diagnosis and management of hemolysis, elevated liver...

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Diagnosis and management of hemolysis, elevated liver enzymes, and low platelets syndrome John R. Barton, MD a,b, * , Baha M. Sibai, MD b a Central Baptist Hospital, Perinatal Diagnostic Center, 1740 Nicholasville Road, Lexington, KY 40503-1499, USA b Department of Obstetrics and Gynecology, University of Cincinnati, 231 Albert Sabin Way, Cincinnati, OH 45267-0526, USA Hemolysis, abnormal liver function tests, and thrombocytopenia have been recognized as complications of pre-eclampsia/eclampsia for many years [1–4]. According to Chesley [1], some of these components have been reported in the obstetric literature for almost a century. (Coagulation defects and microthrombi were first described by Schmorl in 1893). In 1982, Weinstein [5] described 29 cases of severe pre-eclampsia/eclampsia complicated by thrombocytopenia, abnormal peripheral smear, and abnormal liver function tests. He suggested that this collection of signs and symptoms constituted an entity separate from severe pre-eclampsia and coined the term HELLP syndrome : H for hemolysis, EL for elevated liver enzymes, and LP for low platelets. Since then, numerous articles and case reports describing this syndrome have appeared in the medical literature. In addition, the presence of this syndrome has become a major cause of litigation against obstetricians involving cases of allegedly misdiagnosed pre-eclampsia, particularly in patients who were complicated by severe liver involvement of their disease. This article reviews the diagnosis, presentation, pathologic findings, hepatic manifestations, and current management recommendations for pregnan- cies complicated by HELLP syndrome. 0095-5108/04/$ – see front matter D 2004 Elsevier Inc. All rights reserved. doi:10.1016/j.clp.2004.06.008 * Corresponding author. Central Baptist Hospital, Perinatal Diagnostic Center, 1740 Nicholasville Road, Lexington, KY 40503-1499. E-mail address: [email protected] (J.R. Barton). Clin Perinatol 31 (2004) 807 – 833

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Page 1: Diagnosis and management of hemolysis, elevated liver ...pds7.egloos.com/pds/200710/05/64/hellp.pdf · Diagnosis and management of hemolysis, elevated liver enzymes, and low platelets

Clin Perinatol 31 (2004) 807–833

Diagnosis and management of hemolysis,

elevated liver enzymes, and low

platelets syndrome

John R. Barton, MDa,b,*, Baha M. Sibai, MDb

aCentral Baptist Hospital, Perinatal Diagnostic Center, 1740 Nicholasville Road, Lexington,

KY 40503-1499, USAbDepartment of Obstetrics and Gynecology, University of Cincinnati, 231 Albert Sabin Way,

Cincinnati, OH 45267-0526, USA

Hemolysis, abnormal liver function tests, and thrombocytopenia have been

recognized as complications of pre-eclampsia/eclampsia for many years [1–4].

According to Chesley [1], some of these components have been reported in the

obstetric literature for almost a century. (Coagulation defects and microthrombi

were first described by Schmorl in 1893). In 1982, Weinstein [5] described

29 cases of severe pre-eclampsia/eclampsia complicated by thrombocytopenia,

abnormal peripheral smear, and abnormal liver function tests. He suggested that

this collection of signs and symptoms constituted an entity separate from severe

pre-eclampsia and coined the term HELLP syndrome: H for hemolysis, EL for

elevated liver enzymes, and LP for low platelets. Since then, numerous articles

and case reports describing this syndrome have appeared in the medical literature.

In addition, the presence of this syndrome has become a major cause of litigation

against obstetricians involving cases of allegedly misdiagnosed pre-eclampsia,

particularly in patients who were complicated by severe liver involvement of their

disease. This article reviews the diagnosis, presentation, pathologic findings,

hepatic manifestations, and current management recommendations for pregnan-

cies complicated by HELLP syndrome.

0095-5108/04/$ – see front matter D 2004 Elsevier Inc. All rights reserved.

doi:10.1016/j.clp.2004.06.008

* Corresponding author. Central Baptist Hospital, Perinatal Diagnostic Center, 1740 Nicholasville

Road, Lexington, KY 40503-1499.

E-mail address: [email protected] (J.R. Barton).

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833808

Terminology and diagnosis

A review of the literature by Sibai et al [6] revealed considerable variety in

the terminology, reported incidence, reported cause, diagnosis, and management

of HELLP syndrome. Goodlin considered it an early form of severe pre-

eclampsia and labeled it a great imitator, equating it with impending edema,

proteinuria, hypertension gestosis type B [2]. Weinstein [5] considered it a

bunique variantQ of pre-eclampsia, whereas MacKenna et al [7] considered it

misdiagnosed pre-eclampsia. Conversely, several authors have theorized that

HELLP syndrome is mild disseminated intravascular coagulation (DIC) that was

missed because of inadequate laboratory investigation.

The diagnostic criteria used for HELLP syndrome are variable and in-

consistent. Hemolysis, defined as the presence of microangiopathic hemolytic

anemia, is the hallmark of the triad of HELLP syndrome [8]. The classical

findings of microangiopathic hemolysis include abnormal peripheral smear

(schistocytes, burr cells, echinocytes), elevated serum bilirubin (indirect form),

low serum haptoglobin levels, elevated lactate dehydrogenase (LDH) levels, and

significant drop in hemoglobin levels. A significant percentage of published

reports included patients who had no documentation of hemolysis; hence, these

patients may fit the criteria for bELLPQ syndrome [9–16]. Even in studies where

hemolysis was mentioned, the diagnosis was based on the presence of abnormal

peripheral smear (no description of type or degree of abnormalities) [7,17] or

elevated LDH levels (threshold of 180 to 600 U/L) [18–23].

No consensus exists in the literature regarding the liver function test to be

used or the degree of elevation used in these tests to diagnose elevated liver

enzymes (EL) [8]. In his original report, Weinstein [5] mentioned abnormal

serum levels of aspartate aminotransferase (AST) and abnormal alanine amino-

transferase (ALT) and bilirubin values; however, the levels were not stated. In

addition, he made no mention of LDH as a diagnostic test of liver involvement.

In subsequent studies where elevated liver enzymes (either AST or ALT) were

mentioned, the values considered abnormal ranged from 17 to 72 U/L [8]. In

clinical practice, many of these values are considered normal or slightly ele-

vated. In essence, some of these studies included women with low platelets

syndrome. Some of these women may have had either severe pre-eclampsia

with thrombocytopenia, gestational thrombocytopenia, or immune thrombocyto-

penic purpura.

Low platelet count is the third abnormality required to establish the diagnosis

of HELLP syndrome. There is no consensus among various published reports

regarding the diagnosis of thrombocytopenia. The reported cut-off values have

ranged from 75,000/mm3 to 279,000/mm3 [7,9–18]. Therefore, some of the

patients included in these studies fit the criteria for bELQ syndrome. In essence,

these women had severe pre-eclampsia with mild elevation in liver enzymes

[10,12].

Martin et al [24], in a retrospective review of 302 cases of HELLP syndrome

at the University of Mississippi, Jackson, devised the following classification

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Table 1

Classifications of HELLP syndrome

Platelet count AST LDH

Sibai et al [6] < 100,000/mm3 � 70 U/L � 600 U/L

Martin et al [21] < 150,000/mm3 � 40 U/L � 600 U/L

van Pampus [47] < 100,000/mm3 > 50 U/L > 600 U/L

Visser and Wallenburg [48] < 100,000/mm3 > 30 U/L a

a Not included in their criteria.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 809

of subpopulations based on platelet count nadir. They defined class 1 HELLP

syndrome as a platelet nadir below 50,000/mm3, whereas patients with platelet

nadirs between 51,000 and 100,000/mm3 were classified as class 2. Finally,

class 3 represents a platelet nadir between 101,000 and 150,000/mm3. These

classes have been used to predict the rapidity of postpartum disease recovery

[24], the risk of recurrence of HELLP syndrome [25], perinatal outcome, and

the need for plasmapheresis [26]. Miles et al [27], from the same institution,

reported a strong association between the presence of HELLP syndrome and

eclampsia. In this study, HELLP syndrome was present in 30% of patients with

postpartum eclampsia and in 28% of patients having eclampsia before delivery.

As a result, Miles et al suggested that the presence of HELLP syndrome may be

a predisposing factor in the development of eclampsia. The criteria for the

diagnosis of HELLP syndrome by several authors include the laboratory find-

ings summarized in Table 1.

Box 1. Medical and surgical disorders confused with the HELLPsyndrome

Acute fatty liver of pregnancyHyperemesis gravidarumAppendicitisIdiopathic thrombocytopeniaDiabetes insipidusKidney stonesGall bladder diseasePeptic ulcerGastroenteritisPyelonephritisGlomerulonephritisSystemic lupus erythematosusHemolytic uremic syndromeThrombotic thrombocytopenic purpuraHepatic encephalopathyViral hepatitis

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833810

An essential step in management is to confirm or exclude the diagnosis of

HELLP syndrome from other conditions listed in Box 1. Laboratory evaluation

should include a complete blood count with platelet count, a peripheral smear,

coagulation studies, and serum AST, creatinine, glucose, bilirubin, and LDH

levels. The authors’ diagnosis of HELLP syndrome requires the presence of

all the following: platelet count of less than 100,000/mm3, AST level greater

than 70 IU/L (> 2 � upper limit for the authors’ normal values), abnormal

peripheral smear, and LDH level greater than 600 IU/L (> 2 � upper limit of

normal) or bilirubin level greater than 1.2 mg/dL, or both. Patients who do not

fit all these parameters are considered to have partial HELLP syndrome [28].

Clinical presentation

In the series reported by Sibai et al [6], patients with HELLP syndrome were

significantly older (mean age 25 years) than patients with severe pre-eclampsia/

eclampsia without features of HELLP syndrome (mean age 19 years). The

incidence of the syndrome was significantly higher in the white population and

among multiparous patients. The incidence of HELLP syndrome is also higher in

pre-eclamptic patients with conservative management of their disease. Coinci-

dentally, medial complications (notably diabetes mellitus and lupus nephritis)

were no more common among the patients with HELLP syndrome. Other authors

have made similar observations [7,14,17].

Patients with HELLP syndrome may present with various signs and

symptoms, none of which are diagnostic and all of which may be found in

patients with severe pre-eclampsia/eclampsia without HELLP syndrome. Sibai

[8] noted that the patient usually presents remote from term, complaining of

epigastric or right upper quadrant pain; some have nausea or vomiting, and

others have nonspecific viral syndrome–like symptoms. Most patients (90%) give

a history of malaise for the past few days before presentation. In Weinstein’s

reports [5,17], nausea or vomiting and epigastric pain were the most common

symptoms. Right upper quadrant or epigastric pain is thought to result from

obstruction of blood flow in the hepatic sinusoids, which are blocked by

intravascular fibrin deposition.

Patients with HELLP syndrome usually demonstrate significant weight gain

with generalized edema. It is important to appreciate that severe hypertension

(systolic blood pressure �160 mm Hg, diastolic blood pressure �110 mm Hg)

is not a constant or even a frequent finding in HELLP syndrome. Although

68.8% of the 112 patients studied by Sibai et al [6] had a diastolic blood pres-

sure of 110 mm Hg or greater at the time of admission to the hospital, 14.5%

had a diastolic blood pressure of 90 mm Hg or less. In Weinstein’s [5] initial

report on 29 patients, less than half (13) had an admission blood pressure of

160/110 mm Hg or greater. Only 66% of the 18 primigravidas and 44% of the

nine multigravidas studied by MacKenna et al [7] had severe hypertension on

admission. Aarnoudse et al [29] described six women presenting with severe

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Table 2

Signs and symptoms in women with HELLP syndrome

Weinstein [17] Sibai et al [6] Martin et al [21] Rath et al [67] and

Audibert et al [28]

N = 57 N = 509 N = 501 N = 50

RUQ/Epigastric pain (%) 86 63 40 90

Nausea/Vomiting (%) 84 36 29 52

Headache (%) N/R 33 61 N/R

Hypertension (%) N/R 85 82 88

Proteinuria (%) 96 87 86 100

Abbreviations: N/R, not reported; RUQ, right upper quadrant.

From Sibai BM. Diagnosis, Controversies, and management of the syndrome of hemolysis, elevated

liver enzymes, and low platelet count. Obstet Gynecol 2004;103:983; with permission.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 811

epigastric pain in the third trimester who had significantly elevated liver en-

zymes, a low platelet count, and evidence of hemolysis. None of these patients

had a blood pressure greater than 140/90 mm Hg or proteinuria. Thus, patients

with HELLP syndrome may present with a variety of signs and symptoms

(Table 2), none of which is diagnostic of severe pre-eclampsia [30]. As a result,

they are often misdiagnosed as having various medical and surgical disorders

(see Box 1). Sibai [8] recommends that all pregnant women displaying any of

these symptoms have a complete blood count, platelet count, and liver enzyme

determinations, irrespective of maternal blood pressure.

Acute fatty liver of pregnancy (AFLP) is a rare but potentially fatal

complication of the third trimester of pregnancy [31]. In its early presentation,

AFLP may be difficult to differentiate from HELLP syndrome. Patients with

AFLP typically present with nausea, vomiting, abdominal pain, and jaundice;

however, hypertension and proteinuria are usually absent [32]. HELLP syndrome

and AFLP are both characterized by elevated liver function tests, but the

abnormalities tend to be greater in HELLP syndrome. Much rarer than HELLP

syndrome are thrombotic thrombocytopenic purpura (TTP) and hemolytic uremic

syndrome (HUS); these diseases are remarkably similar and have even been

thought to be one and the same. HUS characteristically is a disease of children,

impairing renal function and causing platelet and erythrocyte destruction. When

it occurs in association with pregnancy, the presentation is typically post partum.

TTP is more commonly recognized among adults, with similar manifestations

to HUS. The classic pentad of TTP includes thrombocytopenia, microangiopa-

thic hemolysis, neurologic symptoms, renal impairment, and fever. The article on

imitators of severe pre-eclampsia/eclampsia by Sibai elsewhere in this issue

further describes the diagnosis and management of these and other imitators of

HELLP syndrome.

Pathology findings

Hemolysis, defined as the presence of microangiopathic hemolytic anemia,

is the hallmark of the HELLP syndrome. Microangiopathic hemolytic anemia

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833812

is thought to result from the passage of red blood cells through small blood

vessels with damaged intima and fibrin deposition [5,33], leading to the ap-

pearance on peripheral smear of triangular cells, burr cells, echinocytes, and

spherocytes. Microangiopathic hemolytic anemia is not specific to HELLP syn-

drome and is also found in association with TTP, renal disease, HUS, eclampsia,

and carcinomatosis.

In a study published by the authors’ group [34], the microscopic findings from

liver biopsies obtained under direct visualization after cesarean delivery from

pregnancies complicated by HELLP syndrome were categorized and correlated

with the severity of the concurrent clinical and laboratory abnormalities. In

comparing the histologic findings with the laboratory findings, the group found

that periportal hemorrhage correlated with the presence of fibrin deposition but

with none of the laboratory parameters measured. Similarly, fibrin deposition was

not statistically correlated with any measured laboratory parameter. Although

steatosis occurred in only one third of the patients, it correlated significantly with

abnormalities in platelet count, AST, and total bilirubin—but not with periportal

hemorrhage or fibrin deposition.

To test further for a relationship between the severity of histologic, clinical,

and biochemical parameters in patients with HELLP syndrome, the study group

was divided into two subgroups on the basis of histologic criteria, with six

patients defined as having mild HELLP syndrome and five as having severe

HELLP syndrome [34]. Statistical analysis demonstrated a significant difference

for periportal hemorrhage and fibrin deposition between these two histologic

criteria groups, but it failed to show any statistically significant difference in

gestational age, mean arterial blood pressure, or any laboratory parameter.

In the case report by Hannah et al [35], frozen sections of liver from a patient

with elevated liver enzymes and thrombocytopenia that were stained with

hematoxylin and eosin and oil red O showed many small orangeophilic globules

considered to be fat in hepatocytes, a finding comparable with AFLP. Similarly,

the authors noted steatosis in several of the liver biopsy specimens from their

study population. Although AFLP and the HELLP syndrome overlap both

clinically and pathologically, the authors believe that these syndromes can be

distinguished histopathologically. On light microscopy, the vacuolization and

necrosis are more prominent in the central zone in AFLP, whereas in HELLP

syndrome the necrosis is predominantly periportal. Although fat droplets may be

present on electron microscopy in hepatocytes from patients with the HELLP

syndrome, fat droplets are much more numerous in AFLP.

From the authors’ study [34] and from previous case reports [3,29,35–37]

describing the histopathologic findings of hepatic lesions associated with HELLP

syndrome, it appears that the classic lesion is periportal or focal parenchymal

necrosis in which hyaline deposits of fibrin-like material can be seen in the

sinusoids. In addition, immunofluorescence studies show fibrin microthrombi

and fibrinogen deposits in the sinusoids in areas of hepatocellular necrosis and in

sinusoids of histologically normal parenchyma [29,36]. These histopathologic

findings may be related to the elevated liver enzymes and the right upper

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Fig. 1. CT axial image through liver and spleen. L, maternal left; R, maternal right. (From Barton JR,

Sibai BM. Hepatic imaging in HELLP syndrome [hemolysis, elevated liver enzymes, and low platelet

count]. Am J Obstet Gynecol 1996;174:1823; with permission.)

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 813

quadrant pain and tenderness seen in patients with this syndrome. In certain

cases, the cellular necrosis and infarction are severe enough to be seen by CT

of the liver (Fig. 1).

Maternal and perinatal outcomes

It has been unclear whether women considered to have bpartial,Q bincomplete,Qor bimpendingQ HELLP syndrome should be managed in the same way as other

women with severe pre-eclampsia. Audibert et al [28] compared the incidence

of maternal complications among women with HELLP syndrome, women with

isolated laboratory abnormalities, including one or two but not all three features

of HELLP syndrome (ie, partial HELLP syndrome), and women with severe pre-

eclampsia and normal laboratory tests. Three hundred and sixteen women were

studied: HELLP syndrome (n = 67), partial HELLP syndrome (n = 71), and

severe pre-eclampsia (n = 178). Mean gestational ages at delivery in the HELLP,

partial HELLP, and severe pre-eclampsia groups were 31.7, 32.7, and 34.5 weeks,

respectively (P < 0.001 between HELLP and severe pre-eclampsia). One maternal

death from intracerebral hemorrhage occurred in the HELLP group. Women

with HELLP syndrome had a higher incidence of cesarean section (P < 0.001)

than the other two groups. Maternal complications noted in this study are

summarized in Table 3. The authors concluded that the higher incidences of

maternal complications in women with HELLP syndrome indicate the importance

of strict criteria for the definition of HELLP syndrome, and that women with

partial HELLP syndrome should be studied and managed separately from those

with complete HELLP syndrome.

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Table 3

Maternal complications in 316 pregnancies with HELLP syndrome, partial HELLP syndrome, or

severe pre-eclampsia with normal laboratory values

HELLP

syndrome

(n = 67)

Partial

HELLP

(n = 71)

Severe pre-eclampsia’

normal laboratory

values (n = 178)

Blood products transfusion (%) 25* 4 3

Disseminated intravascular coagulation (%) 15* 0 0

Wound hematoma or infection (%) 14a,** 11*** 2***

Pleural effusion (%) 6a,** 0 1

Acute renal failure (%) 3a,** 0 0

Eclampsia (%) 9 7 9

Abruptio placentae (%) 9 7 9

Pulmonary edema (%) 8 4 3

Subcapsular liver hematoma (%) 1.5 0 0

Intracerebral hemorrhage (%) 1.5 0 0

Death (%) 1.5 0 0

a Percentages of women who had cesarean delivery.

* P < 0.001, HELLP versus partial HELLP and normal laboratory values; ** P < 0.05, HELLP

versus normal laboratory values; *** P < 0.05, partial HELLP versus normal laboratory values.

From Audibert F, Friedman SA, Frangieh AY, Sibai BM. Clinical utility of strict diagnostic criteria

for the HELLP (hemolysis, elevated liver enzymes, and low platelets) syndrome. Am J Obstet

Gynecol 1996;175:462; with permission.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833814

Women with HELLP syndrome have been reported to have an increased risk

of adverse maternal outcome in comparison with those with severe pre-eclampsia

but not HELLP syndrome. The differences in outcomes observed in these studies

may be differences seen in women with severe pre-eclampsia alone and could

also reflect a greater severity of the disease process [28,38]. Haddad et al [39]

attempted to clarify this finding by conducting a study to determine whether

the onset of HELLP syndrome at 28 or fewer weeks’ gestation was associated

with an increased risk of maternal and perinatal morbidity in comparison with

the risk associated with severe pre-eclampsia without HELLP syndrome at a

similar gestational age. They noted that the overall rate of adverse maternal

outcomes observed in women with HELLP syndrome (44%) was similar to that

observed in women with severe pre-eclampsia but not HELLP syndrome

(38%) during the second trimester. Except for hematologic changes, the

incidences of all other adverse maternal outcomes studied among women with

HELLP syndrome and those with severe pre-eclampsia but no HELLP syn-

drome were not statistically different [39].

From the same institution, Abramovici et al [40] compared the neonatal

outcome after preterm delivery of infants whose gestation was complicated by

HELLP syndrome, partial HELLP syndrome, or severe pre-eclampsia. There

were no significant differences in complications among the 269 neonates studied

in the three groups at each gestational age. These findings are summarized in

Table 4. As expected, a significant decrease in morbidity and mortality was seen

with advanced gestational age. The authors concluded that, in severe pre-

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Table 4

Pregnancy outcomes for 269 women with HELLP syndrome, partial HELLP syndrome, and severe

pre-eclampsia with normal laboratory values

HELLP syndrome

(n = 67)

Partial HELLP

syndrome (n = 71)

Severe pre-eclampsia

(n = 178)

Latency (days, median) 0*,** 1* 2

Gestational age at delivery (wk)** 30.7 F 3.2* 31.2 F 3.3*** 32.7 F 2.8

Cesarean delivery

Overall (%) 79**,*** 54 53

For fetal distress (%) 13 18 13

5-min Apgar score �6 (%) 29* 23* 13

Birth weight (g)** 1340 F 562* 1552 F 731*** 1795 F 706

Intrauterine growth restriction (%) 28 31 22

* P < .005, compared with severe preeclampsia; ** P < .05, compared with partial HELLP syn-

drome; values are expressed as mean F standard deviation; *** P < .05, compared with se-

vere preeclampsia.

From Abramovici D, Friedman SA, Mercer BM, Audibert F, Kao L, Sibai BM. Neonatal outcome

in severe preeclampsia at 24 to 36 weeks’ gestation: does the HELLP (hemolysis, elevated

liver enzymes, and low platelet count) syndrome matter? Am J Obstet Gynecol 1999;180:223;

with permission.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 815

eclampsia, neonatal morbidity and death are related to gestational age rather than

to the presence or absence of HELLP syndrome [40].

Initial management

The clinical course of women with HELLP syndrome is characterized by

usually progressive and sometimes sudden deterioration in maternal and fetal

conditions. Therefore, patients with suspected diagnosis of HELLP syndrome

should be hospitalized immediately and observed in a labor and delivery unit.

The first priority is to assess and stabilize maternal condition, particularly co-

agulation abnormalities (Box 2). Patients with HELLP syndrome who are remote

from term should be referred to a tertiary care center.

Such patients should be managed as patients with severe pre-eclampsia and

should initially receive intravenous (IV) magnesium sulfate as prophylaxis

against convulsions and antihypertensive medications to keep systolic blood

pressure below 160 mm Hg or diastolic blood pressure below 105 mm Hg [41].

This effect can be achieved with a 5-mg bolus dose of hydralazine, to be repeated

as needed every 15 to 20 minutes for a maximum dose of 20 mg/h. Blood

pressure is recorded every 15 minutes during therapy and every hour once the

desired values are achieved. If hydralazine does not lower blood pressure

adequately or if maternal side effects such as tachycardia or headaches develop,

another drug, such as labetalol or nifedipine, can be used. The recommended

dose of labetalol is 20 to 40 mg IV every 10 to 15 minutes for a maximum of

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Box 2. Management outline of antepartum HELLP syndrome

1. Assessing and stabilizing the maternal condition

(a) Correction of coagulopathy if DIC is present(b) Antiseizure prophylaxis with magnesium sulfate(c) Treatment of severe hypertension(d) Transfer to tertiary care center, if appropriate(e) CT or ultrasound of the abdomen if subcapsular hematoma

of the liver is suspected

2. Evaluation of fetal well-being

(a) Nonstress testing(b) Biophysical profile(c) Ultrasonographic biometry to rule out intrauterine

growth restriction

3. Evaluation of gestational age

(a) If > 34 weeks’ gestation, delivery(b) If <34 weeks’ gestation, glucocorticosteroids, then delivery

in 48 hours

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833816

220 mg over 1 hour, and the dose of nifedipine is 10 to 20 mg orally every

30 minutes for a maximum dose of 40 mg over 1 hour. During the observation

period, maternal and fetal conditions are assessed.

The recommended regimen of magnesium sulfate is a loading dose of 6 g

given over 20 minutes, followed by a maintenance dose of 2 g/h as a continuous

IV solution. Magnesium sulfate is initiated at the beginning of the observation

period and continued during labor and for at least 24 hours post partum. The

next step is to evaluate fetal well-being using the nonstress test or biophysical

profile, as well as to obtain ultrasonographic biometry for assessment of possible

intrauterine growth retardation. Finally, it must be decided whether immediate

delivery is indicated.

A review of the literature highlights the confusion surrounding the manage-

ment of HELLP syndrome [6]. Some authors consider its presence to be an in-

dication for immediate delivery by cesarean section, whereas others recommend

a more conservative approach to prolong pregnancy in cases of fetal immaturity.

Consequently, the literature describes several therapeutic modalities to treat or

reverse HELLP syndrome. Most of these therapeutic modalities are similar

to those used in the management of severe pre-eclampsia remote from term.

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 817

Corticosteroid therapy

It is well established that antenatal glucocorticoid therapy reduces neonatal

complications and neonatal mortality in women with severe pre-eclampsia at

34 weeks’ or less gestation [42]. The recommended regimen of corticosteroids

for the enhancement of fetal maturity is betamethasone (12 mg intramuscularly

every 24 hours, two doses) or dexamethasone (6 mg intramuscularly every

12 hours, four doses) [43]. These regimens have been identified as the most

appropriate for this purpose, because they readily cross the placenta and have

minimal mineralocorticoid activity. It is unclear, however, whether these

regimens are safe and effective in women with HELLP syndrome.

Few case reports describe the potential maternal/neonatal benefit of antenatal

corticosteroid therapy in women with (H)ELLP syndrome. Heyborne et al [11]

described five cases of HELLP syndrome at 24 to 30 weeks’ gestation in which

temporary reversal of the HELLP syndrome was achieved using low-dose aspirin

and corticosteroids. However, only one of the five women had true HELLP

syndrome when dexamethasone was used, and she was delivered within 48 hours

of its administration. Two of the remaining four women had ELLP syndrome, and

the other two had elevated liver enzymes only (platelet counts >100,000/mm3).

One of these four women developed eclampsia with disseminated intravascular

coagulopathy, and two of the five pregnancies resulted in neonatal deaths.

Heller and Elliott [12] described four women with high-order multiple

pregnancies complicated by ELLP syndrome who were treated with long-term

corticosteroids. None of these women had hemolysis, three had elevated liver

enzymes only (platelet count >100,000/mm3), and one had thrombocytopenia

only when steroids were allegedly used to treat HELLP syndrome. Two of the

women developed pulmonary edema with this therapy. The authors reported that

dexamethasone resulted in stabilization of laboratory values and prolongation

of gestation by 6 to 41 days [12].

Two reports by Magann et al [19,20] suggested that the use of corticosteroids

either ante partum or post partum results in transient improvement in laboratory

values and urine output in some patients diagnosed with HELLP syndrome. It

is important to note that in the antepartum group, delivery was delayed by an

average of only 41 hours and that the study was not placebo-controlled [19].

Tompkins and Thiagarajah [13] also assessed the benefit of corticosteroids in

HELLP syndrome. In their study, 93 patients between 24 and 34 weeks’ gesta-

tion diagnosed with HELLP syndrome were given intramuscular injections of

either betamethasone or dexamethasone. Precorticosteroid and postcortico-

steroid platelet counts and liver function test results were compared. The authors

noted that hematologic abnormalities improved after the administration of

corticosteroids. The platelet count increased by 23.3 � 103/mL (P < .001). A

statistically significant decrease was seen in liver enzyme levels, with the ALT

decreased by 31.6 IU/L and the AST decreased by 52.1 IU/L. Two doses of

betamethasone given 12 hours apart was the most effective corticosteroid

regimen [15].

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833818

O’Brien et al [15] reviewed corticosteroid dosing and laboratory changes in

patients with antepartum HELLP syndrome. Patients were classified on the basis

of their exposure to steroid use and dosage. A control group did not receive

glucocorticoids, whereas one treatment group received standard corticosteroid

dosing for fetal lung maturity enhancement and a second treatment group

received a higher-dosed steroid regimen (ie, dexamethasone 10 mg IV every

6 hours � 2 doses followed by 6 mg IV every 6 hours � 2 to 3 doses). Liver

function tests and platelet counts were analyzed in response to corticosteroid

therapy. A dose-dependent improvement in platelet count and liver-function

abnormalities was found with corticosteroids. These findings suggest that a

higher dose of corticosteroids than standard regimens for fetal lung maturity

enhancement may be needed for maximum resolution of abnormalities in

HELLP syndrome [34].

O’Brien et al [16] assessed the impact of glucocorticoid administration on

the rate of regional anesthesia in women with HELLP syndrome. The presence

of thrombocytopenia on admission and the interval from presentation to de-

livery were evaluated to assess the impact of glucocorticoid use. In the 37 women

who had platelet counts of less than 90,000/mm3, 0% in the untreated group

(0 of 11) versus 42% in the steroid group (11 of 26) received a regional anes-

thetic (P = 0.015). Furthermore, the rate of regional anesthesia increased from

0% in the untreated group delivered within 24 hours (n = 10) to 57% (8 of 14) in

the glucocorticoid group in which women attained a 24-hour latency from pre-

sentation to delivery (P = 0.006). The need for general anesthesia also decreased

significantly in treated women who attained a 24-hour latency compared with

untreated women who did not: 100% (n = 7) versus 22% (n = 9) (P = 0.003).

Administration of glucocorticoids was found to increase the use of regional

anesthesia in women with antepartum HELLP syndrome who had thrombo-

cytopenia, particularly in those who achieved a latency of 24 hours before

delivery [16].

Five randomized trials comparing the use of high-dose dexamethasone either

to no treatment [19,20,44,45] or to betamethasone [46] in women with pre-

sumed HELLP syndrome were summarized by Sibai [30] and are presented in

Table 5. These studies demonstrated improved laboratory values and urine out-

put in patients receiving dexamethasone, but no differences in serious mater-

nal morbidity. In addition, the number of patients studied was limited, and the

studies were not placebo-controlled.

The available evidence suggests that standard-dose corticosteroids as recom-

mended by the National Institute of Heath Consensus Development Panel

improve perinatal outcome when used in women with HELLP syndrome at fewer

than 34 weeks’ gestation [15,19,40]. In addition, some of these women exhibit

transient improvement in maternal platelet counts that makes them eligible to

receive epidural anesthesia [13,16]. Some evidence suggests improved laboratory

values with the use of higher doses of dexamethasone in women with postpartum

HELLP syndrome [15,22,23,44,45]. The dosage of dexamethasone considered

bhighQ in these reports was 10 mg IV every 6 to 12 hours times two doses, fol-

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Table 5

Randomized trials of corticosteroids in women with ELLP or HELLP syndrome

Authors Dexamethasone n Control n Key finding

Magann et al [19] 12a 13 Improved platelet, ALT, LDH values in

dexamethasone group

Magann et al [20] 20b 20 Improved platelet, AST, LDH, urine output,

MAP in dexamethasone group

Vigil-De Gracia [44] 17b 17 Improved platelet counts only with

dexamethasone

Yalcin et al [45] 15b 15 Improved platelet, AST, MAP, and urine

output with dexamethasone

Isler et al [46] 19a 21c Improved AST, LDH, MAP, and urine

output with dexamethasone

Abbreviations: ELLP, elevated liver enzymes and low platelets; MAP, mean arterial pressure.a Antepartum.b Postpartum.c Received IM betamethasone.

From Sibai BM. Diagnosis, controversies, and management of the syndrome of hemolysis, elevated

liver enzymes, and low platelet count. Obstet Gynecol 2004;103:986; with permission.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 819

lowed by 5 to 6 mg IV given 6 to 12 hours later, for two additional doses [15,22,

23,44,45]. It must be emphasized, however, that most of the patients included in

these studies had incompletely documented HELLP syndrome. In addition, none

of these studies reported improvement in clinically important maternal morbidity,

such as the need for platelet transfusion or pulmonary, renal, or hepatic

complications. Therefore, there is a definite need for placebo randomized trials

in women with postpartum HELLP syndrome. Until these data are available, the

use of high-dose dexamethasone to improve maternal outcome in women with

HELLP syndrome beyond 34 weeks’ gestation or in the postpartum period

remains experimental.

Conservative management

Van Pampus et al [47] described the clinical progress and maternal outcome

of the HELLP and ELLP (findings of HELLP syndrome, but without evidence

of hemolysis) syndromes in 127 patients managed in the Academic Medical

Center in Amsterdam between 1984 and 1996 with a live fetus in utero. The

patients were treated by temporizing management, including the use of anti-

hypertensives and magnesium sulfate. The predominant indication for termi-

nating pregnancy was fetal distress or fetal death, not maternal condition. All

serious maternal complications occurred at the onset of the syndrome. Two

mothers with HELLP syndrome died following a cerebral hemorrhage. Serious

maternal morbidity was more common in cases of HELLP than in cases of ELLP

syndrome (eclampsia 21% versus 8%; cerebral ischemic lesions 6% versus 21%;

serious complications 24% versus 10%). Seventy-nine (62%) of women were not

delivered after 3 days, and 65 (51%) after 7 days. Although the authors

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833820

considered it unlikely that a more aggressive approach would have reduced

maternal mortality or morbidity, their sample size was inadequate to evaluate

rare serious maternal complications of HELLP or ELLP syndrome.

In a study by Visser and Wallenburg [48], 128 consecutive pre-eclamptic

patients with HELLP syndrome and a gestational age of less than 34 weeks

were matched for maternal and gestational age with 128 pre-eclamptic patients

without HELLP syndrome. Both groups were treated with volume expansion and

pharmacologic vasodilatation under invasive hemodynamic monitoring with the

aim of prolonging gestation and enhancing fetal maturity. Except for variables

pertaining to HELLP syndrome, clinical and laboratory data and median

prolongation of pregnancy did not differ between the groups. Complete reversal

of HELLP occurred in 43% of patients. Perinatal mortality was 14.1% in

HELLP syndrome patients and 14.8% in patients without HELLP. Because

the perinatal outcomes in this study are similar to those of studies performed

in the United States where delivery was effected within 48 hours of the diag-

nosis of HELLP syndrome, the benefit of temporizing management of HELLP

syndrome remains questionable. Ultimately, only a well-designed randomized

trial will resolve this management issue.

The conservative management techniques described here were often asso-

ciated with the use of invasive procedures and medical and surgical treatments.

These confounding variables make it difficult to evaluate any treatment modality

proposed for this syndrome. Occasionally, some patients without the true HELLP

syndrome may demonstrate antepartum reversal of hematologic abnormalities

following bed rest, use of steroids, or plasma volume expansion. However, in the

authors’ experience most of these patients demonstrate deterioration in either

maternal or fetal condition within 1 to 10 days after conservative management.

The potential risks associated with conservative management of HELLP syn-

drome include abruptio placentae, pulmonary edema, acute renal failure, eclamp-

sia, perinatal death, and maternal death. Therefore, the authors doubt that such a

limited pregnancy prolongation results in improved perinatal outcome, especially

when maternal and fetal risks are substantial. The authors caution specifically

against expectant management of women with DIC.

Delivery management

When HELLP syndrome develops at or beyond 34 weeks’ gestation, or when

there is evidence of fetal lung maturity or fetal or maternal jeopardy before that

time, delivery is the definitive therapy. Without laboratory evidence of DIC and

absent fetal lung maturity, the patient can be given steroids to accelerate fetal lung

maturity and be delivered 48 hours later. Maternal and fetal conditions should

be assessed continuously during this time (Fig. 2).

The presence of HELLP syndrome is not an indication for immediate delivery

by cesarean section. Such an approach may prove detrimental to both mother and

fetus. Patients presenting with well-established labor should be allowed to de-

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HELLP Syndrome

•Refer to tertiary care facility (< 35 weeks)•Admit to labor and delivery area•IV magnesium sulfate•Antihypertensives if SBP > 160 mmHg; DBP > 105 mmHg

•< 23 weeks or limits of viability•Fetal distress•Maternal distress

•Eclampsia•DIC•Respiratory distress•Suspect liver hematoma

•Complete steroid course•24-48 hours latency

•Begin steroid course•Consider 24 hour latency

for regional anesthesia

DeliveryYes

>34 weeks24-34 weeksNo

Fig. 2. Algorithm for HELLP syndrome. DBP, diastolic blood pressure; SBP, systolic blood pressure.

(From Barton JR, Sibai BM. Hepatic imaging in HELLP syndrome [hemolysis, elevated liver

enzymes, and low platelet count]. Am J Obstet Gynecol 1996;174:1823; with permission.)

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 821

liver vaginally in the absence of obstetric contraindications. Otherwise, labor

may be initiated with oxytocin infusions as for routine induction in all patients

with gestational age over 30 weeks, irrespective of the extent of cervical

dilatation or effacement. A similar approach is used for patients at 30 weeks or

less if the cervix is favorable for induction. In patients with an unripe cervix

and gestational age under 30 weeks, prostaglandin induction or elective cesarean

section are options for delivery management. A management protocol for the

patient with HELLP syndrome requiring cesarean delivery is presented in Box 3.

Maternal analgesia during labor can be provided by intermittent use of small

doses (25 to 50 mg) of intravenous meperidine. Local infiltration anesthesia can

be used for all vaginal deliveries. The use of pudendal block is contraindicated

in these patients because of the risk of bleeding into this area. Epidural anes-

thesia should be used with caution; however, many anesthesiologists are reluc-

tant to place an epidural catheter with a platelet count of less than 75,000/mm3.

General anesthesia is the method of choice for cesarean sections in the presence

of severe thrombocytopenia.

Platelet transfusions are indicated either before or after delivery in all patients

with HELLP syndrome in the presence of significant bleeding (eg, ecchymosis,

bleeding from gums, oozing from puncture sites, wound, intraperitoneal bleed-

ing) and in all those with a platelet count of less than 20,000/mm3. Correction

of thrombocytopenia is particularly important before cesarean section. Repeated

platelet transfusions are not necessary, however, because consumption occurs

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Box 3. Management of HELLP syndrome patient requiring cesareansection for delivery

General anesthesia for platelet count <75,000/mm3

Six to ten units of platelets prior to surgery if platelet count<40,000/mm3

Leave vesicouterine peritoneum (bladder flap) openSubfascial drainSecondary closure of skin incision or subcutaneous drainPostoperative transfusions as neededIntensive monitoring for 48 hours post partumConsider dexamethasone therapy (10 mg IV every 12 hours)

until postpartum resolution of disease

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833822

rapidly and the effect is transient. The authors’ policy is to administer 6 to

10 units of platelets in all patients with a platelet count of less than 40,000/mm3

before intubating the patient for cesarean section. Generalized oozing from the

operative site is very common, and the risk of hematoma formation at these

sites is approximately 20%. To minimize the risk of hematoma formation, the

bladder flap should be left open and a subfascial drain should be used for 24 to

48 hours.

Briggs et al [49] evaluated wound complications in patients with antepartum

HELLP syndrome with primary closure versus delayed closure and Pfannenstiel

versus midline skin incisions. A total of 104 patients were identified; 75 had a

primary skin closure and 29 had a delayed closure 48 to 72 hours postoperatively.

Immediate wound complications (wound infection, hematoma) occurred in

18 patients (26%) who had primary closure and eight (24%) who had a delayed

closure (odds ratio 1.13; 95% confidence interval 0.39 to 3.27). A late wound

breakdown was seen in only one patient with primary closure and in none with

delayed closure. There were no fascial wound dehiscences. No statistical dif-

ference in wound complication was found between midline (primary, delayed)

and Pfannenstiel (primary, delayed) incisions (odds ratio 0.65; 95% confidence

interval 0.23 to 1.88). The authors concluded that in women with antepartum

HELLP syndrome delivered by cesarean section the frequency of wound com-

plications is not influenced by the type of skin incision or the time of skin closure

(primary or delayed) [49].

Hepatic manifestations

The authors reported hepatic imaging findings in selected patients with

HELLP syndrome and correlated these findings with the severity of concurrent

clinical and laboratory abnormalities [50]. Of the 34 patients evaluated in the

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 823

study, 16 patients (47%) had abnormal hepatic imaging results. The most

common CT abnormalities were subcapsular hematoma of the liver (n = 13) and

intraparenchymal hemorrhage (n = 6). An MRI of an unruptured subcapsular

hematoma of the liver is depicted in Fig. 3. Comparison of the clinical cha-

racteristics and laboratory evaluations of patients with normal and abnormal

hepatic imaging findings demonstrated a significant difference in platelet count

nadir between the patients with normal and abnormal imaging findings but failed

to show any statistically significant difference in gestational age, mean arterial

pressure, or the other laboratory parameters studied. Of the 13 patients with

severe thrombocytopenia (platelet count � 20,000/mm3), 10 (77%) had abnormal

hepatic imaging findings. A separate statistical analysis for patients with and

without a subcapsular hematoma of the liver failed to demonstrate any statistical

difference for gestational age, mean arterial pressure, or the other laboratory

parameters. Emergency intervention was needed for six patients on the basis of

these imaging findings. CT and MRI have excellent sensitivity for detecting acute

liver hemorrhage, but because CT was more available, faster, and safer for po-

tentially unstable patients, it was the imaging modality of choice.

The differential diagnosis of an unruptured subcapsular hematoma of the liver

in pregnancy should include AFLP, abruptio placentae with disseminated intra-

vascular coagulation, ruptured uterus, acute cholecystitis with sepsis, and TTP.

Most patients with a subcapsular hematoma of the liver are seen in the late-

second or third trimester of pregnancy, although cases have been reported in the

immediate postpartum period. In addition to the signs and symptoms of pre-

eclampsia, physical examination findings consistent with peritoneal irritation

Fig. 3. T1-weighted magnetic resonance axial image through liver and spleen. (From Barton JR, Sibai

BM. Hepatic imaging in HELLP syndrome [hemolysis, elevated liver enzymes, and low platelet

count]. Am J Obstet Gynecol 1996;174:1823; with permission.)

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833824

and hepatomegaly may be present. Stimulation of the phrenic nerve at the dia-

phragm can produce referred pain along this nerve’s distribution to its origin in

the C4-C5 cervical plexus, including the pericardium, peritoneum, pleura, and

shoulder. Because the gall bladder and esophagus share innervation by the

phrenic nerve with the diaphragm, irritation of the diaphragm may produce

sensations of pain in these organs.

Surgical repair has been recommended for hepatic hemorrhage without liver

rupture. More recent experience suggests, however, that this complication can be

managed conservatively in patients who remain hemodynamically stable [51,52].

Management should include close monitoring of hemodynamics and coagulation

status. Serial assessment of the subcapsular hematoma with ultrasound or CT is

necessary, with immediate intervention for rupture or worsening of maternal sta-

tus. In this conservative management, it is important to avoid exogenous sources

of trauma to the liver such as abdominal palpation, convulsions, or emesis and to

use care in transportation of the patient. Indeed, any sudden increase in intra-

abdominal pressure could lead to rupture of the subcapsular hematoma [53].

Rupture of a subcapsular hematoma of the liver is a life-threatening com-

plication of HELLP syndrome. In most instances, rupture involves the right lobe

and is preceded by the development of a parenchymal hematoma. Patients

frequently present with shoulder pain, shock, evidence of massive ascites, res-

piratory difficulty, or pleural effusions, or a dead fetus. An ultrasound or CT of

the liver should be performed to rule out the presence of subcapsular hematoma

of the liver and assess for the presence of intraperitoneal bleeding. Paracentesis

confirms the presence of intraperitoneal hemorrhage suspected on the basis of

examination or radiographic imaging.

Ruptured subcapsular liver hematoma resulting in shock is a surgical emer-

gency requiring acute multidisciplinary treatment. Resuscitation should consist

of massive transfusions of blood, correction of coagulopathy with fresh frozen

plasma and platelets, and immediate laparotomy. Options at laparotomy include

packing and drainage (preferred), surgical ligation of the hemorrhaging hepatic

segments, embolization of the hepatic artery to the involved liver segment, and

loosely suturing omentum or surgical mesh to the liver to improve integrity.

Even with appropriate treatment, maternal and fetal mortality is over 50%. Mor-

tality is most commonly associated with exsanguination and coagulopathy. Ini-

tial survivors are at increased risk for developing adult respiratory distress

syndrome, pulmonary edema [54], and acute renal failure in the postoperative

period [55,56].

Smith et al [57] reviewed their management of seven patients with spon-

taneous rupture of the liver occurring during pregnancy. Of the four survivors, the

mean gestational age was 32.8 weeks and the mean duration of hospitalization

was 16 days. All the survivors were managed with packing and drainage of the

liver, whereas the three patients treated with hepatic lobectomy died. The authors

also extracted 28 cases reported since 1976 from the literature. From a total of

35 cases analyzed, the overall survival rate for the 27 cases managed by packing

and drainage was 82%, whereas only 25% of eight patients undergoing hepatic

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 825

lobectomy survived. The authors emphasized that hepatic hemorrhage with per-

sistent hypotension unresponsive to transfusion of blood products may be man-

aged surgically with laparotomy, evacuation of the hematoma, packing of the

damaged liver, and draining of the operative site. In certain cases where the

patient is stable enough to undergo angiography, transcatheter embolotherapy is

a reasonable alternative to surgery [58].

In a review of 442 cases of HELLP syndrome managed at the University of

Tennessee, Memphis, four patients were complicated by a ruptured subcapsular

hematoma [59]. Three cases required transfusion of 22 to 40 units of packed

Box 4. Management of patients with documented subcapsularhematoma of the liver

General considerations:

I. Have the blood bank aware of the potential need for largeamounts of packed red blood cells, fresh frozen plasma, andplatelet concentrate (ie, 30 units of blood, 20 units of freshfrozen plasma, 30–50 units of platelets).

II. Consult a general or vascular surgeon.III. Avoid direct and indirect manipulation of the liver.IV. Closely monitor hemodynamic status.V. Administer intravenous magnesium sulfate to prevent

seizures.

If the hematoma is unruptured:

I. Manage conservatively with serial CT scans or ultrasound.

If the hematoma is ruptured:

I. Massive transfusionsII. Immediate laparotomy

A. If bleeding is minimal:(1) Observe.(2) Drain area with closed suction.

B. If bleeding is severe:(1) Apply laparotomy sponges as packs for pressure.(2) Embolize the hepatic artery to the involved liver

segment.(3) Surgically ligate hemorrhaging hepatic segment.(4) Loosely suture omentum or surgical mesh to the liver

to improve integrity.

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833826

red blood cells and multiple units of platelets and fresh frozen plasma. Two of

these three cases were complicated by pulmonary edema and acute renal failure,

but all survived without any residual deficiency. The fourth case was a patient

who presented in profound shock and with disseminated intravascular coagulopa-

thy. This patient subsequently died secondary to a ruptured pulmonary emphy-

sematous bleb during management of adult respiratory distress syndrome [59].

On the basis of their experience and review of the literature, the authors

have developed an algorithm for the management of hepatic complications of

HELLP syndrome (Box 4). This algorithm emphasizes the potential for trans-

fusion of large amounts of blood and blood products and the need for aggressive

intervention if rupture of the hematoma is suspected. The authors recommend

that 30 units of packed red blood cells, 20 units of fresh frozen plasma, 30 to

50 units of platelets, and 20 to 30 units of cryoprecipitate be available when

rupture of a subcapsular hematoma is suspected. Their experience is in agree-

ment with the recent observations of Smith et al [57] to the effect that a stable

patient with an unruptured subcapsular hematoma should be conservatively

managed. Monitoring must be constant during this management, however, be-

cause patients can rapidly become unstable after rupture of the hematoma.

Survival is associated with rapid diagnosis and immediate medical or surgical

stabilization. Coagulopathy must be aggressively managed, because failure to do

so is associated with an increased incidence of renal failure. In addition, these

patients should be managed in an ICU facility with close monitoring of hemo-

dynamic parameters and fluid status to avert potential pulmonary edema or

respiratory compromise.

Postpartum follow-up for patients with subcapsular hematoma of the liver

should include serial CT, MRI, or ultrasonography until the defect resolves. For

patients receiving numerous transfusions, the hepatitis and HIV status and

isoantibody development should be assessed. Although the data on subsequent

pregnancy outcome after a subcapsular hematoma of the liver in pregnancy are

limited, the authors have managed two such patients who have had subsequent

normal maternal and fetal outcomes.

Postpartum management

The HELLP syndrome may develop ante partum or post partum. An analysis

of 442 cases by Sibai et al [59] revealed that 309 (70%) had evidence of the

syndrome ante partum, and 133 (30%) developed the manifestations post partum.

Four maternal deaths occurred, and morbidity was frequent (Table 6). In the

postpartum period, the time of onset of the manifestations ranged from a few

hours to 7 days, with most developing within 48 hours post partum. Patients in

this group are at increased risk for the development of pulmonary edema with

acute renal failure [54,55]. Management is similar to that of the antepartum

patient with HELLP syndrome, including the need for antiseizure prophylaxis

(Fig. 4). Hypertension control may be more aggressive, however, because there is

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Table 6

Serious maternal complications in 442 patients with HELLP syndrome

Complication No. %

Disseminated intravascular coagulopathy 92 21

Abruptio placentae 69 16

Acute renal failure 33 8

Severe ascites 32 8

Pulmonary edema 26 6

Pleural effusions 26 6

Cerebral edema 4 1

Retinal detachment 4 1

Laryngeal edema 4 1

Subcapsular liver hematoma 4 1

Acute respiratory distress syndrome 3 1

Death, maternal 4 1

From Sibai BM, Ramadan MK, Usta I, Salama M, Mercer BM, Friedman SA. Maternal morbidity and

mortality in 442 pregnancies with hemolysis, elevated liver enzymes, and low platelets (HELLP

syndrome). Am J Obstet Gynecol 1993;169:1003; with permission.

J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833 827

no longer concern about compromising the uteroplacental circulation in the

postpartum patient. Blood pressure goals of systolic blood pressure less than

155 mm Hg or diastolic blood pressure less than 105 mm Hg are suggested. The

differential diagnosis in these cases should include TTP, HUS, and exacerbation

of systemic lupus.

HELLP Syndrome Postpartum Management

•Admit to specialized care unit •Continue IV magnesium sulfate•Antihypertensives if SBP > 160 mmHg; DBP > 105 mmHg•Transfusion of blood or blood products as needed

•Caution for imitators of HELLP•AFLP•HUS•Sepsis

•Begin or continue steroid course to avoid rebound thrombocytopenia•Taper steroid dose over 24-48 hours

•Observe for:•Signs of liver hematoma/ infarction:•Change in pain •Acute decrease in blood pressure•Change in respiratory, renal or mental status

•TTP•SLE•APLS

Fig. 4. Algorithm for postpartum HELLP syndrome. APLS, antiphospholipid syndrome; DBP,

diastolic blood pressure; SLE, systemic lupus erythematosus; SBP, systolic blood pressure.

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833828

Following delivery, the patient should be monitored closely in an intensive

care facility for at least 48 hours. Most patients show evidence of resolution of

the disease process within 48 hours after delivery. Some patients, especially those

with DIC, may demonstrate delayed resolution or even deterioration. Such

patients may require intensive monitoring for several days. They are at risk for

development of pulmonary edema from transfusions of blood and blood products,

fluid mobilization, and compromised renal function [55]. In a retrospective study,

Martin et al [22] reported the puerperal courses of 43 women with postpartum

HELLP syndrome who were treated with dexamethasone and compared them

with 237 similar patients who did not receive corticosteroids. Dexamethasone

10 mg IV at 12-hour intervals was given until disease remission was noted in the

treated patients, at which time up to two additional 5-mg IV doses were given at

12-hour intervals. Patients who received dexamethasone for post partum–onset

HELLP syndrome experienced a shorter disease course, faster recovery, less

morbidity, and less need for other interventionist therapy than patients with

HELLP syndrome who did not receive dexamethasone [22].

Postpartum patients with delayed resolution of HELLP syndrome (including

persistent severe thrombocytopenia) represent a management dilemma. Exchange

plasmapheresis with fresh frozen plasma has been advocated as a treatment by

some authors [26,60,61]. Because the majority of these patients will have

spontaneous resolution of their disease, early initiation of plasmapheresis may

result in unnecessary treatment. Schwartz [61] suggested that serial studies

indicating a progressive elevation of bilirubin or creatinine associated with

hemolysis and thrombocytopenia be considered an indication for plasmapheresis.

Martin et al [26] reported the use of plasma exchange with fresh frozen plasma

in seven women in the postpartum period with HELLP syndrome that persisted

for more than 72 hours following delivery. All patients had persistent throm-

bocytopenia, rising LDH, and evidence of multiorgan dysfunction. Sustained

increases in mean platelet count and reduction in LDH concentrations were

associated with plasma exchange. The authors recommended that a trial of plasma

exchange with fresh frozen plasma be considered in HELLP syndrome that

persists for more than 72 hours after delivery and in which there is evidence of a

life-threatening microangiopathy.

Since that publication, however, this group has reviewed 18 patients with

HELLP syndrome who were treated at its institution post partum with single or

multiple plasma exchange with fresh frozen plasma [60]. Patients were entered

into the clinical trial either because of persistent evidence of atypical pre-

eclampsia/eclampsia as HELLP syndrome more than 72 hours after delivery

(group 1) or because of evidence of worsening HELLP syndrome at any time post

partum in association with single or multiple organ injury (group 2). In the

absence of other disease conditions, the nine patients in group 1 with persistent

postpartum HELLP syndrome complicated only by severe clinical expressions of

pre-eclampsia/eclampsia responded rapidly to one or two plasma exchange

procedures with few complications and no maternal deaths. By contrast, the nine

patients of group 2 with HELLP syndrome presentations complicated by other

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organ disease had variable responses to plasma exchange, and there were two

deaths in this group. This current series of patients details the successful

postpartum application of plasma exchange therapy for unremitting HELLP

syndrome, but it reveals that a uniformly positive response to this therapy will not

be observed where there is additional single or multiple organ injury [60].

Potential adverse effects of this plasma exchange include plasma-transmitted

infections, anaphylaxis, volume overload, sepsis, and maternal death.

Maternal counseling

Pregnancies complicated by HELLP syndrome may be associated with life-

threatening complications for both the mother and her infant. Therefore, clini-

cians should be able to answer questions about subsequent pregnancy outcome

and long-term prognosis. Women with a history of HELLP syndrome are at

increased risk for all forms of pre-eclampsia in subsequent pregnancies (Table 7).

In general, the rate of pre-eclampsia in subsequent pregnancies is approximately

20%, with significantly higher rates if the onset of HELLP syndrome was in

the second trimester. The rate of recurrent HELLP syndrome ranges from 2% to

19%. The authors’ policy is to quote these women a recurrence risk of less than

5% [62–64]. Because of the above risks, these women are informed that they

are at increased risk for adverse pregnancy outcome (preterm delivery, fetal

growth restriction, abruptio placentae, and fetal death) in subsequent pregnancies.

They require close monitoring during subsequent gestations.

Currently there is no preventive therapy for recurrent HELLP syndrome. Liver

function tests were studied in 54 women at a median of 31 months (range: 3 to

101 months) after pregnancies complicated by HELLP syndrome [65]. Serum

levels of AST, LDH, and conjugated bilirubin were found to be normal. However,

total bilirubin levels were elevated in 11 (20%) of the studied women. The

authors of this report suggested that a dysfunction of the bilirubin-conjugating

mechanism represents a risk factor for the development of this syndrome [65].

Two reports describe long-term renal function after HELLP syndrome [55,66].

One of the reports included 23 patients whose pregnancies were complicated by

HELLP syndrome and acute renal failure: eight of these women had 11 sub-

Table 7

Pregnancy outcome after HELLP: normotensive women

No. of women No. of pregnancies Pre-eclampsia % HELLP %

Sibai et al [62] 139 192 19 3

Sullivan et al [25] 122 161 23 19

van Pampus et al [63] 77 92 16 2

Chames et al [64]a 40 42 52 6

a HELLP �28 wks in previous pregnancy.

Adapted from Sibai BM. Diagnosis, controversies, and management of the syndrome of hemolysis,

elevated liver enzymes, and low platelet count. Obstet Gynecol 2004;103:988; with permission.

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J.R. Barton, B.M. Sibai / Clin Perinatol 31 (2004) 807–833830

sequent pregnancies, with nine resulting in term gestation [55]. All 23 women

also had normal blood pressure and renal function at an average follow-up of

4.6 years (range: 0.5 to 11 years). The other study compared renal function at

least 5 years after HELLP syndrome in 10 patients with the respective findings in

22 patients with previous normotensive gestation [66]. No differences in renal

function tests were found between the two groups. These findings suggest that

the development of HELLP syndrome with or without renal failure does not

affect long-term renal function.

Summary

Pregnancies complicated by HELLP syndrome require a well-formulated

management plan. The development of this syndrome after 34 weeks’ gestation

or with documentation of maternal or fetal compromise is an indication for de-

livery. Vaginal delivery can be accomplished in most cases; however, if cesarean

section is required, subfascial drains and preoperative platelet transfusion for

platelet counts of less than 40,000/mm3 can reduce the incidence of com-

plications. AFLP, TTP, or HUS may present with signs, symptoms, and labo-

ratory abnormalities that may be confused with HELLP syndrome. Thorough

investigation is warranted because of the differences in proper management

among these various complications of pregnancy. It is advisable that patients

with complications of HELLP syndrome, such as pulmonary edema, acute re-

nal failure, liver rupture, or extreme prematurity, be referred to a tertiary care

center where maternal and neonatal facilities are available. Expectant manage-

ment in patients with HELLP syndrome remote from term and the use of

corticosteroids to improve postpartum maternal outcome remain experimental.

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