Abstract
Keywords: Grave’s Disease; Autoimmune Hepatitis; Thyrotoxicosis; Acute Liver Failure; Liver Transplant; Thyroidectomy; Contrast Induced
Abbrevations: OLT: Orthotopic liver transplant; SLE: Systemic Lupus Erythematosus; TT: Total thyroidectomy; HD: Hospital day; POD: Post-operative day; ANA: Anti-nuclear antibodies; NaMELD: Sodium model for end-stage liver disease; PTU: Propylthiouracil.
Introduction
Case
At that time her laboratories were INR 3.8, WBC 36.6 k/uL, K 2.7 mmol/L, lactate 2.4 mmol/L, Alk Phos 187 IU/L, AST 625 IU/L, 872 IU/L, Built 30.2 mg/dL, Bild 21.9 mg/dL, T3 11.3 pg/mL, T4 4.46 ng/dL, TSH 0.02 uIU/mL and ceruloplasmin 26 mg/dL. On HD #11 her 24hr copper excretion was 241.6 ug/d. Her admission Named was 35 and 31 at time of transplant. Renal function remained normal throughout her hospitalization. Trends for her hospital stay are shown in (Tables 1 & 2) After initial stabilization, Doppler ultrasound revealed patent vasculature, and MRI showed nodular appearance of the liver consistent with edema or early cirrhosis (Figure 1). The liver transplant service was consulted and a standard workup for potential liver transplant was started.
Figure 1: MRI of abdomen showing nodular appearance of
liver consistent with edema or early cirrhosis.
A transvenous liver biopsy on HD #6 was positive for marked
active hepatitis with bridging necrosis, parenchymal collapse
and minimal focal staining for copper. At the time of biopsy,
a hemodynamic study was performed consistent with portal
hypertension (Figure 2). Blood cultures were positive for E. coli
and urine cultures for E. faecalis on admission, and she received
ceftriaxone and meropenem with negative conversion of cultures.
Her condition continued to deteriorate with worsening hepatic
encephalopathy despite optimal treatment with rifaximin and
lactulose. Oral prednisone was continued at 40 mg PO/qd. Her
thyrotoxicosis was managed with propranolol and potassium
iodide oral solution. An echocardiogram ruled out congestive heart
failure. At HD #26 she was admitted to the intensive care unit and
due to her condition, it was deemed she was at risk of death within
one week and was listed as emergency status 1A on the united
network for organ sharing.
Figure 2: Transvenous hemodynamic study consistent
with portal hypertension. Free hepatic pressure 19 mmHg,
wedge hepatic pressure 26 mmHg, hepatic venous
gradient 7 mmHg.
A suitable donor became available on HD #28 and she underwent
OLT with methylprednisolone and mycophenolate induction
without complications. She received 250 mcg of potassium iodide
the night prior to transplant. Liver explant revealed extensive
bridging necrosis, parenchymal collapse, no definite areas of fibrosis
and minimal copper staining. She recovered without incidents from
transplant and underwent total thyroidectomy on POD #7, she was
then started on levothyroxine. She was discharged on HD #39 to an
acute rehabilitation facility. At 1-year follow up, she has excellent
graft function, remains euthyroid and has not experienced flare ups
of SLE.Discussion
a. systemic effects of thyroid excess,
b. direct toxic effects of thyroid hormone,
c. intrinsic liver and thyroid autoimmune mechanisms,
d. abnormal thyroid metabolism due to liver disease, and
e. subclinical physiologic effects of thyroid hormone [5].
feasible explanation is the presence of a hypermetabolic state with increased hepatic oxygen consumption, but without increases in hepatic blood flow, affecting the centrilobular zones and interfering with bile transport. These findings are consistent with the picture of cholestasis usually present in such cases [6]. In a series of 84 patients with acute liver failure, Anastasiou and colleagues reported a 50% incidence of thyroid hormone abnormalities, with a worse outcome in patients with hyperthyroidism, believed to be secondary to an increase in oxygen consumption and decreased organ perfusion [7]. In the current case, the presence of drug-induced liver injury had to be ruled out, hydroxychloroquine has been associated with acute liver failure requiring liver transplantation, but it appears within two weeks of starting therapy [8]. There is a well-known correlation between anti-thyroid medications and hepatic dysfunction, for example, propylthiouracil (PTU) and methimazole are associated with an incidence of severe liver injury in 0.1% and 0.1-0.2% of patients, respectively [9].
Figure 3: Proposed algorithm for management of patients with symptoms of liver dysfunction and previous diagnosis of
hyperthyroidism. [Figure note: Figure obtained from de Campos Mazo, 2013; © 2013 Mazo et al, publisher and licensee Dove
Medical Press Ltd. This is an Open Access article which permits unrestricted noncommercial use, provided the original work
is properly cited.] [10].
To our knowledge, our patient was not exposed to these
medications. In the absence of established guidelines, a useful
algorithm for the management of liver dysfunction with
hyperthyroidism has been proposed, (Figure 3) This algorithm is
based on a case series of 8 patients in which two cases developed
acute liver failure suitable for OLT [10]. Nonetheless, the timing and
sequence of OLT and thyroidectomy is not well established. Although
it has been proposed not to delay the thyroidectomy as it might
represent a potentially life-saving procedure [11]. The incidence of
acute liver failure in the setting of hyperthyroidism remains a rare
event, with patients undergoing OLT and thyroidectomy even more
unusual. In this case report, adequate control of the thyrotoxicosis
was achieved prior to transplant with oral potassium iodide and
propranolol. In this patient with rapidly progressive liver failure, it
appeared clinically prudent to undergo emergent OLT followed
by TT.Conclusion
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