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Related Concept Videos

Chronic Pancreatitis I: Introduction01:24

Chronic Pancreatitis I: Introduction

The pancreas, an elongated and flat gland situated behind the stomach, serves a vital function in digesting food and managing blood sugar levels.
Pancreatitis is the inflammation of the pancreas, which occurs when the immune system becomes active and causes swelling, pain, and disruptions in organ function. Pancreatitis can manifest as either an acute or chronic condition.
Acute pancreatitis arises suddenly and lasts for a brief duration, while chronic pancreatitis is a long-term affliction...
Chronic Pancreatitis I: Introduction01:25

Chronic Pancreatitis I: Introduction

Chronic pancreatitis is a long-standing, relapsing inflammation of the pancreas, characterized by irreversible damage to the gland. It results in progressive destruction of the pancreatic parenchyma, fibrosis, and eventual loss of both exocrine and endocrine function. The disease may evolve gradually after multiple episodes of acute pancreatitis or develop independently.EtiologyChronic pancreatitis can arise from a variety of causes:Alcohol use is the leading cause, accounting for 70–80% of...
Cells and Secretions of the Pancreas01:16

Cells and Secretions of the Pancreas

The pancreas, a vital organ within the abdominal cavity, plays dual roles in the digestive and endocrine systems, collaborating with exocrine and endocrine cells to maintain optimal digestion and blood sugar levels.
Exocrine function is carried out by acinar cells, organized into clusters known as acini. These cells contribute to digestion by releasing substantial quantities of enzyme-rich, alkaline digestive juices.
Concurrently, the dispersed clusters of endocrine cells throughout the...
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...

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  2. Pancreatic Neuroendocrine Neoplasms.
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Related Experiment Videos

Pancreatic Neuroendocrine Neoplasms.

Ananya Panda1, Malak Itani2, Joyce Mhlanga2

  • 1Department of Radiology, University of Iowa Health Care, Iowa City, IA, USA,.

Seminars in Ultrasound, CT, and MR
|June 9, 2026

View abstract on PubMed

Summary
This summary is machine-generated.

Pancreatic neuroendocrine neoplasms (PNENs) are diverse tumors increasingly detected by advanced imaging. Multimodality imaging is crucial for accurate diagnosis, staging, and guiding treatment of these complex pancreatic cancers.

Keywords:
MRIPET/MRIPNETcomputed tomographyneuroendocrine tumorpancreatic neuroendocrine tumorpeptide receptor radionuclide therapysomatostatin receptor imaging

Related Experiment Videos

Area of Science:

  • Oncology
  • Radiology
  • Nuclear Medicine

Background:

  • Pancreatic neuroendocrine neoplasms (PNENs) are a heterogeneous group of tumors with increasing incidence.
  • PNENs range from indolent neuroendocrine tumors to aggressive neuroendocrine carcinomas.
  • Most PNENs are non-functional and incidentally detected, while functional tumors cause distinct clinical syndromes.

Purpose of the Study:

  • To review the role of multimodality imaging in the diagnosis and management of PNENs.
  • To highlight the utility of various imaging techniques for characterizing PNENs and guiding therapy.
  • To discuss current challenges and future directions in PNEN imaging.

Main Methods:

  • Review of cross-sectional imaging (CT, MRI) for anatomic assessment.
  • Discussion of functional imaging techniques including somatostatin receptor (SSTR) PET/CT and PET/MRI.
  • Exploration of dual tracer imaging (SSTR PET and ¹⁸F FDG) for prognostic insights.
  • Consideration of emerging radiomics and AI tools.
  • Main Results:

    • Multimodality imaging is essential for accurate diagnosis, staging, and management of PNENs.
    • MRI with specific contrast agents enhances detection of hepatic metastases.
    • SSTR PET/CT or PET/MRI is vital for identifying SSTR-expressing disease and guiding peptide receptor radionuclide therapy.
    • Dual tracer imaging aids in prognosis and detecting dedifferentiated components.

    Conclusions:

    • Accurate diagnosis and staging of PNENs rely heavily on multimodality imaging.
    • Functional imaging and advanced techniques like radiomics and AI are crucial for personalized management.
    • Standardized surveillance and response assessment remain areas for improvement.