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. 2021 Apr 30;22:159. doi: 10.1186/s12882-021-02371-5

Hypokalaemic paralysis and metabolic alkalosis in a patient with Sjögren syndrome: a case report and literature review

Rasika Ranaweerage 1,, Shehan Perera 1, Aruna Gunapala 1
PMCID: PMC8086307  PMID: 33931020

Abstract

Background

Acquired Gitelman syndrome is a very rare disorder reported in association with autoimmune disorders, mostly Sjögren syndrome. It is characterized by the presence of hypokalaemic metabolic alkalosis, hypocalciuria, hypomagnesaemia and hyper-reninaemia, in the absence of typical genetic mutations associated with inherited Gitelman syndrome.

Case presentation

A 20 year old woman who was previously diagnosed with primary Sjögren syndrome and autoimmune thyroiditis presented with two week history of lower limb weakness and salt craving. Examination revealed upper limb and lower limb muscle weakness with muscle power of 3/5 on MRC scale and diminished deep tendon reflexes. On evaluation, she had hypokalaemia with high trans-tubular potassium gradient, metabolic alkalosis and hypocalciuria, features suggestive of Gitelman syndrome. New onset hypokalaemic alkalosis in a previously normokalaemic patient with Sjögren syndrome strongly favored a diagnosis of acquired Gitelman syndrome. Daily potassium supplementation and spironolactone resulted in complete clinical recovery.

Conclusions

Acquired Gitelman syndrome associated with Sjögren syndrome is rare. It should be considered as a differential diagnosis during evaluation of acute paralysis and hypokalaemic metabolic alkalosis in patients with autoimmune disorders, especially Sjögren syndrome.

Supplementary Information

The online version contains supplementary material available at 10.1186/s12882-021-02371-5.

Keywords: Acquired Gitelman syndrome, Sjögren syndrome, Hypokalaemia, Metabolic alkalosis

Background

Sjögren syndrome is a systemic autoimmune disease primarily affecting the exocrine glands. Renal involvement in Sjögren syndrome usually manifest as chronic interstitial nephritis, distal renal tubular acidosis and nephrogenic diabetes insipidus. Sjögren syndrome presenting with features of Gitelman syndrome is rare and named as acquired Gitelman syndrome. In medical literature only eight such cases have been reported. Awareness of the treating physician regarding this rare clinical presentation is imperative to avoid fatal outcomes, especially in patients presenting with acute paralysis. Here, we describe a young female with Sjögren syndrome presenting with features of Gitelman syndrome and hypokalaemic paralysis.

Case presentation

A 20 year old woman previously diagnosed with primary Sjögren syndrome and autoimmune thyroiditis with hypothyroidism presented with two week history of muscle cramps, gradual onset, progressive lower limb weakness and salt craving. The weakness was not associated with ingestion of high carbohydrate meals, diurnal variation of symptoms, easy fatigability or other neurological symptoms including diplopia, bulbar involvement and paresthesia. There was no preceding respiratory tract infection or gastroenteritis. She was on Thyroxin 50 µg daily and denied the use of diuretics or laxatives. There was no personal or family history of similar episodes. Her blood pressure was 100/70 mmHg. Pulse rate was 78 bpm. She was not volume depleted. There was no apparent wasting or tenderness of muscles. Muscle power was 3/5 on MRC scale. Deep tendon reflexes were diminished. Rest of the clinical examination was normal.

Her investigation results revealed that she was having hypokalaemia. ECG revealed T wave flattening and U waves. Imaging did not reveal nephrocalcinosis. Her investigation results are summarized in Table 1.

Table 1.

Summary of laboratory investigations

Investigation Result Normal range
Haemoglobin 12 g/dL 12.0–15.5 g/dL
Platelets 200,000 per microL 150–450 per microL
Serum investigations
 Sodium 135 mmol/L 135–145 mmol/L
 Potassium 2.5 mmol/L 3.5–5 mmol/L
 Magnesium 1.8 mg/dL 1.7–2.30 mg/dL
 Chloride 91 mmol/L 95–111 mmol/L
 Creatinine 0.8 mg/dL 0.6–1.2 mg/dL
 Arterial pH 7.5 7.35–7.45
 PaCO2 43 mmHg 38–42 mmHg
 Bicarbonate 28 mmol/L 22–28 mmol/L
 Renin activity 60.6 ng/mL/h 5.4–34.5 ng/mL/h
 TSH 3.872 mIU/L 0.5 to 5.0 mIU/L
 Free T4 1.29 ng/dL 0.9–2.3 ng/dL
 9 a.m. Serum cortisol 550 nmol/L 140 to 690 nmol/L
Urinary investigations
 Urinary potassium 40 mmol/L < 20 mmol/L
 Urinary chloride 64 mmol/L 55–125 mmol/L
 Trans-Tubular Potassium Gradient (TTKG) 13 < 3
 Spot urine potassium/creatinine ratio 3.1 mmol/mmol > 2 mmol/mmol
 Spot urine calcium/creatinine ratio 0.01 g calcium /g creatinine < 0.2 g calcium /g creatinine
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Previous records revealed that she was diagnosed with primary Sjögren syndrome and autoimmune thyroiditis 2 years ago, when she presented with salivary gland swelling and sicca symptoms. She did not have any other symptoms and signs suggestive of connective tissue disorders. Salivary gland biopsy showed periductal and periacinic lymphoplasmacytic infiltrate that was compatible with Sjögren syndrome. Rheumatoid factor ,anti-Ro (SSA) antibody, anti TPO antibody and Thyroglobulin antibody were positive. ANA titer was positive at 1:320. At that time, serum potassium was noted to be within normal parameters.

Presence of symptomatic hypokalemia with high Trans-tubular Potassium Gradient (TTKG) was suggestive of renal loss of potassium. Coexisting metabolic alkalosis, absence of hypercalciuria, increased renin activity with normal blood pressure in the absence of diuretic or laxative use favored a diagnosis of Gitelman syndrome, either inherited or acquired. Previous records revealed persistent normokalaemia prior to this presentation. New onset hypokalaemic alkalosis in a previously normokalaemic patient with Sjögren syndrome (which is frequently associated with the renal tubular dysfunctions) and autoimmune thyroiditis strongly favored acquired Gitelman syndrome of immune origin. Genetic studies are crucial in differentiating between the inherited and acquired forms of Gitelman syndrome, but we did not have access to genetic studies to confirm our diagnosis.

She was treated with intravenous and oral potassium salts which resulted in improvement of symptoms. At discharge, maintenance potassium salts and spironolactone were prescribed which she tolerated well. Two months later she had a relapse due to poor compliance. After ensuring the compliance she had no further relapses and remained symptoms free thereafter.

Discussion and conclusion

Primary Sjögren syndrome is a systemic autoimmune disease characterized by lymphoplasmacytic infiltration of lacrimal and salivary glands and multiple extraglandular tissues including skin and joints, lungs, heart, gastrointestinal tract, kidneys, bladder, gynecological system and nervous system [1, 2]. It is commonly seen in females with typical onset in fourth to fifth decade of life. The diagnosis of Sjögren syndrome is made in the presence of typical clinical signs, serological and/or histological evidence after the exclusion of conditions that may manifest similar to Sjögren syndrome [3].

Renal involvement is a frequent manifestation of Sjögren syndrome. It is rarely overt and may precede onset sicca symptoms [4]. The manifestations vary from chronic interstial nephritis, distal tubular acidosis, and nephrogenic diabetes insipidus to symptomatic hypokalaemia due to tubular injury [4, 5]. The commonest presentation is chronic interstial nephritis [6]. Distal renal tubular acidosis (RTA) may occur in up to 25 % of the patients with Sjögren syndrome. It is characterized by normal anion gap metabolic acidosis and urinary potassium wasting leading to hypokalaemia muscle paralysis with respiratory arrest which has been the presenting symptom in some cases of Sjögren syndrome. Glomerular involvement is noted to be rare and carries high mortality [4].

Gitelman syndrome is a renal tubular disorder characterized by hypokalemia, metabolic alkalosis, hypomagnesaemia, hypocalciuria, and hyper-reninaemia with normal blood pressure. Gitelman syndrome is an autosomal recessively inherited genetic disorder caused due to the biallelic inactivating mutations of SLC12A3 gene encoding for thiazide-sensitive Sodium chloride cotransporter (NCCT) in distal tubule of the kidney. Gitelman syndrome is usually not diagnosed until late childhood or adulthood [7]. More common disorders that have a similar presentation and must be excluded are surreptitious vomiting, surreptitious diuretic use and hypokalaemic periodic paralysis.

A rare, phenotypically similar clinical presentation has been described in patients with autoimmune disorders such as Sjögren syndrome, Systemic lupus erythematosus and Systemic sclerosis, which has been named as “acquired Gitelman syndrome” [811]. There are only eight such cases have been reported in patients with primary Sjögren syndrome and three of these patients presented with hypokalemic paralysis [1215]. It should be considered as a differential diagnosis during evaluation of hypokalaemic metabolic alkalosis in patients with autoimmune disorders, especially Sjögren syndrome.

Pathogenesis of acquired Gitelman syndrome associated with Sjögren syndrome is being evaluated. Kim et al. reported the presence of a circulating autoantibody against NCCT in a patient presenting with acquired Gitelman syndrome secondary to Sjögren syndrome. This was demonstrated by incubation of serum of a patient with acquired Gitelman syndrome with normal mouse kidney tissue, which showed similar staining patterns of NCCT of distal tubules compared to the incubation of normal mouse kidney with rabbit polyclonal anti-NCCT antibody [8, 14]. Genetic studies are crucial in differentiating between the genetic and the acquired form of Gitelman syndrome. In comparison, type 1 renal tubular acidosis (RTA) secondary to Sjögren syndrome was found to be associated with tubular interstial nephritis with lymphocytic infiltration and reduced expression of both anion exchanger 1 (AE1) and hydrogen-ATPase located in the α-intercalated cells in absence of autoantibodies against these transporters [16].In recent studies, a subset of patients with RTA with anti- carbonic anhydrase antibodies has been identified [17]. These antibodies are thought to be contributory to the pathogenesis of RTA in Sjögren syndrome.

Hypomagnesaemia is a characteristic manifestation of classic Gitelman syndrome, but magnesium level can even be normal in some patients [7]. The mechanism of hypomagnesaemia has been attributed to down regulation TRPM6 magnesium-permeable channels that are located at the apical domain of the distal convoluted tubules and brush border of the duodenal magnesium-transporter cells [18]. In our patient magnesium level was normal.

Our patient demonstrated a very good clinical response to potassium supplementation, but she needed very high doses of potassium chloride to maintain normokalaemia. Similar clinical responses to potassium and /or magnesium and/or spironolactone was noted among other cases as well. In five case reports, steroids were administered with above treatment [1315]. Four patients demonstrated reduced renal potassium wasting while one patient continued to have renal potassium wasting while on steroids. One patient was given cyclophosphamide [19]. None of these patients had relapses while on treatment. Three patients who had apparently responded to steroids were also documented to be on spironolactone at the same time. Hence the observed reduction of renal potassium wasting cannot be attributed to action of steroids alone.

In comparison, the effects of immunosuppression with steroids in type 1 renal tubular acidosis secondary to Sjögren syndrome has been extensively evaluated [20]. Immunosuppression with steroids has been found to effective in slowing the progression of renal disease in majority of these patients. It is our opinion that use of steroids in management of acquired Gitelman syndrome in Sjögren syndrome needs further evaluation as a potential therapeutic modality. Presence of lymphoplasmacytic cell infiltration in renal biopsy may also assist in deciding on immunosuppressive therapy.

Further studies focused on the pathogenesis of renal tubular dysfunctions in Sjögren syndrome will be immensely beneficial in establishing the prognosis and effective therapeutic interventions in this rare and possibly underdiagnosed manifestation of Sjögren syndrome. Paucity of diagnosed patients with acquired Gitelman syndrome appears to be a major limiting factor in studying pathogenesis and treatment responsiveness. Establishing a global disease registry and long term follow up of the diagnosed patients may help to alleviate this issue.

Supplementary Information

Additional file 1. (26.2KB, docx)

Acknowledgements

The authors would like to acknowledge all the staff of ward 46, National Hospital, Sri Lanka for the assistance provided in investigation and management of this patient.

Abbreviations

bpm

beats per minute

MRC scale

Medical research council scale

NCCT

Sodium chloride co-transporter

SLC12A3

Solute carrier family 12 member 3

TRPM6

Transient receptor potential melastatin 6

RTA

Renal tubular acidosis

Authors’ contributions

All authors were involved in the management of the patient. RR did the initial literature review and wrote the first draft. SP also reviewed literature and corrected the first draft. AG did the final correction before submission. All authors have read and approved the final manuscript.

Funding

Authors did not receive any funding during the management of this patient or in writing this case report.

Availability of data and materials

All necessary data and material are provided.

Declarations

Ethics approval and consent to participate

Not applicable.

Consent for publication

Informed written consent was taken from the patient to publish the details relevant to the disease for this scientific publication. The copy of consent form is available for review if deemed necessary.

Competing interests 

The authors declare that they do not have any competing interests.

Footnotes

Publisher’s Note

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Contributor Information

Rasika Ranaweerage, Email: rranaweerage@gmail.com.

Shehan Perera, Email: shehanperera007@gmail.com.

Aruna Gunapala, Email: arunagunapala@gmail.com.

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Supplementary Materials

Additional file 1. (26.2KB, docx)

Data Availability Statement

All necessary data and material are provided.

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