Focal segmental glomerulosclerosis: Difference between revisions
Ostermayer (talk | contribs) (Created page with "Focal segmental glomerulosclerosis (FSGS) is a pattern of '''glomerular scarring''' in which sclerosis affects '''segments''' (not the entirety) of '''some''' (not all) glomeruli.<ref name="StatPearls">Focal Segmental Glomerulosclerosis. ''StatPearls''. NCBI. 2024.</ref> It is the '''most common cause of primary (idiopathic) nephrotic syndrome in adults''' in the United States and the '''leading glomerular cause of end-stage kidney disease (ESKD)'''.<ref name="CJASN">Ros...") |
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==Background== | ==Background== | ||
*''' | *Focal segmental glomerulosclerosis (FSGS) is a pattern of glomerular scarring in which sclerosis affects segments (not the entirety) of some (not all) glomeruli<ref name="StatPearls">Focal Segmental Glomerulosclerosis. ''StatPearls''. NCBI. 2024.</ref> | ||
*It is the most common cause of primary (idiopathic) nephrotic syndrome in adults in the United States and the leading glomerular cause of end-stage kidney disease (ESKD)<ref name="CJASN">Rosenberg AZ, Kopp JB. Focal Segmental Glomerulosclerosis. ''Clin J Am Soc Nephrol''. 2017;12(3):502-517.</ref> | |||
*FSGS disproportionately affects African Americans (driven by APOL1 risk alleles) | |||
*The emergency physician encounters FSGS patients presenting with nephrotic syndrome (massive edema, proteinuria, hypoalbuminemia) and its life-threatening complications: thromboembolism, spontaneous bacterial peritonitis, hypovolemic crisis, acute kidney injury, and severe hypertension | |||
* Diagnosis is histopathologic — requires renal biopsy; cannot be diagnosed by clinical features or labs alone<ref name="StatPearls"/> | |||
*FSGS accounts for ~35% of nephrotic syndrome in adults (higher in Black patients) and 7-20% in children | *FSGS accounts for ~35% of nephrotic syndrome in adults (higher in Black patients) and 7-20% in children | ||
*Incidence is increasing worldwide over the past three decades<ref name="MSD">Focal Segmental Glomerulosclerosis. ''MSD Manual Professional Edition''. 2025.</ref> | *Incidence is increasing worldwide over the past three decades<ref name="MSD">Focal Segmental Glomerulosclerosis. ''MSD Manual Professional Edition''. 2025.</ref> | ||
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===Histologic variants (prognostic significance)=== | ===Histologic variants (prognostic significance)=== | ||
* | * NOS (not otherwise specified): most common; intermediate prognosis | ||
* | * Tip lesion: best prognosis; most responsive to steroids | ||
* | * Collapsing: worst prognosis; associated with HIVAN, severe hypertension, rapid progression to ESKD; massive proteinuria; steroid-resistant | ||
* | * Cellular: intermediate prognosis | ||
* | * Perihilar: associated with adaptive/secondary FSGS | ||
==Clinical features== | ==Clinical features== | ||
===Nephrotic syndrome (>70% of primary FSGS)=== | ===Nephrotic syndrome (>70% of primary FSGS)=== | ||
* | * Edema: generalized or dependent; may develop over weeks or have '''abrupt onset with 15-20 lb weight gain'''<ref name="Medscape_FSGS">Focal Segmental Glomerulosclerosis Clinical Presentation. ''Medscape''. 2024.</ref> | ||
**Children: typically begins with '''periorbital/facial swelling''' → progresses to generalized anasarca | **Children: typically begins with '''periorbital/facial swelling''' → progresses to generalized anasarca | ||
**Adults: dependent edema (legs, sacrum); periorbital | **Adults: dependent edema (legs, sacrum); periorbital | ||
* | * Foamy urine (proteinuria) | ||
* | * Fatigue, anorexia | ||
* | * Ascites, pleural effusions (from third-spacing; pericardial effusion is rare) | ||
*Onset frequently follows an '''upper respiratory tract infection''' | *Onset frequently follows an '''upper respiratory tract infection''' | ||
* | * Hypertension — may be '''severe''' (diastolic >120 mmHg), especially in Black patients with renal impairment<ref name="StatPearls"/> | ||
===Subnephrotic presentation (~30%)=== | ===Subnephrotic presentation (~30%)=== | ||
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*Risk: '''deep venous thrombosis, pulmonary embolism, renal vein thrombosis, cerebral sinus thrombosis''' | *Risk: '''deep venous thrombosis, pulmonary embolism, renal vein thrombosis, cerebral sinus thrombosis''' | ||
*VTE incidence ~1-5% in adults (higher in membranous nephropathy); risk is highest in the '''first 6 months''' | *VTE incidence ~1-5% in adults (higher in membranous nephropathy); risk is highest in the '''first 6 months''' | ||
* | * Sudden gross hematuria or acute flank pain + acute renal failure → suspect '''renal vein thrombosis''' | ||
* | * Acute dyspnea + pleuritic chest pain → suspect '''pulmonary embolism''' | ||
*Children: arterial thrombosis (cerebrovascular) can also occur | *Children: arterial thrombosis (cerebrovascular) can also occur | ||
====Infection==== | ====Infection==== | ||
* | * Immunodeficiency from urinary loss of immunoglobulins (especially IgG) and complement proteins | ||
*Immunosuppressive therapy further increases risk | *Immunosuppressive therapy further increases risk | ||
* | * Most common infections: pneumonia, sepsis/bacteremia, cellulitis, '''spontaneous bacterial peritonitis (SBP)''', UTI<ref name="Complications"/> | ||
* | * SBP in nephrotic syndrome: any child with nephrotic syndrome + fever + abdominal pain + ascites should have '''diagnostic paracentesis''' — ''Streptococcus pneumoniae'' is the most common causative organism; ''E. coli'' and gram-negatives also seen | ||
*Steroid therapy may '''mask typical signs of infection''' — maintain a high index of suspicion | *Steroid therapy may '''mask typical signs of infection''' — maintain a high index of suspicion | ||
====Hypovolemic crisis==== | ====Hypovolemic crisis==== | ||
*Severe hypoalbuminemia (albumin <1.5 g/dL) → decreased oncotic pressure → intravascular volume depletion | *Severe hypoalbuminemia (albumin <1.5 g/dL) → decreased oncotic pressure → intravascular volume depletion | ||
* | *Abdominal pain, vomiting, diarrhea, tachycardia, cool extremities, delayed capillary refill, oliguria → '''hypotension''' (a late sign)<ref name="Complications"/> | ||
*Can be precipitated by aggressive diuresis or intercurrent illness | *Can be precipitated by aggressive diuresis or intercurrent illness | ||
* | * Risk of AKI from prerenal azotemia | ||
====Acute kidney injury==== | ====Acute kidney injury==== | ||
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==Differential diagnosis== | ==Differential diagnosis== | ||
===Nephrotic syndrome (other causes)=== | ===Nephrotic syndrome (other causes)=== | ||
* | * Minimal change disease (MCD): most common cause in children; clinically indistinguishable from FSGS without biopsy; steroid-responsive; excellent prognosis (distinguishing MCD from FSGS on biopsy is critical because management and prognosis differ) | ||
* | * Membranous nephropathy: most common in white adults; strongly associated with renal vein thrombosis; may be secondary to malignancy, hepatitis B, SLE | ||
* | * Diabetic nephropathy: most common secondary cause of nephrotic syndrome overall | ||
* | * Lupus nephritis ([[SLE]]) | ||
* | * Amyloidosis | ||
* | * IgA nephropathy (nephrotic presentation less common) | ||
* | * HIV-associated nephropathy (HIVAN): collapsing FSGS variant; suspect in any HIV-positive patient with nephrotic syndrome | ||
===Generalized edema (non-renal causes to exclude)=== | ===Generalized edema (non-renal causes to exclude)=== | ||
* | * Heart failure (elevated JVP, S3 gallop, pulmonary edema) | ||
* | * Cirrhosis/hepatic failure (spider angiomata, ascites, jaundice, coagulopathy) | ||
* | * Protein-losing enteropathy | ||
* | * Severe malnutrition | ||
{{Periorbital swelling DDX}} | |||
==Evaluation== | ==Evaluation== | ||
===ED workup=== | ===ED workup=== | ||
* | * Urinalysis with microscopy: | ||
** | ** Heavy proteinuria (3+ or 4+ on dipstick) | ||
**Hyaline or broad waxy casts; '''RBC casts are generally absent''' (their presence suggests nephritic syndrome/glomerulonephritis instead) | **Hyaline or broad waxy casts; '''RBC casts are generally absent''' (their presence suggests nephritic syndrome/glomerulonephritis instead) | ||
**Oval fat bodies ("Maltese cross" under polarized light) — pathognomonic for nephrotic-range proteinuria | **Oval fat bodies ("Maltese cross" under polarized light) — pathognomonic for nephrotic-range proteinuria | ||
* | * Spot urine protein:creatinine ratio: >3.5 mg/mg indicates nephrotic-range proteinuria (faster than 24-hour collection) | ||
* | * Serum albumin: <3.0 g/dL (often <2.0 g/dL in active disease) | ||
* | * BMP/CMP: creatinine (renal function), electrolytes, calcium (low from hypoalbuminemia — correct for albumin) | ||
* | * Lipid panel: hyperlipidemia (elevated total cholesterol, LDL, triglycerides) — characteristic of nephrotic syndrome | ||
* | * CBC: evaluate for infection; anemia (may occur from transferrin loss) | ||
* | * Coagulation studies: PT/INR, fibrinogen (if thrombosis suspected) | ||
* | * Blood glucose: rule out diabetic nephropathy as underlying cause | ||
===Directed testing based on presentation=== | ===Directed testing based on presentation=== | ||
* | * Suspected thromboembolism: D-dimer, CT pulmonary angiography (PE), Doppler ultrasound of extremities (DVT), renal vein Doppler (renal vein thrombosis) | ||
* | * Suspected SBP: diagnostic paracentesis (cell count, Gram stain, culture, protein, albumin) | ||
* | * Suspected infection: blood cultures, urine culture, chest X-ray | ||
* | * New diagnosis workup (arrange via nephrology; not all ED tests): | ||
**Complement levels (C3, C4) — normal in FSGS (low in SLE, MPGN, post-infectious GN) | **Complement levels (C3, C4) — normal in FSGS (low in SLE, MPGN, post-infectious GN) | ||
**ANA, anti-dsDNA (lupus) | **ANA, anti-dsDNA (lupus) | ||
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**HIV testing | **HIV testing | ||
**Serum free light chains, SPEP/UPEP (amyloidosis, myeloma) | **Serum free light chains, SPEP/UPEP (amyloidosis, myeloma) | ||
** | ** Renal biopsy: definitive diagnosis; arranged by nephrology | ||
==Management== | ==Management== | ||
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====Edema management==== | ====Edema management==== | ||
* | * Salt restriction (education; not acute ED intervention) | ||
* | * Loop diuretics: furosemide 1-2 mg/kg IV (children) or 20-80 mg IV (adults) | ||
** | ** Caution: excessive diuresis can precipitate hypovolemic crisis and AKI — monitor volume status carefully | ||
**Diuretic resistance is common in severe hypoalbuminemia (furosemide is protein-bound and may not reach tubular lumen effectively) | **Diuretic resistance is common in severe hypoalbuminemia (furosemide is protein-bound and may not reach tubular lumen effectively) | ||
* | * IV albumin 25% (0.5-1 g/kg) followed immediately by IV furosemide: for '''severe/refractory edema''' or clinical hypovolemia | ||
**Albumin temporarily raises oncotic pressure, mobilizes edema fluid into intravascular space, and enhances diuretic delivery to the kidney | **Albumin temporarily raises oncotic pressure, mobilizes edema fluid into intravascular space, and enhances diuretic delivery to the kidney | ||
**'''Monitor closely for pulmonary edema''' — albumin infusion can cause fluid overload if the patient is not truly volume-depleted | **'''Monitor closely for pulmonary edema''' — albumin infusion can cause fluid overload if the patient is not truly volume-depleted | ||
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====Thromboembolism==== | ====Thromboembolism==== | ||
* | * Anticoagulation: heparin (UFH or LMWH) followed by warfarin or DOAC per VTE protocols | ||
* | * Thrombolysis or thrombectomy: consider for massive PE or limb-threatening DVT per standard protocols | ||
*Renal vein thrombosis: anticoagulation; rarely requires intervention | *Renal vein thrombosis: anticoagulation; rarely requires intervention | ||
====Infection / SBP==== | ====Infection / SBP==== | ||
* | * Empiric antibiotics: broad-spectrum pending cultures | ||
* | * SBP: cefotaxime or ceftriaxone (covers ''S. pneumoniae'' and gram-negatives); adjust based on culture | ||
* | * Diagnostic paracentesis in any nephrotic patient with ascites + fever or abdominal pain — do not wait for imaging | ||
====Hypovolemic crisis==== | ====Hypovolemic crisis==== | ||
* | * IV normal saline 20 mL/kg bolus if hemodynamically compromised | ||
* | * IV albumin 25% (1 g/kg over 3-5 hours) for severe hypovolemia with albumin <1.5 g/dL | ||
*Monitor blood pressure closely; avoid fluid overload | *Monitor blood pressure closely; avoid fluid overload | ||
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===Disease-specific treatment (not typically initiated in ED)=== | ===Disease-specific treatment (not typically initiated in ED)=== | ||
* | * Primary FSGS: corticosteroids (prednisone 1 mg/kg/day for 16+ weeks in adults); calcineurin inhibitors (tacrolimus, cyclosporine) for steroid-resistant or intolerant; mycophenolate mofetil; rituximab | ||
* | * Secondary FSGS: treat underlying cause (antiretroviral therapy for HIV, weight loss for obesity, stop offending drug); ACE inhibitor/ARB for proteinuria reduction | ||
* | * Genetic FSGS: does NOT respond to immunosuppression; ACE inhibitor/ARB and supportive care | ||
*All patients: '''ACE inhibitor or ARB''' (reduces proteinuria independent of blood pressure), '''statins''' (for hyperlipidemia), '''sodium restriction''' | *All patients: '''ACE inhibitor or ARB''' (reduces proteinuria independent of blood pressure), '''statins''' (for hyperlipidemia), '''sodium restriction''' | ||
==Disposition== | ==Disposition== | ||
* | * Admit: | ||
**Severe/symptomatic edema unresponsive to oral diuretics | **Severe/symptomatic edema unresponsive to oral diuretics | ||
**Thromboembolism (PE, DVT, renal vein thrombosis, cerebral sinus thrombosis) | **Thromboembolism (PE, DVT, renal vein thrombosis, cerebral sinus thrombosis) | ||
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**Hypertensive emergency | **Hypertensive emergency | ||
**New diagnosis with severe nephrotic syndrome requiring urgent nephrology evaluation | **New diagnosis with severe nephrotic syndrome requiring urgent nephrology evaluation | ||
* | * Discharge with close follow-up: | ||
**Known FSGS patient with stable mild-moderate edema exacerbation responsive to oral diuretics | **Known FSGS patient with stable mild-moderate edema exacerbation responsive to oral diuretics | ||
**No signs of infection, thrombosis, or AKI | **No signs of infection, thrombosis, or AKI | ||
**Stable renal function | **Stable renal function | ||
**Ensure nephrology follow-up within 24-72 hours | **Ensure nephrology follow-up within 24-72 hours | ||
* | * Always refer to nephrology — FSGS requires biopsy for diagnosis and ongoing specialist management; the EM physician's role is to manage complications and ensure timely referral | ||
* | * Counsel patients on: | ||
**Sodium restriction | **Sodium restriction | ||
**'''Signs of thromboembolism''' (leg swelling, dyspnea, chest pain) — seek immediate care | **'''Signs of thromboembolism''' (leg swelling, dyspnea, chest pain) — seek immediate care | ||
Revision as of 12:51, 19 March 2026
Background
- Focal segmental glomerulosclerosis (FSGS) is a pattern of glomerular scarring in which sclerosis affects segments (not the entirety) of some (not all) glomeruli[1]
- It is the most common cause of primary (idiopathic) nephrotic syndrome in adults in the United States and the leading glomerular cause of end-stage kidney disease (ESKD)[2]
- FSGS disproportionately affects African Americans (driven by APOL1 risk alleles)
- The emergency physician encounters FSGS patients presenting with nephrotic syndrome (massive edema, proteinuria, hypoalbuminemia) and its life-threatening complications: thromboembolism, spontaneous bacterial peritonitis, hypovolemic crisis, acute kidney injury, and severe hypertension
- Diagnosis is histopathologic — requires renal biopsy; cannot be diagnosed by clinical features or labs alone[1]
- FSGS accounts for ~35% of nephrotic syndrome in adults (higher in Black patients) and 7-20% in children
- Incidence is increasing worldwide over the past three decades[3]
Classification
| Type | Mechanism | Key features |
|---|---|---|
| Primary (idiopathic) | Presumed circulating permeability factor injuring podocytes | Nephrotic-range proteinuria; responds to immunosuppression; recurs in up to 40% of kidney transplants |
| Secondary | Adaptive (hyperfiltration) or toxic podocyte injury | Obesity, HIV (HIVAN), heroin, sickle cell, reflux nephropathy, single kidney, anabolic steroids; usually subnephrotic proteinuria |
| Genetic | Mutations in podocyte structural proteins (NPHS1, NPHS2, INF2, TRPC6, others) | Steroid-resistant; does NOT recur after transplant; family history |
| APOL1-associated | APOL1 G1/G2 risk alleles (sub-Saharan African ancestry) | Explains disproportionate FSGS burden in Black patients; also linked to HIVAN and hypertensive nephrosclerosis |
| Virus-associated | HIV (HIVAN), parvovirus B19, CMV, EBV | HIVAN: collapsing variant; almost exclusively in Black patients; responds to antiretroviral therapy |
Histologic variants (prognostic significance)
- NOS (not otherwise specified): most common; intermediate prognosis
- Tip lesion: best prognosis; most responsive to steroids
- Collapsing: worst prognosis; associated with HIVAN, severe hypertension, rapid progression to ESKD; massive proteinuria; steroid-resistant
- Cellular: intermediate prognosis
- Perihilar: associated with adaptive/secondary FSGS
Clinical features
Nephrotic syndrome (>70% of primary FSGS)
- Edema: generalized or dependent; may develop over weeks or have abrupt onset with 15-20 lb weight gain[4]
- Children: typically begins with periorbital/facial swelling → progresses to generalized anasarca
- Adults: dependent edema (legs, sacrum); periorbital
- Foamy urine (proteinuria)
- Fatigue, anorexia
- Ascites, pleural effusions (from third-spacing; pericardial effusion is rare)
- Onset frequently follows an upper respiratory tract infection
- Hypertension — may be severe (diastolic >120 mmHg), especially in Black patients with renal impairment[1]
Subnephrotic presentation (~30%)
- Incidental proteinuria found on routine urinalysis
- Microscopic hematuria (occasionally)
- Mild hypertension
- Slowly progressive renal insufficiency
EM-relevant complications of nephrotic syndrome
These are the reasons FSGS patients present to the ED:
Thromboembolism
- Nephrotic syndrome is a hypercoagulable state — urinary loss of antithrombin III, protein C, protein S; elevated fibrinogen, factor V, factor VIII; platelet hyperaggregability[5]
- Risk: deep venous thrombosis, pulmonary embolism, renal vein thrombosis, cerebral sinus thrombosis
- VTE incidence ~1-5% in adults (higher in membranous nephropathy); risk is highest in the first 6 months
- Sudden gross hematuria or acute flank pain + acute renal failure → suspect renal vein thrombosis
- Acute dyspnea + pleuritic chest pain → suspect pulmonary embolism
- Children: arterial thrombosis (cerebrovascular) can also occur
Infection
- Immunodeficiency from urinary loss of immunoglobulins (especially IgG) and complement proteins
- Immunosuppressive therapy further increases risk
- Most common infections: pneumonia, sepsis/bacteremia, cellulitis, spontaneous bacterial peritonitis (SBP), UTI[5]
- SBP in nephrotic syndrome: any child with nephrotic syndrome + fever + abdominal pain + ascites should have diagnostic paracentesis — Streptococcus pneumoniae is the most common causative organism; E. coli and gram-negatives also seen
- Steroid therapy may mask typical signs of infection — maintain a high index of suspicion
Hypovolemic crisis
- Severe hypoalbuminemia (albumin <1.5 g/dL) → decreased oncotic pressure → intravascular volume depletion
- Abdominal pain, vomiting, diarrhea, tachycardia, cool extremities, delayed capillary refill, oliguria → hypotension (a late sign)[5]
- Can be precipitated by aggressive diuresis or intercurrent illness
- Risk of AKI from prerenal azotemia
Acute kidney injury
- Multifactorial: hypovolemia, sepsis, nephrotoxic medications, renal vein thrombosis, or disease progression
- AKI complicating NS has increased 158% over the past decade in pediatric hospitalizations[6]
Severe/malignant hypertension
- May present with hypertensive emergency: headache, visual changes, encephalopathy, seizures
Differential diagnosis
Nephrotic syndrome (other causes)
- Minimal change disease (MCD): most common cause in children; clinically indistinguishable from FSGS without biopsy; steroid-responsive; excellent prognosis (distinguishing MCD from FSGS on biopsy is critical because management and prognosis differ)
- Membranous nephropathy: most common in white adults; strongly associated with renal vein thrombosis; may be secondary to malignancy, hepatitis B, SLE
- Diabetic nephropathy: most common secondary cause of nephrotic syndrome overall
- Lupus nephritis (SLE)
- Amyloidosis
- IgA nephropathy (nephrotic presentation less common)
- HIV-associated nephropathy (HIVAN): collapsing FSGS variant; suspect in any HIV-positive patient with nephrotic syndrome
Generalized edema (non-renal causes to exclude)
- Heart failure (elevated JVP, S3 gallop, pulmonary edema)
- Cirrhosis/hepatic failure (spider angiomata, ascites, jaundice, coagulopathy)
- Protein-losing enteropathy
- Severe malnutrition
Periorbital swelling
Proptosis
- Normal IOP
- Orbital cellulitis
- Orbital pseudotumor
- Orbital tumor
- Increased IOP
- Retrobulbar abscess
- Retrobulbar emphysema
- Retrobulbar hemorrhage
- Ocular compartment syndrome
- Orbital tumor
No proptosis
- Periorbital cellulitis/erysipelas
- Dacryocystitis (lacrimal duct)
- Dacryocele/Dacryocystocele
- Dacryostenosis
- Dacryoadenitis (lacrimal gland)
- Allergic reaction
- Nephrotic Syndrome (pediatrics)
Lid Complications
- Blepharitis (crusts)
- Chalazion (meibomian gland)
- Stye (hordeolum) (eyelash folicle)
Other
- Subperiosteal abscess
- Orbital abscess
- Cavernous sinus thrombosis
- Conjunctivitis
- Contact dermatitis
- Herpes zoster
- Herpes simplex
- Sarcoidosis
- Granulomatosis with polyangiitis
Evaluation
ED workup
- Urinalysis with microscopy:
- Heavy proteinuria (3+ or 4+ on dipstick)
- Hyaline or broad waxy casts; RBC casts are generally absent (their presence suggests nephritic syndrome/glomerulonephritis instead)
- Oval fat bodies ("Maltese cross" under polarized light) — pathognomonic for nephrotic-range proteinuria
- Spot urine protein:creatinine ratio: >3.5 mg/mg indicates nephrotic-range proteinuria (faster than 24-hour collection)
- Serum albumin: <3.0 g/dL (often <2.0 g/dL in active disease)
- BMP/CMP: creatinine (renal function), electrolytes, calcium (low from hypoalbuminemia — correct for albumin)
- Lipid panel: hyperlipidemia (elevated total cholesterol, LDL, triglycerides) — characteristic of nephrotic syndrome
- CBC: evaluate for infection; anemia (may occur from transferrin loss)
- Coagulation studies: PT/INR, fibrinogen (if thrombosis suspected)
- Blood glucose: rule out diabetic nephropathy as underlying cause
Directed testing based on presentation
- Suspected thromboembolism: D-dimer, CT pulmonary angiography (PE), Doppler ultrasound of extremities (DVT), renal vein Doppler (renal vein thrombosis)
- Suspected SBP: diagnostic paracentesis (cell count, Gram stain, culture, protein, albumin)
- Suspected infection: blood cultures, urine culture, chest X-ray
- New diagnosis workup (arrange via nephrology; not all ED tests):
- Complement levels (C3, C4) — normal in FSGS (low in SLE, MPGN, post-infectious GN)
- ANA, anti-dsDNA (lupus)
- Hepatitis B and C serologies
- HIV testing
- Serum free light chains, SPEP/UPEP (amyloidosis, myeloma)
- Renal biopsy: definitive diagnosis; arranged by nephrology
Management
ED management of nephrotic syndrome complications
Edema management
- Salt restriction (education; not acute ED intervention)
- Loop diuretics: furosemide 1-2 mg/kg IV (children) or 20-80 mg IV (adults)
- Caution: excessive diuresis can precipitate hypovolemic crisis and AKI — monitor volume status carefully
- Diuretic resistance is common in severe hypoalbuminemia (furosemide is protein-bound and may not reach tubular lumen effectively)
- IV albumin 25% (0.5-1 g/kg) followed immediately by IV furosemide: for severe/refractory edema or clinical hypovolemia
- Albumin temporarily raises oncotic pressure, mobilizes edema fluid into intravascular space, and enhances diuretic delivery to the kidney
- Monitor closely for pulmonary edema — albumin infusion can cause fluid overload if the patient is not truly volume-depleted
- Do NOT give albumin without concurrent diuresis unless treating confirmed hypovolemia — it will redistribute into the extravascular space and worsen edema
Thromboembolism
- Anticoagulation: heparin (UFH or LMWH) followed by warfarin or DOAC per VTE protocols
- Thrombolysis or thrombectomy: consider for massive PE or limb-threatening DVT per standard protocols
- Renal vein thrombosis: anticoagulation; rarely requires intervention
Infection / SBP
- Empiric antibiotics: broad-spectrum pending cultures
- SBP: cefotaxime or ceftriaxone (covers S. pneumoniae and gram-negatives); adjust based on culture
- Diagnostic paracentesis in any nephrotic patient with ascites + fever or abdominal pain — do not wait for imaging
Hypovolemic crisis
- IV normal saline 20 mL/kg bolus if hemodynamically compromised
- IV albumin 25% (1 g/kg over 3-5 hours) for severe hypovolemia with albumin <1.5 g/dL
- Monitor blood pressure closely; avoid fluid overload
Hypertensive emergency
- Manage per standard Hypertensive emergency protocols
- ACE inhibitors/ARBs are first-line for chronic BP control AND reduce proteinuria (but avoid in AKI with hyperkalemia)
Disease-specific treatment (not typically initiated in ED)
- Primary FSGS: corticosteroids (prednisone 1 mg/kg/day for 16+ weeks in adults); calcineurin inhibitors (tacrolimus, cyclosporine) for steroid-resistant or intolerant; mycophenolate mofetil; rituximab
- Secondary FSGS: treat underlying cause (antiretroviral therapy for HIV, weight loss for obesity, stop offending drug); ACE inhibitor/ARB for proteinuria reduction
- Genetic FSGS: does NOT respond to immunosuppression; ACE inhibitor/ARB and supportive care
- All patients: ACE inhibitor or ARB (reduces proteinuria independent of blood pressure), statins (for hyperlipidemia), sodium restriction
Disposition
- Admit:
- Severe/symptomatic edema unresponsive to oral diuretics
- Thromboembolism (PE, DVT, renal vein thrombosis, cerebral sinus thrombosis)
- Suspected or confirmed SBP or sepsis
- Hypovolemic crisis with hemodynamic instability
- AKI (rising creatinine, oliguria)
- Hypertensive emergency
- New diagnosis with severe nephrotic syndrome requiring urgent nephrology evaluation
- Discharge with close follow-up:
- Known FSGS patient with stable mild-moderate edema exacerbation responsive to oral diuretics
- No signs of infection, thrombosis, or AKI
- Stable renal function
- Ensure nephrology follow-up within 24-72 hours
- Always refer to nephrology — FSGS requires biopsy for diagnosis and ongoing specialist management; the EM physician's role is to manage complications and ensure timely referral
- Counsel patients on:
- Sodium restriction
- Signs of thromboembolism (leg swelling, dyspnea, chest pain) — seek immediate care
- Signs of infection (fever, abdominal pain) — low threshold to return
- Medication compliance (steroids, immunosuppressants, ACE inhibitors)
- Pneumococcal vaccination (if not already received — nephrotic patients are at high risk for pneumococcal infection)
See Also
- Nephrotic syndrome
- Nephritic syndrome
- Acute kidney injury
- Pulmonary embolism
- Deep venous thrombosis
- Spontaneous bacterial peritonitis
- Hypertensive emergency
- HIV
External Links
- StatPearls — Focal Segmental Glomerulosclerosis
- CJASN — Focal Segmental Glomerulosclerosis (Rosenberg & Kopp, 2017)
- Medscape — Focal Segmental Glomerulosclerosis
- MSD Manual — Focal Segmental Glomerulosclerosis
- NKF — Focal Segmental Glomerulosclerosis
- Korean J Pediatr — Complications of nephrotic syndrome (2011)
References
- ↑ 1.0 1.1 1.2 Focal Segmental Glomerulosclerosis. StatPearls. NCBI. 2024.
- ↑ Rosenberg AZ, Kopp JB. Focal Segmental Glomerulosclerosis. Clin J Am Soc Nephrol. 2017;12(3):502-517.
- ↑ Focal Segmental Glomerulosclerosis. MSD Manual Professional Edition. 2025.
- ↑ Focal Segmental Glomerulosclerosis Clinical Presentation. Medscape. 2024.
- ↑ 5.0 5.1 5.2 Complications of nephrotic syndrome. Korean J Pediatr. 2011;54(8):322-328. PMC3212701.
- ↑ Rheault MN, et al. Increasing frequency of AKI amongst children hospitalized with nephrotic syndrome. Pediatr Nephrol. 2014;29(1):139-147. PMC6556228.