Table 1.

Overview of experimental models of MCD.

Animal models (animal/route)	Strengths	Limitations
PAN (Rat, IP)	- MCD-like injury - Acute and severe proteinuria	- Can evolve to FSGS - Direct toxicity on podocytes
LPS (Mouse, IP)	- MCD-like injury - Systemic immune activation - Acute proteinuria	- Mild proteinuria - Sepsis - Acute kidney injury
Poly: IC (Mouse, IP)	- MCD-like injury - Acute proteinuria - Mimic viral infection	- Mild proteinuria - Anecdotical use
Humanized mouse	- MCD-like injury - Incorporate PBMC from patients	- Mild proteinuria
	- Acute proteinuria	- Anecdotical use
Angptl4 (Rat, TG)	- MCD-like injury	- Slow onset proteinuria - Requires second insult (puromycin, etc.)
Cell studies	Strengths	Limitations
Human podocytes	- Well-characterized - Mechanistic control - High throughput - Relatively easy and inexpensive	- Does not recapitulate microenvironment - No shear stress - Limited glycocalyx - Inability to test permselectivity
Kidney organoids	- Incorporate different glomerular cells - Ability to test permselectivity and study crosstalk	- Requires expertise and longer timeline for experiments - Expensive - Does not include all glomerular cells - Limited throughput
3D co-cultures	- Ability to integrate two cell types and extracellular matrix - Microfluidic system - Reproduce shear stress - Ability to test permselectivity and study crosstalk - Develops glycocalyx	- Requires expertise and longer timeline for experiments - Expensive - Does not include all glomerular cells - Limited throughput

PAN, puromycin aminonucleoside; IP, intraperitoneal; MCD, minimal change disease; FSGS, focal segmental glomerulosclerosis; LPS, lipopolysaccharide; Angptl4, angiopoietin-like 4; TG, transgenic. Poly: IC, Polyinosinic: polycytidylic acid.