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Related Concept Videos

Type II Diabetes II: Pathophysiology01:24

Type II Diabetes II: Pathophysiology

PathophysiologyType 2 diabetes mellitus (T2DM ) is a chronic metabolic disorder characterized by insulin resistance and progressive pancreatic β-cell dysfunction, leading to impaired glucose homeostasis. It results from interactions among genetic predisposition, environmental factors, and metabolic stressors, such as overnutrition and a sedentary lifestyle.Insulin Resistance and Glucose DysregulationEarly T2DM involves insulin resistance in skeletal muscle, adipose tissue, and the liver.
Type I Diabetes II: Pathophysiology01:26

Type I Diabetes II: Pathophysiology

Type 1 diabetes mellitus arises from an immune-mediated destruction of pancreatic β-cells, resulting in an absolute deficiency of insulin. This process develops in genetically susceptible individuals when autoimmunity, environmental exposures, and immunologic dysregulation converge to trigger a targeted attack on the insulin-producing cells of the pancreas. The β-cells are located within the islets of Langerhans and are essential for regulating blood glucose by facilitating cellular uptake of...
Acute Pancreatitis II: Pathophysiology01:21

Acute Pancreatitis II: Pathophysiology

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...
Pathophysiology of Diabetes01:20

Pathophysiology of Diabetes

Diabetes mellitus is a chronic metabolic disorder characterized by hyperglycemia. The four categories of diabetes are type 1 diabetes, type 2 diabetes, other specific types of diabetes, and gestational diabetes.
Type 1 diabetes is characterized by autoimmune-mediated destruction of pancreatic β cells, with environmental factors potentially triggering this process in genetically susceptible individuals. Despite many not having a family history, certain genes increase susceptibility, suggesting a...
Diabetes Insipidus II: Pathophysiology01:22

Diabetes Insipidus II: Pathophysiology

Normally, water balance is maintained through three interconnected mechanisms: the hypothalamic thirst center, the synthesis and release of antidiuretic hormone (ADH, or vasopressin), and the kidneys' responsiveness to this hormone. ADH is synthesized in the hypothalamus, released from the posterior pituitary, and acts on the distal nephron, allowing water reabsorption and concentrated urine production.Diabetes Insipidus and Its TypesIn diabetes insipidus (DI), this regulatory system is...
Diabetic Ketoacidosis ll: Pathophysiology01:22

Diabetic Ketoacidosis ll: Pathophysiology

Diabetic ketoacidosis (DKA) is a metabolic emergency characterized by hyperglycemia, ketonemia, and metabolic acidosis. It results from severe insulin deficiency and an excess of counterregulatory hormones, leading to uncontrolled lipolysis, ketogenesis, and widespread electrolyte and fluid disturbances.Pathophysiology The central event in DKA is a profound loss of insulin action. Without insulin, glucose uptake in insulin-dependent tissues is impaired, while hepatic glucose production...

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Related Experiment Video

Updated: Jun 18, 2026

An Adipocyte Cell Culture Model to Study the Impact of Protein and Micro-RNA Modulation on Adipocyte Function
09:20

An Adipocyte Cell Culture Model to Study the Impact of Protein and Micro-RNA Modulation on Adipocyte Function

Published on: May 4, 2021

[Adiponectin: pathophysiological aspects].

V Schwarz

    Patologicheskaia Fiziologiia I Eksperimental'Naia Terapiia
    |November 18, 2009
    PubMed
    Summary
    This summary is machine-generated.

    Adipokines, especially adiponectin, regulate metabolic processes. This review details adiponectin receptors' role in insulin resistance, diabetes, metabolic syndrome, and cardiovascular diseases.

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    Identification and Dissection of Diverse Mouse Adipose Depots
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    Identification and Dissection of Diverse Mouse Adipose Depots

    Published on: July 11, 2019

    Area of Science:

    • Endocrinology and Metabolism
    • Cardiovascular Science

    Background:

    • Adipokines are signaling proteins secreted by adipose tissue.
    • Adiponectin is a key adipokine involved in metabolic regulation.
    • Dysregulation of adipokines is linked to metabolic and cardiovascular diseases.

    Purpose of the Study:

    • To review current data on adipokines, focusing on adiponectin.
    • To elucidate the role of adiponectin receptors in metabolic dysfunction.
    • To discuss the implications for cardiovascular health.

    Main Methods:

    • Literature review of available scientific data.
    • Analysis of studies on adiponectin and its receptors.
    • Synthesis of information regarding metabolic and cardiovascular implications.

    Main Results:

    • Adiponectin plays a crucial role in regulating metabolic processes.
    • Adiponectin receptors are implicated in the pathogenesis of insulin resistance.
    • Evidence links adiponectin receptor dysfunction to diabetes mellitus and metabolic syndrome.

    Conclusions:

    • Adiponectin signaling is vital for metabolic homeostasis.
    • Adiponectin receptor dysfunction contributes to atherosclerosis and cardiovascular disease.
    • Targeting adiponectin pathways may offer therapeutic strategies for metabolic and cardiovascular disorders.