Published online Oct 26, 2013. doi: 10.4252/wjsc.v5.i4.106
Revised: May 22, 2013
Accepted: August 28, 2013
Published online: October 26, 2013
Processing time: 338 Days and 0.7 Hours
Radiotherapy may induce irreversible damage on healthy tissues surrounding the tumor. It has been reported that the majority of patients receiving pelvic radiation therapy show early or late tissue reactions of graded severity as radiotherapy affects not only the targeted tumor cells but also the surrounding healthy tissues. The late adverse effects of pelvic radiotherapy concern 5% to 10% of them, which could be life threatening. However, a clear medical consensus concerning the clinical management of such healthy tissue sequelae does not exist. Although no pharmacologic interventions have yet been proven to efficiently mitigate radiotherapy severe side effects, few preclinical researches show the potential of combined and sequential pharmacological treatments to prevent the onset of tissue damage. Our group has demonstrated in preclinical animal models that systemic mesenchymal stromal cell (MSC) injection is a promising approach for the medical management of gastrointestinal disorder after irradiation. We have shown that MSCs migrate to damaged tissues and restore gut functions after irradiation. We carefully studied side effects of stem cell injection for further application in patients. We have shown that clinical status of four patients suffering from severe pelvic side effects resulting from an over-dosage was improved following MSC injection in a compationnal situation.
Core tip: Multipotent stromal cells (MSCs) provide a long-term effect in inhibition of chronic inflammation and a fistulisation, arrest of hemorrhagic syndromes for the hemorrhagic cystitis. MSCs are successfully used to treat the late effects of radiotherapies for breast cancer and radiodermatitis. Their efficiency was also demonstrated on pain reduction. Concerning clinical trials to cure abdominal late severe damages of radiotherapy, one compassionate trial has demonstrated the feasibility of cell therapy treatment for patients overdosed.