CiRA Reporter

The Center for iPS Cell Research and Application (CiRA) publishes a quarterly newsletter in which our members contribute an essay on current bioethical issues for readers unfamiliar with the field.

 

 

Click here for the CiRA Reporter page

The future of infertility medicine

CiRA Reporter Vol.10
April 24, 2017
Tsutomu Sawai
Science is making great strides in creating germ cells, like sperm and eggs, in the lab. This research has been instrumental in under- standing how reproduction works, leading to new discoveries about the causes of infertility and possible treatments.

Communicating science to the public

CiRA Reporter Vol.6
April 25, 2016
Yoshimi Yashiro
At the most recent meeting of the Japan Society for Regenerative Medicine last March, we conducted a discussion about how researchers in the field are communicating their findings to the general public.

Gene editing the human embryo

CiRA Reporter Vol.5
January 21, 2016
Misao Fujita
In the previous newsletter, I described some of the special ethical issues regarding the genome editing of human embryos, namely the use of human embryos for research and the potential of creating living human beings from edited embryos. In this essay, I would like to delve deeper into this second consideration.

Gene editing the human embryo

CiRA Reporter Vol.4
October 9, 2015
Misao Fujita
In April this year, a research team in China reported the first gene editing of the human embryo. This accomplishment was made in a background of discussion by leading academic journals and societies about the ethics of such editing.

Gene editing human embryos

CiRA Reporter Vol.3
July 4, 2015
Yoshimi Yashiro
Recently, genome editing of human embryos was reported. Since biotechnology had already enabled researchers to conduct genome editing of embryos from other animals, the ability to do so in humans was long awaited but with anticipated bioethical concerns.

Ethics of mitochondrial replacement

CiRA Reporter Vol.2
April 30, 2015
Tsutomu Sawai
This past February, the UK parliament passed a law permitting mitochondrial replacement, making the UK the first country in the world to approve this technique. Mitochondrial replacement involves removing the nucleus from one egg that contains defective mitochondrial DNA and transferring it into the cytoplasm of another egg from a different woman with normal mitochondrial DNA but with its nucleus removed.