nanosurface?纳米仿生拓扑结构培养皿、培养板和载玻片
型号:内详
联系人:李先生
联系电话:18618101725
品牌:nanosurface?
nanosurface纳米仿生拓扑结构培皿、培养板和载玻片养皿 以及NanoSurface Car(ina)™ Plates 具有iPSC结构成熟的心肌细胞的测定板
更快更成熟的培养细胞和组织
纳米仿生拓扑结构培养皿建构培养细胞和组织,以提高生理相关性。 与在常规培养皿中培养的细胞相比,在纳米仿生培养皿中培养的细胞表现出增强的结构和表型发育。纳米仿生地形诱导细胞骨架重组和细胞对齐。 NanoSurface仿生培养皿沿用标准的应用于高质量成像的1.5号玻璃底
-
单皿 35mm dish (20mm pattern area)
-
6孔板 35mm wells (20mm 直径 pattern area)
-
24孔板 20mm wells (full well area patterned)
-
96孔板 5mm wells (full well area patterned)
-
No. 1.5 玻片
NanoSurface Plate Products 订货列表:
1、384-Well NanoSurface Plate--现货供应
Product Specifications
Product Code
ANFS-0384
Surface Topography
NanoSurface
Well Dimension
3.00 x 11.50 mm
Approx. Pattern Growth Area
8.1 mm2
Working Volume
15 – 110 ?L
Total Well Volume
133 ?L
Dimensions
127.76 L x 85.48 W x 16.90 H mm
Packaging Volume
1 Plate / 10 Plates
Cell Culture Treated
Yes
Sterilized with Gamma Irradiation
Yes
ANSI/SLAS Microplate Size Compliant
Yes
2、96-Well NanoSurface Plate--现货供应
Product Specifications
| Product Code | ANFS-0096 |
|---|---|
| Surface Topography | NanoSurface |
| Glass Diameter | 6.5 mm |
| Coverslip Thickness | No. 1.5 (0.175 +/- 0.015 mm) |
| Approx. Pattern Growth Area | 0.33 cm2 |
| Total Well Volume | 360 μL |
| Working Volume | 200 μL |
| Weight | 0.05 kg |
| Dimensions | 127.60 L x 85.40 W x 14.40 H mm |
| Packaging Volume | 1 Plate / 10 Plates |
| Cell Culture Treated | Yes |
| Sterilized with Gamma Irradiation | Yes |
| ANSI/SLAS Microplate Size Compliant | Yes |
3、24-Well NanoSurface Plate--现货供应
Product Specifications
Product Code
ANFS-0024
Surface Topography
NanoSurface
Coverslip Thickness
No. 1.5 (0.175 +/- 0.015 mm)
Approx. Pattern Growth Area
1.65 cm2
Total Well Volume
3,400 μL
Working Volume
1,000 μL
Weight
0.05 kg
Dimensions
127.60 L x 85.40 W x 20.20 H mm
Packaging Volume
1 Plate / 10 Plates
Cell Culture Treated
Yes
Sterilized with Gamma Irradiation
Yes
ANSI/SLAS Microplate Size Compliant
Yes
Product Specifications
| Product Code | ANFS-0006 |
|---|---|
| Surface Topography | NanoSurface |
| Diameter | 20 mm |
| Coverslip Thickness | No. 1.5 (0.175 +/- 0.015 mm) |
| Approx. Pattern Growth Area | 3.14 cm2 |
| Total Well Volume | 17,000 μL |
| Working Volume | 3,000 μL |
| Weight | 0.05 kg |
| Dimensions | 127.60 L x 85.40 W x 20.20 H mm |
| Packaging Volume | 1 Plate / 10 Plates |
| Cell Culture Treated | Yes |
| Sterilized with Gamma Irradiation | Yes |
| ANSI/SLAS Microplate Size Compliant | Yes |
Product Specifications
6、25 mm NanoSurface Coverglass (50-pack)--现货供应
Product Specifications
Product Code
ANFS-CS25
ANFS-CS12
FLAT-CS25
FLAT-CS12
Surface Topography
NanoSurface
NanoSurface
Unpatterned "Flat"
Unpatterned "Flat"
Diameter
25 mm
12 mm
25 mm
12 mm
Coverglass Thickness
No. 1.5 (0.175 +/- 0.015 mm)
No. 1.5 (0.175 +/- 0.015 mm)
Approx. Pattern Growth Area
4.90 cm2
4.90 cm2
Weight
0.3 kg
0.3 kg
Dimensions
8 x 3 x 3 cm
8 x 3 x 3 cm
Packaging Volume
50 Cover Slips
50 Cover Slips
50 Cover Slips
50 Cover Slips
NanoSurface Car(ina) Plates
Cardiac in vitro assay-ready Plates
Enabling High-throughput Compound Screening with Structurally Matured iPSC-derived Cardiomyocytes
At NanoSurface, we believe that cells in the dish should resemble cells in the body. In the drug development process, the utility of iPSC-based assays is dependent on the physiological relevance and predictive power of the tissue model. Using biomimetic bioengineering techniques to enhance cell-based assays, NanoSurface is working to accelerate the adoption of stem cell technologies early during preclinical drug development, helping get safer medicines to market in less time and at lower cost.
Car(ina) Overview
Step 1: iPSC-derived cardiomyocytes are seeded into assay plates with NanoSurface topography.
Verified compatible with CiPA-validated commercial iPSC-derived cardiomyocyte cell lines of high purity.
Step 2: Cardiac microtissues undergo structural and phenotypic maturation.
Cardiac microtissues undergo structural and phenotypic maturation: tissue alignment and anisotropic cellular development, electrophysiological function, improved sarcomeric development, polarized expression of gap junction proteins (Cx43), and upregulation of protein isoforms (cTnI and β-MyHC).
Step 3: Multiplexed endpoint assays.
NanoSurface Car(ina) Plates are natively compatible with any endpoint assays that use standard microplates. Access metabolic, electrophysiological, contractility, transcriptomic, optical mapping, calcium handling, fluorescence, structural, and biomarker data all in one integrated platform. Compatible with leading commercial MEA instruments.
Key Characteristics
Structurally Matured, Aligned Cardiac Microtissues
Enhanced Reproducibility
High-throughput Screening
Predictive Drug Responses
MEA-based Electrophysiology
Diverse Endpoints
Structurally Matured, Aligned Cardiac Microtissues
NanoSurface Car(ina) tissues comprise iPSC-derived cells that exhibit mature structural and functional phenotypes. Cardiomyocytes cultured on NanoSurface topography exhibit polarized expression of gap junction proteins such as Cx43, develop anisotropic cell shape, striated sarcomeres, tissue-level alignment, as well as achieve enhanced baseline electrophysiology including faster longitudinal conduction velocity and lower resting membrane potential.
Standard iPSC-CM Culture
NanoSurface Car(ina) Platform
Enhanced Reproducibility
Tissue alignment and the development of anisotropic cellular morphology contribute to improvements in well-to-well and experiment-to-experiment reproducibility with decreased variability between cultures.
High-throughput Screening
Car(ina) iPSC-derived cardiac tissues offer improved structural development and enhanced pharmacological utility without compromising high-throughput screening compatibility or ease-of-use. The Car(ina) platform is fully compatible with standard microplate formats and can be directly integrated into existing HTS workflows.
Predictive Drug Responses
Validated to provide predictive responses to drugs of known effect in CiPA-style drug screening applications for the detection of acute cardiotoxicity and pro-arrhythmia. The Car(ina) platform is capable of detecting acute drug cardiotoxicity with enhanced predictive power and sensitivity compared to standard iPSC-based cardiotoxicity assays.
MEA-based Electrophysiology
Structural cues are provided without interfering with electrophysiological signal acquisition during industry-standard MEA and impedance measurements. The Car(ina) platform is fully compatible with high-throughput electrophysiological endpoints.
Diverse Endpoints
Plate-based assays offer uncompromising flexibility in experimental design. The Car(ina) platform is natively compatible with any assay that can be run on a standard microplate. Access metabolic, electrophysiological, transcriptomic, optical mapping, calcium handling, contractility, fluorescence, structural, biomarker, and many more datasets all with one integrated platform.
Toxicity.
Efficacy.
Discovery.
The Car(ina) platform is equipped to improve the physiological relevance of a wide range of applications, such as acute CiPA-style cardiotoxicity screening, chronic cardiotoxicity analysis, structural cardiotoxicity, efficacy screening, drug discovery, and disease modeling.