Algorithms for Diagnosis

This section provides interactive diagnostic algorithms designed for rapid clinical decision-making at the point of care. Each algorithm walks through history, examination, investigations, and pattern recognition — with expandable detail panels and clickable nodes for deeper reference.

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Peripheral Neuropathy

🔗 Related Topics

Differential Diagnoses: Diabetic Neuropathy | CIDP | CMT Disease | Vasculitic Neuropathy

Related Symptoms: Numbness / Tingling | Weakness | Gait Disturbance

Diagnostic Tests: Nerve Conduction Studies | Autonomic Testing

The algorithm below covers five major neuropathy subtypes evaluated in the general neurology outpatient setting: large fiber sensorimotor, small fiber, autonomic, mononeuropathy/entrapment, and hereditary neuropathy. It follows a six-step diagnostic sequence from initial presentation through subtype-specific workup.

How to use:

• Tap ▶ Details on any card to expand clinical guidance for that step.
• Tap any colored subtype card (Step 5 or the Dx row) to navigate to detailed workup and management for that neuropathy type.
• The algorithm is fully interactive and works on desktop and mobile.

Suspected peripheral neuropathy

Step 1

History & focused examination

Onset & tempo

Acute (<4 wk), subacute, chronic (>8 wk)?

• Acute onset → GBS, vasculitis, toxic/metabolic
• Relapsing-remitting → CIDP, hereditary, porphyria
• Slowly progressive → CMT, CIDP, metabolic
• Length-dependent vs. non-length-dependent pattern?

Symptom character

Pain, paresthesias, weakness, autonomic symptoms?

• Burning/allodynia → small fiber predominant
• Lancinating pain → large fiber, radiculopathy
• Orthostasis, gastroparesis, anhidrosis → autonomic
• Asymmetric distribution → mononeuropathy multiplex
• Distal symmetric → length-dependent polyneuropathy

Risk factors & exposures

Diabetes, alcohol, B12, toxins, malignancy, medications?

• DM, prediabetes, metabolic syndrome
• Alcohol use (B1, B6, B12 deficiency)
• Chemotherapy: taxanes, platinum, vinca alkaloids, thalidomide
• HIV, hepatitis B/C, Lyme, leprosy
• Paraneoplastic: lung, breast, thymoma
• Amyloidosis: hereditary TTR or AL

Family & genetic history

Pes cavus, hammer toes, scoliosis in family members?

• Pes cavus, hammertoes, scoliosis → CMT
• Autosomal dominant → CMT1A (PMP22 dup), CMT2A (MFN2)
• X-linked → CMTX1 (GJB1/Cx32)
• FAP (TTR), Fabry disease, Refsum disease

Step 2

Neurological examination

Sensory modalities

Separate large vs. small fiber findings

Large fiber:

• Vibration (128 Hz tuning fork)
• Proprioception / Romberg
• Light touch (monofilament)

Small fiber:

• Pin-prick (spinothalamic)
• Temperature (warm/cold)
• Allodynia to light brush

Motor & reflex

Distal weakness, wasting, areflexia pattern?

• Distal > proximal weakness → length-dependent axonal
• Proximal + distal → CIDP, GBS
• Asymmetric foot drop → peroneal neuropathy, MMN
• Absent ankle jerks ± preserved knee jerks → classic DSPN
• Global areflexia → GBS, severe CIDP, hereditary

Autonomic signs

Postural BP drop, trophic changes, anhidrosis?

• Orthostatic hypotension: ≥20/10 mmHg drop at 1–3 min
• Trophic: dry skin, hair loss, nail changes, ulcers
• Anhidrosis pattern (stocking-glove vs. segmental)
• Pupillary light reflex (afferent/efferent)

Distribution pattern

Distal symmetric vs. asymmetric/focal?

• Stocking-glove, symmetric → DSPN (metabolic, toxic)
• Asymmetric, multiple nerves → mononeuropathy multiplex
• Single nerve territory → mononeuropathy / entrapment
• Proximal leg > distal → diabetic amyotrophy (DLRPN)

Step 3

Initial laboratory workup

First-line labs

CBC, CMP, HbA1c/FPG, OGTT, B12, TSH, ESR/CRP, SPEP/IFE

• CBC: macrocytosis (B12/folate), eosinophilia (vasculitis)
• HbA1c + 2-hr OGTT: up to 30% of "idiopathic" PN have IGT
• B12: check MMA if borderline (200–400 pg/mL)
• SPEP + IFE: MGUS-associated neuropathy (anti-MAG)
• Urine porphyrins if acute presentation

Immune / infectious

ANA, ANCA, RF; HIV, HBV, HCV; Lyme if exposure

• ANA, anti-Ro/La → Sjögren's (SFN, sensory ganglionopathy)
• ANCA (MPO, PR3) → vasculitic neuropathy
• Cryoglobulins → HCV-related vasculitis
• HIV VL + CD4; HBV/HCV serology
• Lyme ELISA + reflex Western blot (2-tier)

If malignancy suspected

Anti-Hu, Yo, CV2, amphiphysin; CT chest/abdomen/pelvis

• Subacute sensory neuronopathy → anti-Hu (SCLC)
• Anti-CV2/CRMP5 → SCLC, thymoma
• Anti-amphiphysin → breast, SCLC
• PET-CT if antibody negative but strong clinical suspicion
• Serum/urine free light chains → amyloid (AL)

Step 4

Electrodiagnostic studies

Nerve conduction studies

Axonal vs. demyelinating, distribution, severity

Demyelinating pattern:

• CV <38 m/s (median motor), prolonged DL, temporal dispersion, conduction block → CIDP, CMT1, GBS

Axonal pattern:

• Reduced CMAP/SNAP amplitudes, preserved CV → DM, alcohol, toxic, axonal GBS (AMAN/AMSAN)

Uniform vs. non-uniform slowing:

• Uniform → hereditary (CMT1A)
• Non-uniform → acquired demyelinating (CIDP)

Needle EMG

Active denervation, reinnervation, neurogenic MUPs?

• Fibrillations/PSWs: active axonal loss (≥3 weeks after onset)
• Large polyphasic MUPs: chronic reinnervation
• Normal EMG with abnormal SNAP: sensory ganglionopathy
• Normal NCS + normal EMG: consider SFN or proximal pathology

NCS normal → SFN workup

Skin biopsy IENFD, QST, QSART, autonomic testing

• Skin punch biopsy (3 mm): IENFD at thigh & distal leg
• QST: warm/cool detection thresholds (8 body sites)
• QSART: sudomotor function (postganglionic sympathetic)
• TST: total anhidrosis pattern
• Evaluate: DM/IGT, Sjögren's, sarcoid, celiac, HIV, Nav1.7 mutations

Step 5

Pattern classification → subtype-specific workup

Large fiber / sensorimotor

Length-dependent, reduced vibration/proprioception, absent ankle jerks, axonal or demyelinating NCS

AxonalDemyelinating

Small fiber neuropathy

Normal NCS, burning pain, allodynia, reduced pin/temp, reduced IENFD on skin biopsy

Skin biopsyQSART

Autonomic neuropathy

OH, anhidrosis, gastroparesis, urogenital dysfunction; may co-exist with SFN or large fiber PN

Tilt tableQSART

Mononeuropathy / entrapment

Single nerve territory; CTS, cubital tunnel, peroneal at fibular head, or multiplex pattern

NCS/EMGImaging

Hereditary neuropathy

Slowly progressive, pes cavus, family history, uniform slowing on NCS, onset in childhood/young adult

GeneticsCMT panel

Step 6

Second-line / specialist investigations

CSF analysis

Albumino-cytologic dissociation, cytoalbuminous pattern

• Elevated protein (no pleocytosis) → GBS (100–300), CIDP, CMT
• Pleocytosis → Lyme neuroborreliosis, CMV, sarcoid, lymphoma
• Cytology → leptomeningeal malignancy, lymphoma
• VDRL → neurosyphilis

Nerve biopsy

Sural or superficial peroneal; LM, EM, teased fiber

• Indications: vasculitic PN, amyloid, leprosy, POEMS, undiagnosed inflammatory
• Light microscopy: epineurial inflammation, onion-bulb formation
• Congo red stain: amyloid deposits
• Teased fiber prep: demyelination quantification

Neuroimaging

MRI nerve, plexus, spinal cord; nerve ultrasound

• MRI brachial/lumbosacral plexus: DLRPN, Parsonage-Turner, malignant infiltration
• Nerve ultrasound: CSA enlargement in CMT, CIDP, entrapment
• Whole-body PET-CT: POEMS, occult malignancy

Autonomic battery

HUT, QSART, TST, Valsalva, 30:15 ratio, CASS score

• CASS (composite autonomic severity score): 0–10
• Valsalva ratio & phase II/IV BP: cardiovagal & adrenergic
• 30:15 ratio: R-R interval at 30th vs 15th beat on standing
• Plasma norepinephrine supine/standing: ganglionic vs. postganglionic

Genetic testing

CMT panel, WES/WGS, TTR gene if amyloid suspected

• PMP22 duplication/deletion MLPA (CMT1A/HNPP): first-line if demyelinating + family Hx
• MFN2 (CMT2A), GJB1 (CMTX), MPZ: axonal or X-linked
• TTR gene sequencing: hereditary transthyretin amyloidosis
• Nav1.7 (SCN9A), Nav1.8 (SCN10A): painful SFN
• WES/WGS: undiagnosed hereditary PN with negative panel

Dx

Diagnosis established → classify and treat

Metabolic / toxic DSPN

DM, IGT, alcohol, B12 deficiency, uremia, thyroid — treat underlying cause + neuropathic pain management

Small fiber neuropathy

Treat underlying etiology; pain management with lidocaine patch, low-dose naltrexone, SNRIs, alpha-lipoic acid

Autonomic neuropathy

Treat cause; OH → fludrocortisone, midodrine, droxidopa; gastroparesis and urogenital: supportive

Mononeuropathy

Entrapment → splinting, steroid injection, surgical decompression; vasculitic → immunosuppression

Hereditary

CMT: supportive (PT/OT, AFOs); hereditary ATTR amyloid: tafamidis, patisiran, vutrisiran

Cryptogenic / CSPN

~25–30% remain unexplained; serial follow-up, lifestyle optimization, repeat evaluation in 2 years

Subtype color key

Large fiber / sensorimotor

Small fiber neuropathy

Autonomic neuropathy

Mononeuropathy

Hereditary

Cryptogenic

Tap ▶ to expand clinical details. Colored subtype cards link to disease-based approach chapters.

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White Matter Lesions — Brain & Spinal Cord

🔗 Related Topics

Differential Diagnoses: Multiple Sclerosis | NMOSD | MOGAD | ADEM | Stroke — Small Vessel | CLIPPERS | Neurosarcoidosis | CNS Vasculitis | PML | PCNSL | X-linked ALD | Neuropsychiatric SLE | Sjögren’s | Lyme Neuroborreliosis | MELAS | Fabry Disease

Related Symptoms: Visual Loss | Weakness | Cognitive Decline | Ataxia

Diagnostic Tests: MRI Interpretation | Lumbar Puncture

Abnormal white matter on MRI is one of the most common — and most diagnostically challenging — incidental and symptomatic findings in neurology. This algorithm navigates the key decision points: brain vs. spinal cord, lesion pattern and location, clinical context, and investigations, arriving at a final diagnostic category across six major etiologic groups: inflammatory/demyelinating, vascular/ischemic, infectious, neoplastic, toxic/metabolic, and hereditary/genetic.

How to use:

• Tap ▶ Details on any card to expand pattern-recognition criteria and investigation guidance.
• Tap any colored diagnosis card in the final tier to navigate to the full disease chapter.
• Work through Steps 1–5 sequentially; the pattern in Step 3 is the pivotal branch point.

Abnormal white matter on MRI — brain or spinal cord

Step 1

Clinical context & history

Presenting symptoms

Acute vs. chronic? Focal deficits, cognitive change, seizure, pain?

• Acute focal deficit (hours–days) → ischemic stroke, demyelinating attack, ADEM
• Relapsing-remitting episodes → MS, NMOSD, MOGAD
• Progressive cognitive decline + gait → SVD, leukodystrophy, CADASIL
• Headache + focal signs → CNS vasculitis, PCNSL, metastasis
• Fever + confusion → CNS infection, ADEM, CLIPPERS
• Asymptomatic incidental finding → age-related WMH, migraine, early SVD

Tempo & course

Hyperacute, acute, subacute, or chronic/progressive?

• Hyperacute (<24 hr) → ischemic stroke (DWI restriction), demyelination with acute inflammation
• Acute (days) → ADEM, MS relapse, NMOSD attack, infectious encephalitis
• Subacute (weeks) → PCNSL, CNS vasculitis, CLIPPERS, paraneoplastic
• Chronic progressive (months–years) → SVD, leukodystrophy, CADASIL, MS-progressive
• Monophasic → ADEM, stroke; polyphasic → MS, NMOSD, MOGAD

Risk factors & exposures

Age, vascular risk, immunosuppression, family history?

• Age >50 + HTN/DM/smoking → vascular WMH (SVD)
• Young adult, female, relapsing → MS
• HIV, immunosuppression (natalizumab, transplant) → PML (JC virus)
• Recent infection/vaccination (child or adult) → ADEM
• Family history of early strokes/dementia + migraines → CADASIL (NOTCH3)
• Systemic autoimmune disease (SLE, Sjögren's, sarcoid) → CNS involvement
• IV drug use, travel, HIV risk → CNS infection
• Radiation, chemotherapy (MTX, cyclosporine) → toxic leukoencephalopathy

Brain vs. spinal cord

Lesion location shapes the differential significantly

Brain-predominant:

• SVD, CADASIL, migraine-related WMH, leukodystrophy, PML

Spinal cord-predominant:

• NMOSD (long-segment ≥3 vertebrae, central), MS (short <2 vertebrae, peripheral), MOGAD, B12 deficiency (posterior columns), ALD (lateral corticospinal)

Both brain + cord:

• MS, NMOSD, MOGAD, neurosarcoidosis, CNS vasculitis, ADEM

Step 2

MRI characterization

T2/FLAIR signal

Size, shape, margins, distribution — periventricular, juxtacortical, subcortical, infratentorial?

MS pattern (McDonald 2017):

• Periventricular (perpendicular to ventricles — Dawson fingers)
• Juxtacortical / cortical
• Infratentorial (brainstem, cerebellar peduncle)
• Spinal cord (lateral/posterior, <2 vertebral segments)

Vascular/SVD pattern:

• Deep white matter, basal ganglia, lacunar infarcts; spares corpus callosum & U-fibers early

NMOSD / MOGAD:

• NMOSD: long-segment cord (>3 vertebrae), area postrema, periaqueductal; MOGAD: bilateral optic nerve, cortical FLAIR, lepto-cortical, LETM

ADEM:

• Large, confluent, bilateral, asymmetric; deep gray matter involvement; juxtacortical sparing uncommon

DWI / ADC

Restricted diffusion narrows the differential substantially

• DWI bright + ADC dark (true restriction) → acute ischemic stroke, CJD (cortical ribboning), hypercellular PCNSL
• DWI bright + ADC bright (T2 shine-through) → demyelination, edema, vasogenic
• Rim restriction (ring) → abscess (pyogenic), tumefactive MS, high-grade glioma
• Posterior column restriction → B12 subacute combined degeneration
• Entire WM restriction → osmotic demyelination syndrome (CPM/EPM)

Gadolinium enhancement

Pattern and morphology of enhancement

• Open-ring (incomplete ring, open toward cortex) → MS, tumefactive demyelination
• Closed ring → abscess, metastasis, high-grade glioma
• Homogeneous solid + restricted diffusion → PCNSL
• Punctate + perivascular → CNS vasculitis, neurosarcoidosis, CLIPPERS (pepper-like pontine)
• Leptomeningeal + parenchymal → neurosarcoidosis, Lyme, TB meningitis, carcinomatous
• No enhancement → SVD, leukodystrophy, chronic MS, migraine WMH

Additional sequences

SWI, MRS, perfusion, spine — key discriminators

• SWI/GRE: microbleeds → CAA, CADASIL, hypertensive; black holes → chronic MS axonal loss
• MRS: choline↑ / NAA↓ → high-grade glioma, PCNSL; lactate peak → MELAS, abscess
• Perfusion: hyperperfusion → tumefactive MS; hypoperfusion → high-grade tumor core
• Spinal cord: sagittal T2 lesion length (short <2 = MS; long ≥3 = NMOSD/MOGAD); axial location (peripheral = MS, central = NMOSD)
• T1 hypointense lesions (black holes) → chronic irreversible MS plaques

Step 3

Pivotal pattern classification

Periventricular + ovoid + Dawson fingers

± juxtacortical, infratentorial, short cord lesions → MS pattern

• McDonald 2017 criteria: dissemination in space (DIS) + time (DIT)
• DIS: ≥2 of 4 zones (periventricular, juxtacortical/cortical, infratentorial, spinal cord)
• DIT: simultaneous Gd+ and non-Gd+ lesions, OR new T2/Gd+ on follow-up MRI
• CIS (clinically isolated syndrome): first demyelinating event — check OCBs, VEP, follow MRI
• RIS (radiologically isolated): asymptomatic McDonald DIS — annual MRI, 50% convert in 10 yrs

Long cord ≥3 segments + area postrema

Central cord, bilateral optic neuritis, hiccups/vomiting → NMOSD/MOGAD pattern

• NMOSD: anti-AQP4 seropositive in ~75%; long-segment LETM (central cord), area postrema lesion
• MOGAD: anti-MOG Ab; bilateral ON, LETM (H-sign on axial), ADEM-like, cortical FLAIR
• Key distinction: NMOSD → spinal cord necrosis, severe attacks; MOGAD → better recovery
• CSF: neutrophilic pleocytosis during attack (both); OCBs absent or transient

Deep WM + lacunar + basal ganglia

Vascular risk factors, age >50, spares U-fibers and corpus callosum → SVD pattern

• Fazekas scale I–III: periventricular caps/bands → Grade I (normal aging) to Grade III (confluent)
• Lacunar infarcts: <15 mm, deep gray/white matter — HTN, DM, hyperlipidemia
• CADASIL: young (<50), anterior temporal pole + external capsule WMH + lacunar strokes + migraine with aura → NOTCH3 gene
• CAA: older, cortical/subcortical, lobar microbleeds on SWI — risk of lobar hemorrhage
• No Gd enhancement; DWI restriction only if acute lacunar infarct

Large confluent ± mass effect ± ring enhancement

Tumefactive lesion — demyelination vs. neoplasm vs. abscess

• Open-ring Gd + + perilesional edema + young patient → tumefactive MS
• Solid Gd + + DWI restriction + periventricular + immunocompromised/elderly → PCNSL
• Closed-ring + DWI restriction (center dark ADC) → pyogenic abscess
• Multiple ring lesions → metastasis, abscess (toxoplasma in HIV)
• MRS: markedly elevated choline, decreased NAA → high-grade glioma; lipid-lactate peak → abscess/necrosis
• Consider stereotactic biopsy if diagnosis uncertain after MRS, perfusion, and CSF

Symmetric posterior/anterior WM ± U-fibers

Childhood/young adult, hereditary — leukodystrophy pattern

• X-ALD (ALD): parieto-occipital WM + splenium + corticospinal tract; boys; elevated VLCFA
• Metachromatic leukodystrophy: symmetric parietal deep WM, tigroid pattern; arylsulfatase A deficiency
• Krabbe disease: posterior WM + pyramidal tracts; galactocerebrosidase deficiency
• Alexander disease: frontal-predominant WM + swollen frontal lobes; GFAP mutation
• MELAS: cortical/subcortical (not WM-only), stroke-like episodes, elevated lactate, maternal inheritance
• Key: leukodystrophies — symmetric, non-enhancing, begin in specific WM tracts

Punctate/patchy + perivascular + infratentorial

Systemic disease, immune dysregulation, or infection — inflammatory/infectious pattern

• CLIPPERS: punctate pepper-like Gd+ lesions centered on pons/brainstem — responsive to steroids
• Neurosarcoidosis: leptomeningeal Gd+, cranial nerve enhancement, periventricular WMH
• CNS vasculitis: multifocal WMH + infarcts in multiple vascular territories, ± vessel wall enhancement on 7T/VWMRI
• PML: large, non-enhancing, subcortical U-fiber-involving, JC virus in immunosuppressed
• Lyme neuroborreliosis: punctate WMH (MS mimic), cranial neuritis, meningitis, CSF pleocytosis
• HIV encephalitis: bilateral symmetric deep WMH, atrophy, low CD4

Step 4

Targeted investigations

CSF analysis

OCBs, IgG index, cell count, protein, cytology

• OCBs (≥2, CSF-specific) + elevated IgG index → MS (sensitivity ~95%); absent in NMOSD, MOGAD
• Lymphocytic pleocytosis → ADEM, CNS infection, neurosarcoidosis, Lyme, CLIPPERS
• Neutrophilic pleocytosis → bacterial meningitis, early viral, NMOSD/MOGAD attack
• Very high protein (>100 mg/dL) → GBS, CNS vasculitis, PCNSL, tuberculosis
• Cytology + flow cytometry → PCNSL (malignant lymphocytes), carcinomatous meningitis
• JC virus PCR → PML; EBV PCR → PCNSL in HIV; TB PCR/culture; Lyme Ab index
• Lactate ↑ → MELAS, mitochondrial disease, meningitis

Serum antibody panel

AQP4-IgG, MOG-IgG, ANA, ANCA, antiphospholipid, paraneoplastic

• Anti-AQP4 IgG (cell-based assay): NMOSD — sensitivity 73%, specificity >99%
• Anti-MOG IgG (cell-based assay): MOGAD — check both serum and CSF if seronegative
• ANA, anti-dsDNA, complement (C3/C4) → neuropsychiatric SLE
• ANCA (MPO, PR3) → CNS vasculitis, eosinophilic granulomatosis
• Antiphospholipid Ab (aCL, anti-β2GP1, lupus anticoagulant) → APS-related strokes/WMH
• ACE level ± chest CT → neurosarcoidosis (ACE insensitive; biopsy often needed)
• Anti-Ro/La → Sjögren's CNS; VLCFA → X-ALD; NOTCH3 gene → CADASIL

Evoked potentials & OCT

Subclinical lesion detection for dissemination in space

• Visual evoked potentials (VEP): delayed P100 → subclinical optic neuritis; supports MS DIS
• SSEP, BAEP: additional subclinical demyelination in brainstem/cord
• OCT (optical coherence tomography): peripapillary RNFL thinning → prior optic neuritis; tracks MS/NMOSD/MOGAD retinal damage
• Severe RNFL loss disproportionate to visual acuity → NMOSD (worse than MS)

Vascular & metabolic workup

For SVD, CADASIL, APS, metabolic leukodystrophy

• MRA brain/neck → large vessel stenosis, vasculitis beading, moyamoya
• Vessel wall MRI (VWMRI) → CNS vasculitis (concentric enhancement), atherosclerotic plaque
• Echocardiogram + cardiac monitoring → cardioembolic source in young stroke/WMH
• HbA1c, lipids, homocysteine, thrombophilia screen
• NOTCH3 gene → CADASIL; skin biopsy (EM: GOM deposits) as alternative
• B12, methylmalonic acid, copper, vitamin E → metabolic cord/WM disease
• Arylsulfatase A, galactocerebrosidase, VLCFA → leukodystrophy panel

Dx

Diagnosis established → disease category & management direction

Inflammatory / demyelinating

MS, NMOSD, MOGAD, ADEM, CLIPPERS — disease-modifying therapy, acute attack treatment (steroids, PLEX)

MSNMOSDMOGAD

Vascular / ischemic

SVD, CADASIL, APS, CAA — vascular risk factor modification, antiplatelet/anticoagulation, genetic counseling

SVDCADASILCAA

Infectious

PML, Lyme, TB, HIV encephalitis, abscess — targeted antimicrobial/antiviral; PML: restore immune function

PMLLymeAbscess

Neoplastic

PCNSL, glioma, metastasis — biopsy for tissue diagnosis, oncology referral, do not give steroids before biopsy in suspected PCNSL

PCNSLGliomaMets

Hereditary / metabolic

Leukodystrophies (X-ALD, MLD, Krabbe), MELAS, Fabry — enzyme replacement, gene therapy, mitochondrial supplements, transplant in selected cases

X-ALDMELASFabry

Systemic autoimmune / inflammatory

CNS vasculitis, neurosarcoidosis, neuropsychiatric SLE, Sjögren's — immunosuppression, treat underlying systemic disease

VasculitisSarcoidSLE

Pattern color key

MS / demyelinating pattern

NMOSD / MOGAD pattern

Vascular / SVD pattern

Tumefactive / neoplastic pattern

Leukodystrophy pattern

Inflammatory / infectious pattern

Tap ▶ to expand MRI pattern criteria and investigation details. Colored diagnosis cards link to full disease chapters.

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Headache Evaluation

🔗 Related Topics

Differential Diagnoses: Migraine | Cluster Headache | Trigeminal Neuralgia | SAH | CVST | IIH | Low-Pressure Headache | GCA | RCVS | Meningitis | Brain Abscess | TIA

Related Symptoms: Visual Loss | Confusion / Altered Mental Status | Seizure

Diagnostic Tests: Lumbar Puncture | MRI Interpretation

Headache is the most common neurological complaint in outpatient and emergency settings. The fundamental task is distinguishing secondary headache — caused by an underlying structural, vascular, or systemic disorder — from primary headache, where headache is the disorder itself. This algorithm follows four sequential steps: red flag screening, phenotype characterization, targeted investigation, and final diagnosis across seven headache categories.

How to use:

• Step 1 is the most critical — any red flag mandates urgent investigation before proceeding to phenotyping.
• Tap ▶ Details on any card to expand diagnostic criteria, investigation thresholds, and clinical pearls.
• Tap any colored diagnosis card in the final tier to navigate to the full disease chapter.

Patient presenting with headache

Step 1

⚠️ Red flag screening — exclude secondary headache first

SNOOP4 red flags

Any single flag warrants urgent evaluation — do not assume primary headache

SNOOP4 mnemonic:

• Systemic symptoms: fever, weight loss, myalgias → meningitis, GCA, malignancy
• Neurological deficits or altered consciousness → mass, stroke, encephalitis
• Onset sudden/thunderclap → SAH, RCVS, CVST, pituitary apoplexy
• Older age (>50, new headache) → GCA, mass, subdural
• Postural component: worse lying flat → IIH; worse standing → CSF leak/SIH
• Papilledema → raised ICP, IIH, venous thrombosis
• Prior headache history change: new pattern or accelerating frequency → secondary cause
• Precipitated by Valsalva (cough, strain, sex) → Chiari, mass, RCVS

Thunderclap headache

Maximal intensity within 60 seconds — emergency until SAH excluded

Mandatory workup:

• Non-contrast CT head within 6 hr of onset: sensitivity ~98% for SAH if <6 hr
• LP (xanthochromia + RBC count): if CT negative but <6 hr, LP at 12 hr post-onset; if >6 hr, LP immediately
• CT angiography / MRA: aneurysm, RCVS (beading), CVST (cord sign)
• MRI brain + MRV: CVST, pituitary apoplexy, posterior fossa mass

Causes:

• SAH (~25%), RCVS (~40%), CVST, pituitary apoplexy, spontaneous ICH, cervical artery dissection, hypertensive emergency, primary thunderclap (diagnosis of exclusion)

Fever + meningismus

Headache + fever ± neck stiffness ± photophobia → infectious emergency

• Bacterial meningitis: do NOT delay antibiotics for LP if CT indicated — start empiric ceftriaxone + vancomycin + dexamethasone
• Kernig's sign (pain/resistance on knee extension with hip flexed) and Brudzinski's sign (hips flex on neck flexion) — low sensitivity but high specificity
• CT head before LP if: focal deficit, papilledema, seizure, immunocompromised, GCS <15, new onset seizure
• Viral meningitis (HSV, enterovirus): LP CSF — lymphocytic pleocytosis, normal glucose
• HSV encephalitis: temporal lobe changes on MRI, EEG (PLEDs), CSF HSV PCR
• Consider also: brain abscess, subdural empyema, cryptococcal meningitis (India ink, CrAg in HIV)

Age >50 + new headache

Giant cell arteritis, intracranial mass, subdural hematoma

Giant cell arteritis (GCA):

• Age >50 (usually >70), temporal tenderness/thickening, jaw claudication, PMR symptoms
• ESR >50 mm/hr + CRP elevated; ESR can be normal in 10%
• Start prednisolone 40–60 mg immediately if vision threatened — do not wait for biopsy
• Temporal artery biopsy within 2 weeks (skip lesions: bilateral biopsy increases yield)
• Visual loss (AION) is the feared complication — irreversible if not treated urgently

Other age >50 red flags:

• Progressive headache + focal signs/cognitive change → CT/MRI for mass, metastasis, subdural
• Morning headache + papilledema + nausea → raised ICP until proven otherwise

No red flags → proceed to phenotyping

Step 2

Headache phenotype characterization

Pain characteristics

Location, quality, severity, radiation — the most discriminating phenotypic features

• Unilateral throbbing, moderate–severe → migraine (bilateral in ~40%)
• Bilateral, pressing/tightening, mild–moderate, non-pulsating → tension-type
• Periorbital/retro-orbital, severe/excruciating, unilateral → cluster (TAC)
• Electric shock/lancinating, V2/V3 distribution, triggered by touch → trigeminal neuralgia
• Occipital + neck stiffness, worse with movement → cervicogenic or posterior fossa
• Bifrontal/bioccipital, worse lying flat, pulsatile → IIH (raised ICP)
• Bifrontal/bioccipital, worse standing, relieved lying → SIH/CSF leak

Duration & timing

Episode length and circadian pattern are highly diagnostic

• Seconds (3–5 s) → SUNCT/SUNA, ice-pick headache
• 15–180 minutes, circadian clustering, nocturnal → cluster headache
• 2–30 minutes, multiple/day, autonomic → paroxysmal hemicrania (indomethacin-responsive)
• 4–72 hours, episodic → migraine without aura
• 30 min – 7 days, featureless → tension-type
• Continuous, unilateral, fluctuating → hemicrania continua (indomethacin-responsive)
• Daily from onset (>3 months) → new daily persistent headache (NDPH)
• Nocturnal, wakes from sleep → cluster, hypnic headache (age >50), raised ICP

Associated features

Nausea, photophobia, phonophobia, autonomic, aura, visual symptoms

• Nausea/vomiting + photophobia + phonophobia → migraine (ICHD-3: ≥2 of 3)
• Ipsilateral autonomic features (lacrimation, conjunctival injection, ptosis, nasal congestion, miosis) → TACs (cluster, PH, SUNCT)
• Visual aura: positive (scintillating scotoma, fortification spectra) → migraine with aura; spreading over 20–60 min distinguishes from TIA (abrupt onset)
• Sensory/motor/aphasic aura preceding headache → migraine with aura (hemiplegic if motor)
• Tinnitus + pulsatile sound + visual obscurations → IIH
• Horner's syndrome + neck pain → carotid/vertebral dissection
• Diplopia + headache → CVST, IIH (VI nerve palsy), posterior fossa mass

Triggers, modifiers & medication use

Precipitants, postural changes, analgesic frequency

• Triggers (sleep deprivation, stress, menstruation, certain foods/alcohol) → migraine
• Worse with activity → migraine; not aggravated by activity → tension-type
• Postural: worse upright, better supine within minutes → SIH; worse supine/morning → IIH, mass
• Triggered by Valsalva (cough, strain, exercise, sexual activity) → Chiari, intracranial mass, RCVS
• Triggered by touch, chewing, cold → trigeminal neuralgia
• Analgesic/triptan use ≥10–15 days/month → medication overuse headache (MOH); suspect if escalating daily headache in migraineur
• Seasonal clustering, alcohol-triggered attack → cluster headache

Step 3

Targeted investigations (when indicated)

Neuroimaging indications

MRI brain ± contrast, CT head, CTA/MRA — when and what

Image immediately (CT ± CTA):

• Thunderclap headache → non-contrast CT then LP if negative; CTA for aneurysm/RCVS
• Focal neurological deficit + headache
• Fever + headache + altered consciousness (after LP safe exclusion)
• Papilledema → CT first to exclude mass before LP

Image semi-urgently (MRI ± Gd):

• New headache in age >50, immunocompromised, known malignancy
• Postural headache (SIH: MRI brain with Gd — pachymeningeal enhancement, brain sag)
• Progressive headache over weeks, awakens from sleep, morning nausea
• Headache + cranial nerve palsy (III, VI) → IIH, mass, CVST

Imaging NOT routinely needed:

• Classic migraine/tension-type meeting ICHD-3 criteria, no red flags, normal exam

Lumbar puncture

Opening pressure, xanthochromia, RBC count, OCBs, culture

• Opening pressure >250 mmH₂O (lateral decubitus) → IIH; <60 mmH₂O → SIH/CSF leak
• Xanthochromia + elevated RBC (non-traumatic, non-clearing) → SAH confirmed; spectrophotometry preferred over visual inspection
• Lymphocytic pleocytosis + elevated protein + low glucose → bacterial meningitis, TB, fungal
• Lymphocytic pleocytosis + normal glucose → viral meningitis, Lyme, sarcoid, RCVS
• OCBs → MS-related headache (rare primary indication); also seen in CNS infection, NMOSD
• CSF culture + India ink + CrAg → cryptococcal meningitis (HIV/immunocompromised)
• Therapeutic LP: IIH — drain to closing pressure of 200 mmH₂O; temporary visual relief

Blood tests

ESR, CRP, CBC, metabolic panel, coagulation — targeted by context

• ESR + CRP: GCA (ESR >50, CRP elevated); also elevated in meningitis, malignancy
• CBC: anemia (headache trigger), thrombocytosis/thrombocytopenia (CVST risk), leukocytosis (infection)
• Coagulation + thrombophilia screen → CVST workup (antiphospholipid Ab, protein C/S, factor V Leiden)
• BMP + TFTs: hyponatremia, uremia, thyroid dysfunction — secondary headache causes
• Hypercoagulable screen, OCP/pregnancy status → CVST risk
• Serum lactate + ammonia: metabolic encephalopathy, MELAS
• Toxicology: carbon monoxide (headache + nausea + confusion in winter, multiple household members)

Specialist investigations

For complex, refractory, or atypical presentations

• MRV brain → CVST (filling defect in dural sinuses); contrast-enhanced MRV superior to MRA
• CT/MR myelography or digital subtraction myelography → SIH with CSF leak (epidural fluid, meningeal diverticulum)
• Temporal artery biopsy → GCA (within 2 weeks of steroid start)
• Temporal artery ultrasound (halo sign) → GCA: sensitivity 75–80% for cranial GCA
• Indomethacin trial (75–150 mg/day): complete response → paroxysmal hemicrania or hemicrania continua (pathognomonic)
• Headache diary (≥4 weeks): frequency, duration, triggers, analgesic use — essential for MOH assessment and preventive therapy indication
• Ophthalmology: formal visual field testing + OCT retinal nerve fiber layer → IIH monitoring

Dx

Diagnosis established → category & management direction

Migraine spectrum

Migraine without/with aura, chronic migraine, hemiplegic, vestibular — acute: triptans, NSAIDs, anti-emetics; preventive: topiramate, amitriptyline, propranolol, CGRP mAbs

EpisodicChronicWith aura

Trigeminal autonomic cephalalgias

Cluster, paroxysmal hemicrania, SUNCT/SUNA, hemicrania continua — cluster: O₂ 100% + sumatriptan SC; PH/HC: indomethacin (diagnostic + therapeutic)

ClusterPH/HCSUNCT

Tension-type & MOH

Episodic/chronic tension-type, medication overuse headache — tension: NSAIDs, amitriptyline; MOH: analgesic withdrawal (bridging with naproxen/prednisone), preventive therapy

Episodic TTHMOH

Vascular / structural secondary

SAH, RCVS, CVST, carotid/vertebral dissection, hypertensive emergency — urgent neurosurgical/neurovascular referral; RCVS: nimodipine, avoid vasoconstrictors

SAHRCVSCVST

CSF pressure disorders

IIH: weight loss + acetazolamide ± topiramate; optic nerve sheath fenestration or shunting if vision threatened. SIH: epidural blood patch, CT/MR myelography for leak localization

IIHSIH

Systemic / infectious / other secondary

GCA: steroids urgently; meningitis/encephalitis: antimicrobials; brain tumor/metastasis: oncology; cervicogenic: physio, nerve block; trigeminal neuralgia: carbamazepine, MVD

GCAMeningitisCervicogenic

Category color key

Migraine spectrum

Trigeminal autonomic cephalalgias

Tension-type & MOH

Vascular / structural secondary

CSF pressure disorders

Systemic / infectious / other secondary

Step 1 red flag cards are always evaluated first regardless of headache pattern. Tap ▶ for diagnostic criteria and clinical pearls. Colored diagnosis cards link to full disease chapters.

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Myopathy Evaluation

🔗 Related Topics

Inflammatory / Immune: Dermatomyositis | Polymyositis | Inclusion Body Myositis | HMGCR-related IMNM | Myositis

Genetic / Dystrophies: Muscular Dystrophy | LGMD | FSHD | Myotonic Dystrophy | Pompe Disease | MELAS

Other: Critical Illness Myopathy | Myopathies | Hyperkalemic Periodic Paralysis | Hypokalemic Periodic Paralysis

Related Diagnoses: Myasthenia Gravis | LEMS

Diagnostic Tests: Nerve Conduction Studies | Lumbar Puncture

Myopathy — intrinsic disease of skeletal muscle — presents with proximal weakness, elevated CK, and myopathic EMG, but the underlying etiology spans a wide spectrum from treatable inflammatory and immune-mediated disorders to progressive genetic dystrophies and reversible metabolic or toxic causes. This algorithm follows five sequential steps: confirm myopathic pattern, characterize the clinical phenotype, perform electrodiagnostic and laboratory workup, apply myositis-specific antibody testing, and arrive at a final diagnostic category with management direction.

How to use:

• Step 1 distinguishes myopathy from neuromuscular junction and motor neuron disease before proceeding.
• Steps 2–3 separate the major etiologic branches: inflammatory vs. genetic vs. metabolic/toxic.
• Step 4 is specific to the inflammatory branch — myositis-specific and myositis-associated antibody profiling.
• Tap ▶ Details to expand criteria, investigation thresholds, and clinical pearls. Colored Dx cards link to disease chapters.

Suspected myopathy — proximal weakness, elevated CK, or myalgia

Step 1

Confirm myopathic pattern & exclude mimics

Myopathic clinical pattern

Symmetric proximal > distal weakness, preserved reflexes early, no sensory loss

Classic myopathy features:

• Proximal > distal weakness: difficulty rising from chair, climbing stairs, raising arms overhead
• Symmetric limb-girdle pattern (shoulder + hip girdle)
• Reflexes preserved until late (unlike neuropathy — early loss)
• No sensory deficits (distinguishes from neuropathy)
• Myalgia, muscle tenderness ± cramps (especially inflammatory)
• Elevated serum CK (except IBM, some congenital myopathies — may be normal)
• Myopathic EMG: short-duration, low-amplitude, polyphasic MUPs; early recruitment; ± fibrillations (inflammatory)

Distal > proximal — consider instead:

• IBM (distal finger flexor + quadriceps), myotonic dystrophy, distal myopathies (Welander, Nonaka, Miyoshi)

Exclude neuromuscular mimics

Motor neuron disease, NMJ disorders, neuropathy with proximal predominance

NMJ (fatiguability distinguishes from myopathy):

• Myasthenia gravis: fluctuating, fatigable weakness; ptosis/diplopia; AChR/MuSK Ab; decremental response on 3 Hz RNS
• LEMS: proximal leg > arm; autonomic features; incremental response on 50 Hz RNS; VGCC Ab

Motor neuron disease:

• ALS: UMN + LMN signs, fasciculations, bulbar involvement, normal CK or mildly elevated
• SMA: pure LMN, no sensory loss, SMN1 gene

Neuropathy with proximal predominance:

• CIDP: reduced reflexes, sensory involvement, elevated CSF protein, demyelinating NCS
• Diabetic amyotrophy (DLRPN): unilateral, painful, asymmetric proximal leg

Onset & tempo

Acute, subacute, or chronic/slowly progressive — shapes the differential immediately

• Acute (<4 weeks) + very high CK (>10,000) → rhabdomyolysis, toxic myopathy, viral myositis, IMNM
• Subacute (weeks–months) + elevated CK + systemic features → inflammatory myopathy (DM, PM, IMNM, anti-synthetase)
• Chronic progressive (years) + family history → hereditary muscular dystrophy (DMD, LGMD, FSHD)
• Slowly progressive, onset >50, distal finger flexors + quadriceps → IBM
• Episodic weakness ± exercise-induced → metabolic myopathy, channelopathy (periodic paralysis)
• Onset in infancy/childhood → congenital myopathy, Pompe, DMD
• Progressive proximal weakness + respiratory failure → Pompe disease (acid maltase deficiency); check GAA enzyme activity

CK level & interpretation

Degree of CK elevation guides probability toward specific etiologies

• Normal or mildly elevated (≤5× ULN): IBM, congenital myopathy, endocrine myopathy, steroid myopathy, some FSHD
• Moderately elevated (5–50× ULN): DM, PM, LGMD, FSHD, Pompe, statin myopathy
• Markedly elevated (>50× ULN): IMNM (anti-SRP, anti-HMGCR), DMD/BMD, rhabdomyolysis, acute necrotizing myopathy
• Asymmetric or fluctuating CK: metabolic myopathy (McArdle), channelopathy, exertional rhabdomyolysis
• Very high CK (>10,000) → assess for rhabdomyolysis: urine myoglobin, renal function, electrolytes, urine dipstick (blood without RBCs)
• CK-MB fraction: cardiac involvement in DM, IMNM, overlap myositis — also check troponin and ECG

Step 2

Clinical phenotype & extramuscular features

Skin & extramuscular features

Skin findings are pathognomonic in dermatomyositis; systemic features narrow the inflammatory subtype

Dermatomyositis skin (pathognomonic):

• Gottron's papules: violaceous papules over MCP/PIP joints
• Heliotrope rash: periorbital violaceous erythema with edema
• V-sign (anterior chest), shawl sign (posterior shoulders/neck)
• Mechanic's hands: hyperkeratotic fissuring of lateral fingers (anti-synthetase syndrome)
• Calcinosis cutis: calcium deposits in skin/subcutaneous tissue (juvenile DM)

Systemic features by subtype:

• ILD (interstitial lung disease): anti-synthetase syndrome (Jo-1, PL-7, PL-12, EJ, OJ), MDA5 (rapidly progressive ILD)
• Arthritis + Raynaud's + mechanic's hands: anti-synthetase syndrome
• Malignancy association: DM > PM (check CT chest/abdomen/pelvis, PET, mammogram, PSA)
• Cardiac: myocarditis, arrhythmia in DM/IMNM/overlap; check ECG + troponin + echo
• Dysphagia: IBM (early), DM/PM (late), oculopharyngeal MD

Weakness distribution pattern

Selective muscle involvement is the key to hereditary subtype classification

• Symmetric proximal limb-girdle: DM, PM, LGMD, Pompe, Becker MD
• Proximal arm + scapular winging + facial weakness: FSHD (asymmetric, face-shoulder-arm)
• Distal finger flexors (FDP) + quadriceps: IBM (characteristic pattern — finger curl grip weakness)
• Axial (neck flexors, paraspinals) + proximal: anti-SRP IMNM, DM, overlap myositis
• Ptosis + ophthalmoplegia + proximal: mitochondrial myopathy (CPEO), oculopharyngeal MD
• Calf hypertrophy + pelvic girdle + Gowers' sign: DMD/BMD (boys)
• Highly selective (e.g., tibialis anterior only): myotonic dystrophy type 1, Nonaka/GNE myopathy
• Asymmetric involvement: IBM, FSHD, scapuloperoneal myopathy

Family history & genetic clues

Inheritance pattern, onset age, associated features suggesting hereditary cause

• X-linked (males affected): DMD/BMD (dystrophin), Emery-Dreifuss (EDMD1/FHL1)
• Autosomal dominant: FSHD (D4Z4 repeat), myotonic dystrophy 1 & 2, LGMD1 subtypes, oculopharyngeal MD (PABPN1)
• Autosomal recessive: LGMD2 subtypes (sarcoglycan, dysferlin, calpain-3), Pompe (GAA), Bethlem (COL6)
• Maternal inheritance ± multisystem (CPEO, hearing loss, diabetes, CNS): mitochondrial myopathy (mtDNA mutation)
• Myotonia (grip myotonia, percussion myotonia, paramyotonia): myotonic dystrophy, myotonia congenita (CLCN1), SCN4A channelopathy
• Contractures early (elbow, Achilles) + cardiac conduction: Emery-Dreifuss MD
• Rigid spine + respiratory failure disproportionate to limb weakness: SEPN1/SELENON, LMNA

Drug, toxic & systemic exposures

Statins, steroids, alcohol, ICIs, endocrine disorders — always screen before invasive workup

Common toxic/drug myopathies:

• Statins: proximal myalgia ± mild CK elevation; IMNM (anti-HMGCR) persists after statin cessation — CK very high
• Steroids (chronic): type II fiber atrophy; CK normal; EMG normal or mild; diagnosis of exclusion
• Colchicine, hydroxychloroquine: vacuolar myopathy ± neuropathy; biopsy — autophagic vacuoles
• Immune checkpoint inhibitors (anti-PD1, anti-CTLA4): immune myositis ± myocarditis ± MG overlap
• Alcohol: acute (rhabdomyolysis) or chronic (proximal myopathy + cardiomyopathy)
• Zidovudine (AZT): mitochondrial myopathy; ragged-red fibers on biopsy

Endocrine myopathies:

• Hypothyroidism: proximal weakness, elevated CK, myoedema, slow relaxing reflexes; TSH diagnostic
• Hyperthyroidism: proximal weakness, CK normal/low, thyroid ophthalmopathy clue
• Cushing's / exogenous steroids: type II atrophy, CK normal, pain absent
• Hyperparathyroidism, hypokalemia, hypophosphatemia: metabolic myopathy; correct electrolytes first

Step 3

Core investigations

Electrodiagnostics (NCS / EMG)

Confirm myopathy, assess activity, exclude NMJ and neuropathy

EMG myopathic pattern:

• Short-duration, small-amplitude, polyphasic MUPs with early (full) recruitment
• Fibrillation potentials + positive sharp waves: active inflammatory myopathy (DM, PM, IMNM, anti-synthetase)
• Complex repetitive discharges (CRDs): chronic myopathy (IBM, dystrophies)

Special patterns:

• Myotonic discharges (waxing-waning, dive-bomber sound): myotonic dystrophy, myotonia congenita, paramyotonia congenita, DM1/DM2
• Normal EMG + proximal weakness: consider steroid myopathy, endocrine, early Pompe
• IBM: mixed myopathic + neurogenic features (chronic reinnervation in distal muscles)
• RNS 3 Hz decremental (>10%): MG; incremental on 50 Hz: LEMS — rules out primary myopathy
• Paraspinal EMG: active if inflammatory; spared in dystrophies

NCS:

• Normal in most myopathies; reduced CMAP amplitude in severe/acute necrotizing myopathy
• Axonal neuropathy co-existing: overlap syndrome, anti-synthetase neuropathy

Laboratory panel

CK isoforms, aldolase, LDH, myoglobin, inflammatory markers, metabolic screen

Muscle enzymes:

• CK (total + MM isoform): primary marker; MM fraction predominates in skeletal muscle disease
• Aldolase: elevated in DM even when CK is near-normal
• LDH, AST, ALT: elevated in myopathy (often misattributed to hepatic disease)
• Troponin + CK-MB: cardiac myositis in DM/IMNM — ECG + echo if elevated

Inflammatory & metabolic:

• ESR, CRP: elevated in inflammatory myopathy; may be normal in IBM
• TSH, free T4: hypothyroid/hyperthyroid myopathy
• Electrolytes (K, Mg, PO4, Ca): metabolic myopathy, periodic paralysis
• Urinalysis: myoglobinuria (urine dipstick positive for blood without RBCs on microscopy)
• Forearm ischemic exercise test (modified lactate/ammonia test): failure of lactate rise → glycogenolysis/glycolysis defect (McArdle, GSD); failure of ammonia rise → myoadenylate deaminase deficiency
• Acid alpha-glucosidase (GAA) enzyme activity: Pompe disease (dried blood spot screen)
• Serum lactate + pyruvate (fasting): mitochondrial myopathy; confirm with muscle biopsy respiratory chain

Muscle MRI

STIR edema, T1 fatty replacement — localizes biopsy site, defines pattern of involvement

• STIR hyperintensity (edema/inflammation): active inflammatory myopathy (DM, PM, IMNM) — guides biopsy to most active area
• T1 fatty replacement: chronic dystrophic change — selective pattern aids genetic classification
• IBM pattern: selective FDP (forearm) + vasti (quadriceps) T1 fatty change
• FSHD: periscapular + tibialis anterior + medial gastrocnemius; asymmetric; T1 fatty infiltration
• LGMD subtypes: characteristic patterns (e.g., LGMD2B/dysferlin: posterior thigh + calf; calpain-3: posterior thigh + lumbar paraspinals)
• Mitochondrial myopathy: patchy STIR signal; may be normal
• Whole-body MRI: survey pattern of involvement across all muscle groups before targeted biopsy

Muscle biopsy

Light microscopy, immunohistochemistry, EM — the definitive diagnostic test in most myopathies

Inflammatory patterns:

• DM: perifascicular atrophy + perivascular CD4+ T cells + B cells (complement C5b-9 on capillaries)
• PM: endomysial CD8+ T cell invasion of non-necrotic fibers (MHC-I upregulation)
• IBM: rimmed vacuoles + endomysial inflammation + COX-negative fibers + p62/TDP-43 inclusions
• IMNM: necrosis + regeneration, minimal inflammation; MHC-I upregulation; anti-SRP/HMGCR IHC

Genetic/structural patterns:

• Dystrophinopathy: absent/reduced dystrophin on IHC (DMD = absent; BMD = reduced/altered)
• Sarcoglycanopathy (LGMD): absent sarcoglycan on IHC panel
• Pompe: periodic acid-Schiff (PAS) positive vacuoles; acid phosphatase in lysosomes; GAA IHC
• Mitochondrial: ragged-red fibers (Gomori trichrome), COX-negative fibers, SDH-positive vessels
• Nemaline myopathy: nemaline rods on Gomori trichrome; EM confirms
• Congenital myopathy: central nuclei (centronuclear), cores (central core/multiminicore) on NADH/ATPase

Biopsy site:

• Choose moderately weak muscle with STIR signal on MRI; avoid severely atrophied muscle; avoid previously biopsied or EMG-sampled site

Step 4

Myositis antibody panel & genetic testing

Myositis-specific antibodies (MSA)

Define inflammatory subtype, predict ILD risk, guide cancer screening and prognosis

Anti-synthetase antibodies (ILD + arthritis + mechanic's hands):

• Anti-Jo-1 (most common, ~20% IIM): DM/PM phenotype, ILD, arthritis, Raynaud's, mechanic's hands
• Anti-PL-7, anti-PL-12, anti-EJ, anti-OJ, anti-KS: similar syndrome; ILD often dominant; weaker myositis

DM-specific antibodies:

• Anti-MDA5: amyopathic DM + rapidly progressive ILD; skin ulceration; high mortality without early aggressive Rx
• Anti-TIF1-γ (anti-p155/140): DM + strong malignancy association (lung, ovary, breast, GI); cancer screen mandatory
• Anti-NXP2 (anti-p140): DM + calcinosis + malignancy (adult-onset)
• Anti-Mi-2: classic DM rash (Gottron's, heliotrope, shawl sign); low ILD risk; good treatment response
• Anti-SAE1: DM + dysphagia; ± malignancy; often amyopathic onset

IMNM-specific antibodies:

• Anti-SRP: severe necrotizing myopathy; very high CK (>10,000); cardiac involvement; resistant to therapy
• Anti-HMGCR: statin-triggered or de novo necrotizing myopathy; CK very high; persists after statin cessation

IBM-associated:

• Anti-cN1A (anti-Mup44): present in ~30–50% IBM; not diagnostic alone; also seen in SLE, Sjögren's

Myositis-associated antibodies (MAA)

Indicate overlap with systemic autoimmune disease

• Anti-Ro52 (TRIM21): often co-occurs with MSAs; associated with ILD in anti-synthetase syndrome; not myositis-specific
• Anti-PM/Scl (PM-Scl75/100): PM-scleroderma overlap; ILD + sclerodactyly + Raynaud's
• Anti-U1-RNP: MCTD (myositis + scleroderma + SLE features); high-titer ANA, speckled pattern
• Anti-Ku: PM-scleroderma overlap; ILD; arthritis
• ANA (homogeneous/speckled): SLE overlap myositis — check anti-dsDNA, complement
• Anti-Ro/La: Sjögren's overlap — sicca symptoms, sensory neuronopathy

Genetic testing strategy

Targeted gene panel vs. WES/WGS — guided by phenotype, biopsy, and inheritance pattern

First-line targeted testing:

• Dystrophinopathy (DMD/BMD): dystrophin gene deletion/duplication MLPA; sequence if negative
• FSHD: D4Z4 repeat contraction analysis (chr 4q35); SMCHD1 for FSHD2
• Myotonic dystrophy: DMPK CTG repeat (DM1); CNBP CCTG repeat (DM2)
• Pompe: GAA gene sequencing; confirm with enzyme activity (dried blood spot)
• LGMD: NGS panel covering CAPN3, DYSF, SGCA/B/C/D, FKRP, ANO5, DNAJB6, FLNC (30+ genes)

Second-line / undiagnosed:

• WES or WGS: undiagnosed hereditary myopathy with negative panel; captures novel variants
• Mitochondrial genome (mtDNA) sequencing: CPEO, MELAS, MERRF, Kearns-Sayre; also check tRNA variants
• RNA sequencing of muscle: detects cryptic splice variants missed by DNA-level analysis

Malignancy screening

DM carries highest cancer risk — screen at diagnosis and annually for 3 years

• Highest risk: DM (RR ~6); especially anti-TIF1-γ, anti-NXP2, anti-SAE1 positive
• Moderate risk: PM (RR ~2); IMNM (especially anti-SRP)
• Low risk: anti-synthetase syndrome, IBM, juvenile DM
• Screen: CT chest/abdomen/pelvis + PET-CT; mammogram; PSA; colonoscopy; pelvic US (women)
• Repeat screening: annually for 3 years after diagnosis (peak cancer risk in first 1–3 years)
• Anti-MDA5 positive: low malignancy risk; focus on ILD surveillance (HRCT, PFTs) instead

Dx

Diagnosis established → category & management direction

Inflammatory myopathy (IIM)

DM, PM, anti-synthetase syndrome, MDA5-DM — high-dose steroids + steroid-sparing (azathioprine, MMF, IVIG, rituximab); ILD: cyclophosphamide or tacrolimus for refractory

DM PM Anti-synthetase

Immune-mediated necrotizing myopathy (IMNM)

Anti-SRP or anti-HMGCR — high-dose steroids + IVIG + rituximab; often refractory to single agent; stop statin if HMGCR (necessary but insufficient)

Anti-SRP Anti-HMGCR

Inclusion body myositis (IBM)

No proven disease-modifying therapy; immunosuppression not effective; focus on dysphagia management, PT/OT, ankle-foot orthoses, aspiration precautions

Distal finger flexors Quadriceps

Hereditary muscular dystrophy

DMD: exon-skipping (eteplirsen), ataluren (nonsense); LGMD: gene therapy trials; cardiac surveillance; respiratory support (NIV); PT/OT; multidisciplinary care

DMD/BMD LGMD FSHD

Metabolic & mitochondrial myopathy

Pompe: enzyme replacement therapy (alglucosidase alfa / avalglucosidase alfa); McArdle: avoid intense exercise, sucrose pre-exercise; mitochondrial: CoQ10, riboflavin, carnitine (limited evidence); avoid valproate, metformin

Pompe McArdle Mitochondrial

Toxic, endocrine & other secondary

Statin myopathy: cease statin, switch class or CoQ10 if needed; steroid myopathy: reduce dose, resistance exercise; hypothyroid: levothyroxine; ICB myositis: hold ICI, steroids ± IVIG; correct electrolytes for metabolic causes

Statin Endocrine ICI myositis

Category color key

Inflammatory myopathy (IIM)

Immune-mediated necrotizing (IMNM)

Inclusion body myositis (IBM)

Hereditary muscular dystrophy

Metabolic & mitochondrial

Toxic / endocrine / secondary

Tap ▶ for diagnostic criteria, antibody profiles, and biopsy patterns. Colored Dx cards link to full disease chapters.