Real world treatment of juvenile-onset systemic lupus erythematosus: Data from the UK JSLE cohort study

BACKGROUND

In the absence of clinical trials evidence, Juvenile-onset Systemic Lupus Erythematosus (JSLE) treatment plans vary.

AIM

To explore 'real world' treatment utilising longitudinal UK JSLE Cohort Study data.

METHODS

Data collected between 07/2009-05/2020 was used to explore the choice/sequence of immunomodulating drugs from diagnosis. Multivariate logistic regression determined how organ-domain involvement (pBILAG-2004) impacted treatment choice.

RESULT

349 patients met inclusion criteria, median follow-up 4-years (IQR:2,6). Mycophenolate mofetil (MMF) was most commonly used for the majority of organ-domains, and significantly associated with renal involvement (OR:1.99, 95% CI:1.65-2.41, pc < 0.01). Analyses assessing the sequence of immunomodulators focused on 197/349 patients (meeting relevant inclusion/exclusion criteria). 10/197 (5%) solely recieved hydroxychloroquine/prednisolone, 62/197 (31%) received a single-immunomodulator, 69/197 (36%) received two, and 36/197 patients (28%) received ≥three immunomodulators. The most common first and second line immunomodulator was MMF. Rituximab was the most common third-line immunomodulator.

CONCLUSIONS

Most UK JSLE patients required ≥two immunomodulators, with MMF used most commonly.

Lupus hepatitis, more than just elevated liver enzymes

Systemic lupus erythematosus (SLE), a multisystem autoimmune inflammatory disease, may involve any organs, including the liver. Liver involvement in SLE is not part of the American College of Rheumatology criteria and is relatively rare. Liver disease is usually mild, manifesting as subtle elevation of liver enzymes. Jaundice and hepatomegaly can be seen in some patients; advanced liver disease with cirrhosis is extremely rare. Precise pathology remains obscure. SLE may cause non-specific changes, including hepatocellular, cholestatic, or vascular changes. Alcohol, drugs, viral infections, metabolic disorders, autoimmune hepatitis, and other common causes of liver dysfunction should be excluded. Corticosteroids may expedite the recovery process, but may lead to non-alcoholic fatty liver disease and liver damage. Several large-scale multicentre studies have shown that liver involvement is not the major cause of morbidity and mortality in SLE patients. In this review, we discuss the pathogenesis, diagnosis, differential diagnosis, clinical manifestations, management, complications, and prognosis of lupus hepatitis.

Lupus and the Liver: A Case Study

Systemic lupus erythematosus (SLE) is an autoimmune disorder with a wide range of systemic manifestations. Though skin, renal, joint, and hematologic involvement are often associated with SLE, hepatitis is not a common manifestation. While clinically significant hepatopathy in SLE is rare, asymptomatic hypertransaminasemia has been seen in up to 60 percent of SLE patients during the course of their disease and is generally attributed to viral hepatitis, hepatotoxic drugs, or alcohol use. A diagnosis of lupus hepatitis is largely considered a diagnosis of exclusion. There has been a correlation between the presence of ribosomal P autoantibodies with the incidence of lupus hepatitis. Generally, lupus hepatitis responds well to therapy with prednisone, although cases refractory to corticosteroids and conventional immunosuppressants have been described. In these cases, treatment with mycophenolate mofetil has been shown to be effective. Here, we present the case of a 15-year old female who presented with a new diagnosis of SLE with an incidental elevation of her liver function tests (LFTs) and a subsequent finding of hepatomegaly with fatty infiltration.

Acute Respiratory Events in Connective Tissue Disorders

Subacute-acute, hyperacute, or even catastrophic and fulminant respiratory events occur in almost all classic connective tissue disorders (CTDs); they may share systemic life-threatening manifestations, may precipitously lead to respiratory failure requiring ventilatory support as well as a combination of specific therapeutic measures, and in most affected patients constitute the devastating end-of-life event. In CTDs, acute respiratory events may be related to any respiratory compartment including the airways, lung parenchyma, alveolar capillaries, lung vessels, pleura, and ventilatory muscles. Acute respiratory events may also precipitate disease-specific extrapulmonary organ involvement such as aspiration pneumonia and lead to digestive tract involvement and heart-related respiratory events. Finally, antirheumatic drug-related acute respiratory toxicity as well as lung infections related to the rheumatic disease and/or to immunosuppression complete the spectrum of acute respiratory events. Overall, in CTDs the lungs significantly contribute to morbidity and mortality, since they constitute a common site of disease involvement; a major site of infections related to the 'mater' disease; a major site of drug-related toxicity, and a common site of treatment-related infectious complications. The extreme spectrum of the abovementioned events, as well as the 'vicious' coexistence of most of the aforementioned manifestations, requires skills, specific diagnostic and therapeutic means, and most of all a multidisciplinary approach of adequately prepared and expert scientists. Avoiding lung disease might represent a major concern for future advancements in the treatment of autoimmune disorders.