Coda® Xtra Inline® フィルター

独自のテクノロジーを活かした揮発性有機化合物(VOC)除去フィルター技術

  • AldaSorb®はすべての供給ガス経路から、すべてのアルデヒド、ホルムアルデヒド及びアセトアルデヒドの99%以上を除去します。
  • Aldasorb®は過マンガン酸カリウムより安全かつ効果的にアルデヒドを除去します。
  • 微粒子を除去するHEPAフィルター搭載。
  • Coda® Inline®フィルターは大半の一般的な空気汚染物質(CAVs)や揮発性有機化合物(VOCs)を効果的に除去することが試験で証明されています。
  • FDA届出 CEマーク取得
  • ISO 13485認証

Coda Xtra
Inline Blue

coda-xtra-inline-blueヤシ殻活性炭を含有
3か月毎の交換を推奨
(6か月まで使用できます)
競合製品の20倍量の除去材を充填

Coda Xtra
Inline Green

coda-xtra-inline-green活性炭とAldaSorb®を配合
3か月毎の交換を推奨
(6か月まで使用できます)
競合製品の25倍量の除去材を充填

Coda Regular
Inline Purple

coda-xtra-inline-purple改良型活性炭を含有
2か月毎の交換を推奨
(3か月まで使用できます)
設置面積を縮小しスペースに限りがある施設様向け
競合製品の10倍量の除去材を充填

Coda Lab Environment Solution Brochure

Codaフィルターカタログ

製品コード 製品名 単位
CXGR-001 Coda® Xtra Inline® Green 1本
CXBL-001 Coda® Xtra Inline® Blue 1本
CIPR-001 Coda® Regular Inline® Purple 1本
GILC-035 Coda® Inline® Filter コネクター 1組
GMAG-045 Coda® Inline® Filter ブラケット 1組

Coda® Studies by Cohen et al.

Cohen J, Gilligan A, Esposito W, Schimmel T, Dale B (1997) Ambient air and its potential effects on conception in vitro. Hum Reprod 12, 1742-9.

Schimmel T, Gilligan A, Garrisi GJ, Esposito Jr. B, Cecchi M, Dale B, Cohen J (1997) Removal of volatile organic compounds from incubators used for gamete and embryo culture. Fertil Steril 68 Suppl. 1, S165 (Abstract P-151).

Cohen J, Gilligan A, Willadsen S (1998) Culture and quality control of embryos. Hum Reprod 13 Suppl 3, 137-44; discussion 145-7.

Hall J, Gilligan A, Schimmel T, Cecchi M, Cohen J (1998) The origin, effects and control of air pollution in laboratories used for human embryo culture. Hum Reprod 13 Suppl 4, 146-55.

Coda® Studies by Others

Mayer JF, Nehchiri F, Weedon VM, Jones EL, Kalin HL, Oehninger SC, Toner JP, Gibbons WE, Muasher SJ (1999) Prospective randomized analysis of the impact of an IVF incubator air filtration system (Coda, GenX) on clinical pregnancy rates. In ‘Proc. 11th World Congress on In-Vitro Fertilization and Human Reproductive Genetics’ pp. P-096

Mayer JF, Nehchiri F, Weedon VM, Jones EL, Kalin HL, Oehninger SC, Toner JP, Gibbons WE, Muasher SJ (1999) Prospective randomized crossover analysis of the impact of an IVF incubator air filtration svstem (Coda. genX) on clinical pregnancy rates. Fertil Steril 72, Suppl 1, S42 (Abstract O-110).

McLellan ST, Panagoulopoulos C, Dickinson KA, Wright DL, Toth TL, Lanzendorf SE (2001) Effect of incubator air filtration system on IVF outcomes. Fertil. Steril. 76, Suppl.1, S103.

Merton JS, Vermeulen ZL, Otter T, Mullaart E, de Ruigh L, Hasler JF (2007) Carbon-activated gas filtration during in vitro culture increased pregnancy rate following transfer of in vitro-produced bovine embryos. Theriogenology 67, 1233-8.

Racowsky C, Jackson KV, Nurredin A, Balint C, Shen S, de los Santos MJ, Kely JR, Pan Y (1999) Carbon-activated air filtration results in reduced spontaneous abortion rates following IVF. In ‘Proc. 11th World Congress on In-Vitro Fertilization and Human Reproductive Genetics’. Sydney, Australia. (Ed. .) pp. O-059 (Abstract)

Battaglia DE, Khabani A, Rainer C, Moore DE (2001) Prospective randomized trial of incubator Coda filtration units revealed no effect on outcome parameters for IVF. Fertil. Steril. 75 Suppl.1, S6.

Forman M, Polanski V, Horvath P, Gilligan A, Rieger D (2004) Reductions in volatile organic compounds, aldehydes, and particulate air contaminants in an IVF laboratory by centralized and stand-alone air filtration systems. Fertility and Sterility 82 Suppl. 2, S324 (Abstract P535).

Lopez L, Rivero P, Llosá V, Palumbo A (2004) Fertilization, implantation, and pregnancy rates before and after the installation of Coda® incubator units in a human IVF laboratory. Unpublished.