Noncirrhotic portal hypertension can be caused by extrahepatic portal vein obstruction (EHPVO). EHPVO is a vascular disorder characterized by obstruction of the extrahepatic portal vein, which can lead to portal hypertension without liver disease. In children, EHPVO is a major cause of portal hypertension and gastrointestinal bleeding. The clinical features of EHPVO in children commonly include variceal bleeding and splenomegaly.
POSTERIOR URETHRAL VALVES- Pediatric Surgery
• Dear viewers,
• Greetings from “ Surgical Educator”
• Today I have uploaded one more video in Pediatric Surgery/Pediatric Urology- “ Posterior Urethral Valves”
• Posterior Urethral Valves is the congenital cause for Bladder Outlet Obstruction, resulting in abnormal development of the kidneys as well as the bladder.
• In this video, I talked about the learning outcomes, introduction, etiopathogenesis, clinical features, investigations, differential diagnosis, treatment, follow-up and prognosis of “ Posterior Urethral Valves”
• I hope you will enjoy the video for its educational value.
• You can watch all my teaching videos in the following links
• surgicaleducator.blogspot.com youtube.com/c/surgicaleducator
• Thank you for watching the video.
POSTERIOR URETHRAL VALVES- Pediatric Surgery
• Dear viewers,
• Greetings from “ Surgical Educator”
• Today I have uploaded one more video in Pediatric Surgery/Pediatric Urology- “ Posterior Urethral Valves”
• Posterior Urethral Valves is the congenital cause for Bladder Outlet Obstruction, resulting in abnormal development of the kidneys as well as the bladder.
• In this video, I talked about the learning outcomes, introduction, etiopathogenesis, clinical features, investigations, differential diagnosis, treatment, follow-up and prognosis of “ Posterior Urethral Valves”
• I hope you will enjoy the video for its educational value.
• You can watch all my teaching videos in the following links
• surgicaleducator.blogspot.com youtube.com/c/surgicaleducator
• Thank you for watching the video.
By Dr. Usama Ragab, Zagazig Faculty of Medicine
PSC incidence ranges from 0.5 to 1.25 cases/100 000.
The prevalence of the disease ranges between six and 20 cases/100 000.
Men are more likely to be affected (70%).
Prevalence of PSC may be increased in first degree relatives of PSC patients
Extra Hepatic Portal Vein Obstruction (EHPVO) with Extensive Mesenteric Venou...Apollo Hospitals
Extra hepatic portal vein obstruction (EHPVO) is the commonest cause of portal hypertension in children. EHPVO along with thrombosis of splenic vein (SV) and superior mesenteric vein (SMV) is an uncommon condition causing extensive varices formation in the oesophagus, stomach and in other parts of gastrointestinal tract including rectal varix as well as splenomegaly and associated hypersplenism. Most commonly the child presents with hematmesis and due to extensive varices it is difficult to obliterate the varices using endoscopic therapy. Due to thrombosed SMV and SV shunt surgery is not possible. We describe here a case of EHPVO with SMV and SV thrombosis with bleeding gastric varix that underwent gastro- oesophageal devascularisation with splenectomy and oesophageal transection to prevent recurrent bleed from gastric varices.
By Dr. Usama Ragab, Zagazig Faculty of Medicine
PSC incidence ranges from 0.5 to 1.25 cases/100 000.
The prevalence of the disease ranges between six and 20 cases/100 000.
Men are more likely to be affected (70%).
Prevalence of PSC may be increased in first degree relatives of PSC patients
Extra Hepatic Portal Vein Obstruction (EHPVO) with Extensive Mesenteric Venou...Apollo Hospitals
Extra hepatic portal vein obstruction (EHPVO) is the commonest cause of portal hypertension in children. EHPVO along with thrombosis of splenic vein (SV) and superior mesenteric vein (SMV) is an uncommon condition causing extensive varices formation in the oesophagus, stomach and in other parts of gastrointestinal tract including rectal varix as well as splenomegaly and associated hypersplenism. Most commonly the child presents with hematmesis and due to extensive varices it is difficult to obliterate the varices using endoscopic therapy. Due to thrombosed SMV and SV shunt surgery is not possible. We describe here a case of EHPVO with SMV and SV thrombosis with bleeding gastric varix that underwent gastro- oesophageal devascularisation with splenectomy and oesophageal transection to prevent recurrent bleed from gastric varices.
Portosystemic Shunt for Treatment of Symptomatic Varices in Polycythemia Vera...georgemarini
Myeloproliferative disorders are commonly associated with portal vein thrombosis, which can lead to extensive and symptomatic variceal disease due to the development of noncirrhotic portal hy- pertension. In severe cases, a decline in liver synthetic function may indicate the need for liver transplantation
Transfusion Medicine support in live related combined liver and kidney transp...Apollo Hospitals
Combined liver and kidney transplantation (CLKT) is the procedure of choice for patients with dual-organ failure. Transfusion Medicine support in live related combined liver and kidney transplantation (CLKT) not only involves the provision of safest possible blood and histocompatibility testing (HLA typing & CDC Crossmatch) but also ensures better patient care due to availability of various advance immunohematological techniques in a time bound frame. A fully equipped functional and sophisticated blood bank and HLA lab is a must in the hospitals where such surgeries are done.
brief lecture notes for 5th sem MBBS, on portal hypertension and varices. Introduction to portal hypertension and esophageal and gastric varices and management of variceal bleeding.
This is a slide presentation for MBBS students. a brief overview of hemochromatosis, an iron overload condition. overview of hemochromatosis, pathophysiology, clinical features, approach, and management
Liver transplantation; notes of DM/DNB/SpecialistsPratap Tiwari
Liver transplantation; extensive notes of DM/DNB/Specialists. This was my notes for my exam compiled from several sources, credit goes to original authors. This is just for quick revision
This is a lecture note for 5th-semester MBBS students. Lecture notes on hepatology, liver disease, and liver abscess. Introduction to a liver abscess, pyogenic liver abscess, causes, approach and management of liver abscess.
This is a lecture note for 5th semester MBBS students. Lecture notes on hepatology, liver disease, alcoholic liver disease, alcohol-related liver disease, portal hypertension, hepatic encephalopathy, and acute liver failure. Introduction to acute liver failure, causes, approach, and management of acute liver failure .
This is a lecture note for 5th semester MBBS students. Lecture notes on hepatology, liver disease, alcoholic liver disease, alcohol-related liver disease, portal hypertension, and hepatic encephalopathy. Introduction to hepatic encephalopathy, causes, differentials, approach, and management of hepatic encephalopathy .
This is a lecture note for 5th semester MBBS students. Lecture notes on hepatology, liver disease, alcoholic liver disease, alcohol-related liver disease, alcoholic hepatitis, portal hypertension, ascites. Introduction to ascites and management of ascites.
This is a lecture note for 5th semester MBBS students. Lecture notes on hepatology, liver disease, alcoholic liver disease, alcohol-related liver disease, portal hypertension, ascites. Introduction to ascites and management of ascites.
Chronic liver disease, lecture presentation for 5th sem MBBS students. Introduction to chronic liver disease, notes on liver fibrosis, alcoholic hepatitis, liver histology and overview.
Knee anatomy and clinical tests 2024.pdfvimalpl1234
This includes all relevant anatomy and clinical tests compiled from standard textbooks, Campbell,netter etc..It is comprehensive and best suited for orthopaedicians and orthopaedic residents.
Recomendações da OMS sobre cuidados maternos e neonatais para uma experiência pós-natal positiva.
Em consonância com os ODS – Objetivos do Desenvolvimento Sustentável e a Estratégia Global para a Saúde das Mulheres, Crianças e Adolescentes, e aplicando uma abordagem baseada nos direitos humanos, os esforços de cuidados pós-natais devem expandir-se para além da cobertura e da simples sobrevivência, de modo a incluir cuidados de qualidade.
Estas diretrizes visam melhorar a qualidade dos cuidados pós-natais essenciais e de rotina prestados às mulheres e aos recém-nascidos, com o objetivo final de melhorar a saúde e o bem-estar materno e neonatal.
Uma “experiência pós-natal positiva” é um resultado importante para todas as mulheres que dão à luz e para os seus recém-nascidos, estabelecendo as bases para a melhoria da saúde e do bem-estar a curto e longo prazo. Uma experiência pós-natal positiva é definida como aquela em que as mulheres, pessoas que gestam, os recém-nascidos, os casais, os pais, os cuidadores e as famílias recebem informação consistente, garantia e apoio de profissionais de saúde motivados; e onde um sistema de saúde flexível e com recursos reconheça as necessidades das mulheres e dos bebês e respeite o seu contexto cultural.
Estas diretrizes consolidadas apresentam algumas recomendações novas e já bem fundamentadas sobre cuidados pós-natais de rotina para mulheres e neonatos que recebem cuidados no pós-parto em unidades de saúde ou na comunidade, independentemente dos recursos disponíveis.
É fornecido um conjunto abrangente de recomendações para cuidados durante o período puerperal, com ênfase nos cuidados essenciais que todas as mulheres e recém-nascidos devem receber, e com a devida atenção à qualidade dos cuidados; isto é, a entrega e a experiência do cuidado recebido. Estas diretrizes atualizam e ampliam as recomendações da OMS de 2014 sobre cuidados pós-natais da mãe e do recém-nascido e complementam as atuais diretrizes da OMS sobre a gestão de complicações pós-natais.
O estabelecimento da amamentação e o manejo das principais intercorrências é contemplada.
Recomendamos muito.
Vamos discutir essas recomendações no nosso curso de pós-graduação em Aleitamento no Instituto Ciclos.
Esta publicação só está disponível em inglês até o momento.
Prof. Marcus Renato de Carvalho
www.agostodourado.com
These simplified slides by Dr. Sidra Arshad present an overview of the non-respiratory functions of the respiratory tract.
Learning objectives:
1. Enlist the non-respiratory functions of the respiratory tract
2. Briefly explain how these functions are carried out
3. Discuss the significance of dead space
4. Differentiate between minute ventilation and alveolar ventilation
5. Describe the cough and sneeze reflexes
Study Resources:
1. Chapter 39, Guyton and Hall Textbook of Medical Physiology, 14th edition
2. Chapter 34, Ganong’s Review of Medical Physiology, 26th edition
3. Chapter 17, Human Physiology by Lauralee Sherwood, 9th edition
4. Non-respiratory functions of the lungs https://academic.oup.com/bjaed/article/13/3/98/278874
263778731218 Abortion Clinic /Pills In Harare ,sisternakatoto
263778731218 Abortion Clinic /Pills In Harare ,ABORTION WOMEN’S CLINIC +27730423979 IN women clinic we believe that every woman should be able to make choices in her pregnancy. Our job is to provide compassionate care, safety,affordable and confidential services. That’s why we have won the trust from all generations of women all over the world. we use non surgical method(Abortion pills) to terminate…Dr.LISA +27730423979women Clinic is committed to providing the highest quality of obstetrical and gynecological care to women of all ages. Our dedicated staff aim to treat each patient and her health concerns with compassion and respect.Our dedicated group ABORTION WOMEN’S CLINIC +27730423979 IN women clinic we believe that every woman should be able to make choices in her pregnancy. Our job is to provide compassionate care, safety,affordable and confidential services. That’s why we have won the trust from all generations of women all over the world. we use non surgical method(Abortion pills) to terminate…Dr.LISA +27730423979women Clinic is committed to providing the highest quality of obstetrical and gynecological care to women of all ages. Our dedicated staff aim to treat each patient and her health concerns with compassion and respect.Our dedicated group of receptionists, nurses, and physicians have worked together as a teamof receptionists, nurses, and physicians have worked together as a team wwww.lisywomensclinic.co.za/
Flu Vaccine Alert in Bangalore Karnatakaaddon Scans
As flu season approaches, health officials in Bangalore, Karnataka, are urging residents to get their flu vaccinations. The seasonal flu, while common, can lead to severe health complications, particularly for vulnerable populations such as young children, the elderly, and those with underlying health conditions.
Dr. Vidisha Kumari, a leading epidemiologist in Bangalore, emphasizes the importance of getting vaccinated. "The flu vaccine is our best defense against the influenza virus. It not only protects individuals but also helps prevent the spread of the virus in our communities," he says.
This year, the flu season is expected to coincide with a potential increase in other respiratory illnesses. The Karnataka Health Department has launched an awareness campaign highlighting the significance of flu vaccinations. They have set up multiple vaccination centers across Bangalore, making it convenient for residents to receive their shots.
To encourage widespread vaccination, the government is also collaborating with local schools, workplaces, and community centers to facilitate vaccination drives. Special attention is being given to ensuring that the vaccine is accessible to all, including marginalized communities who may have limited access to healthcare.
Residents are reminded that the flu vaccine is safe and effective. Common side effects are mild and may include soreness at the injection site, mild fever, or muscle aches. These side effects are generally short-lived and far less severe than the flu itself.
Healthcare providers are also stressing the importance of continuing COVID-19 precautions. Wearing masks, practicing good hand hygiene, and maintaining social distancing are still crucial, especially in crowded places.
Protect yourself and your loved ones by getting vaccinated. Together, we can help keep Bangalore healthy and safe this flu season. For more information on vaccination centers and schedules, residents can visit the Karnataka Health Department’s official website or follow their social media pages.
Stay informed, stay safe, and get your flu shot today!
NVBDCP.pptx Nation vector borne disease control programSapna Thakur
NVBDCP was launched in 2003-2004 . Vector-Borne Disease: Disease that results from an infection transmitted to humans and other animals by blood-feeding arthropods, such as mosquitoes, ticks, and fleas. Examples of vector-borne diseases include Dengue fever, West Nile Virus, Lyme disease, and malaria.
Pulmonary Thromboembolism - etilogy, types, medical- Surgical and nursing man...VarunMahajani
Disruption of blood supply to lung alveoli due to blockage of one or more pulmonary blood vessels is called as Pulmonary thromboembolism. In this presentation we will discuss its causes, types and its management in depth.
Lung Cancer: Artificial Intelligence, Synergetics, Complex System Analysis, S...Oleg Kshivets
RESULTS: Overall life span (LS) was 2252.1±1742.5 days and cumulative 5-year survival (5YS) reached 73.2%, 10 years – 64.8%, 20 years – 42.5%. 513 LCP lived more than 5 years (LS=3124.6±1525.6 days), 148 LCP – more than 10 years (LS=5054.4±1504.1 days).199 LCP died because of LC (LS=562.7±374.5 days). 5YS of LCP after bi/lobectomies was significantly superior in comparison with LCP after pneumonectomies (78.1% vs.63.7%, P=0.00001 by log-rank test). AT significantly improved 5YS (66.3% vs. 34.8%) (P=0.00000 by log-rank test) only for LCP with N1-2. Cox modeling displayed that 5YS of LCP significantly depended on: phase transition (PT) early-invasive LC in terms of synergetics, PT N0—N12, cell ratio factors (ratio between cancer cells- CC and blood cells subpopulations), G1-3, histology, glucose, AT, blood cell circuit, prothrombin index, heparin tolerance, recalcification time (P=0.000-0.038). Neural networks, genetic algorithm selection and bootstrap simulation revealed relationships between 5YS and PT early-invasive LC (rank=1), PT N0—N12 (rank=2), thrombocytes/CC (3), erythrocytes/CC (4), eosinophils/CC (5), healthy cells/CC (6), lymphocytes/CC (7), segmented neutrophils/CC (8), stick neutrophils/CC (9), monocytes/CC (10); leucocytes/CC (11). Correct prediction of 5YS was 100% by neural networks computing (area under ROC curve=1.0; error=0.0).
CONCLUSIONS: 5YS of LCP after radical procedures significantly depended on: 1) PT early-invasive cancer; 2) PT N0--N12; 3) cell ratio factors; 4) blood cell circuit; 5) biochemical factors; 6) hemostasis system; 7) AT; 8) LC characteristics; 9) LC cell dynamics; 10) surgery type: lobectomy/pneumonectomy; 11) anthropometric data. Optimal diagnosis and treatment strategies for LC are: 1) screening and early detection of LC; 2) availability of experienced thoracic surgeons because of complexity of radical procedures; 3) aggressive en block surgery and adequate lymph node dissection for completeness; 4) precise prediction; 5) adjuvant chemoimmunoradiotherapy for LCP with unfavorable prognosis.
Tom Selleck Health: A Comprehensive Look at the Iconic Actor’s Wellness Journeygreendigital
Tom Selleck, an enduring figure in Hollywood. has captivated audiences for decades with his rugged charm, iconic moustache. and memorable roles in television and film. From his breakout role as Thomas Magnum in Magnum P.I. to his current portrayal of Frank Reagan in Blue Bloods. Selleck's career has spanned over 50 years. But beyond his professional achievements. fans have often been curious about Tom Selleck Health. especially as he has aged in the public eye.
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Introduction
Many have been interested in Tom Selleck health. not only because of his enduring presence on screen but also because of the challenges. and lifestyle choices he has faced and made over the years. This article delves into the various aspects of Tom Selleck health. exploring his fitness regimen, diet, mental health. and the challenges he has encountered as he ages. We'll look at how he maintains his well-being. the health issues he has faced, and his approach to ageing .
Early Life and Career
Childhood and Athletic Beginnings
Tom Selleck was born on January 29, 1945, in Detroit, Michigan, and grew up in Sherman Oaks, California. From an early age, he was involved in sports, particularly basketball. which played a significant role in his physical development. His athletic pursuits continued into college. where he attended the University of Southern California (USC) on a basketball scholarship. This early involvement in sports laid a strong foundation for his physical health and disciplined lifestyle.
Transition to Acting
Selleck's transition from an athlete to an actor came with its physical demands. His first significant role in "Magnum P.I." required him to perform various stunts and maintain a fit appearance. This role, which he played from 1980 to 1988. necessitated a rigorous fitness routine to meet the show's demands. setting the stage for his long-term commitment to health and wellness.
Fitness Regimen
Workout Routine
Tom Selleck health and fitness regimen has evolved. adapting to his changing roles and age. During his "Magnum, P.I." days. Selleck's workouts were intense and focused on building and maintaining muscle mass. His routine included weightlifting, cardiovascular exercises. and specific training for the stunts he performed on the show.
Selleck adjusted his fitness routine as he aged to suit his body's needs. Today, his workouts focus on maintaining flexibility, strength, and cardiovascular health. He incorporates low-impact exercises such as swimming, walking, and light weightlifting. This balanced approach helps him stay fit without putting undue strain on his joints and muscles.
Importance of Flexibility and Mobility
In recent years, Selleck has emphasized the importance of flexibility and mobility in his fitness regimen. Understanding the natural decline in muscle mass and joint flexibility with age. he includes stretching and yoga in his routine. These practices help prevent injuries, improve posture, and maintain mobilit
Report Back from SGO 2024: What’s the Latest in Cervical Cancer?bkling
Are you curious about what’s new in cervical cancer research or unsure what the findings mean? Join Dr. Emily Ko, a gynecologic oncologist at Penn Medicine, to learn about the latest updates from the Society of Gynecologic Oncology (SGO) 2024 Annual Meeting on Women’s Cancer. Dr. Ko will discuss what the research presented at the conference means for you and answer your questions about the new developments.
2. Introduction
• Portal hypertension is a clinical manifestation which is defined as the presence of a
Hepatic venous pressure gradient > 5 mmHg (1).
• The MC cause of PHTN is LC. There are, however, a variety of disorders which develop
PHTN without LC and falls under the category of Non-Cirrhotic portal hypertension.
• The diseases leading to NCPH are primarily vascular in nature and classified anatomically
on the basis of site of resistance to BF, as prehepatic, hepatic, and post-hepatic – hepatic
causes are further subdivided into pre-sinusoidal, sinusoidal and post-sinusoidal[2,3].
1. Sanyal AJ, Bosch J, Blei A, Arroyo V. Portal hypertension and its complications. Gastroenterology 2008;134:1715–1728.
2. Sarin SK, Kumar A. Noncirrhotic portal hypertension. Clin Liver Dis 2006;10:627–651.
3. Schouten JNL, Garcia-Pagan JC, Valla DC, Janssen HLA. Idiopathic noncirrhotic portal hypertension. Hepatology 2011;54:1071–1081.
4. Sarin SK, Agarwal SR. Extrahepatic portal vein obstruction. Semin Liver Dis 2002;22:43–58.
5. Garcia-Pagan JC, Hernandez-Guerra M, Bosch J. Extrahepatic portal vein thrombosis. Semin Liver Dis 2008;28:282–292.
Most of the times, PHT is a late manifestation of the primary disease. However, NCPF and EHPVO are two disorders,
which present only with features of PHT without any evidence of significant parenchymal dysfunction [2–5].
3. Causes of NCPH
Sarin SK. Idiopathic portal hypertension and extrahepatic portal venous obstruction. Hepatology International 2018, Volume 12, Supplement 1, pp 148–167
3
4. Definition: EHPVO
• As per the APASL:2006 consensus, EHPVO is defined as ‘‘a vascular disorder of liver,
characterized by obstruction of the extra-hepatic PV with or without involvement of
intra-hepatic PV radicles or splenic or SMV’’ [1].
• Baveno VI consensus incorporates recent thrombus in the PV in the definition along with
the presence of cavernoma, however, excludes LC and other liver diseases like NCPF, as
well as HCC, and emphasizes that EHPVO in these settings as different entity [2].
• Acute PVT does not necessarily lead to cavernoma formation and hence is excluded.
• Similarly, isolated occlusion of the SV/SMV has an altogether different etiological & clinical
presentation, and is, therefore, removed from the defining criteria of EHPVO.
1. Sarin SK, Sollano JD, Chawla YK, Amarapurkar D, Hamid S, Hashizume M, et al. Members of the APASL working party on portal hypertension. Consensus on extra-hepatic portal vein obstruction. Liver Int 2006;26:512–519.
2. De Franchis R, Baveno VI Faculty. Expanding consensus in portal hypertension report of the Baveno VI consensus workshop: stratifying risk and individualizing care for portal hypertension. J Hepatol 2015;63:743–752
EHPVO is a distinct disease entity and should neither be considered an event in the natural history nor an association of
primary liver disease.
4
5. • It is a major cause of PHTN (54%) and UGIB in children (68–84%) from the developing
world [1,2].
• In the West, non-cirrhotic non-tumoral PVT is the second most frequent cause of PHTN in
adults after cirrhosis [4], while in children, it constitutes a small proportion (11–12%) [2].
1. Poddar U, Thapa BR, Rao KL, Singh K. Etiological spectrum of esphageal varices due to portal hypertension in Indian children: is it different from the West? J Gastroenterol Hepatol 2008;23:1354–1357
2. Fagundes ED, Ferreira AR, Roquete ML, Penna FJ, Goulart EM, Figueiredo Filho PP, Bittencourt PF, Carvalho SD, Albuquerque W. Clinical and laboratory predictors of esophageal varices in children and adolescents with
portal hypertension syndrome. J Pediatr Gastroenterol Nutr 2008;46(2):178–183
3. Duche´ M, Ducot B, Ackermann O, Gue´rin F, Jacquemin E, Bernard O. Portalhypertension in children: high-risk varices, primary prophylaxis and consequencesof bleeding. J Hepatol 2017;66(2):320–327
4. Garcia-Pagan JC, Hernandez-Guerra M, Bosch J. Extrahepatic portal vein thrombosis. Semin Liver Dis 2008;28(3):282–292
5
From the largest French series on pediatric PHTN, EHPVO constitutes 12% of overall causes, and second
commonest single etiology after biliary atresia [3].
6. Etiological factors differ among pediatric and
adult populations and despite extensive
history and laboratory work-up, idiopathic
cases constitute around 13–28% of adults and
26–62% of children with EHPVO.
Congenital anomalies have been reported in
30% of children with EHPVO—more often in
those without history of omphalitis—the
commonest ones were cardiovascular and
urinary tract abnormalities, others had
Turner’s syndrome, cleft lip and palate,
coloboma, external ear, and limb
deformities [1,2].
1. Abd El-Hamid N, Taylor RM, Marinello D, et al. Aetiology and management of extrahepatic
portal vein obstruction in children: King’s College Hospital experience. J Pediatr Gastroenterol
Nutr 2008;47:630–634
2. Odie`vre M, Pige´ G, Alagille D. Congenital abnormalities associated with extrahepatic portal
hypertension. Arch Dis Child 1977;52(5):383–385
6
7. Frequency of causes a/with EHPVO in children.
Calderón JF, et al. Guidelines for the diagnosis and treatment of extrahepatic portal vein obstruction (EHPVO) in children. Annals of hepatology 2013; 12 (Suppl.1): s3-s24
7
9. Pathogenetic theories
• The Unifying hypothesis proposed by Sarin and Kumar gives a common explanation of the
pathogenesis of NCPF/IPH and EHPVO [1].
• A major thrombotic event occuring at a young age involves main PV and results in EHPVO,
whereas repeated microthrombotic events later in life involve small or medium branches
of PV leading to NCPF.
As per dual theory proposed by Schouten et al, both increased splenic blood flow and intrahepatic obstruction
(obliterative venopathy) have a role. High levels of inducible (iNOS) as well as endothelial nitric oxide synthase
(eNOS) in splenic endothelial cells lead to dilatation of splenic sinuses and increased splenic venous inflow [2].
1. Sarin SK, Kumar A. Noncirrhotic portal hypertension. Clin Liver Dis 2006;10:627–651.
2. Schouten JNL, Garcia-Pagan JC, Valla DC, Janssen HLA. Idiopathic noncirrhotic portal hypertension. Hepatology 2011;54:1071–1081.
9
10. Pathogenetic theories
• Endothelial-mesenchymal transition (EndMT) theory by Sato and Kitao et al. says that
vascular endothelial cells of portal venules acquire myofibroblastic features as evidenced
by reduced expression of vascular endothelial cell marker CD34, and increased expression
of mesenchymal cell markers S100A4, a-SMA, COL1A1, and pSmad2.
• Transforming growth factor-b1 (TGF-b1) acts as a potent inducer of EndMT. Following
transformation, these cells synthesize type I collagen, which causes obliterative portal
venopathy and presinusoidal PHT [1].
1. Sato Y, Nakanuma Y. Role of endothelial-mesenchymal transition in idiopathic portal hypertension. Histol Histopathol 2013;28:145–154.
10
11. Pathogenesis
• In most of the pts, the acute inciting event leading to EHPVO often goes unrecognized and
thrombus gradually becomes organized.
• Multiple tortuous hepatopetal collaterals, which develop around and inside the thrombus
within the PV, known as cavernoma, appear within a span of 6–20 days following PV flow
interruption.
• These collaterals tend to overcome the prehepatic obstruction and terminate in middle-
sized intrahepatic PV branches, but remain insufficient to decompress high pressure in the
splanchnic bed and to compensate the reduction of total hepatic blood flow.
• Hence, hepatofugal vessels do develop at the sites of portosystemic communications and
transform into varices, hemorrhoids, collaterals, or spontaneous shunts [1].
11
12. Clinical features
• EHPVO has a bimodal age of presentation—those secondary to UVC, omphalitis, or
perinatal events usually manifest early (3 years), while those following intraabdominal
infections or idiopathic ones manifest late (8 years) or sometimes into early adulthood [1].
• Variceal bleed (49–85%) and splenomegaly (63–88%) are the commonest presentations in
children. Mean ages of first bleeding episode are around 3.8–5.2 years [2-10].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Poddar U, Thapa BR, Rao KL, Singh K. Etiological spectrum of esphageal varices due to portal hypertension in Indian children: is it different from the West? J Gastroenterol Hepatol 2008;23:1354–1357
3. El-Karaksy H, El-Koofy N, El-Hawary M, et al. Prevalence of factor V Leiden mutation and other hereditary thrombophilic factors in Egyptian children with portal vein thrombosis: results of a single-center case–control study. Ann Hematol 2004;83:712–715
4. El-Karaksy HM, El-Koofy N, Mohsen N, Helmy H, Nabil N, El-Shabrawi M. Extrahepatic portal vein obstruction in Egyptian children. J Pediatr Gastroenterol Nutr 2015;60(1):105–109
5. Abd El-Hamid N, Taylor RM, Marinello D, et al. Aetiology and management of extrahepatic portal vein obstruction in children: King’s College Hospital experience. J Pediatr Gastroenterol Nutr 2008;47:630–634
6. Pietrobattista A, Luciani M, Abraldes JG, Candusso M, Pancotti S, Soldati M, Monti L, Torre G, Nobili V. Extrahepatic portal vein thrombosis in children and adolescents: Influence of genetic thrombophilic disorders. World J Gastroenterol 2010;16(48):6123–6127
7. Weiss B, Shteyer E, Vivante A, et al. Etiology and long-term outcome of extrahepatic portal vein obstruction in children. World J Gastroenterol 2010;16:4968–4972
8. Ferri PM, Rodrigues Ferreira A, Fagundes ED, Xavier SG, Dias Ribeiro D, et al. Evaluation of the presence of hereditary and acquired thrombophilias in brazilian children and adolescents with diagnoses of portal vein thrombosis. J Pediatr Gastroenterol Nutr 2012;55(5):599–
604
9. Shneider BL, de Ville de Goyet J, Leung DH, Srivastava A, Ling SC, Duche´ M, et al. Primary prophylaxis of variceal bleeding in children and the role of Meso-Rex bypass: summary of the Baveno VI pediatric satellite symposium. Hepatology 2016;63(4):1368–1380
10. Alberti D, Colusso M, Cheli M, Ravelli P, Indriolo A, Signorelli S, Fagiuoli S, D’Antiga L. Results of a stepwise approach to extrahepatic portal vein obstruction in children. J Pediatr Gastroenterol Nutr 2013;57(5):619–626
12
13. • VH episodes are often recurrent, related to febrile illnesses, use of NSAID, and ↑ in
frequency and severity with age till adolescence.
• In contrast to cirrhosis, these bleeding episodes are well tolerated in view of preserved
liver synthetic functions.
1. Noronha Ferreira C, Seijo S, Plessier A, Silva-Junior G, Turon F, Rautou PE, et al. Natural history and management of esophagogastric varices in chronic noncirrhotic, nontumoral portal vein thrombosis. Hepatology
2016;63(5):1640–1650 13
From a series of 178 adults followed up with splanchnic venous thrombosis, variceal bleeding was seen
in 32%; 15% at presentation and 17% at a median follow-up of 4 years. The source of bleeding was EV
in 84%, GV in 7%, PHG in 7%, and ectopic varices in 2% [1].
14. • Moderate splenomegaly is characteristically present which ↑ with the age of the child,
but without any correlation with frequency and severity of bleeds [1].
• Ascites is present in 4% of children and in up to 21% of adults and is often transient,
related to the bleeding episode, growth failure, and hypoalbuminemia [2,3].
• Persistent ascites is usually seen late in the course of disease as part of prolonged duration
of PHTN with subsequent progressive deterioration of liver functions [3].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Abd El-Hamid N, Taylor RM, Marinello D, et al. Aetiology and management of extrahepatic portal vein obstruction in children: King’s College Hospital experience. J Pediatr Gastroenterol Nutr 2008;47:630–634
3. Rangari M, Gupta R, Jain M, Malhotra V, Sarin SK. Hepatic dysfunction in patients with extrahepatic portal venous obstruction. Liver Int 2003;23(6):434–439 14
15. • In study by Sarin et al. in 499 (1983-2005) EHPVO pts. The clinical and demographic profile
is as shown below.[1]
1. Kumar A, Sharma BC, Sarin SK. Profile of gastrointestinal hemorrhage in 499 patients of extra-hepatic portal vein obstruction (EHPVO) [abstract] Indian J
Gastroenterol. 2005;24(Suppl 1):A69. 15
16. Laboratory evaluation
• Hypersplenism is commonly seen, in up to 85%, but is mostly asymptomatic.
• Liver functions are well preserved in most individuals; a proportion (4–9%) may have
abnormal transaminases.
• Elevations of alkaline phosphatase and GGT are seen with development of portal
biliopathy, while hypoalbuminemia may be seen during bleed episodes particularly in the
setting of growth failure [1, 2].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Garcia-Pagan JC, Hernandez-Guerra M, Bosch J. Extrahepatic portal vein thrombosis. Semin Liver Dis 2008;28(3):282–292 16
17. Hemodynamics
• Intra-splenic (ISP) and intra-variceal pressures (IVP) are significantly elevated in both
NCPF/IPH as well as EHPVO as compared to WHVP and intrahepatic pressures (IHP),
suggesting a presinusoidal level of block.
• Hepatic blood flow is normal or decreased, depending on collateral flow and hepatic
arterial buffer response.
• Hyperdynamic circulatory state in EHPVO subjects has been shown to be comparable to
cirrhotics, which is possibly related to elevated nitric oxide levels [1,2].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Jha SK, Kumar A, Sharma BC, Sarin SK. Systemic and pulmonary hemodynamics in patients with extrahepatic portal vein obstruction is similar to compensated cirrhotic patients. Hepatol Int 2009;3:384–391 17
18. Endoscopic findings
• Esophageal, gastric, and anorectal varices are common (90 Vs 70, 44 Vs 22, and 89 Vs
56%), while PHG is less frequent (5 Vs 11%) in adults with EHPVO in contrast to their
cirrhotic counterparts [1-5].
• EV are more often large. IGV1 are present in up to 6% of EHPVO pts.
• Comparable data in pediatric population also reveal that EHPVO children have greater
proportion of high risk varices than the cirrhotic etiologies (70 vs 32%)—EV are seen in 85–
94% and two-thirds have large varices with RCS [6].
• PHG usually develops after variceal eradication, and is often transient, non-progressive,
and asymptomatic [3,7,8].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Sarin SK, Lahoti D, Saxena SP, Murthy NS, Makwana UK. Prevalence, classification and natural history of gastric varices: a long-term follow up study in 568 portal hypertension patients. Hepatology 1992;16:1343–1349
3. Sarin SK, Shahi HM, Jain M, et al. The natural history of portal hypertensive gastropathy: influence of variceal eradication. Am J Gastroenterol 2000;95:2888–2893
4. Chawla Y, Dilawari JB. Anorectal varices—their frequency in cirrhotic and non-cirrhotic portal hypertension. Gut 1991;32:309–311
5. Noronha Ferreira C, Seijo S, Plessier A, Silva-Junior G, Turon F, Rautou PE, et al. Natural history and management of esophagogastric varices in chronic noncirrhotic, nontumoral portal vein thrombosis. Hepatology
2016;63(5):1640–1650
6. Duche´ M, Ducot B, Ackermann O, Gue´rin F, Jacquemin E, Bernard O. Portalhypertension in children: high-risk varices, primary prophylaxis and consequencesof bleeding. J Hepatol 2017;66(2):320–327
7. Zargar SA, Yattoo GN, Javid G, Khan BA, Shah AH, Shah NA, et al. Fifteen-year follow up of endoscopic injection sclerotherapy in children with extrahepatic portal venous obstruction. J Gastroenterol Hepatol 2004;19:139–
145
8. Itha S, Yachha SK. Endoscopic outcome beyond esophageal variceal eradication in children with extrahepatic portal venous obstruction. J Pediatr Gastroenterol Nutr 2006;42(2):196–200 18
19. Radiological features
• Doppler USG of splenoportal axis reveals cavernoma and is the diagnostic investigation of
choice with a SN and SP of >95% [1, 2].
• Splenoportography or arterial portography, used in old days, has now become obsolete
and has been replaced by non-invasive methods—CT and magnetic resonance (MR)
portovenography. The later two techniques also provide an anatomical road-map prior to
shunt surgery [3].
• Splenic stiffness on TE is high in pts with EHPVO and a value above 42.8 kPa is shown to
predict variceal bleed with a SN and SP of 88 and 94%, respectively [4].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
2. Garcia-Pagan JC, Hernandez-Guerra M, Bosch J. Extrahepatic portal vein thrombosis. Semin Liver Dis 2008;28(3):282–292
3. Shneider BL, de Ville de Goyet J, Leung DH, Srivastava A, Ling SC, Duche´ M, et al. Primary prophylaxis of variceal bleeding in children and the role of Meso-Rex bypass: summary of the Baveno VI pediatric satellite
symposium. Hepatology 2016;63(4):1368–1380
4. Sharma P, Mishra SR, Kumar M, Sharma BC, Sarin SK. Liver and spleen stiffness in patients with extrahepatic portal vein obstruction. Radiology 2012;263(3):893–899
19
20. Liver biopsy
• Liver biopsy is not required in children with EHPVO unless and until there is a strong
clinical suspicion of underlying liver disease.
• In adults with EHPVO, there may be occasions where liver biopsy is required to rule out
cirrhosis [1].
1. De Franchis R, Baveno VI Faculty. Expanding consensus in portal hypertension report of the Baveno VI consensus workshop: stratifying risk and individualizing care for portal
hypertension. J Hepatol 2015;63:743–752 20
21. Diagnosis
• Diagnosis of EHPVO is based on Baveno VI consensus, i.e., demonstration of portal
cavernoma on USG Doppler in the absence of features of cirrhosis or CLD.
• Liver biopsy and HVPG are recommended only if the liver is dysmorphic on imaging or
with abnormal liver function tests [1].
1. De Franchis R, Baveno VI Faculty. Expanding consensus in portal hypertension report of the Baveno VI consensus workshop: stratifying risk and individualizing care for portal
hypertension. J Hepatol 2015;63:743–752 21
22. Natural history
• From a large series of 178 adults, the 1-, 3-, and 5-year survival is 99, 98, and 96%.
• Following eradication of EV with EST or EVL, GOV1 also decrease, while GOV2, IGV1 and
PHG increase [1,2,3].
• Mortality related to variceal bleed and intestinal infarction is <5% [4]. Although the long-
term (≥ 10-year) survival of EHPVO is around 90%, significant morbidity affects the QOL of
these children and young adults.
• In the pediatric age-group, growth failure, and splenomegaly, and in the older age-group,
portal biliopathy, minimal HE, parenchymal extinction, and complications related to
myeloproliferative state itself outnumber the bleeding risk [5].
1. Sarin SK, Lahoti D, Saxena SP, Murthy NS, Makwana UK. Prevalence, classification and natural history of gastric varices: a long-term follow up study in 568 portal hypertension patients. Hepatology 1992;16:1343–
1349
2. Sarin SK, Shahi HM, Jain M, et al. The natural history of portal hypertensive gastropathy: influence of variceal eradication. Am J Gastroenterol 2000;95:2888–2893
3. Zargar SA, Yattoo GN, Javid G, Khan BA, Shah AH, Shah NA, et al. Fifteen-year follow up of endoscopic injection sclerotherapy in children with extrahepatic portal venous obstruction. J Gastroenterol Hepatol
2004;19:139–145
4. Noronha Ferreira C, Seijo S, Plessier A, Silva-Junior G, Turon F, Rautou PE, et al. Natural history and management of esophagogastric varices in chronic noncirrhotic, nontumoral portal vein thrombosis. Hepatology
2016;63(5):1640–1650
5. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441 22
23. Natural history of bleeding after EV eradication in pts with EHPVO;
a 20-year follow-up
• Background Long-term follow-up studies of pts with EHPVO after eradication of EV using
EST are limited.
• Methods Between 1985 and 1994, 223 pts with bleeding EV due to EHPVO underwent
variceal eradication using EST. Regular annual clinical and endoscopic follow-up data were
available for 198 of these pts for a mean period of 19.8 (range: 14–23) yrs. These data
were analyzed retrospectively.
• Results Of the 198 pts, 34 (17.2%) had rebleeding after variceal eradication. The mean
duration from variceal eradication to recurrence of bleeding was 5.4 years. The causes of
rebleeding were: recurrent EV in 21 pts, FV in eight, PHG in three, and ectopic varices in
two pts. EV reappeared in 39 (19.7%) pts. Fundal varices appeared in 19 (9.5%) pts during
follow-up.
• Conclusions EST is an effective RX modality for bleeding EV due to EHPVO. During a
follow- up of nearly 20 yrs after variceal eradication, only about one-sixth of the pts had
recurrence of GIB. Bleeding was unusual after 10 yrs had passed since initial variceal
eradication.
Thomas V, Jose T, Kumar S. Natural history of bleeding after esophageal variceal eradication in patients with extrahepatic portal venous obstruction; a 20-year follow-up. Indian J Gastroenterol 2009(November–
December):28(6):206–211 23
24. Results of long term follow-up studies of children with
EHPVO after variceal eradication with EST
1. Zargar SA, Yattoo GN, Javid G, et al. Fifteen-year follow up of endoscopic injection sclerotherapy in children with extrahepatic portal venous obstruction. J Gastroenterol Hepatol 2004;19:139–45.
2. Yachha SK, Sharma BC, Kumar M, Khanduri A. Endoscopic sclerotherapy for esophageal varices in children with extrahepatic portal venous obstruction: a follow-up study. J Pediatr Gastroenterol Nutr 1997;24:49–52.
3. Howard ER, Stringer MD, Mowat AP. Assessment of injection sclerotherapy in the management of 152 children with oesophageal varices. Br J Surg 1988;75:404–8.
4. Hill ID, Bowie MD. Endoscopic sclerotherapy for control of bleeding varices in children. Am J Gastroenterol 1991;86:472–6.
5. Dilawari JB, Chawla YK, Ramesh GN, Mitra SK, Walia BN. Endoscopic sclerotherapy in children. J Gastroenterol Hepatol 1989;4:155–60. 24
25. Growth retardation
• Almost one-third to half of these children have wasting and stunting [1,2].
• The severity of growth failure is related to duration of PHT and is independent of appropriate
energy intake [1].
• Growth failure in EHPVO is multifactorial and is related to
(1) deprivation of portal blood flow leading to reduction of hepatotropic factors;
(2) malabsorption secondary to portal hypertensive enteropathy, the fact which is supported by
studies where improvement in growth indices is shown after portosystemic shunt surgery;
(3) early satiety due to massive splenomegaly;
(4) growth hormone (GH) resistance evidenced by high levels of GH and low levels of insulin-like
growth factor-1 (IGF-1) and IGF-binding protein-3 (IGFBP-3);
(5) anemia and hypersplenism [1-3].
1. Sarin SK, Bansal A, Sasan S, Nigam A. Portal-vein obstruction in children leads to growth retardation. Hepatology 1992;15:229–233
2. Mehrotra RN, Bhatia V, Dabadghao P, Yachha SK. Extrahepatic portal vein obstruction in children: anthropometry, growth hormone and insulin-like growth factor I. J Pediatri Gastroenterol Nutr 1997;25:520–523
3. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441
25
26. Impaired quality of life (QoL)
• Children with EHPVO have poor health-related QoL with lower median scores in physical,
social, emotional, and school functioning health domains in contrast to healthy children,
and these are primarily affected by spleen size and growth failure, but are unrelated to
variceal eradication.
• An improving QoL has been demonstrated following shunt surgery [87].
1. Krishna YR, Yachha SK, Srivastava A, Negi D, Lal R, Poddar U. Quality of life in children managed for extrahepatic portal venous obstruction. J Pediatr Gastroenterol Nutr 2010;50(5):531–536 26
27. Minimal hepatic encephalopathy (MHE)
• MHE is well described in the setting of EHPVO with or without shunt surgery [1-3].
• Following shunt surgery, toxic substances directly enter from portal blood into systemic
circulation, and hence, MHE is more prevalent with non-selective in comparison to
selective shunts. However, MHE is also seen in 32–35% cases in the absence of shunt on
the basis of abnormalities in critical flicker frequency, psychometric tests, and P300
auditory event-related potential [2].
• This may be related to chronic deprivation of hepatic BF leading to parenchymal
extinction and is evidenced by ↑ brain glutamine and glutamine/creatine ratio on MR
spectroscopy, ↑ blood ammonia, and proinflammatory cytokines (TNF-a and IL-6)[3].
1. Sharma P, Sharma BC, Puri V, Sarin SK. Minimal hepatic encephalopathy in patients with extrahepatic portal vein obstruction. Am J Gastroenterol 2008;103(6):1406–1412
2. Yadav SK, Srivastava A, Srivastava A, Thomas MA, Agarwal J, Pandey CM, et al. Encephalopathy assessment in children with extra-hepatic portal vein obstruction with MR, psychometry and critical flicker frequency. J
Hepatol 2010;52:348–354
3. Srivastava A, Yadav SK, Yachha SK, Thomas MA, Saraswat VA, Gupta RK. Pro-inflammatory cytokines are raised in extrahepatic portal venous obstruction with minimal hepatic encephalopathy. J Gastroenterol Hepatol
2011;26(6):979–986
27
28. Parenchymal extinction and liver dysfunction
• Progressive deterioration of liver functions, ascites, and encephalopathy may develop with
increasing age and prolonged duration of disease, and is a/with more severe portal
biliopathy changes [80].
28
30. Vascular anatomy of bile ducts
• General pattern of arterial supply and
venous drainage of the bile ducts is
quite similar.
• Two venous plexuses drain the biliary
tract.
• The fine reticular epicholedochal
venous plexus of Saint on the wall of
the bile duct drains into the
paracholedochal venous plexus of
Petren (also called marginal veins or
parabiliary venous system) which in
turn is connected to the posterior
superior pancreaticoduodenal vein,
gastrocolic trunk, right gastric vein,
SMV inferiorly and intrahepatic PV
branches superiorly.
Sharma MM. Portal cavernoma cholangiopathy: an endoscopic ultrasound based imaging approach. Journal of clinical and experimental hepatology 2014
30
31. Vascular anatomy of bile ducts
• Fine branches from the posterior
superior pancreaticoduodenal,
retroportal, gastroduodenal,
hepatic and cystic arteries form
two plexuses to supply the bile
ducts.
• The paracholedochal plexus, as
right and left marginal arteries,
runs along the margins of the bile
duct and the reticular
epicholedochal plexus lies on the
surface.
Sharma MM. Portal cavernoma cholangiopathy: an endoscopic ultrasound based imaging approach. Journal of clinical and experimental hepatology 2014
31
32. • In conditions of porto-mesenteric venous obstruction, these plexuses enlarge to form a
portal cavernoma surrounding the bile duct and bring about morphological changes
observed in PCC.
• Biliary changes seen in PCC may be due to compression by large collaterals or may be
ischemic, due to PVT and/or prolonged biliary compression.
Compression of paracholedochal venous plexus leads to varicoid type of PB involving entire biliary system giving a wavy or
undulating contour, and may show favourable response following shunt surgery.
Contrastingly, chronic inflammation and ischemia lead to scarring of bile duct wall causing fibrotic type of PB producing
single or multiple segmental strictures with upstream dilatation, the changes which are possibly non-reversible [1].
1. Shin SM, Kim S, Lee JW, Kim CW, Lee TH, Lee SH, Kim GH. Biliary abnormalities associated with portal biliopathy: evaluation on MR cholangiography. AJR Am J Roentgenol 2007;188(4):W341–W3417
32
33. Relationship between jaundice and EHPVO
• The relationship between jaundice and EHPVO was first reported by Gibson et al in
1965.[1]
• After that several reports of jaundice or varices along the bile duct in pts of EHPVO are
available in the literature.[2–4]
• The first description of the cholangiographic changes in EHPVO was by Williams et al in
1982 who demonstrated varices along the bile duct.[5]
• The first prospective case series describing biliary abnormalities on ERC in pts of EHPVO
was published by Dilawari and Chawla in 1992.[6] All 20 pts were found to have biliary
abnormalities similar to that seen in sclerosing cholangitis, mainly involving the left hepatic
duct and mid CBD.
1. Gibson JB, Johnston GW, Fulton TT, et al. Extrahepatic portal venous obstruction. Br J Surg. 1965;52:129–139.
2. Dan SJ, Train JS, Cohen BA, Mitty MA. Common bile duct varices cholangiographic demonstration of a hazardous portosystemic communication. Am J Gastroenterol. 1983;78:42–43.
3. Spira R, Widrich WC, Keush KD, Jackson BT, Katzman HE, Coello AA. Bile duct varices. Arch Surg. 1985;120:1194–1196.
4. Kim S, Chew FS. Choledochal varices. AJR. 1988;150:578–580.
5. Williams SM, Burnett DA, Mazer MU. Radiographic demonstration of common bile duct varices. Gastrointest Radiol. 1982; 7:69–70.
6. Dilawari JB, Chawla YK. Pseudosclerosing cholangitis in extrahepatic portal venous obstruction. Gut. 1992;33:272–276.
33
34. Biliary changes in EHPVO
• Subsequently biliary changes were also demonstrated in other causes of PHTN like NCPF
and LC, albeit with less frequency.[1-3]
• Biliary changes are seen on cholangiography in 81–100% of pts with EHPVO [4-12]
compared with 0–33% in LC [1,8,13] and 9–40% in NCPF.[1,13]
• This is probably due to the longer duration of PHTN in cases of EHPVO in many of whom
the obstruction to the PV occurs in infancy or childhood compared to LC. This is supported
by also a significantly higher frequency of anorectal varices, LEV and variceal bleeding in
pts with EHPVO compared with those having LC.[14,15]
• However, despite the high frequency of cholangiographic changes these same studies
found that only a minority of these pts are symptomatic.
References are at the end of the slides 34
35. Frequency of Biliary Changes in Pts with EHPVO
1
3
11
9
7
5
4
6
8
10
References are at the end of the slides 35
36. Portal biliopathy
• Sarin et al have defined portal biliopathy broadly as biliary ductal and gallbladder wall
abnormalities seen in pts with PHTN which though simple, is vague and would include
biliary changes due to any other disease in a pt who happens to have PHTN also.[1]
• Dhiman et al have proposed a more descriptive definition as abnormalities of the entire
biliary tract including intrahepatic and extrahepatic bile ducts, cystic duct and gallbladder
in pts with PHTN.[2]
• This definition also does not specify what changes are to be included and in which portions
of the biliary tree the changes are mandatory. The need was felt to have a definition which
would be specific to this condition so as to have reproducibility between studies from
different authors on this subject.
1. Sarin SK, Bhatia V, Makwana U. Portal biliopathy in extrahepatic portal venous obstruction [abstract]. Indian J Gastroenterol. 1992;11(suppl 1):A82. J Gastroenterol Hepatol2006;21:A504.
2. Dhiman RK, Behera A, Chawla YK, Dilawari JB, Suri S. Portal hypertensive biliopathy. Gut. 2007;56:1001–1008. 36
37. PCC: Definition
• IASL defined PCC as abnormalities in the extrahepatic biliary
system including the cystic duct and gallbladder with or without
abnormalities in the 1st and 2nd generation biliary ducts in a
patient with portal cavernoma.
• For the DX to be established all of the following 3 criteria would
have to be fulfilled:
1. The presence of a portal cavernoma,
2. Cholangiographic changes on ERC or MRC consistent with
typical changes described for this entity.
3. Absence of other causes of these biliary changes like bile
duct injury, PSC, CCA etc.
Yogesh Chawla, Swastik Agrawal. Portal Cavernoma Cholangiopathy – History, Definition and Nomenclature. J CLIN EXP HEPATOL 2014;4:S15–S17
37
38. • In EHPVO, it has been shown that those symptoms due to PCC usually start a decade later
than variceal bleed and are common when PVT extends into mesenteric veins or when the
bile duct is more acutely angulated [2-4].
• ERCP is the diagnostic gold standard; but is now being replaced by non-invasive MRCP
which when combined with portovenography helps in detection of choledochal and
epicholedochal varices [5].
• EUS is also useful for detection of perforators and intracholedochal varices [6].
• Natural history of biliopathy is poorly defined, but a slow progression is well known with
development of symptoms over a decade.
• Overall 4–10% pts develop complications like choledocholithiasis, cholangitis, and
secondary biliary cirrhosis [1,2]. {5-50 % [7]}
1. Chandra R, Kapoor D, Tharakan A, Chaudhary A, Sarin SK. Portal biliopathy. J Gastroenterol Hepatol 2001;16:1086–1092
2. Khuroo MS, Yattoo GN, Zargar SA, Javid G, Dar MY, Khan BA, et al. Biliary abnormalities associated with extrahepatic portal venous obstruction. Hepatology 1993;17:807–813
3. Shin SM, Kim S, Lee JW, Kim CW, Lee TH, Lee SH, Kim GH. Biliary abnormalities associated with portal biliopathy: evaluation on MR cholangiography. AJR Am J Roentgenol 2007;188(4):W341–W3417
4. Chattopadhyay S, Govindasamy M, Singla P, Varma V, Mehta N, Kumaran V, Nundy S. Portal biliopathy in patients with noncirrhotic portal hypertension: does the type of surgery affect outcome? HPB (Oxford) 2012;14(7):441–447
5. Jabeen S, Robbani I, Choh NA, Ashraf O, Shaheen F, Gojwari T, et al. Spectrum of biliary abnormalities in portal cavernoma cholangiopathy (PCC) secondary toidiopathic extrahepatic portal vein obstruction (EHPVO)—a prospective magnetic resonance
cholangiopancreaticography (MRCP) based study. Br J Radiol 2016;89(1068):20160636
6. Rai GP, Nijhawan S, Madhu MP, Sharma SS, Pokharna R. Comparative evaluation of magnetic resonance cholangiopancreatography/magnetic resonance splenoportovenography and endoscopic ultrasound in the diagnosis of portal cavernoma cholangiopathy. Indian J
Gastroenterol 2015;34(6):442–447
7. Duseja A. Portal cavernoma cholangiopathy (PCC)—clinical characteristics. J Clin Exp Hepatol. 2014;4:S34–S36.
38
39. INASL 2014 STATEMENT
• ERC has no diagnostic role because it is invasive and is a/with risk of complications. ERC is
reserved for therapeutic procedures.
• USG with Color Doppler should be the initial imaging modality for suspected cases of PCC
• MRC with MR portovenography is a noninvasive and comprehensive imaging technique,
and is the modality of choice for mapping of the biliary and vascular abnormalities in
patients with PCC
• MRC is as accurate as ERC in delineating biliary changes .
• MRC with MR portovenography demonstrates relationship of biliary changes with
collaterals and the presence of shuntable vein. It also helps to distinguish between bile
duct varices and CBD stones.
• EUS is useful when other imaging modalities are unrevealing or inconclusive in delineating
the cause of biliary obstruction.
39
41. MANAGEMENT
• Control and prophylaxis of variceal bleed
• Role of surgery
• Role of interventional radiology techniques
• Management of portal biliopathy
• Role of anti-coagulation
• Surveillance
41
45. Types of Shunts & its variants
Rex Shunt
Spleno-renal shunts
Meso-caval
Porta-caval
Selective (decompressing GEV but maintaining the SMV flow to the liver, as in DSRS .
Non-selective (decompressing all PHTN)
45
47. Algorithm for management of PCC in EHPVO
*EUS with Doppler for evaluation of biliary obstruction when other imaging modalities are unrevealing; endoscopic treatment includes endoscopic
sphincterotomy, stone extraction with or without the help of mechanical lithotripsy, plastic biliary stent placement, etc; endoscopic treatment
includes endoscopic sphincterotomy and stricture dilatation, followed by stone extraction with or without the help of mechanical lithotripsy. P1,
phase 1; P2, phase 2 and P3, phase 3. (Modified from Dhiman RK, et al. Gut 2007;56:1001–8). 47
48. The Three Phase approach
• Treatment of symptomatic PCC can be approached in a phased manner, first with biliary
clearance; second, with portal decompression; and third, with Surgery for persistent biliary
obstruction.
The third phase involves MX of cases who continue to have biliary obstruction and remain symptomatic despite shunt
procedure either due to blockage of shunt or due to persistent obstruction despite patent shunt. Second-stage biliary
drainage surgery like hepaticojejunostomy or choledochoduodenostomy surgery on the bile ducts is performed in
most of these cases with good resolution of symptoms as well as LFT.
In symptomatic PCC, the second phase involves portal decompression surgery by PSRS or TIPS.
In pts with biliary obstruction with or without calculi, the first phase involves sphincterotomy and biliary drainage,
with CBD stone removal if present.
48
49. Algorithm for management of PCC in EHPVO
• Symptomatic biliopathy is one of the few indications where portosystemic shunting is
considered even in the absence of variceal bleeding [1-4].
• Secondary biliary cirrhosis is the only accepted indication for LT in pts with complicated
PCC. (INASL)
1. Chaudhary A, Dhar P, Sarin SK, Sachdev A, Agarwal AK, Vij JC, et al. Bile duct obstruction due to portal biliopathy in extrahepatic portal hypertension: surgical management. Br J Surg 1998;85:326–329.
2. Oo YH, Olliff S, Haydon G, Thorburn D. Symptomatic portal biliopathy: a single centre experience from the UK. Eur J Gastroenterol Hepatol 2009;21:206–213.
3. Chattopadhyay S, Govindasamy M, Singla P, Varma V, Mehta N, Kumaran V, et al. Portal biliopathy in patients with non-cirrhotic portal hypertension: does the type of surgery affect outcome? HPB (Oxford)2012;14:441–
447.
4. Agarwal AK, Sharma S, Singh S, Agarwal S, Girish SP. Portal biliopathy: a study of 39 surgically treated patients. HPB 2011;13:33–39. 49
Asymptomatic portal biliopathy needs regular follow-
up with LFTs and does not require any RX
Symptomatic biliopathy is a definite indication for
intervention – endoscopic or surgical.
50. Classification of cholangiographic abnormalities in
PCC ( Chandra et al)
On the basis of location and extent of abnormalities, changes are classified as
• Type I: Involvement of only extrahepatic bile duct (a);
• Type II: Involvement of only intrahepatic bile duct (b);
• Type III a: Involvement of extrahepatic and unilateral (right or left) intrahepatic bile duct (c and d)
• Type III b: Involvement of extrahepatic and bilateral intrahepatic ducts (e) [1].
1. Chandra R, Kapoor D, Tharakan A, Chaudhary A, Sarin SK. Portal biliopathy. J Gastroenterol Hepatol 2001;16:1086–1092.
2. Llop E, de Juan C, Seijo S, et al. Portal cholangiopathy: radiological classification and natural history. Gut. 2011;60:853–860.
Llop et al[2] classification
• grade I: irregularities or angulations of the biliary tree.
• grade II: indentations or strictures without upstreambiliary
dilation.
• grade III: strictures with upstream biliary dilation.
Dilatation is defined as ductal diameter of >7 mm for extra-hepatic
duct and/or >4 mm for intra-hepatic ducts.
50
51. Other interventional radiology techniques
• Partial splenic artery embolization (PSE) is sometimes offered as a relative safe alternative
to splenectomy for hypersplenism. [1].
• Percutaneous transhepatic/trans-splenic variceal embolization using sclerosants, glue, or
coils is sometimes done in pts with life-threatening variceal hemorrhage especially when
the bleeding is from IGV.
• Finally, shunt reduction or closure can be done using coils or BRTO[2].
1. Ozturk O, Eldem G, Peynircioglu B, Kav T, Go¨rmez A, Cil BE, et al. Outcomes of partial splenic embolization in patients with massive splenomegaly due to idiopathic portal hypertension. World J Gastroenterol
2016;22(43):9623–9630
2. Pargewar SS, Desai SN, Rajesh S, Singh VP, Arora A, Mukund A. Imaging and radiological interventions in extra-hepatic portal vein obstruction. World J Radiol 2016;8(6):556–570 51
52. Role of anti-coagulation
• There is no consensus on the role or indication of anticoagulation therapy. However, in a
known prothrombotic state, this should be considered to prevent recurrent thrombosis.
52
53. TIPS in EHPVO
• For pts who have a favourable anatomy including patency of intrahepatic LPV in the Rex
recessus, patency of SMV, the first choice of treatment without doubt is the meso-Rex
bypass, as this operation results in a physiologic restoration of normal BF to the liver.[1-3]
• This operation, however, has not been widely used owing to its complexity and high
technique demanding. In addition, meso-Rex bypass may be unfeasible in some pts owing
to anatomic issues or lack of useable vessels . [3,4]
• Surgical portosystemic shunts have historically been the primary option for reducing PP
with recurrent VH or in whom endoscopic and medical RX have failed.[3]
1. Shneider BL, Bosch J, de Franchis R, et al. Portal hypertension in children: expert pediatric opinion on the report of the Baveno v Consensus Workshop on Methodology of Diagnosis and Therapy in Portal Hypertension.
Pediatr Transplant 2012;16:426–37.
2. Lautz TB, Keys LA, Melvin JC, et al. Advantages of the meso-Rex bypass compared with portosystemic shunts in the management of extrahepatic portal vein obstruction in children. J Am Coll Surg 2013;216:83–9.
3. Giouleme O, Theocharidou E. Management of portal hypertension in children with portal vein thrombosis. J Pediatr Gastroenterol Nutr 2013;57:419–25.
4. Superina R, Shneider B, Emre S, et al. Surgical guidelines for the management of extra-hepatic portal vein obstruction. Pediatr Transplant 2006;10:908–13. 53
54. TIPS in EHPVO
• Studies have demonstrated that TIPS was equally effective compared with surgical
portosystemic shunts—both ↓ the incidence of variceal rebleeding and improving
growth impairment.[1]
• The advantage that TIPS offer over surgical portosystemic shunts is its mini-invasiveness,
but short-term patency of TIPS is a large concern. Because of the use of ePTFE-covered
stentgrafts, a significant improvement in patency rates and a ↓ in reintervention rate
have, however, been reported.[2-4]
• Therefore, TIPS procedure, if feasible, could represent a less-invasive alternative to
traditional surgical portosystemic shunting or a valuable RX option if surgery and
endoscopic treatment failed and an anatomy unsuitable for meso-Rex bypass.
1. Kato T, Romero R, Koutouby R, et al. Portosystemic shunting in children during the era of endoscopic therapy: improved postoperative growth parameters. J Pediatr Gastroenterol Nutr 2000;30:419–25.
2. Di Giorgio A, Agazzi R, Alberti D, et al. Feasibility and efficacy of transjugular intrahepatic portosystemic shunt (TIPS) in children. J Pediatr Gastroenterol Nutr 2012;54:594–600.
3. Zurera LJ, Espejo JJ, Lombardo S, et al. Safety and efficacy of expanded polytetrafluoroethylene-covered transjugular intrahepatic portosystemic shunts in children with acute or recurring upper gastrointestinal
bleeding. Pediatr Radiol 2015;45:422–9.
4. Yang Z, Han G, Wu Q, et al. Patency and clinical outcomes of transjugular intrahepatic portosystemic shunt with polytetrafluoroethylene-covered stents versus bare stents: a meta-analysis. J Gastroenterol Hepatol
2010;25:1718–25.
54
55. Prognosis
• Pts with symptomatic PCC who achieve adequate stone clearance and biliary drainage
endoscopically have been reported to have an excellent outcome in follow-up studies.[1-4]
• The reported follow-up of surgically managed pts with PCC is relatively longer, ranging
from 14 months to 12 years.
• However, pts without shuntable veins and advanced biliary changes of PCC cannot undergo
shunt surgery. These pts may develop recurrent cholangitis[1,2,5] and, eventually, liver
dysfunction either due to secondary biliary cirrhosis or due to chronically diminished
portal inflow.[6,7]
• Attrition of hepatocellular function in these pts may reach the stage that they are
candidates for LT.[5,8-10]
References are at the end of the slides
55
56. Surveillance
• Regular 6 monthly follow-up of all pts with EHPVO is mandatory to look for spleen size,
growth, quality of life, school performance, development of jaundice, decompensation, PB,
and HPS, and to assess their laboratory values and imaging for PVT and PB [1].
1. Khanna R, Sarin SK. Non-cirrhotic portal hypertension. J Hepatol 2014;60:421–441 56
57. Summary
• EHPVO is a childhood disorder causing PHT, where the etiology is either perinatal or early
childhood vascular insult.
• The diagnosis is relatively easy if a high index of suspicion is kept.
• The management is mostly endoscopic with a good long-term outcome.
• Minimal hepatic encephalopathy and parenchymal extinction are poorly understood
scenarios and need further research.
57
End of SlidesThankyou
58. Differentiating Features of Ncpf, Ehpvo,Cirrhosis
AK Gupta, Jacob George, Prithvi Giri, R Gupta. Non-Cirrhotic Portal Fibrosis. Medicine Update 2010 Vol. 20
59. Frequency of Biliary Changes in Pts with EHPVO
1. Dilawari JB, Chawla YK. Pseudosclerosing cholangitis in extrahepatic portal venous obstruction. Gut. 1992;33:272–276.
2. Sarin SK, Bhatia V, Makwana U. Poratal biliopathy in extrahepatic portal venous obstruction [abstract]. Indian J Gastroenterol. 1992;11(suppl 1):A82.
3. Khuroo MS, Yatoo GN, Zargar SA, et al. Biliary abnormalities associated with extrahepatic portal venous obstruction. Hepatology. 1993;17:807–813.
4. Bayraktar Y, Balkanci F, Kayhan B, et al. Bile duct varices or ‘‘pseudo-cholangiocarcinoma sign’’ in portal hypertension due to cavernous transformation of the portal
vein. Am J Gastroenterol. 1992;87:1801–1806.
5. Malkan GH, Bhatia SJ, Bashir K, et al. Cholangiopathy associated with portal hypertension: diagnostic evaluation and clinical implications. Gastrointest Endosc.
1999;49:344–348.
6. Nagi B, Kochhar R, Bhasin D, et al. Cholangiopathy in extrahepatic portal venous obstruction. Radiological appearances. Acta Radiol. 2000;41:612–615.
7. Condat B, Vilgrain V, Asselah T, et al. Portal cavernoma associated cholangiopathy: a clinical and MR cholangiography coupled with MR portography imaging study.
Hepatology. 2003;37:1302–1308.
8. Sezgin O, Oguz D, Attintas E, et al. Endoscopic management of biliary obstruction caused by cavernous transformation of the portal vein. Gastrointest Endosc.
2003;68:602–608.
9. Dhiman RK, Chawla Y, Duseja A, et al. Portal hypertensive biliopathy (PHB) in patients with extrahepatic portal venous obstruction (EHPVO) [abstract]. J
Gastroenterol Hepatol. 2006;21:A504.
10. Chevallier P, Denys A, Novellas S, Schmidt S, Schnyder P, Bruneton JN. Magnetic resonance cholangiography features of biliary abnormalities due to cavernous
transformation of the portal vein. Clin Imaging. 2006;30:190–194.
11. Llop E, de Juan C, Seijo S, et al. Portal cholangiopathy: radiological classification and natural history. Gut. 2011;60:853–860.
59
60. Prognosis
1. Dhiman RK, Behera A, Chawla YK, Dilawari JB, Suri S. Portal hypertensive biliopathy. Gut. 2007;56:1001–1008.
2. Sezgin O, Oguz D, Attintas E, et al. Endoscopic management of biliary obstruction caused by cavernous transformation of the portal vein. Gastrointest Endosc. 2003;68:602–608.
3. Bhatia V, Jain AK, Sarin SK. Choledocholithiasis associated with portal biliopathy in patients with extrahepatic portal vein obstruction. Management with endoscopic sphincterotomy.
Gastrointest Endosc. 1995;42:178–181.
4. Dumortier J, Vaillant E, Boillot O, et al. Diagnosis and treatment of biliary obstruction caused by portal cavernoma. Endoscopy. 2003;35:446–450.
5. Oo YH, Olliff S, Haydon G, Thorburn D. Symptomatic portal biliopathy: a single centre experience from the UK. Eur J Gastroenterol Hepatol. 2009;21:206–213.
6. Webb LJ, Sherlock S. The aetiology, presentation and natural history of extra-hepatic portal venous obstruction. Q J Med. 1979;48:627–639.
7. Rangari M, Gupta R, Jain M, et al. Hepatic dysfunction in patients with extrahepatic portal vein obstruction. Liver Int. 2003;23:434–437.
8. Filipponi F, Urbani L, Catalano G, et al. Portal biliopathy treated by liver transplantation. Transplantation. 2004;77:326–327.
9. Hajdu CH, Murakami T, Diflo T, et al. Intrahepatic portal cavernoma as an indication for liver transplantation. Liver Transpl. 2007;13:1312–1316.
10. Gupta S, Singhal A, Goyal N, Vij V, Wadhawan M. Portal biliopathy treated with living donor liver transplant: index case. Exp Clin Transpl. 2011;9:145–149.
60
61. Biliary changes in EHPVO
1. Malkan GH, Bhatia SJ, Bashir K, et al. Cholangiopathy associated with portal hypertension: diagnostic evaluation and clinical implications. Gastrointest Endosc. 1999;49:344–348.
2. DhimanRK,Chawla Y, Vasishta RK, et al.Non-cirrhotic portal fibrosis (idiopathic portal hypertension): experience with 151 patients and a review of the literature. J Gastroenterol Hepatol.
2002;17:6–16.
3. Gibson JB, Johnston GW, Fulton TT, et al. Extrahepatic portal venous obstruction. Br J Surg. 1965;52:129–139.
4. Dilawari JB, Chawla YK. Pseudosclerosing cholangitis in extrahepatic portal venous obstruction. Gut. 1992;33:272–276.
5. Sarin SK, Bhatia V, Makwana U. Portal biliopathy in extrahepatic portal venous obstruction [abstract]. Indian J Gastroenterol. 1992;11(suppl 1):A82. J Gastroenterol Hepatol2006;21:A504.
6. Khuroo MS, Yatoo GN, Zargar SA, et al. Biliary abnormalities associated with extrahepatic portal venous obstruction. Hepatology. 1993;17:807–813.
7. Bayraktar Y, Balkanci F, Kayhan B, et al. Bile duct varices or ‘‘pseudo-cholangiocarcinoma sign’’ in portal hypertension due to cavernous transformation of the portal vein. Am J
Gastroenterol. 1992;87:1801–1806.
8. Bayraktar Y, Balkanci F, Ozenc A, et al. The ‘‘pseudo-cholangiocarcinoma sign’’ in patients with cavernous transformation of the portal vein and its effect on the serum alkaline phosphatase
and bilirubin levels. Am J Gastroenterol. 1995;90:2015–2019.
9. Nagi B, Kochhar R, Bhasin D, et al. Cholangiopathy in extrahepatic portal venous obstruction. Radiological appearances. Acta Radiol. 2000;41:612–615.
10. Condat B, Vilgrain V, Asselah T, et al. Portal cavernoma associated cholangiopathy: a clinical and MR cholangiography coupled with MR portography imaging study. Hepatology.
2003;37:1302–1308.
11. Sezgin O, Oguz D, Attintas E, et al. Endoscopic management of biliary obstruction caused by cavernous transformation of the portal vein. Gastrointest Endosc. 2003;68:602–608.
12. Dhiman RK, Chawla Y, Duseja A, et al. Portal hypertensive biliopathy (PHB) in patients with extrahepatic portal venous obstruction (EHPVO) [abstract]. J Gastroenterol Hepatol.
2006;21:A504
13. Chandra R, Kapoor D, Tharakan A, et al. Portal biliopathy. J Gastroenterol Hepatol. 2001;16:1086–1092.
14. Chawla Y, Dilawari JB. Anorectal varices: their frequency in cirrhotic and noncirrhotic portal hypertension. Gut. 1991;32:309–311.
15. Chawla Y, Dilawari JB, Katariya S. Gallbladder varices in portal vein thrombosis. AJR Am J Roentgenol. 1994;162:643–645.
61