Sinusoidal obstruction syndrome (SOS), previously called veno-occlusive disease (VOD) can be a difficult problem after hematopoietic cell transplantation (HCT). The overall incidence has changed since the early days of allogeneic HCT. Prophylaxis and treatment remain important components of supportive care. As the indication and the comorbidities for HCT continue to change, especially with older and more infirm patients, SOS remains an important area for clinicians. I discuss how SOS could be addressed, from prophylaxis to diagnosis and potential therapy.

Sinusoidal obstruction syndrome (SOS), previously called veno-occlusive disease (VOD), can be a devastating complication after hematopoietic cell transplantation (HCT). Although the overall incidence and severity has fallen significantly, severe SOS remains a formidable problem. As the name implies, the hepatic vascular endothelial cells are damaged by the preparatory regimen, initiating the clinical syndrome.1-4  The damaged endothelium can be seen in the sinusoidal endothelial cells and in the hepatocytes, with deposition of fibrinogen, factor VIII, and erythrocyte congestion resulting in enlarged sinusoids. Sloughed sinusoidal endothelial cells, red cells, and stellate cells embolize downstream, leading to venous occlusion that can progress to disruption of the normal liver architecture and centrilobular necrosis.5,6  In the late phases of the disease, fibrosis and occlusion of the terminal venules develop, leading to hepatic failure and possibly death. Parallel to the physical damage, there is a procoagulant state with low levels of antithrombin, protein C (which may be a useful marker) and factor VII, and increased levels of plasminogen activator inhibitor 1.7-11  The severity of the syndrome is proportional to the extent of injury to the liver.

The old adage “an ounce of prevention is worth a pound of cure” is appropriate to ascribe to this disease because therapeutic options are limited. Yet the data on prevention is not very solid. The first randomized studies used low-dose heparin and demonstrated that this approach was effective in preventing SOS in adults and children, although other larger prospective studies did not show an effect on prevention of death from SOS.12-15  A meta-analysis demonstrated that there was a significant decrease in the incidence of SOS using ursodeoxycholic acid for prophylaxis, but 2 randomized studies showed conflicting results.16-18  Other observational or historical controlled studies suggest that use of defibrotide (discussed in detail later), glutamine supplementation, peripheral blood progenitors, and T-cell depletion as graft-versus-host disease (GVHD) prophylaxis have been associated with a lower incidence of SOS.19-24  In one pediatric study, the use of defibrotide for prevention of SOS was also associated with a lower incidence of acute GVHD.22  A recent publication by the British Committee for Standards in Haematology and the British Society for Blood and Marrow Transplantation nicely reviews the current data.25  The treatment of SOS can be problematic and will be illustrated in the 2 cases that follow. This study was conducted in accordance with the Declaration of Helsinki.

Case 1

J.S. is a 49-year-old woman with FLT3-ITD+ acute myeloid leukemia who achieved complete remission after induction chemotherapy with daunorubicin and cytarabine. She subsequently underwent an allogeneic stem cell transplant using busulfan and cyclophosphamide as the conditioning regimen and tacrolimus and methotrexate for GVHD prophylaxis, as well as low-dose heparin for SOS prophylaxis. She was noted to have an increase in her bilirubin on day 12, which increased steadily over the next week to a level of 8 mg/dL. During this time, she developed ascites and gained ∼12 pounds. She had a palpable liver edge on examination but no complaints of pain in the right upper quadrant. She also excreted 1 to 1.5 L of diarrhea per day. Endoscopy of the upper and lower gastrointestinal tracts demonstrated erythema and edema, but the biopsy results were equivocal for GVHD with no evidence for cytomegalovirus. Liver ultrasonography did not show any abnormalities. Because of increased bilirubin and ascites and a question of whether this was SOS or GVHD, a transjugular liver biopsy was performed. The portal-hepatic wedge pressure was 12 mm Hg. The biopsy demonstrated changes consistent with SOS without any evidence of GVHD. Because there were no medications available for the treatment of SOS, she was treated with supportive care consisting of light diuresis for fluid management, tapping and removing the ascitic fluid to improve her respiratory status, and “watchful waiting.” Her bilirubin level peaked at 11 mg/dL and gradually decreased to normal over the ensuing 3 weeks. The ascites mobilized spontaneously and her weight gain resolved.

Case 2

T.R. is a 58-year-old man with myelodysplastic syndrome. He had become red cell transfusion–dependent and proceeded to a matched unrelated donor peripheral blood transplant. He was conditioned with busulfan and cyclophosphamide and received tacrolimus and methotrexate for GVHD prophylaxis. He received ursodeoxycholic acid for SOS prophylaxis. By day 6, there was an increase in his bilirubin, which continued to increase to >20 mg/dL by day 20. During this time, he had rapid weight gain and an increase in his abdominal girth from the development of ascites. He also developed severe right upper quadrant pain requiring narcotic analgesia. Abdominal ultrasonography done on day 14 demonstrated reversal of portal venous flow. He was started on defibrotide through a compassionate-use program. His bilirubin gradually decreased to a normal range within the next 2 weeks and his ascites also resolved.

These 2 cases illustrate some of the complexities of SOS. As mentioned before, the best treatment would be to try and prevent the development of this disease; however, the prophylactic strategies are suboptimal. Heightened awareness for SOS includes patients with known liver injury such as prior irradiation to the liver, hepatitis, iron overload, use of sirolimus for GVHD prophylaxis, busulfan in the conditioning regimen, use of gemtuzumab ozogamicin, and a poor performance status.24-43  Despite equivocal data, these patients should have prophylaxis with ursodeoxycholic acid or low-dose heparin. The triad of weight gain (usually from ascites), elevated bilirubin, and right upper quadrant pain or hepatomegaly is common in severe SOS but may be variable in less fulminant courses. The “20 by 20” rule—that is, a bilirubin of 20 by day 20—predicts a poor outcome.

What should be done for a patient with an elevated bilirubin level? When a patient has a rapid rise in bilirubin level, ascites causing weight gain, and right upper quadrant pain, the diagnosis of SOS should be high on the list of differential diagnoses. Other etiologies such as GVHD or an infectious process can present in a similar manner. Moreover, most patients are receiving multiple drugs that can cause cholestasis. Ultrasonography of the liver with Doppler studies is usually performed to look specifically for ascites and reversal of flow in the portal veins, hepatic artery resistance index >0.75, or an abnormal portal vein waveform.44-47  This test is not diagnostic, but these findings, especially reversal of flow, would suggest the presence of SOS. If the patient has no other confounding findings suggestive of other reasons for the triad of symptoms and laboratory abnormalities, then treatment of SOS should begin (discussed later). It is important to stress that the diagnosis of SOS is an iterative process; therefore, if these diagnostic study results are initially negative, they may need to be repeated because the clinical scenario changes with time.

The more difficult patient is one who has a more insidious onset of clinical findings. In some cases, the occurrence of SOS may be late or recognized at a later time.47  The bilirubin level rises more gradually, usually staying under 10 mg/dL. This change occurs around the time of methotrexate administration, which can cause a rise in the bilirubin, or at time when the calcineurin inhibitor levels are high, which again are other potential reasons for an elevated bilirubin level. Another confounder around this early time before engraftment would be a new fever, suggesting an infection, which could also increase the bilirubin. Because mild-to-moderate SOS has a good outcome, there is less of an urgency to document SOS. However, if the suspicion is high but there are clinical confounders that could explain the rise in bilirubin, fluid retention, right upper quadrant pain, or hepatomegaly, and liver ultrasonography is not helpful, then a transjugular liver biopsy could be performed. In addition to obtaining a pathology specimen, portal hepatic wedge pressure can be measured. This wedge pressure partially reflects the sinusoidal pressure.48-50  A pressure gradient of ≥10 mm Hg is highly sensitive and specific for the presence of SOS. Most patients do not need a liver biopsy because the morbidity of a percutaneous biopsy in immunosuppressed thrombocytopenic patients is prohibitive. If a biopsy is needed, the transjugular approach is preferable and should be done by an experienced interventional radiologist. Although this approach is safer, it is not without significant risk for complications. Because the biopsy is done through fluoroscopy and the image is two-dimensional, the guided catheter can lodge close to the capsule of the liver, and the biopsy may cause a perforation through the capsule, which would result in significant bleeding potentially requiring surgical repair. Moreover, the biopsy specimens are quite small and sometimes lack sufficient portal areas for a clear diagnosis.

Patients with mild SOS can simply be observed, whereas those with moderate disease can be treated expectantly with mild diuretics while carefully preserving renal blood blow so as not to induce prerenal azotemia and possible hepatorenal syndrome. Some patients may require paracentesis if the ascites is causing respiratory compromise or pain. Again, the amount of ascites removed should be modest, around one liter per day so as to not harm renal blood flow. Patients with severe SOS should be treated. Unfortunately, the assignment of these grades can only be done retrospectively because there are no clinical criteria to do this prospectively. An attempt at a model was developed in 1993 (primarily all ablative regimens), where the course of SOS was predicted by the serum bilirubin and the weight gain after cytoreductive therapy.51  This paper provided a logistic regression model but was helpful only in a minority of patients who ultimately developed severe SOS, and it was also dependent on determining the probability of SOS.

My approach for deciding on therapy is based on the level of bilirubin and liver function tests and their rate of change, the amount and pace of weight gain, the presence of hepatomegaly, and overall symptoms. Table 1 is a possible guide for what could be considered mild, moderate, or severe. It is important to realize that the diagnosis is an iterative process rather than one point in time. Thus a patient’s condition may move quickly from moderate to severe or from moderate to mild. For patients with severe SOS defined by a rapid rise in the bilirubin level (eg, doubling or tripling over 24 hours) and rapid weight gain, treatment should be instituted. Defibrotide is probably the drug that has the most promise in SOS. It is a polydeoxyribonucleotide derived from mammalian lung or mucosa and has anticoagulant as well as antiinflammatory activity.52-56  It also increases levels of prostaglandin I2, E2, and prostacyclin, and increases levels of tissue plasminogen activator (tPA), thus increasing fibrinolysis. It has modest anticoagulation effects, making this drug relatively safe in the setting of thrombocytopenia. A phase 2 trial demonstrated improved survival in patients receiving defibrotide compared with historical controls.57-60  This drug has also been shown to be effective in treating SOS in children.61  I begin the drug dose at 6.25 mg/kg intravenously every 6 hours and continue until the patient’s bilirubin levels have normalized. Health care professionals in the United States may be able to obtain defibrotide for the treatment of patients with SOS through a Gentium-sponsored “Expanded Access, Treatment IND Protocol, Protocol 2006-05” (www.gentium.com); the drug is marketed in the EU as Defitelio.

Table 1

Grade of SOS

MildModerateSevere
Bilirubin, mg/dL <5 5.1- 8 >8 
Liver function <3× normal 3-8× normal >8× normal 
Weight above baseline <2% 2-5% >5% 
Renal function Normal <2× normal >2× normal 
Rate of change Slow Moderate Rapid 
MildModerateSevere
Bilirubin, mg/dL <5 5.1- 8 >8 
Liver function <3× normal 3-8× normal >8× normal 
Weight above baseline <2% 2-5% >5% 
Renal function Normal <2× normal >2× normal 
Rate of change Slow Moderate Rapid 

Other drugs have also been tried in SOS but none can confidently be recommended. These include alteplase and heparin, but the bleeding risk was prohibitive. Steroids have also been used in anecdotal reports, but it is my opinion that steroids are more likely to cause significant other problems without a clear benefit. The use of steroids appears to be more common in pediatrics and less common in the adult populations. Antithrombin concentrate can also be used for patients who are deficient, and it appears to be very effective in these patients. PGE1 (alprostadil) has been used in children with some success, although that number is very limited. Other, more extreme approaches include a transjugular intrahepatic portosystemic shunt, which can lead to improvement in hepatic and renal function, although long-term survival is uncommon. Finally, in rare cases, liver transplantation has also been reported but, not surprisingly, these patients are quite fragile at this stage and are not likely to survive such a procedure.

SOS can be a devastating development after HCT. The important points are that mild SOS does not require any intervention. For patients with moderate disease, efforts are centered around fluid management, with attention to intravascular volume so that kidney perfusion is maintained. Removal of the ascitic fluid can be done judiciously to control pain or difficulty with breathing. It is important to not precipitate renal insufficiency by too-aggressive diuresis or rapid removal of ascitic fluid. Severe SOS should be treated promptly, using the measures described here and with defibrotide. Efforts to prevent SOS should be implemented, especially in patients at higher risk. Although this complication can be devastating, the majority of these patients are expected to improve.

Contribution: N.C. wrote the manuscript.

Conflict-of-interest disclosure: The author declares no competing financial interests.

Correspondence: Nelson Chao, MD, MBA, Duke University, 2400 Pratt St, Suite 9100, Box 3961, Durham, NC 27710; e-mail: chao0002@mc.duke.edu.

1
McDonald
 
GB
Sharma
 
P
Matthews
 
DE
Shulman
 
HM
Thomas
 
ED
Venocclusive disease of the liver after bone marrow transplantation: diagnosis, incidence, and predisposing factors.
Hepatology
1984
, vol. 
4
 
1
(pg. 
116
-
122
)
2
Zeniya
 
M
Fukata
 
H
Toda
 
G
Thrombomodulin expression of sinusoidal endothelial cells in chronic viral hepatitis.
J Gastroenterol Hepatol
1995
, vol. 
10
 
Suppl 1
(pg. 
S77
-
S80
)
3
Scoazec
 
JY
Feldmann
 
G
In situ immunophenotyping study of endothelial cells of the human hepatic sinusoid: results and functional implications.
Hepatology
1991
, vol. 
14
 
5
(pg. 
789
-
797
)
4
Volpes
 
R
van den Oord
 
JJ
Desmet
 
VJ
Distribution of the VLA family of integrins in normal and pathological human liver tissue.
Gastroenterology
1991
, vol. 
101
 
1
(pg. 
200
-
206
)
5
Shulman
 
HM
Gown
 
AM
Nugent
 
DJ
Hepatic veno-occlusive disease after bone marrow transplantation. Immunohistochemical identification of the material within occluded central venules.
Am J Pathol
1987
, vol. 
127
 
3
(pg. 
549
-
558
)
6
Shulman
 
HM
Fisher
 
LB
Schoch
 
HG
Henne
 
KW
McDonald
 
GB
Veno-occlusive disease of the liver after marrow transplantation: histological correlates of clinical signs and symptoms.
Hepatology
1994
, vol. 
19
 
5
(pg. 
1171
-
1181
)
7
Tabbara
 
IA
Ghazal
 
CD
Ghazal
 
HH
Early drop in protein C and antithrombin III is a predictor for the development of venoocclusive disease in patients undergoing hematopoietic stem cell transplantation.
J Hematother
1996
, vol. 
5
 
1
(pg. 
79
-
84
)
8
Salat
 
C
Holler
 
E
Kolb
 
HJ
et al. 
Plasminogen activator inhibitor-1 confirms the diagnosis of hepatic veno-occlusive disease in patients with hyperbilirubinemia after bone marrow transplantation.
Blood
1997
, vol. 
89
 
6
(pg. 
2184
-
2188
)
9
Faioni
 
EM
Krachmalnicoff
 
A
Bearman
 
SI
et al. 
Naturally occurring anticoagulants and bone marrow transplantation: plasma protein C predicts the development of venocclusive disease of the liver.
Blood
1993
, vol. 
81
 
12
(pg. 
3458
-
3462
)
10
Scrobohaci
 
ML
Drouet
 
L
Monem-Mansi
 
A
et al. 
Liver veno-occlusive disease after bone marrow transplantation changes in coagulation parameters and endothelial markers.
Thromb Res
1991
, vol. 
63
 
5
(pg. 
509
-
519
)
11
Iguchi
 
A
Kobayashi
 
R
Kaneda
 
M
Kobayashi
 
K
Plasma protein C is a useful clinical marker for hepatic veno-occlusive disease (VOD) in stem cell transplantation.
Pediatr Blood Cancer
2010
, vol. 
54
 
3
(pg. 
437
-
443
)
12
Attal
 
M
Huguet
 
F
Rubie
 
H
et al. 
Prevention of hepatic veno-occlusive disease after bone marrow transplantation by continuous infusion of low-dose heparin: a prospective, randomized trial.
Blood
1992
, vol. 
79
 
11
(pg. 
2834
-
2840
)
13
Rosenthal
 
J
Sender
 
L
Secola
 
R
et al. 
Phase II trial of heparin prophylaxis for veno-occlusive disease of the liver in children undergoing bone marrow transplantation.
Bone Marrow Transplant
1996
, vol. 
18
 
1
(pg. 
185
-
191
)
14
Marsa-Vila
 
L
Gorin
 
NC
Laporte
 
JP
et al. 
Prophylactic heparin does not prevent liver veno-occlusive disease following autologous bone marrow transplantation.
Eur J Haematol
1991
, vol. 
47
 
5
(pg. 
346
-
354
)
15
Or
 
R
Nagler
 
A
Shpilberg
 
O
et al. 
Low molecular weight heparin for the prevention of veno-occlusive disease of the liver in bone marrow transplantation patients.
Transplantation
1996
, vol. 
61
 
7
(pg. 
1067
-
1071
)
16
Tay
 
J
Tinmouth
 
A
Fergusson
 
D
Huebsch
 
L
Allan
 
DS
Systematic review of controlled clinical trials on the use of ursodeoxycholic acid for the prevention of hepatic veno-occlusive disease in hematopoietic stem cell transplantation.
Biol Blood Marrow Transplant
2007
, vol. 
13
 
2
(pg. 
206
-
217
)
17
Essell
 
JH
Thompson
 
JM
Harman
 
GS
et al. 
Pilot trial of prophylactic ursodiol to decrease the incidence of veno-occlusive disease of the liver in allogeneic bone marrow transplant patients.
Bone Marrow Transplant
1992
, vol. 
10
 
4
(pg. 
367
-
372
)
18
Essell
 
JH
Schroeder
 
MT
Harman
 
GS
et al. 
Ursodiol prophylaxis against hepatic complications of allogeneic bone marrow transplantation. A randomized, double-blind, placebo-controlled trial.
Ann Intern Med
1998
, vol. 
128
 
12 Pt 1
(pg. 
975
-
981
)
19
Chalandon
 
Y
Roosnek
 
E
Mermillod
 
B
et al. 
Prevention of veno-occlusive disease with defibrotide after allogeneic stem cell transplantation.
Biol Blood Marrow Transplant
2004
, vol. 
10
 
5
(pg. 
347
-
354
)
20
Dignan
 
F
Gujral
 
D
Ethell
 
M
et al. 
Prophylactic defibrotide in allogeneic stem cell transplantation: minimal morbidity and zero mortality from veno-occlusive disease.
Bone Marrow Transplant
2007
, vol. 
40
 
1
(pg. 
79
-
82
)
21
Cappelli
 
B
Chiesa
 
R
Evangelio
 
C
et al. 
Absence of VOD in paediatric thalassaemic HSCT recipients using defibrotide prophylaxis and intravenous Busulphan.
Br J Haematol
2009
, vol. 
147
 
4
(pg. 
554
-
560
)
22
Corbacioglu
 
S
Cesaro
 
S
Faraci
 
M
et al. 
Defibrotide for prophylaxis of hepatic veno-occlusive disease in paediatric haemopoietic stem-cell transplantation: an open-label, phase 3, randomised controlled trial.
Lancet
2012
, vol. 
379
 
9823
(pg. 
1301
-
1309
)
23
Fisher
 
DC
Vredenburgh
 
JJ
Petros
 
WP
et al. 
Reduced mortality following bone marrow transplantation for breast cancer with the addition of peripheral blood progenitor cells is due to a marked reduction in veno-occlusive disease of the liver.
Bone Marrow Transplant
1998
, vol. 
21
 
2
(pg. 
117
-
122
)
24
Brown
 
SA
Goringe
 
A
Fegan
 
C
et al. 
Parenteral glutamine protects hepatic function during bone marrow transplantation.
Bone Marrow Transplant
1998
, vol. 
22
 
3
(pg. 
281
-
284
)
25
Dignan
 
FL
Wynn
 
RF
Hadzic
 
N
et al. 
Haemato-oncology Task Force of British Committee for Standards in Haematology
British Society for Blood and Marrow Transplantation
BCSH/BSBMT guideline: diagnosis and management of veno-occlusive disease (sinusoidal obstruction syndrome) following haematopoietic stem cell transplantation.
Br J Haematol
2013
, vol. 
163
 
4
(pg. 
444
-
457
)
26
Lee
 
SH
Yoo
 
KH
Sung
 
KW
et al. 
Hepatic veno-occlusive disease in children after hematopoietic stem cell transplantation: incidence, risk factors, and outcome.
Bone Marrow Transplant
2010
, vol. 
45
 
8
(pg. 
1287
-
1293
)
27
El-Sayed
 
MH
El-Haddad
 
A
Fahmy
 
OA
Salama
 
II
Mahmoud
 
HK
Liver disease is a major cause of mortality following allogeneic bone-marrow transplantation.
Eur J Gastroenterol Hepatol
2004
, vol. 
16
 
12
(pg. 
1347
-
1354
)
28
Dix
 
SP
Wingard
 
JR
Mullins
 
RE
et al. 
Association of busulfan area under the curve with veno-occlusive disease following BMT.
Bone Marrow Transplant
1996
, vol. 
17
 
2
(pg. 
225
-
230
)
29
Dulley
 
FL
Kanfer
 
EJ
Appelbaum
 
FR
et al. 
Venocclusive disease of the liver after chemoradiotherapy and autologous bone marrow transplantation.
Transplantation
1987
, vol. 
43
 
6
(pg. 
870
-
873
)
30
Reed
 
EC
Myerson
 
D
Corey
 
L
Meyers
 
JD
Allogeneic marrow transplantation in patients positive for hepatitis B surface antigen.
Blood
1991
, vol. 
77
 
1
(pg. 
195
-
200
)
31
Lau
 
GK
Lok
 
AS
Liang
 
RH
et al. 
Clearance of hepatitis B surface antigen after bone marrow transplantation: role of adoptive immunity transfer.
Hepatology
1997
, vol. 
25
 
6
(pg. 
1497
-
1501
)
32
Frickhofen
 
N
Wiesneth
 
M
Jainta
 
C
et al. 
Hepatitis C virus infection is a risk factor for liver failure from veno-occlusive disease after bone marrow transplantation.
Blood
1994
, vol. 
83
 
7
(pg. 
1998
-
2004
)
33
Strasser
 
SI
Myerson
 
D
Spurgeon
 
CL
et al. 
Hepatitis C virus infection and bone marrow transplantation: a cohort study with 10-year follow-up.
Hepatology
1999
, vol. 
29
 
6
(pg. 
1893
-
1899
)
34
Rodriguez-Iñigo
 
E
Tomás
 
JF
Gómez-García de Soria
 
V
et al. 
Hepatitis C and G virus infection and liver dysfunction after allogeneic bone marrow transplantation: results from a prospective study.
Blood
1997
, vol. 
90
 
3
(pg. 
1326
-
1331
)
35
Locasciulli
 
A
Bacigalupo
 
A
VanLint
 
MT
et al. 
Hepatitis C virus infection and liver failure in patients undergoing allogeneic bone marrow transplantation.
Bone Marrow Transplant
1995
, vol. 
16
 
3
(pg. 
407
-
411
)
36
Norol
 
F
Roche
 
B
Girardin
 
MF
et al. 
Hepatitis C virus infection and allogeneic bone marrow transplantation.
Transplantation
1994
, vol. 
57
 
3
(pg. 
393
-
397
)
37
Locasciulli
 
A
Testa
 
M
Pontisso
 
P
et al. 
Hepatitis C virus genotypes and liver disease in patients undergoing allogeneic bone marrow transplantation.
Bone Marrow Transplant
1997
, vol. 
19
 
3
(pg. 
237
-
240
)
38
Clift
 
RA
Buckner
 
CD
Appelbaum
 
FR
et al. 
Allogeneic marrow transplantation in patients with acute myeloid leukemia in first remission: a randomized trial of two irradiation regimens.
Blood
1990
, vol. 
76
 
9
(pg. 
1867
-
1871
)
39
Deeg
 
HJ
Sullivan
 
KM
Buckner
 
CD
et al. 
Marrow transplantation for acute nonlymphoblastic leukemia in first remission: toxicity and long-term follow-up of patients conditioned with single dose or fractionated total body irradiation.
Bone Marrow Transplant
1986
, vol. 
1
 
2
(pg. 
151
-
157
)
40
Girinsky
 
T
Benhamou
 
E
Bourhis
 
JH
et al. 
Prospective randomized comparison of single-dose versus hyperfractionated total-body irradiation in patients with hematologic malignancies.
J Clin Oncol
2000
, vol. 
18
 
5
(pg. 
981
-
986
)
41
Marsh
 
JC
Hepatic vascular toxicity of dacarbazine (DTIC): not a rare complication.
Hepatology
1989
, vol. 
9
 
5
(pg. 
790
-
792
)
42
Morgan
 
M
Dodds
 
A
Atkinson
 
K
Szer
 
J
Downs
 
K
Biggs
 
J
The toxicity of busulphan and cyclophosphamide as the preparative regimen for bone marrow transplantation.
Br J Haematol
1991
, vol. 
77
 
4
(pg. 
529
-
534
)
43
Lee
 
JH
Choi
 
SJ
Lee
 
JH
et al. 
Decreased incidence of hepatic veno-occlusive disease and fewer hemostatic derangements associated with intravenous busulfan vs oral busulfan in adults conditioned with busulfan + cyclophosphamide for allogeneic bone marrow transplantation.
Ann Hematol
2005
, vol. 
84
 
5
(pg. 
321
-
330
)
44
Sharafuddin
 
MJ
Foshager
 
MC
Steinbuch
 
M
Weisdorf
 
DJ
Hunter
 
DW
Sonographic findings in bone marrow transplant patients with symptomatic hepatic venoocclusive disease.
J Ultrasound Med
1997
, vol. 
16
 
9
(pg. 
575
-
586
)
45
Herbetko
 
J
Grigg
 
AP
Buckley
 
AR
Phillips
 
GL
Venoocclusive liver disease after bone marrow transplantation: findings at duplex sonography.
AJR Am J Roentgenol
1992
, vol. 
158
 
5
(pg. 
1001
-
1005
)
46
Teefey
 
SA
Brink
 
JA
Borson
 
RA
Middleton
 
WD
Diagnosis of venoocclusive disease of the liver after bone marrow transplantation: value of duplex sonography.
AJR Am J Roentgenol
1995
, vol. 
164
 
6
(pg. 
1397
-
1401
)
47
Pai
 
RK
van Besien
 
K
Hart
 
J
Artz
 
AS
O’Donnell
 
PH
Clinicopathologic features of late-onset veno-occlusive disease/sinusoidal obstruction syndrome after high dose intravenous busulfan and hematopoietic cell transplant.
Leuk Lymphoma
2012
, vol. 
53
 
8
(pg. 
1552
-
1557
)
48
Shulman
 
HM
Gooley
 
T
Dudley
 
MD
et al. 
Utility of transvenous liver biopsies and wedged hepatic venous pressure measurements in sixty marrow transplant recipients.
Transplantation
1995
, vol. 
59
 
7
(pg. 
1015
-
1022
)
49
Ho
 
GT
Parker
 
A
MacKenzie
 
JF
Morris
 
AJ
Stanley
 
AJ
Abnormal liver function tests following bone marrow transplantation: aetiology and role of liver biopsy.
Eur J Gastroenterol Hepatol
2004
, vol. 
16
 
2
(pg. 
157
-
162
)
50
Carreras
 
E
Grañena
 
A
Navasa
 
M
et al. 
On the reliability of clinical criteria for the diagnosis of hepatic veno-occlusive disease.
Ann Hematol
1993
, vol. 
66
 
2
(pg. 
77
-
80
)
51
Bearman
 
SI
Anderson
 
GL
Mori
 
M
Hinds
 
MS
Shulman
 
HM
McDonald
 
GB
Venoocclusive disease of the liver: development of a model for predicting fatal outcome after marrow transplantation.
J Clin Oncol
1993
, vol. 
11
 
9
(pg. 
1729
-
1736
)
52
Benimetskaya
 
L
Wu
 
S
Voskresenskiy
 
AM
et al. 
Angiogenesis alteration by defibrotide: implications for its mechanism of action in severe hepatic veno-occlusive disease.
Blood
2008
, vol. 
112
 
10
(pg. 
4343
-
4352
)
53
Evangelista
 
V
Piccardoni
 
P
de Gaetano
 
G
Cerletti
 
C
Defibrotide inhibits platelet activation by cathepsin G released from stimulated polymorphonuclear leukocytes.
Thromb Haemost
1992
, vol. 
67
 
6
(pg. 
660
-
664
)
54
Berti
 
F
Rossoni
 
G
Biasi
 
G
Buschi
 
A
Mandelli
 
V
Tondo
 
C
Defibrotide, by enhancing prostacyclin generation, prevents endothelin-1 induced contraction in human saphenous veins.
Prostaglandins
1990
, vol. 
40
 
4
(pg. 
337
-
350
)
55
Bacher
 
P
Kindel
 
G
Walenga
 
JM
Fareed
 
J
Modulation of endothelial and platelet function by a polydeoxyribonucleotide derived drug “defibrotide”. A dual mechanism in the control of vascular pathology.
Thromb Res
1993
, vol. 
70
 
4
(pg. 
343
-
348
)
56
Zhou
 
Q
Chu
 
X
Ruan
 
C
Defibrotide stimulates expression of thrombomodulin in human endothelial cells.
Thromb Haemost
1994
, vol. 
71
 
4
(pg. 
507
-
510
)
57
Richardson
 
PG
Elias
 
AD
Krishnan
 
A
et al. 
Treatment of severe veno-occlusive disease with defibrotide: compassionate use results in response without significant toxicity in a high-risk population.
Blood
1998
, vol. 
92
 
3
(pg. 
737
-
744
)
58
Chopra
 
R
Eaton
 
JD
Grassi
 
A
et al. 
Defibrotide for the treatment of hepatic veno-occlusive disease: results of the European compassionate-use study.
Br J Haematol
2000
, vol. 
111
 
4
(pg. 
1122
-
1129
)
59
Richardson
 
PG
Murakami
 
C
Jin
 
Z
et al. 
Multi-institutional use of defibrotide in 88 patients after stem cell transplantation with severe veno-occlusive disease and multisystem organ failure: response without significant toxicity in a high-risk population and factors predictive of outcome.
Blood
2002
, vol. 
100
 
13
(pg. 
4337
-
4343
)
60
Richardson
 
PG
Soiffer
 
R
Antin
 
JH
et al. 
Defibrotide (DF) appears effective and safe in a phase II, randomized study of patients (pts) with severe veno-occlusive disease (VOD) and multi-system organ failure (MOF) post stem cell transplantation (SCT). [abstract]
Blood
2002
, vol. 
100
 pg. 
112a
 
61
Corbacioglu
 
S
Greil
 
J
Peters
 
C
et al. 
Defibrotide in the treatment of children with veno-occlusive disease (VOD): a retrospective multicentre study demonstrates therapeutic efficacy upon early intervention.
Bone Marrow Transplant
2004
, vol. 
33
 
2
(pg. 
189
-
195
)
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