3D Bio Printing

3D Bio Printing


Negotiable Min Order Quantity Unit

Required Quantity
Place of Origin
South Korea
Payment Terms
Negotiable
Production method
Negotiable
Shipping / Lead Time
Negotiable / Negotiable
Keyword
medical device, medical equipement, 3d bio printing
Category
Medical Devices

M4T Co., Ltd.

Membership
VIP
Country / Year Established
South Korea South Korea / 2009
Business type
Manufacturer
Verified Certificate

10

DUNS

Product name 3D Bio Printing Certification -
Category Medical Devices Ingredients -
Keyword medical device , medical equipement , 3d bio printing Unit Size -
Brand name - Unit Weigh -
origin South Korea Stock -
Supply type - HS code -

Product Information

3D Bio Printing




│ DESCRIPTION │


*What is 3D Bio Printer?
3D Bio Printer is a machine to produce scaffolds (bio-skeletal body) that is used in regenerating lost or injured human body tissues, which overall could be realized with the help of advanced natural science and medicine. This machine is to make scaffolds to act as a real human body, and cells to replace injured tissues and organs are cultured within the scaffolds. M4T successfully developed the 3D Bio Printer and technology that helps produce highly precise products.
The fabrication technology for tissue engineering scaffolds depends almost entirely on the bulk and surface properties of the material and the proposed function of the scaffold. M4T’s 3D Bio Printer can mold precise scaffolds with excellent performance by maintaining accurate pressure, suction and temperature.



│ INTRODUCTION │


For injured biological tissues, the 3D Bio Printer can make a tissue frame (scaffold) for tissue engineering after the CT scanning on the injured tissues. And then new tissues are cultured in that scaffold to generate the transplantable for the injured or lost body parts within a short period of time.


│ HOW TO USE │


Raw materials are injected into a syringe.
Temperature and pressure in the syringe should be maintained constant to keep the raw material stable, and the material is injected to form a scaffold in a three-dimensional shape with the help of the self-developed software.



│ SPECIFICATION │


Components

  • Main body: The power unit is stabilized by a power switch.
  • Power unit: Controller and interface are 100% compatible with any computer.
  • Computer


Standard Machine Specification

Weight: 60kg
Ball screw: Lead 4
Travel: 100×100×100mm (X, Y, Z)
Pressure: 0~700kPa

Temperature: 0~250。C
Conveying speed: 1200mm/min
Control axis number: 3 or 4 axis
Feed override: 0~300%



│ FEATURES OF M4T'S 3D BIO PRINTER │


1. Accomplishes steady and precise motion control
The four-axis controlling technology and motion controller, including the motion interface, realized precise motion control.

2. Has precise extrude system
M4T’s 3D Bio Printer has the extrude system including a high-precision temperature controller and pressure controller.

3. Has perfect compatibility with G code data
Results of CT scanning can be translated to machine language through M4T’s G code software.

4. Operated by self-developed machine transmission software
Our self-developed machine transmission software transmits G code data to the machine to operate.


3D Scaffold
Scaffolds should provide void volume for vascularization, new tissue formation and remodeling so as to facilitate host tissue integration upon implantation. Polymer scaffolds can provide mechanical strength, interconnected porosity and surface area, varying surface chemistry, and unique geometries to direct tissue regeneration. Scaffolding is essential in this endeavor to act as a three-dimensional template for tissue ingrowths by mimicking extracellular matrix.

With 2D scaffold, cell-to-cell interaction is limited and cellular organization and polarity are disrupted. It causes inaccurate representation of the cellular environment experienced by cells in vivo. Also, scaffold needs to have highly porous structure to transfer nutrients, oxygen and growth factors, and excretes waste matter smoothly. We offer porous 3D scaffolds more closely resembling those in vivo environment in regards to inducing correct cell morphology, cellular environment, gene expression and biological behavior of the cells.



│ FEATURES │


- Because of gamma ray sterilization on the 3D scaffold kit, it is available for immediate use with no additional process for cell cultivation.
- It has such a highly porous structure that it can efficiently convey nutrients, oxygen and growth factors, or remove by-products from biodegradation.



│ ADVANTAGES │


  1. A highly efficient cell culture
    Cells can be mass-produced by culturing on multi-layered scaffold.

  2. Suitable for mass culture system.
    It is more appropriate in case a surface area and cell number should be maximized such as cell culturing for virus vector for gene therapy.

  3. More space for 3D cell culture
    M4T’s 3D scaffold gives more room for cells to grow than 2D scaffold of other companies, which as result, the number and size of cultured cells can be larger, so it is very convenient for the researchers to carry out their experiment for a longer period of time without moving the cells.

  4. Enhanced efficiency and reproducibility of cell experiments.
    For cells with different physiological characteristics depending on surrounding environment, 3D scaffold allows for efficient cell culture, maintaining a condition similar to the in-vivo environment. As a result, the cells can keep their physiological characteristics.

B2B Trade

Price (FOB) Negotiable transportation -
MOQ Negotiable Leadtime Negotiable
Payment Options Negotiable Shipping time Negotiable

M4T Co., Ltd.

Country / Year Established
South Korea South Korea / 2009
Membership
VIP
Business type
Manufacturer

10

DUNS

President
Kook-Sun, Hong
Address
#606, Korea Medi Venture Center, 76, Dongnae-ro, Dong-gu, Daegu, Korea
Product Category
Ladders & Scaffoldings,Machinery & Parts,Printing Machines
Year Established
2009
Company introduction

Medical 4 Technology, as a company specializing in automation with precision control and processing, and manufacturing of medical devices, has successfully supplied several technology development-oriented products based on techniques of producing and controlling automatic precision machine tools continuously accumulated even before its establishment.
Products we have developed are “3D Bio Printer”, "3D Scaffold", "3D Ceramic Printer", "3D Printer" and “Mobile RFID Antenna TAG fuse machine,” which have been supplied to general hospitals and multiple IT related enterprises.
We have also established mass production line to manufacture 3D Scaffold by using systems engineering-purposed 3D Bio Printer, and made agency contracts with many multinational companies both domestically and globally, which has led to growth of sales. In addition, we have also exported 3D Bio Printer, and joined BIO TECHNICA in Germany and cellular phones fair in Shenzhen, China, which gave us a chance to have recognition of our technical skills. Moreover, we have a great deal of experience of developing and commercializing around 200 products such as various automation processing machines, experiment-purposed precision devices, and medical devices over the past 20 years.
We are confident that we have competitive technical skills compared with those in overseas advanced companies since we have accumulated technologies of manufacturing and controlling automation equipment. In addition, we are still doing our best to innovate ourselves to make the world’s top products.

Main Product

Related Products

Other buyers also search

Membership Grade

BUYER

Biz Pro VIP

SELLER

Biz Pro VIP
팝업닫기
Live Chat A new message arrives
from a business partner.

No Data

  • There is no data to load
  • Check out the My TK > My Inquiries list.
  • After agreeing to the use of the Live Chat service, the list is printed only when there is at least one history of receiving or sending a Live Chat request.

If you have not yet agreed to use the Live Chat service,

You can use the Live Chat freely after agreeing to the use of the Live Chat service.

View more
View more