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Elevated pressure in the bile canaliculi alters structure of the liver tissue

The liver produces bile, which the intestine uses for digestion. For the transport of bile, the liver relies on a network of microscopic tubings, known as bile canaliculi, formed by liver cells called hepatocytes.

Jochen hampeDanielle ellisCarlotta mayerMarino zerialOslo university hospitalMax planck institute of molecular cell biologyCarl gustav carus university hospitalMax planck instituteMolecular cell biologyCell biologyLiver disease

Most advanced lab-made human embryo models look like the real thing

New models of human embryos grown in the lab closely mimic the structure of actual embryos.

Darius wideraJesse veenvlietJacob hannaUniversity of readingWeizmann instituteWeizmann institute of scienceMax planck institute of molecular cell biologyMax planck instituteMolecular cell biology

Researchers find that pressure in the biliary system leads to tissue changes in the liver

Researchers find that pressure in the biliary system leads to tissue changes in the liver
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Carlotta mayerJochen hampeMarino zerialOslo university hospitalMax planck institute of molecular cell biologyCarl gustav carus university hospitalMax planck instituteMolecular cell biology

Pressure in the biliary system leads to tissu

The liver produces bile, which the intestine uses for digestion. For the transport of bile, the liver relies on a network of microscopic tubings, known as bile canaliculi, formed by liver cells called hepatocytes. When the outflow of bile to the intestine is blocked, it collects in the liver and can lead to serious liver disease. Researchers at the Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG) in Dresden together with experts from the Carl Gustav Carus University Hospital (UKD) Dresden and Oslo University Hospital in Norway found that high pressure in the bile canaliculi alters the structure of the liver tissue. They found that elevated pressure leads to the obviation of apical bulkheads, structures known to reinforce the canaliculi. Subsequently, bile canaliculi enlarge into liver cell rosettes that are observed in many liver diseases. This study identifies pressure to be a potential common cause of various liver diseases with biliary obstruction and thus contr

Carlotta mayerJochen hampeMarino zerialMax planck institute of molecular cell biologyOslo university hospitalMethod of researchCarl gustav carus university hospitalMax planck instituteMolecular cell biology

Behavior of early pancreas cells: Study

The study states how the different cells in the pancreas play important roles in regulating the blood sugar. | Health

Belin selcen beydag tasAnne grapin bottonNovo nordisk foundationMax planck institute of molecular cell biologyUniversity of copenhagenMax planck instituteMolecular cell biologyPancreas cellsEarly pancreasEarly pancreas cellsBehavior of early pancreas cells

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