA network is likely to be insufficient for preserving suitable habitats and maintaining connected ape populations. Thus, conservation planners urgently need to integrate land use planning and climate change mitigation measures at all decision-making levels both in range countries and abroad