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Printable Handouts
Navigable Slide Index
- Introduction
- Presentation thesis
- Regional circulatory regulation
- Normal liver function
- When the liver is sick
- Normal liver
- Cirrhotic liver
- Portal pressure (1)
- Portal pressure (2)
- Cirrhosis and portal pressure
- Initial circulatory effects of hypertension
- Effect of portal hypertension on regional circulation
- Effective plasma volume
- Effects on renal circulation
- The arteriolar vasodilation hypothesis in cirrhosis
- Cirrhosis and portal pressure
- The cardiac output at rest in Laennec's cirrhosis
- The hyperdynamic circulation
- Shunting of portal blood flow (1)
- Esophageal varices
- Ascites (liver sweat)
- Renal function and effective plasma volume
- Mortality after decompensation
- TIPS procedure
- Shunting of portal blood flow (2)
- MELD score as a predictor of death after TIPS
- Causes of death following TIPS
- Cardiac hemodynamics in alcoholic patients
- Cirrhotic cardiomyopathy
- Pulmonary hypertension
- Portopulmonary hypertension
- Causes of portopulmonary hypertension
- Portopulmonary hypertension - statistics
- Hepatopulmonary syndrome (1)
- Hepatopulmonary syndrome (2)
- Hepatopulmonary syndrome (3)
- Consequences of portal hypertension
- Orthotopic liver transplantation - the only remedy
- Thanks
Topics Covered
- Portal hypertension causes regional circulatory derangements that result in extra- and intra-vascular volume overload and organ dysfunction
- Vascular tone is mediated by autonomic input and chemical mediators many of which are released by local vascular endothelium
- Intrahepatic portal hypertension develops as a result of anatomic changes in the cirrhotic liver that cause sinusoidal narrowing and loss of compliance
- Reflex SMA vasoconstriction and portosystemic shunting up-regulate VEGF eNOS and iNOS with resultant vasodilation
- There is secondary: ADH secretion with retention of free water; renal salt retention; renal afferent arteriolar vasoconstriction
- Affected individuals develop progressive volume overload with associated afterload reduction and increases in cardiac output (hyperdynamic circulation)
- Fluid is forced off the surface of the liver and accumulates in the abdominal cavity as ascites
- Blood is shunted around the liver through latent venous connections that become varices
- Renal function is impaired (hepatorenal syndrome)
- Volume overload may cause secondary pulmonary hypertension
- Affected individuals may also develop primary pulmonary hypertension due to anatomic alterations of pulmonary microvasculature (porto-pulmonary hypertension)
- The ability of the heart to respond to stress is impaired
- Patients develop intrapulmonary shunts that cause hypoxemia (hepatopulmonary syndrome)
- The only real remedy for these problems is orthotopic liver transplantation
Links
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Talk Citation
Reinus, J. (2018, June 15). Portal hypertension [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved November 21, 2024, from https://doi.org/10.69645/QFOA3027.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. John Reinus has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
A selection of talks on Gastroenterology & Nephrology
Transcript
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0:00
Hello, and welcome to this Henry
Stewart Lecture on Portal Hypertension.
My name is John Reinus,
an I am chief of Clinical Hepatology at
the Montefiore Medical Center in New York,
and Professor of Clinical medicine at
the Albert Einstein College of Medicine.
0:18
My thesis in this presentation is,
that portal hypertension causes multiple
regional circulatory derangements,
that result in extra and intravascular
volume overload and organ dysfunction.
It is this volume overload and
consequent organ dysfunction,
that are responsible for the clinical
signs and symptoms of portal hypertension,
in affected individuals.
0:43
The circulatory system can be compared
to the plumbing system of a large city.
At various times, different parts
of the city require a greater flow.
And similarly at different
times throughout the day,
different parts of the body require
greater circulation of blood.
The circulatory system, therefore
needs some form of regulatory control.
And this is provided by the autonomic
input from the central nervous system,
in response to signals from a variety of
receptors, including mechanoreceptors,
osmoreceptors, chemoreceptors and
thermoreceptors.
In addition, regulation is provided
by the endothelial release of
a number of short acting chemical
mediators, including nitric oxide,
carbon monoxide,
prostacyclin and endothelin.
1:36
The role of the liver is
to act as a metabolically
active filter within the circulation.
Blood enters the liver from the splanchnic
veins containing a variety of nutrients,
as well as potential toxins.
It is filtered, the nutrients
are acted on by the liver cells.
Toxins are removed, and then the blood
is returned to the central circulation.