Putnam Valley, NY. (Sept. 17 2013) – Vaginal delivery presents the possibility of injury for mothers that can lead to "stress urinary incontinence" (SUI), a condition affecting from four to 35 percent of women who have had babies via vaginal delivery. Many current treatments, such as physiotherapy and surgery, are not very effective.
Seeking better methods to alleviate SUI, researchers carried out a study in which female laboratory rats modeled with simulated childbirth injuries received injections of mesenchymal stem cells (MSCs; multipotent cells found in connective tissues that can differentiate into a variety of cell types including: bone, cartilage and fat cells) to see if the cells would home to and help to repair the damaged pelvic organs.
The study appears as an early e-publication for the journal Cell Transplantation, and is now freely available on-line at http://www.ingentaconnect.com/content/cog/ct/pre-prints/content-cog_09636897_ct0957dissaranan.
"Stem cell-based therapy has recently gained attention as a promising treatment for SUI," said study co-author Dr. Margot S. Damaser of the Cleveland Clinic's Department of Biomedical Engineering. "Stem cell therapies may be more feasible and less invasive than current therapies."
The current study extended the results of the researcher's previous studies by demonstrating that the transplanted MSCs homed to the animals' spleens. This suggested that the transplanted cells could have a beneficial impact when they released trophic factors, agents that stimulate differentiation and survival of cells and then engrafted into the smooth muscle of the urethra and vagina, as demonstrated previously in prior studies.
"Our results suggest a potential therapy for postpartum SUI," said Dr. Damaser.
The group of female rats that received simulated childbirth injury (vaginal distension) and MSCs showed homing of the MSCs to the urethra and vagina, facilitating the recovery of continence.
The researchers noted that other kinds of stem cells from different sources have been used in other studies aimed at treating SUI via stem cell transplantation. Autologous (self-donated) muscle-derived stem cells have demonstrated therapeutic potential for SUI in animal models and in clinical trials. Adipose (fat)-derived stem cells have also been used to improve urethral function after simulated childbirth injury in rats.
This study used MSCs, cells which are believed to be "immune-privileged," with no rejection issues. The advantage in this, said the researchers, is that MSCs may have potential as an "off-the-shelf" therapy.
"Since rat MSCs were used in this study, the results can only be applied to rat models of injury-treated rats," explained Dr. Damaser. "Human adult stem cells need to be investigated in future studies to see if these findings also apply to humans."
The researchers suggested that their work also has potential to develop into a therapy for older women with SUI at a time "remote from delivery."
"This study provides evidence that mesenchymal stem cell transplantation could favorably impact a side effect of delivery and aging by releasing factors that can influence the urethra and vagina to treat stress urinary incontinence" said Dr Amit N. Patel, director of cardiovascular regenerative medicine at the University of Utah and section editor for Cell Transplantation. "Further studies are required to confirm that this animal study translates to humans."
Dr. Margot S. Damaser
Department of Biomedical Engineering
9500 Euclid Ave. ND20
Citation: Dissaranan,C.; Cruz, M. A.; Kiedrowski, M. J.; Balog, B. M.; Gill, B. C.; Penn, M. C.; Goldman, H. B.; Damaser, M. S. Rat mesenchymal stem cell secretome promotes elastogenesis and facilitates recovery from simulated childbirth injury. Cell Transplant. Appeared or available online: July 17, 2013
The Coeditors-in-chief for CELL TRANSPLANTATION are at the Diabetes Research Institute, University of Miami Miller School of Medicine and Center for Neuropsychiatry, China Medical University Hospital, TaiChung, Taiwan. Contact, Camillo Ricordi, MD at email@example.com or Shinn-Zong Lin, MD, PhD at firstname.lastname@example.org or David Eve, PhD at email@example.com
News release by Florida Science Communications http://www.sciencescribe.net
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