AF solution
Oncology
Immuno Oncology
Anti-Virus
Disease Modeling
Cosmetics
Toxicity
Spatial Biology
Technology Service
Cancer Organoid
Research Service
Others
Lambda’s hair follicle organoid, characterized by high reliability, can be utilized for drug development.
Hair
The Hair Growth Efficacy Assay (3D) is a sophisticated method conducted with hair follicle organoids, enabling precise evaluation of hair growth efficacy.
In Lambda, our platform excels in skin organoid models, ensuring consistent shape and hair follicle formation.
Cell Type
· iPSC
Organoid type
· Skin & Hair folicle organoid
An Anti-alopecia Efficacy Assay conducted in a three-dimensional (3D) culture is designed to evaluate the effectiveness of substances or treatments in preventing or treating hair loss (alopecia).
Lambda provides a solution by utilizing highly biomimetic hair follicle organoids to more accurately mimic cell-to-cell interactions, enabling the assessment of drug effects and development.
Cell Type
· iPSC
Organoid type
· Skin & Hair folicle organoid
An Anti-alopecia efficacy assay conducted in a three-dimensional (3D) culture is designed to evaluate the effectiveness of substances or treatments in preventing or treating hair loss (alopecia).
Lambda provides a solution by utilizing highly biomimetic hair follicle organoids to more accurately mimic cell-to-cell interactions, enabling the assessment of drug effects and development.
Identify markers related to skin structure and hair follicles through Immunofluorescence (IF) analysis to evaluate the hair loss efficacy of the sample.
Observe the morphology of the group treated with DHT alone and the group treated simultaneously with hair root strengthening substances Minoxidil and SOYACT.
In the simultaneously administered group, more hair follicles were observed compared to the group administered DHT alone.
The Immunofluorescence (IF) results in the group treated simultaneously with DHT and Minoxidil, DHT and SOYACT confirmed an increase in SOX2.
@ 2024 . All rights reserved
@ 2024 . All rights reserved