Creating the optimal environment for human embryology procedures

You can create a complete and bespoke culture system using our equipment and consumables supported by our expert embryology team.

ORIGIO, SAGE and LifeGlobal Media

We are the market leader in ART culture media, with products to support any preferred culture protocol.

Our certified, state-of-the-art production facilities follow the highest quality and regulatory standards to ensure consistent quality and low batch-to-batch variation.

RI EZ-Range handling devices

All the careful work taken to establish excellent culture conditions can be undone if the plasticware is of poor quality.

The RI EZ-Range of denudation and handling devices are made from flexible, shatter-proof medical-grade plastic, rigorously checked for quality, and MEA and LAL tested.

ORIGIO and Coda filters

Our filters are designed to protect your embryos during culture with a high capacity for VOC filtering. The ORIGIO Gas Line Filter contains a unique two-stage filter of activated carbon and potassium permanganate followed by a large HEPA filtration component.

The Coda Xtra inline Green uses a mixture of activated carbon and AldaSorb, which is designed to remove over 99% of all aldehydes, formaldehydes and acetaldehydes from incoming gas lines

ORIGIO, SAGE and LifeGlobal Oil

CooperSurgical is the only oil supplier to test their products using Atomic Fingerprinting, a comprehensive method to quantitatively analyze the physiochemical properties of an oil using a combination of several techniques.

Available pre-washed or unwashed, they are also POV, sterility, endotoxin level (<0.1 EU/mL) and 1-cell MEA tested.

K-Systems G210 InviCell incubator

Combining optimal embryo culture conditions with advanced user control, the G210 InviCell is the ideal incubation solution for a busy clinic.

Our proprietary software provides stress-free incubation, with gas, temperature and pH levels kept completely through tight environmental controls.

LifeGlobal GPS dishes

LifeGlobal GPS dishes are specially designed for IVF, with quick embryo location and enhanced optics and visibility.

Our dishes are made of non-toxic medical grade polystyrene, are sterile and have been MEA and endotoxin tested.

Additional Products And Services To Optimize Your Culture Solution

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BT37 benchtop incubator

Humidified incubator designed to maintain consistent culture environments. CE marked, FDA cleared and Australia TGA.

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SignipHyTM pH monitoring

Fast, cost-efficient, non-invasive continuous pH monitoring system for the G210 InviCell Plus incubator using sterile disposable sensors.

Watch our most recent webinars on Embryo Culture Solutions

Marginal Gains: Culture Conditions

Cytokines hold promise to human embryo culture

Read our ART Scientific newsletters covering culture media solutions

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IVF Culture Media – Is it time to go back to basics?

Read the article here
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GM-CSF in IVF embryo culture

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Making sense of oil quality control

Read the article here

References:

  1. Elder K, et al. In-Vitro Fertilization. 3rd edn. Cambridge: Cambridge University Press. 2010. doi:10.1017/CBO9780511984761
  2. Pickering S, et al. Transient cooling to room temperature can cause irreversible disruption of the meiotic spindle in the human oocyte. Fertility and Sterility. 1990;54:102–108
  3. Fawzy M, et al. Comparing 36.5°C with 37°C for human embryo culture: a prospective randomized controlled trial. Reprod Biomed Online. 2018;36:620–626
  4. Swain JE. Decisions for the IVF laboratory: comparative analysis of embryo culture incubators. Reproductive BioMedicine Online. 2014;28:535–547
  5. Morbeck D. Air quality in the assisted reproduction laboratory: a mini review. J assist Reprod Genet. 2015;32:1019–1024
  6. Mortimer D, et al. Cairo consensus on the IVF laboratory environment and air quality: report of an expert meeting. Reprod Biomed Online. 2018;36:658–674
  7. Munch EM, et al. Lack of carbon air filtration impacts early embryo development. J Assist Reprod Genet. 2015;32:1009–1017
  8. Bontekoe S, et al. Low oxygen concentrations for embryo culture in assisted reproductive technologies. Cochrane Database of Systematic Reviews. 2012;7:CD008950
  9. Kovacic B and Vlaisavljević V. Influence of atmospheric versus reduced oxygen concentration on development of human blastocysts in vitro: a prospective study on sibling oocytes. Reprod Biomed Online. 2008;17:229–236
  10. Meintjes M, et al. A controlled randomized trial evaluating the effect of lowered incubator oxygen tension on live births in a predominantly blastocyst transfer program. Human Reproduction. 2009;24:300–307
  11. Waldenstrom U, et al. Low-oxygen compared with high-oxygen atmosphere in blastocyst culture, a prospective randomized study. 2009;91:2461–2465