# Autoimmune Implications in a Patient with Graves’ Hyperthyroidism, Pre-eclampsia with Severe Features, and Primary Aldosteronism

**Authors:** Benjamin Lin, Lauren Robinson, Basem Soliman, Jill Gulizia, Stephen Usala

PMC · DOI: 10.3390/medicina60010170 · 2024-01-17

## TL;DR

A rare case of a patient with Graves’ disease and primary aldosteronism is described, highlighting the complex autoimmune connections and successful treatment strategies.

## Contribution

This case report highlights the rare coexistence of Graves’ disease and primary aldosteronism with undetectable antibodies.

## Key findings

- The patient had severe hyperthyroidism and hypertension due to Graves’ disease and primary aldosteronism.
- Treatment with spironolactone and thyroidectomy effectively managed both conditions.
- Autoimmune involvement in primary aldosteronism is suggested based on the clinical context.

## Abstract

Background and Objectives: Graves’ disease (GD) and primary aldosteronism (PA) are two pathologies that can cause significant morbidity and mortality. GD is mediated by autoantibodies, and recent studies have shown autoantibody involvement in the pathophysiology behind both PA and pre-eclampsia. The coexistence of GD and PA, however, is reportedly rare. This report describes a unique case of Graves’ hyperthyroidism and concomitant PA in a patient with a history of pre-eclampsia with severe features. Case Presentation: The patient presented at 17 weeks pregnancy with mild hyperthyroidism, negative TSH receptor antibodies, and a low level of thyroid-stimulating immunoglobulins (TSI). Her TSH became detectable with normal thyroid hormone levels, and therefore, no anti-thyroid medication was administered. At 34 weeks she developed pre-eclampsia with severe features, and a healthy child was delivered; her TSH returned to normal. Seven months after delivery, she presented emergently with severe hyperthyroidism, hypertensive crisis, and a serum potassium of 2.5 mmol/L. Her hypertension was uncontrolled on multiple anti-hypertensives. Both TSI and TSH receptor antibodies were negative. The aldosterone(ng/dL)/renin(ng/mL/h ratio was (13/0.06) = 216.7, and abdominal CT imaging demonstrated normal adrenal glands; thus, a diagnosis of PA was made. Her blood pressure was subsequently controlled with only spironolactone at 50 mg 2xday. Methimazole was started but discontinued because of an allergic reaction. Consequently, a thyroidectomy was performed, and pathology revealed Graves’ disease. The patient remained well on levothyroxine at 125 mcg/day and spironolactone at 50 mg 2xday three months after the thyroidectomy. Conclusions: This patient manifested severe GD with antibodies undetectable by conventional TSI and TSH receptor assays and accelerated hypertension from PA simultaneously. These conditions were successfully treated separately by spironolactone and thyroidectomy. Autoimmune PA was considered likely given the clinical picture. The diagnosis of PA should be considered in hypertension with GD.

## Linked entities

- **Chemicals:** spironolactone (PubChem CID 5833), methimazole (PubChem CID 1349907), levothyroxine (PubChem CID 5819)
- **Diseases:** Graves’ hyperthyroidism (MONDO:0005364), pre-eclampsia (MONDO:0005081), primary aldosteronism (MONDO:0001422)

## Full-text entities

- **Genes:** TSHR (thyroid stimulating hormone receptor) [NCBI Gene 7253] {aka CHNG1, LGR3, hTSHR-I}, AGTR1 (angiotensin II receptor type 1) [NCBI Gene 185] {aka AG2S, AGTR1B, AT1, AT1AR, AT1B, AT1BR}, AGT (angiotensinogen) [NCBI Gene 183] {aka ANHU, SERPINA8, hFLT1}, TG (thyroglobulin) [NCBI Gene 7038] {aka AITD3, TGN}, REN (renin) [NCBI Gene 5972] {aka ADTKD4, HNFJ2, RTD}, TPO (thyroid peroxidase) [NCBI Gene 7173] {aka MSA, TDH2A, TPX}, EDN1 (endothelin 1) [NCBI Gene 1906] {aka ARCND3, ET1, HDLCQ7, PPET1, QME}, EDNRA (endothelin receptor type A) [NCBI Gene 1909] {aka ET-A, ETA, ETA-R, ETAR, ETRA, MFDA}
- **Diseases:** renal graft failure (MESH:D051437), BAH (MESH:D000312), proteinuria (MESH:D011507), delirium (MESH:D003693), thyroiditis (MESH:D013966), fever (MESH:D005334), papillary carcinoma (MESH:D002291), systemic sclerosis (MESH:D012595), inflammation (MESH:D007249), thyrotoxicosis (MESH:C566386), adenoma (MESH:D000236), autoimmune disease (MESH:D001327), autoimmune disease of the thyroid gland (MESH:D013967), Pre-eclampsia (MESH:D011225), injury to people or property (MESH:C000719191), cranial hemorrhage (MESH:D002543), thyroid abnormalities (MESH:D013959), rash (MESH:D005076), toxic nodular goiter (MESH:D006044), hypothyroid (MESH:D007037), Graves' Hyperthyroidism (MESH:D006980), autoimmune Hashimoto's thyroiditis (MESH:D050031), allergic reaction (MESH:D004342), weakness (MESH:D018908), tachycardia (MESH:D013610), Autoimmune PA (OMIM:617027), hypokalemic (MESH:D020514), cardiovascular complications (MESH:D002318), autoimmune endocrinopathies (MESH:C567425), HTN (MESH:D006973), death (MESH:D003643), goiter (MESH:D006042), APAs (MESH:D006929), multinodular goiter (MESH:C564546), placental abnormalities (MESH:D010922), GD (MESH:D006111), polyhydramnios (MESH:D006831), gestational diabetes (MESH:D016640), adrenal adenoma (MESH:D018246), fetal distress (MESH:D005316), hypokalemia (MESH:D007008), paresthesia (MESH:D010292)
- **Chemicals:** Aldosterone (MESH:D000450), T4 (MESH:D013974), losartan (MESH:D019808), BP (MESH:C038809), candesartan (MESH:C081643), T3 (MESH:D014284), lisinopril (MESH:D017706), Spironolactone (MESH:D013148), Free (-), TSH (MESH:D013972), insulin (MESH:D007328), Labetalol (MESH:D007741), Methimazole (MESH:D008713), hydralazine (MESH:D006830), potassium (MESH:D011188), dexamethasone (MESH:D003907), Potassium Chloride (MESH:D011189), eplerenone (MESH:D000077545), hydrochlorothiazide (MESH:D006852)
- **Species:** Mus musculus (house mouse, species) [taxon 10090], Homo sapiens (human, species) [taxon 9606], Rattus norvegicus (brown rat, species) [taxon 10116]
- **Mutations:** AT1-AA

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Source: https://tomesphere.com/paper/PMC10820415