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Diagnosing Multiple Sclerosis

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Presentation on theme: "Diagnosing Multiple Sclerosis"— Presentation transcript:

1 Diagnosing Multiple Sclerosis
IgG IEF Diagnosing Multiple Sclerosis

2 Multiple Sclerosis CNS disorder
Scar formation on outside of nerve cells of brain and spinal cord Inflammation destroys covering of nerve cells leaving scar tissue Nerve cells cannot transmit impulses

3 Prevalence Onset at age 15 to 50 years 70% female
Temperate climate predominant

4 Symptoms Optic neuritis Numbness / weakness in extremities
Instability in walking Tremors Loss of bladder control Heat intolerance Fatigue

5 Diagnosis by Exclusion
Encephalitis CNS Vasculitis Lyme Disease Behet Syndrome Sarcoidosis Syphilis Leukodystrophies Lupus Erythematosus Spastic Paraparesis Vitamin B-12 Deficiency Sjogren’s Syndrome Hereditary Degenerative Disorder Multifocal Leukoencephalopathy

6 Criteria for Diagnosis
History of two attacks with positive oligoclonal bands or increased IgG in CSF Probable MS

7 Criteria for Diagnosis
History of two attacks with no laboratory abnormality Clinically Probable MS

8 Criteria for Diagnosis
History of two attacks with clinical and paraclinical evidence of lesions, oligoclonal bands, and increased IgG in CSF Laboratory-Supported Definitive MS

9 Criteria for Diagnosis
History of two attacks with clinical evidence of at least one lesion, and clinical or paraclinical evidence of another lesion Clinically Definitive MS

10 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field

11 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field Proteins exhibit net + or – charge

12 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field Proteins exhibit net + or – charge Migrate toward electrode of opposite charge

13 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field Proteins exhibit net + or – charge Migrate toward electrode of opposite charge Rate of migration ↓ as it reaches isoelectric point

14 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field Proteins exhibit net + or – charge Migrate toward electrode of opposite charge Rate of migration ↓ as it reaches isoelectric point (pI) Protein focuses at pI

15 IEF Theory Stable pH gradient with carrier ampholytes in an electrical field Proteins exhibit net + or – charge Migrate toward electrode of opposite charge Rate of migration ↓ as it reaches isoelectric point (pI) Protein focuses at pI; some drift but regains charge and migrates back

16 IEF Procedure Step 1: Focus proteins

17 IEF Procedure Step 2: Transfer proteins to nitrocellulose membrane

18 IEF Procedure Step 3: React with IgG antisera

19 IEF Procedure Step 4: React with chromagen Step 5: Air dry
Total Time: 2.5 to 3.0 hours

20 Looking for intrathecal synthesis oligoclonal bands in CSF
Interpretation Compare CSF and Serum Looking for intrathecal synthesis indicated by oligoclonal bands in CSF but not in serum

21 Interpretation Negative – no oligoclonal bands in CSF

22 Interpretation Mirror Image – same bands in CSF and serum

23 Interpretation Positive – Oligoclonal bands in CSF but not in serum

24 Interpretation Positive oligoclonal banding is not diagnosis of MS


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