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Internal Medicine Clinical Pathological Conference. July 18, 2008. Diagnostic Procedure. Right thigh skeletal muscle biopsy. Further Evaluation:. Further Evaluation:. Thoracentesis Transudative fluid AFB sputum negative x 3 EMG Sensory and motor neuropathy, but cannot exclude myopathy
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Internal MedicineClinical Pathological Conference July 18, 2008
Diagnostic Procedure • Right thigh skeletal muscle biopsy
Further Evaluation: • Thoracentesis • Transudative fluid • AFB sputum negative x 3 • EMG • Sensory and motor neuropathy, but cannot exclude myopathy • Modified Barium Swallow Examination • Moderate dyshphagia with unilateral left pharyngeal weakness
Clinical Proximal muscle weakness Arthralgia Dysphagia Absence of rash Radiology Bilateral interstitial fibrosis Transudative effusion Laboratory Elevated creatine kinase Elevated Anti-Jo1 Elevated ESR, CRP Transaminitis EMG Neuropathy Key Features:
Idiopathic Inflammatory Myopathy • Subclassified • Polymyositis • Dermatomyositis • Inclusion body myositis • Histological: endomysial inflammation and activation of the immune response
Idiopathic Inflammatory Myopathy • Epidemiology • Annual incidence: 2-10 per million • Polymyositis: • Disease of adult; rare in people younger than 20 years old • Dermatomyositis: • Two peaks: 5-10 years old and 50 years old • Female to male – 2:1 • Inclusion body myositis • Older than 50 years of age
Polymyositis/Dermatomyositis • Diagnostic criteria, Bohan and Peter, 1975 • Symmetrical, proximal muscle weakness • Elevation of serum skeletal muscle enzymes • CK, LDH, AST, ALT, and Aldolase • Muscle biopsy with evidence of myositis • EMG pattern of myopathy • Typical rash of dermatomyositis- photosensitive rash, heliotrope rash, and gottron papules Gottron Papules Heliotrope rash
Polymyositis/ Dermatomyositis • Esophageal involvement (8-30%), inflammation of cardiac muscle • Interstitial Lung disease (50%) • Nonspecific interstitial pneumonia (NSIP) • Usual interstitial pneumonia (UIP) • Anti-Jo 1 and Anti-Mi2 • Anti- Jo-1 commonly have Interstitial lung disease • Anti-M1 have skin findings • Increase cancer risk • 7-10% of polymyositis • 15-20% of dermatomyositis
Polymyositis/ Dermatomyositis • Cellular immunity • Polymyositis- Class II HLA antigen DR3, predominant CD8 T cells • Dermatomyositis- Predominant B cells and CD4 T cells in inflammatory infiltrates
Inclusion Body Myositis • May be asymmetric and involves distal muscles • Dysphagia is prominent( 40-80%) • Muscle enzyme is only mildly elevated • EMG- Myopathic and Neuropathic • Biopsy- mononuclear infiltrates and red-rimmed vacuoles in muscle cells with inclusion bodies • Mild response to conventional steroid treatment
Inclusion Body Myositis: Pathogenesis • Engel and Arahata 1984 • Endomysial infiltrates are composed of primarily CD8+ T Cells • Engela and Engel 1988; Orimo 1994; Schmidt 2004 • CD8+ T Cells surrounds MHC class I myofibers and express perforin • Cupler 1996; Saperstien 1999; Tsuruta 2001; Dalakas 2006 • Association with chronic viral infection
Inclusion Body Myositis: Pathogenesis • Hypothesis- Dalakas 2006 Disease begins with viral infection HIV, HTLV-1, Hepatitis C • Clonal expansion of CD 8+ T cells and T-cell mediated, MHC class I cytotoxicity via perforin pathway leading to necrosis • Cytokines upregulate MHC class I molecules leading to MHC-peptide loading complex and endoplasmic reticulum (ER) stress • ER stress leads to activation of transcription factor NFkB, further stimulating MHC/CD 8 complex and induce a self-sustain inflammatory response Dalakas, 2006
Treatment • Polymyositis/ Dermatomyositis • High dose corticosteroids- respond within 6 weeks • Methotrexate, cyclosporine, and IVIG • Inclusion body myositis • Most immunotherapeutic agents are ineffective • Age appropriate cancer screening
FINAL DIAGNOSIS: Inclusion Body Myositis Dermatomyositis sine dermatitis
Pathogenesis of Patient’s disease Viral Infection • B cells and CD4 T cells in • inflammatory infiltrates Clonal expansion of CD 8+ T Cell Cytokine release Endoplasmic reticulum stress and Intracellular peptide loading complex Skeletal muscle inflammation Epidermal and dermal destruction Complex with MHC class I Cytotoxicity via perforin pathway causing necorsis Skeletal muscle inflammation Inclusion Body Myositis Dermatomyositis Interstitial lung disease Cough Dysphagia Proximal muscle Weakness, myalgia Elevated serum muscle enzymes Rash Recurrent Aspiration
Case Follow-up • Patient was started on empiric antibiotics for aspiration pneumonia • Started on prednisone 30mg bid • Pt transferred to subacute inpatient rehabilitation • CPK=5675, AST=237, ALT=252 after one week of prednisone therapy • Pt with improvement in deltoid strength and proximal muscle strength
Case Follow-up • Eventually discharged with outpatient rheumatology follow up • Initially, clinical symptoms improved and patient was maintained on daily steroid for about 1 year • Patient was found to have rising CK, and Azathioprine was added to his regimen • Azathioprine did not improve his CK levels, and was switched to Mycophenolate mofetil • Patient was electively admitted 2 weeks ago for IVIG as CK levels continue to be elevated
THANK YOU! • Medical Student Discussants Michael Goldman Juan Lado Megan Mcgill Nekee Pandya • Moderator: Martin Blaser, MD • Faculty Discussant: Peter Izmirly, MD • Radiology Speaker: Dr. David Naidich , MD • Pathology Speaker: David Zagzag, MD • SPECIAL THANKS: Christina Yoon , MD, Harry Shen, MD and Jean Park, M.D.