1. Systemic Lupus Erythematosus – Internal Medicine Board Review
Rina Mina MD, MS
Division of Immunology, Allergy and Rheumatology
Lupus Clinic,
University of Cincinnati

2. ABIM Blueprint Systemic lupus erythematosus (SLE) <2%
Drug-induced lupus-like syndromes
Complications
Discoid lupus
Undifferentiated systemic lupus erythematosus

3. Systemic lupus erythematosus (SLE) Drug-induced lupus
Question 1: In which of these autoimmune diseases is a patient presentation without antinuclear antibodies (ANAs) most likely?
Systemic lupus erythematosus (SLE)
Drug-induced lupus
Mixed connective tissue disease
Sjögren syndrome

4. Disease Associated with Positive ANA
SLE
Active
98 to 100
Remission 90
Scleroderma 95
Rheumatoid arthritis 45
Sjogren's syndrome 60
Mixed connective tissue disease
100
Drug-induced LE
80 to 95
Raynaud's phenomenon 40
Polymyositis/dermatomyositis 35
Juvenile idiopathic arthritis
15 to 40
Organ-specific autoimmune diseases
Hashimotos thyroiditis 50
Graves' disease
Autoimmune hepatitis 70
Primary biliary cirrhosis
50 to 70

5. Disease Associated with Positive ANA
Malignancies
Lymphoproliferative diseases
Paraneoplastic syndromes
Miscellaneous diseases
Inflammatory bowel disease
Interstitial pulmonary fibrosis

6. Autoantibodies: ANA Elisa and IF
A negative Anti-nuclear antibody (ANA) - SLE unlikely
High specificity: anti-Smith and anti-dsDNA
Parallel disease activity: anti-dsDNA (along with complement levels)
27 of 195 children of mothers with lupus had a positive test for ANA

7. ANA pattern

8. Deposit pattern
Specificity
Clinical correlation
Dense fine stippled nuclear
Non-specific
Healthy population (Most common pattern)
Centromeric nuclear
Anticentromere
CREST, limited scleroderma
Homogenous nuclear
Anti-dsDNA antibody
DNA-histones
SLE
Drug-induced LE
Diffuse stippled nuclear
Anti-Sm Anti-RNP
MCTD, SLE
Fine speckled nuclear
Anti-Ro/SSA and La/SSB
SLE Subacute cutaneous LE, Neonatal LE, Sjögren's
Nucleolar
Anti-nucleolus
Systemic sclerosis
Overlap syndrome
Fine stippled cytoplasmic
Anti-Jo1
Polymyositis/DM
Mixed deposit patterns
Anti-Scl-70
Systemic Sclerosis, Overlap syndrome

9. Forms of Lupus Systemic lupus erythematosus (SLE) Cutaneous Lupus
Discoid lupus
Subacute cutaneous lupus
Drug-induced lupus
Neonatal lupus

10. Question 2
A 23 year old woman presented with painful joints, rash on the face and back, as well as extremity color change and mouth sore. She has also complained chest pain on inspiration.

12. Raynaud’s phenomenon

15. Systemic lupus erythematosus (SLE) Sjögren syndrome
Question 2 Labs showed positive ANA with titer of 1:640; anti-dsDNA and anti-Smith were elevated.
Scleroderma
Systemic lupus erythematosus (SLE)
Sjögren syndrome
Inflammatory myositis

16. Systemic Lupus Autoimmune multisystem disease
Inflammation/involvement of most organ systems with remissions and exacerbations
Variable course and prognosis
Immunologic aberrations give rise to excessive autoantibody production

17. Classification Criteria

18. Classification Criteria
The criteria are useful
They were designed for classification and not for diagnosis
For mild cases and patients with early disease the classification might not be sensitive for diagnosis

19. Epidemiology Prevalence in USA: 20-150/100,000
Incidence: /100,000/person years
Most studies of SLE-90% women
Age 14-64: 6-10-fold female
In USA: three times more common in -African-Americans (>Asians > Caucasians)
Twin concordance-24-50% monozygotic vs. 2-5% dizygotic

20. Etiology Etiology is unknown and multifactorial Dietary factors
Role for several factors:
Genetic
Hormonal
Immunologic
Environmental
The mediators of SLE are autoantibodies and immune complexes they form with antigens
Phagocytosis and clearing of immune complexes and of apoptotic cells are defective
A decrease in cytotoxic T cells and in functions of suppressor T cells
An increase in helper (CD4+) T cells
Polyclonal activation of B cells and abnormal B cell receptor signaling
Defects in B cell tolerance, perhaps related to defects in apoptosis, lead to prolonged lives of B cells
Impaired clearance of dying cells  accumulation of cellular debris.
DCs, rather than macrophages acquire autoantigens from these dying, late-apoptotic cells.
These modified autoantigens activate autoreactive T cells, which provide help for B cells recognizing nuclear autoantigens and result in the B-cell secretion of autoantibodies.
Immune complexes and/or autoantibodies deposit in various organs, causing immune-mediated organ damage.
Dietary factors 
Alfalfa sprouts and related sprouting foods containing  Canavanine
Pristane and similar substance
Infectious agents other than EBV
Bacterial DNA
Human retroviruses
Endotoxins
Bacterial lipopolysaccharides

21. Hormonal Factors
Use of estrogen-containing contraceptive increases risk of SLE
Early-onset menarche (age ≤10 years) or estrogen to postmenopausal women increases their risk of SLE
SLE has been observed with higher frequency in Klinefelter's

22. Clinical Features
Constitutional (fever, fatigue, weight loss) or result from inflammation of organ systems: skin, mucous membranes, joints, kidney, brain, serous membranes, lung, heart, and occasionally gastrointestinal
Isolated or in combination
Vital organs, particularly the kidney and CNS - significant morbidity or mortality

23. Renal Disease – Lupus Nephritis
All studies of prognosis have identified lupus nephritis as predictor of poor outcome
Renal disease is present in one-half to two-thirds of the patients
Indications for biopsy: active urine sediment and > 500 mg/day proteinuria
Renal biopsy: abnormal in patients, especially when tissue evaluated by EM and immunofluorescence

24. Lupus Nephritis in Biopsy
1. Minimal mesangial glomerulonephritis
2. Mesangial proliferative glomerulonephritis
3. Focal proliferative glomerulonephritis
4. Diffuse proliferative glomerulonephritis
ESRD risk 10-20%, Immunosuppressives
5. Diffuse membranous glomerulonephritis
ESRD risk < 10%, nephrotic syndrome, thrombosis, ACE inhibitors
6. Advanced sclerosing glomerulonephritis

25. Neurologic Manifestations
Diffuse manifestations
Organic brain syndromes
Cognitive impairment
Focal manifestations
Cranial neuropathies
CVA
Transverse myelitis
Seizures
Other: headaches, aseptic meningitis (NSAIDS)
Psychiatric manifestations

26. MSK Manifestations Arthritis: inflammatory non-erosive
Myalgias – proximal muscle 40-80%
Inflammatory myositis – 5-11%
Differentiate from steroid-and antimalarial-induced myopathies
EMG and muscle biopsy range from normal to pattern of inflammatory myopathy similar to Dermatomyositis/Polymyositis
Jaccoud’s arthropathy

27. Avascular Necrosis of the Bone
AVN – 5-12% of patients (Medstudy up to 30%)
Risk factors: corticosteroids, Raynaud’s, small-vessel vasculitis, fat emboli, anti-phospholipid antibodies, ETOH
MRI more sensitive

28. Other Manifestations Acute Pneumonitis
“Shrinking lung syndrome” (decreased lung volumes without parenchymal disease)
Pulmonary hemorrhage
Valvular disease (Libman-Sacks endocarditis)
CAD 50-fold increase in MI
Liver disease –lupus hepatitis (vs. lupoid hepatitis)
Cytopenia- thrombocytopenia consider TTP
Cardiac abnormalities – over 50%
Valvular disease – often mitral regurgitation, more in APL syndrome – 75% (Libman-Sacks endocarditis)
Pericardial disease – pericarditis, silent effusion – up 55%
Myocarditis, myocardial dysfunction – up to 78%
Coronary artery disease – up to 16%
Liver disease – lupoid hepatitis; autoantibodies to distinguish from autoimmune hepatitis; ANAs can be seen in both, anti–smooth muscle and antimitochondrial uncommon in SLE (<30%). histology rarely shows the periportal (interface) hepatitis with piecemeal necrosis characteristic of autoimmune hepatitis

29. SLE Treatment FDA approved drugs:
Aspirin, glucocorticoids, hydroxychloroquine, belimumab
Depends on extent of disease (minor or major manifestations)
On the type of organ involvement

30. Major and Minor Manifestations
Dermatologic
Arthritis
Serositis
Leukopenia
Fatigue
Major
Nephritis
Cerebritis
Thrombocytopenia
Hemolytic anemia
Infection

31. Antimalarials Constitutional symptoms Musculoskeletal involvement
Serositis
Cutaneous lesions

32. Corticosteroids in Lupus
Indication
Corticosteroid regimen
Rashes
Topical
Intralesional
Minor disease activity
Oral prednisone (or equivalent) <0.5 mg/kg
Major disease activity
Oral prednisone (or equivalent) 1 mg/kg
Intravenous methylprednisolone 1g or 15 mg/kg often repeated 3 consecutive days

33. Indications for High-Dose Steroids
Severe lupus nephritis (combined with immunosuppressive)
CNS lupus with severe manifestations
Autoimmune thrombocytopenia with very low platelet counts
Autoimmune hemolytic anemia
Acute pneumonitis
Other severe manifestations

34. Immunosuppressives Methotrexate and Belimumab: Musculoskeletal
Cutaneous
Serositis
Azathioprine and Mycophenolate mofetil:
Cyclophosphamide and Rituximab:
Major organ (kidney, CNS, severe hematologic, vasculitis)

35. Indication for Cyclophosphamide Drug Use in SLE
Hematologic
Severe Thrombocytopenia – Platelet count <
TTP-like syndrome
Severe hemolytic or immune neutropenia not responding to steroids
Pulmonary – lupus pneumonitis or alveolar hemorrhage
Cardiac – myocarditis or pericarditis with impending tamponade
Gastrointestinal – abdominal vasculitis
Nervous system – transverse myelitis, cerebritis, mononeuritis multiplex

36. Outcomes and Survival
The 5-year survival has increased from 40% in the 1950s to more than 90% in studies after 1980.
Causes of death:
In the first years - activity of disease or infections
Later death – illness complications (end-stage renal disease) or treatment complications (infections) or both (coronary artery disease)

37. SLE and Pregnancy
Inactive or mild disease at conception- 81% of subjects had uncomplicated pregnancies
High disease activity in 1st and 2nd trimesters showed a threefold increase in pregnancy loss
Higher rate of SLE flares-25-60%

38. SLE and Pregnancy
Labs: aPLs, anti-Ro/SSA and anti-La/SSB, anti-dsDNA, renal function (creatinine, urinalysis with urine sediment, spot urine protein/creatinine ratio), Complete blood count (CBC), Liver function tests, Complement (CH50, or C3 and C4), Uric acid
Continue: hydroxychloroquine
Contraindicated: cyclophosphamide, mycophenolate mofetil, methotrexate, leflunomide

39. Forms of Lupus Systemic lupus erythematosus (SLE) Cutaneous Lupus
Discoid lupus
Subacute cutaneous lupus
Drug-induced lupus
Neonatal lupus

40. Butterfly Rash Acute cutaneous spares nasolabial folds
interface dermatitis and include apoptotic keratinocytes, vacuolization of the basal cell layer of the epidermis, a lymphohistiocytic infiltrate in the superficial dermis, and dermal mucin deposition [16]. The findings can be subtle.
Topical and intralesional corticosteroids, oral glucocorticoids, oral antimalarial drugs, and glucocorticoid-sparing immunomodulatory agents have all been utilized depending on extent of disease and response to first- and second-line therapies.
Acute cutaneous spares nasolabial folds

41. Discoid LE – Scarring Alopecia
Discoid lupus 5% chance of developing SLE
Higher in disseminated DLE

42. Discoid LE
The association with SLE varies among the subtypes of cutaneous LE and mainly has been estimated from cross-sectional studies and retrospective studies
ACLE – >90 [3]
●SCLE – 48 to 50 [9]
arcuate erythematous plaques that resolve without scarring
strong association between SCLE, human leukocyte antigen (HLA)-DR3, antibodies to Ro/SSA, 80%
Photosensitivity
including antihypertensive drugs, lipid-lowering agents, proton pump inhibitors, antifungal agents, TNF-alpha inhibitors
improvement in the clinical manifestations of SCLE within eight weeks of drug withdrawal and a decrease in anti-Ro/SSA antibodies within eight months following drug withdrawal
●Localized DLE – 5 to 10 [10]
●Generalized DLE – 15 to 28 [10]

43. Subacute Cutaneous Lupus
The association with SLE varies among the subtypes of cutaneous LE and mainly has been estimated from cross-sectional studies and retrospective studies
ACLE – >90 [3]
●SCLE – 48 to 50 [9]
arcuate erythematous plaques that resolve without scarring
strong association between SCLE, human leukocyte antigen (HLA)-DR3, antibodies to Ro/SSA, 80%
Photosensitivity
including antihypertensive drugs, lipid-lowering agents, proton pump inhibitors, antifungal agents, TNF-alpha inhibitors
improvement in the clinical manifestations of SCLE within eight weeks of drug withdrawal and a decrease in anti-Ro/SSA antibodies within eight months following drug withdrawal
●Localized DLE – 5 to 10 [10]
●Generalized DLE – 15 to 28 [10]
SCLE annular rash, +Ro/La, photosensitive, non-scarring, associated with med use

44. Forms of Lupus Systemic lupus erythematosus (SLE) Cutaneous Lupus
Discoid lupus
Subacute cutaneous lupus
Drug-induced lupus
Neonatal lupus

45. Question 3
Your 73-year-old male patient is undergoing evaluation because of low-grade fever, fatigue, anorexia, weight loss, and arthralgia. Labs showed positive anti-histone antibody, among others.

46. Isoniazid Hydrochlorothiazide Metformin Tamoxifen
Question 3 Which of these medications is most likely responsible for these symptoms?
Isoniazid
Hydrochlorothiazide 
Metformin
Tamoxifen

47. Drug-induced Lupus Procainamide Hydralazine Diltiazem Penicillamine
Isoniazid
Interferon alpha
Methyldopa
Chlorpromazine
Sulfasalazine
Minocycline
Etanercept
Infliximab

48. Drug-induced Lupus
Constitutional symptoms- fever, arthritis, rash, serositis
Positive ANA, anti-histone antibodies
C3 and C4 usually normal
Anti-ds DNA usually negative (exception TNF inhibitors)
Kidney and CNS involvement not common
Improvement 4-8 weeks, antibody persistence

49. Forms of Lupus Systemic lupus erythematosus (SLE) Cutaneous Lupus
Discoid lupus
Subacute cutaneous lupus
Drug-induced lupus
Neonatal lupus

50. Question 4 Which of the following statements about neonatal lupus is true?
Majority of infants have persistent anti-SSA/Ro Ab persistent in blood at 9 months
Highest incidence of hematological and liver tests alterations are when the infant is 9 months old
Highest incidence of hematological and liver tests alterations are when the infant is 12 months old
Hydroxychloroquine use is associated with decrease risk for congenital heart block

51. Neonatal Lupus Rash Hemolytic Anemia Thrombocytopenia Leukopenia
Hepatitis
Cardiac Involvement
Neonatal lupus is caused by maternally transferred autoantibodies from the mother to the baby. Most mothers of of NLE babies have not been diagnosed with SLE. They are however anti-Ro and sometimes also anti-La antibody positive.
Other manifestations of NLE include autoimmune cytopenias, hepatitis, rash and myositis. Typically the rash is not present at birth, but developes during the first days to months of life. The rash heals without scarring over the next 1 to 2 years of life.The babies are not at an increased risk to develop SLE themselves

52. Cardiac involvement Congenital Heart Block Myocarditis, Pericarditis
Hydrops Fetalis
Risk 1-2%, 15% in subsequent pregnancies
Fetal echo at weeks
Hydroxychloroquine decreases risk (6-10 wks)
Fluorinated glucocorticoids
Pericardial effusion ()
discordant artial and ventricular rhythm
CCHB is the most seroius manifestation of NLE. Neonatal lupus the most common cause of congenital heartblock. The anti-Ro antibody recognized the cardiac conduction system of the fetus and can leads to fibrosis of the conduction pathways.
It typically persents between the week of gestation and results in fetal bradycardia. It can also lead percarditis and myocardiditis to hydrops

53. Neonatal Lupus
Only 10% of infants have anti-SSA/Ro Ab persistent in blood at 9 months.
The highest incidence of hematological features and liver tests alterations are observed when the infant is 3 months old.

54. Undifferentiated Connective tissue disease (UCTD)

55. UCTD - Definition
Symptoms, physical findings, or positive serology consistent with a connective tissue disease
Do not fulfill the established classification criteria for a specific disease
20-25% of patients with rheumatic diseases and systemic symptoms cannot be definitively diagnosed
Patients have clinical features that can be seen in RA, Sjogren’s, SLE, SSc, PM

56. Epidemiology Female predominance similar to RA and SLE
Age: Onset similar to most CTD, peaking in the middle age; has been described in children

57. Most Common Symptoms Fever, fatigue, weight loss Raynaud’s
Undifferentiated polyarthritis
Mucocutaneous manifestations
Sicca symptoms

58. Morbidity and Mortality
Most patients with UCTD diagnosed after 12 months of the onset of symptoms remain undifferentiated after 10 years of disease
Survival better than in RA and SLE
Mortality and morbidity related to extent of organ involvement (ILD, PH, Vascular)
Progression to RA or SLE 10-20%

59. Management Prolonged follow up Treat the predominant feature:
Arthritis
Rash
Raynaud’s
Lung disease

60. Thanks! Questions? minara@ucmail.uc.edu