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Pathophysiology of Peptic Ulcer Disease: Injurious Factors01:22

Pathophysiology of Peptic Ulcer Disease: Injurious Factors

1.6K
Peptic ulcers are sores on the stomach's inner lining and the upper small intestine, which are the result of disruptions in the mucosal layer that houses parietal cells which produce gastric acid, and chief cells which secrete pepsinogen.
In the antrum region, G cells secrete the gastrin hormone that binds to gastrin-cholecystokinin-B (CCK2) receptors on parietal and enterochromaffin-like (ECL) cells in the fundic glands. Simultaneously, the vagus nerve releases acetylcholine, which binds...
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Gastritis-II: Pathophysiology01:17

Gastritis-II: Pathophysiology

1.9K
Gastritis is marked by disruption of the mucosal barrier that usually protects the stomach tissue from digestive juices and manifests in acute and chronic forms.
In acute gastritis, the gastric mucosa becomes swollen and red and undergoes superficial erosion. Superficial ulceration may lead to bleeding.
In chronic gastritis, persistent or repeated insults lead to chronic inflammatory changes and, eventually, thinning or atrophy of the gastric tissue.
Gastritis can stem from various causes, each...
1.9K
Peptic Ulcer Disease II: Pathophysiology01:28

Peptic Ulcer Disease II: Pathophysiology

3.0K
Peptic Ulcer Disease (PUD) is characterized by the development of ulcers in the stomach or duodenal mucosa. Its pathophysiology is complex, involving a balance between damaging and protective elements.
Damaging agents such as Helicobacter pylori, gastric acid, pepsin, and nonsteroidal anti-inflammatory drugs (NSAIDs) can weaken the mucosal defense, allowing hydrogen ions to infiltrate back and harm epithelial cells.
3.0K
Gastritis II: Pathophysiology01:26

Gastritis II: Pathophysiology

89
The pathophysiology of gastritis begins with the colonization of the stomach lining by Helicobacter pylori (H. pylori). This bacterium spreads mainly via the oral-oral route through saliva or shared utensils, and can also be transmitted in overcrowded or unhygienic environments through contaminated water, despite its brief survival outside the body.ColonizationOnce ingested, H. pylori enters the stomach and begins colonization by navigating through the mucus layer lining the stomach wall. It...
89
Peptic Ulcer Disease II: Pathophysiology01:24

Peptic Ulcer Disease II: Pathophysiology

77
Peptic ulcer disease develops when protective mechanisms of the gastrointestinal mucosa are overwhelmed by harmful factors, leading to localized erosions in the stomach or proximal duodenum. The main causes are Helicobacter pylori infection and chronic use of nonsteroidal anti-inflammatory drugs (NSAIDs).Helicobacter pylori–Induced InjuryBacterial Adaptation and Colonization:H. pylori is a spiral, Gram-negative bacterium adapted to the acidic stomach. and transmitted through oral-oral or...
77
Acute Pancreatitis II: Pathophysiology01:21

Acute Pancreatitis II: Pathophysiology

52
The pathophysiology of acute pancreatitis centers on injury to pancreatic acinar cells, which initiates a cascade of harmful intracellular events.This injury leads to premature activation of trypsinogen to trypsin in the pancreas. Trypsin then activates other digestive enzymes, such as chymotrypsin, elastase, and phospholipase A2, which begin breaking down pancreatic tissue. The resulting autodigestion causes local inflammation, tissue swelling, hemorrhage, and fat necrosis.Injured acinar cells...
52

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Related Experiment Video

Updated: May 6, 2026

Single-channel Analysis and Calcium Imaging in the Podocytes of the Freshly Isolated Glomeruli
12:19

Single-channel Analysis and Calcium Imaging in the Podocytes of the Freshly Isolated Glomeruli

Published on: June 27, 2015

10.6K

The pathogenesis of podagra.

P A Simkin

    Annals of Internal Medicine
    |February 1, 1977
    PubMed
    Summary

    Urate crystals precipitate in the big toe due to rising concentrations in synovial fluid, often triggered by foot strain. This leads to acute gout attacks, known as podagra, typically occurring at night.

    Area of Science:

    • Rheumatology
    • Crystallography
    • Biochemistry

    Background:

    • Crystal precipitation from solution is influenced by factors like concentration, temperature, and pH.
    • Podagra, or gout in the big toe, is linked to degenerative joint disease and foot overuse.
    • Gout attacks characteristically occur in the middle of the night.

    Purpose of the Study:

    • To investigate the specific factors causing preferential precipitation of urate crystals in the big toe.
    • To understand the mechanism behind the onset of podagra.

    Main Methods:

    • Analysis of factors influencing crystal formation in solution.
    • Correlation of clinical characteristics of podagra with potential physiological changes in the joint.

    Main Results:

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    • Transient increases in urate concentration within synovial effusions are proposed as the cause of crystal formation.
    • Water leaves the joint space faster than urate, leading to supersaturation.
    • Supersaturation of urate in the synovial fluid exceeds its solubility, initiating crystal precipitation.

    Conclusions:

    • Preferential precipitation of urate crystals at the big toe is driven by transient increases in local urate concentration within resolving synovial effusions.
    • This localized supersaturation and subsequent crystal formation are the likely triggers for acute podagra.