Organoid technology has rapidly emerged as a powerful biological model for disease research, drug screening, and precision medicine. However, despite its promise, inconsistent passaging practices remain one of the biggest obstacles to reproducibility and long-term stability.
This guide provides a systematic, step-by-step framework for standardized organoid passaging, helping researchers achieve reliable expansion, high viability, and consistent experimental outcomes.
I. When to Passage Organoids: Defining the Right Time
1. Morphological Criteria
Organoids are generally ready for passaging when they reach a diameter of 200–500 μm
(human-derived organoids tend to be larger than mouse-derived ones).
Key indicators of healthy organoids include:
- Smooth, intact edges
- No central darkening, necrosis, or large vacuoles
Model-specific cues should also be considered:
- Esophageal organoids: Appearance of keratin pearls between days 9–14 marks the optimal passaging window
- Intestinal / pancreatic organoids: Branching or “cauliflower-like” structures indicate maturity (optional, not mandatory)
- Neural organoids: Functional validation is required, such as β-III tubulin staining or electrophysiological activity
2. Functional and Growth Indicators
Immediate passaging is recommended if:
Daily growth rate drops below 5%, or culture medium turns yellow within 48 hours
For secretory organoids, functional markers should be monitored:
- ≥ 20% positive cells (e.g., MUC2⁺ goblet cells in intestinal organoids)
II. Standardized Passaging Workflow (24-Well Plate Example)
Step 1. Pre-Cooling of Reagents and Consumables
- Matrix gel: Thaw overnight on ice at 4 °C; avoid repeated freeze–thaw cycles
(>2 cycles may reduce gel strength by >30%)
- Consumables: Pipette tips, tubes, and PBS should be pre-cooled on ice for at least 30 minutes
to prevent premature gel polymerization
Step 2. Matrix Removal
- Aspirate culture medium
- Gently wash twice with ice-cold PBS along the well wall
- Place the plate on a horizontal shaker at 30 rpm for 30 seconds to remove residual gel fragments completely
Step 3. Dissociation
Mechanical dissociation (recommended for fragile or normal epithelial organoids):
- Gently pipette 5–10 times using a 200 μL tip
- Filter through a 100 μm strainer
Enzymatic dissociation (for dense or tumor organoids):
Add 200 μL ice-cold Accutase or TrypLE™ per well
- Incubate at room temperature for 5–7 minutes(extend slightly for dense tumors)
- Monitor under microscope; stop digestion when edges appear “fuzzy and bright”
- Immediately quench with an equal volume of ice-cold medium containing 10% FBS
Step 4. Washing and Centrifugation
- Collect suspension into a 15 mL tube
- Centrifuge at 200 × g, 4 °C, for 5 minutes
- Discard supernatant, resuspend in 1 mL ice-cold PBS, and repeat centrifugation to completely remove FBS
Step 5. Re-Embedding and Seeding
- Mix cell pellet with matrix gel at a 1:3 (v/v) ratio
- Final gel concentration should be ≥70%(concentrations <60% often cause 3D structure collapse)
- Deposit 20 μL droplets vertically in the center of a pre-warmed 24-well plate
- Polymerize at 37°C for 15 minutes
- Gently add 500 μL complete medium along the well wall
III. Post-Passaging Quality Control
1. Fragment Size Selection
Filter mechanically dissociated fragments through a 100 μm strainer
Discard fragments <50 μm(small fragments show only 10–15% organoid formation efficiency)
2. Do Not Change Medium for 48 Hours
- Retain autocrine survival factors
- Early medium replacement can reduce re-establishment efficiency by ~30%
3. Eliminate Air Bubbles
- Air bubbles inside gel result in 100% hypoxic necrosis
- If bubbles >200 μm appear, gently remove using a 10 μL pipette tip
IV. Recommended Passaging Ratios
|
Organoid Type |
Ratio |
Method |
Recovery Rate |
|
Normal intestine / stomach |
1:4 |
Enzymatic + gentle pipetting |
80–90% |
|
Primary tumor (first passage) |
1:2 |
Enzymatic |
60–70% |
|
Dense solid tumor (later passages) |
1:6 |
Mechanical shearing |
50–60% |
VI. Troubleshooting Guide & FAQ
|
Issue / Symptom |
Possible Cause |
Recommended Solution |
|
Organoids fail to bud or expand |
Low seeding density; insufficient matrix concentration |
Increase seeding density to ≥30 clusters per well; ensure final matrix concentration is ≥70% |
|
Central darkening or necrosis |
Excessive gel thickness; trapped air bubbles |
Limit gel droplet thickness to ≤200 μm; carefully remove bubbles using a 10 μL pipette tip |
|
Rapid medium acidification (yellowing within 24–48 h) |
Over-digestion; excessive centrifugation force |
Shorten digestion time; reduce centrifugation to ≤200 × g |
|
Low organoid recovery after passaging |
Fragment size too small; harsh dissociation |
Discard fragments <50 μm; use gentle mechanical dissociation or reduce enzyme exposure |
|
High variability between passages |
Batch variation in matrix or growth factors |
Use batch-qualified matrix and pre-formulated, consistent media |
|
Premature gel polymerization during handling |
Reagents or consumables not pre-cooled |
Pre-cool matrix, PBS, tips, and tubes on ice for ≥30 minutes |
|
Poor re-establishment after passaging |
Medium changed too early |
Do not change medium during the first 48 h post-passaging |
|
Organoids collapse or lose 3D structure |
Matrix concentration too low |
Maintain matrix concentration at ≥70% |
|
High cell death immediately after passaging |
Excessive enzymatic digestion |
Monitor under microscope and stop digestion when organoid edges become bright and fuzzy |
|
Inconsistent growth across wells |
Uneven gel droplet size or placement |
Dispense 20 μL droplets vertically in the center of each well |
VI. Yeasen’s Complete Organoid Culture Solutions
High biosafety: Free of LDEV, mycoplasma, bacteria, and fungi
Endotoxin ≤8 EU/mL—suitable for long-term culture and in vivo implantation
Batch-to-batch consistency: Concentration range 8–20 mg/mL; high-concentration option ≥18 mg/mL;
Single-batch production >30 L
Versatile 3D support: Rapid polymerization at room temperature; compatible with organoids, angiogenesis, tumor invasion, and in vivo tumorigenesis; Phenol-red-free option available for fluorescence imaging.
|
Category |
Product Name |
Cat. No. |
Size |
Note |
|
Basic concentration (8–12 mg/mL) |
Ceturegel™ Matrix LDEV-Free |
40183ES08/10 |
5 mL / 10 mL |
Suitable for 2D/3D culture, invasion and migration assays, and in vivo tumor formation studies. |
|
Ceturegel™ Matrix Phenol Red-Free, LDEV-Free |
40184ES08/10 |
5 mL / 10 mL |
||
|
High concentration (18–20 mg/mL) |
Ceturegel™ Matrix High Concentration, LDEV-Free |
40187ES08/10 |
5 mL / 10 mL |
Viscous and gels quickly; ideal for in vivo tumor formation with hard-to-grow cell lines. |
|
Ceturegel™ Matrix High Concentration, GFR, LDEV-Free |
40189ES08/10 |
5 mL / 10 mL |
||
|
Ceturegel™ Matrix High Concentration, Phenol Red-Free, LDEV-Free |
40188ES08/10 |
5 mL / 10 mL |
||
|
Low Growth Factor |
Ceturegel™ Matrix GFR, LDEV-Free |
40185ES08/10 |
5 mL / 10 mL |
Minimizes growth factor interference in signaling pathway studies. |
|
Ceturegel™ Matrix GFR, Phenol Red-Free, LDEV-Free |
40186ES08/10 |
5 mL / 10 mL |
||
|
Stem Cell |
Ceturegel™ Matrix hESC-Qualified, LDEV-Free |
40190ES08/10 |
5 mL / 10 mL |
Mainly used for hESC/iPSC stem cell culture. |
|
Organoid-Specific |
Ceturegel™ Matrix for Organoid Culture, Phenol Red-Free, LDEV-Free |
40192ES08/10 |
5 mL / 10 mL |
Upgraded organoid matrix gel for normal and tumor tissues with improved culture performance. |
2. CebraryTM Ready-to-Use Culture Media
Open and use: Pre-mixed at optimized ratios—no repeated titration required
High performance: Efficient crypt isolation and robust intestinal organoid formation
Serum-free & stable: Batch CV <10%, improving experimental success rates by ~30%
|
Human Tumor Organoid Culture Medium |
|||
|
Colorectal Cancer Organoid Growth Medium |
Gastric Cancer Organoid Growth Medium |
Liver Cancer Organoid Growth Medium |
Breast Cancer Organoid Growth Medium |
|
Lung Cancer Organoid Growth Medium |
Esophageal Cancer Organoid Growth Medium |
Ovarian Cancer Organoid Growth Medium |
Pancreatic Cancer Organoid Growth Medium |
|
Prostate Cancer Organoid Growth Medium |
Kidney Cancer Organoid Growth Medium |
Bladder Cancer Organoid Growth Medium |
Endometrial Cancer Organoid Growth Medium |
|
Head and Neck Squamous Cancer Organoid Growth Medium |
|
|
|
|
Normal Tissue Organoid Culture |
|||
|
Human Colorectal Organoid Growth Medium |
Human Colorectal Organoid Growth Medium |
Human Colorectal Organoid Growth Medium |
Human Colorectal Organoid Growth Medium |
|
Human Small Intestine Organoid Expansion Medium |
Human Small Intestine Organoid Expansion Medium |
Human Small Intestine Organoid Expansion Medium |
Human Small Intestine Organoid Differentiation Medium |
3. DIY Modular Components
Flexible selection of growth factors (EGF, R-spondin1, Noggin). Small molecules (Y-27632, CHIR-99021) added as needed. Buy only what your project requires—no waste, no redundancy
|
Cat.NO. |
Specification |
Product Name |
Category |
|
41420ES76 |
500 mL |
DMEM/F-12 Reduced Serum Medium |
Culture Medium Additive |
|
60117ES60 |
100 mL |
HEPES Solution (1M), Cell Culture Grade |
|
|
60713ES03 |
1 mL |
N-2 Serum-Free Supplement, 100X (Non-Animal Source) |
|
|
60712ES03 |
1 mL |
NSC-27 Serum-Free Supplement, Vitamin A Free (Non-Animal Source), equivalent to B-27 |
|
|
92262ES08 |
5 g |
Recombinant Mouse Noggin Protein |
Protein / Cytokine |
|
92277ES08 |
5 µg |
Recombinant Mouse RSPO1 Protein |
|
|
92703ES60 |
100 µg |
Recombinant Mouse EGF Protein |
|
|
92294ES10 |
10 µg |
Recombinant Mouse Wnt-3a Protein |
|
|
52604ES08 |
5 mg |
Recombinant Human Wnt-3a Protein (Liquid) |
|
|
53002ES03 |
1 mg |
A83-01 |
Small Molecule Compound |
|
50303ES05 |
2 g |
NAC (N-Acetyl-L-Cysteine), Antioxidant |
|
|
60701ES60 |
100 mL |
L-Alanyl-L-Glutamine (GlutaMAX) |
|
|
53005ES08 |
5 mg |
SB-202190 |
|
|
60281ES50 |
50 mg |
Primocin |
|
|
51402ES03 |
1 g |
Nicotinamide |
|
|
92294ES10 |
5 mg |
Y-27632 Dihydrochloride |
4. Essential Reagents for Passaging and Cryopreservation
|
Cat.NO. |
Reagent Name |
|
41424ES |
Tissue Preservation Solution |
|
41423ES |
Tissue Digestion Solution |
|
41451ES |
Specialized Wash Solution |
|
41421ES |
Organoid Recovery Solution |
|
41422ES |
Organoid Cryopreservation Solution |
Whether you aim for rapid startup, long-term stability, or cost-effective scaling, Yeasen provides a complete toolkit to make organoid culture accessible, reliable, and reproducible.
Spend less time troubleshooting—and more time answering real biological questions.