StemEnhance®, an extract from Aphanizomenon flos-aquae, was shown to increase circulating adult stem cells. This study tested if StemEnhance® improved muscle regeneration in a mouse model of cardiotoxin-induced muscle injury. Mice treated with StemEnhance® showed greater regeneration of injured tibialis muscle compared to controls. While StemEnhance® enhanced recovery, significant recovery was seen in both groups, indicating stem cell migration is a natural repair process. The study confirms StemEnhance® supports tissue repair by increasing circulating adult stem cells from bone marrow.
Learn about the power of Regenerative Medicine or Orthobiologics. Engage the science on how stem cells and platelet rich plasma can improve quality of life and function in orthopedic needs. Check out more at www.JaxStemcell.com
Regenerative Medicine is the revolution of the future. We are proud to use these technologies with great success in patients with orthopedic needs. Learn more about the science here.
Ortho: to make straight or right. The use of biologic substances to prompt, stimulate or support a “healing event” within the body.The use of biologic substances to promote healing or reduce pain.The use of platelets and stem cells in treatment and management of musculoskeletal conditions
Learn about the power of Regenerative Medicine or Orthobiologics. Engage the science on how stem cells and platelet rich plasma can improve quality of life and function in orthopedic needs. Check out more at www.JaxStemcell.com
Regenerative Medicine is the revolution of the future. We are proud to use these technologies with great success in patients with orthopedic needs. Learn more about the science here.
Ortho: to make straight or right. The use of biologic substances to prompt, stimulate or support a “healing event” within the body.The use of biologic substances to promote healing or reduce pain.The use of platelets and stem cells in treatment and management of musculoskeletal conditions
il dottor Spoliti Ortopedico illustra come curare con le Cellule mesenchimali, difetto condrale Ricostruzione con Acido Ialuronico e midollo osseo autologo Aspirare Concentrate
Adult Stem cells in Orthopaedics present and future perspectives.
Παρουσίαση του Δρ. Σταύρου Αλευρογιάννη που έγινε στο ξενοδοχείο Χίλτον, στις 12/06/15 στα πλαίσια Ημερίδας της Ελληνικής Εταιρείας Αναγεννητικής Ιατρικής, Αντιγήρανσης και Βιοτεχνολογίας, στο 41ο Πανελλήνιο Ιατρικό Συνέδριο.
"H θέση της αναγεννητική Ιατρικής στις παθήσεις Οστών και Αρθρώσεων"
There are a lot of orthopedic conditions and injuries that presently have limited treatment options available.
Here regenerative technologies comes up as a ray of hope among surgeons for the treatment by functionally repairing the tissues and organs using growth factors, stem cells and products developed by genetic engineering with the advancement in the stem cells research field .
The purpose of this presentation is to first provide idea about the orthopedic conditions along with the therapeutic potential of stem cells to treat these diseases.
il dottor Spoliti Ortopedico illustra come curare con le Cellule mesenchimali, difetto condrale Ricostruzione con Acido Ialuronico e midollo osseo autologo Aspirare Concentrate
Adult Stem cells in Orthopaedics present and future perspectives.
Παρουσίαση του Δρ. Σταύρου Αλευρογιάννη που έγινε στο ξενοδοχείο Χίλτον, στις 12/06/15 στα πλαίσια Ημερίδας της Ελληνικής Εταιρείας Αναγεννητικής Ιατρικής, Αντιγήρανσης και Βιοτεχνολογίας, στο 41ο Πανελλήνιο Ιατρικό Συνέδριο.
"H θέση της αναγεννητική Ιατρικής στις παθήσεις Οστών και Αρθρώσεων"
There are a lot of orthopedic conditions and injuries that presently have limited treatment options available.
Here regenerative technologies comes up as a ray of hope among surgeons for the treatment by functionally repairing the tissues and organs using growth factors, stem cells and products developed by genetic engineering with the advancement in the stem cells research field .
The purpose of this presentation is to first provide idea about the orthopedic conditions along with the therapeutic potential of stem cells to treat these diseases.
Dr. Steenblock treats patients suffering from Macular Degeneration using Stem Cell Treatments. Contact his office today at 1-800-300-1063. Websites:
www.stemcellmd.org
www.strokedoctor.com
www.stemcelltherapies.org
www.cerebralpalsycure.com
www.davidsteenblock.com
www.davidsteenblock.net
1. Mobilization of bone marrow adult stem cells with StemEnhance® improves
muscle regeneration in cardio toxin-induced muscle injury
By Christian Drapeau, Chief Science Officer
Copyright 2010 Stemtech HealthSciences, Inc.
Introduction
It was shown that adult stem cells released from the bone marrow can migrate into injured tissues, supporting the process of tissue repair; in this process, the number of
circulating stem cells was shown to be a critical factor. In a number of studies addressing various health conditions, higher numbers of circulating adult stem cells have been
associated with greater health.
Based on this information, it was claimed that the natural adult stem cell mobilizer StemEnhance® had the ability to support optimal health by increasing the number of
circulating adult stem cells. StemEnhance® is an extract from the aquatic botanical Aphanizomenon flos-aquae that was shown in a double-blind crossover study to increase
the number of circulating stem cells.
This study was aimed at confirming the effect of StemEnhance® on tissue repair.
Methods
In brief, 30 8-10 week old female mice were lethally irradiated before receiving a bone marrow transplant with stem cells marked with green-fluorescent protein (GFP).
After transplantation, subjects were randomly separated into two groups of 15; one received a placebo, while the other received 300mg/kg/day of StemEnhance®. At
day 16 and 30 after transplantation, mice from each group were randomly selected for hematological testing to see the effect of StemEnhance on hematopoiesis. The
remaining mice in each group (n=6) were injured by injection of 10µm Cardiotoxin in 100 µl PBS directly into the anterior tibia muscles of their right leg. Five weeks after
the injury, the mice were evaluated (using open imaging with Olympus OV 100 Small Animal Imaging System) for incorporation of GFP cells into tissues – including heart
muscle, liver, kidneys, intestinal wall, brain, skin and lung. The incorporation of GFP-positive muscle fibers was quantified with Photoshop 7.0.
Control
Results
No significant difference was observed between the treated StemEnhance® and untreated (PBS) group regarding average
hemoglobin content, as well as WBC, RBC platelet and reticulocytes counts. Therefore, StemEnhance® did not appear to have an
effect on hematopoietic recovery.
StemEnhance
In the injury part of the study, the extent of the recovery was evaluated by measuring the area covered by fluorescence in the
injured muscles. The group receiving StemEnhance® showed greater regeneration of the tibialis muscle (p<0.05), though both
PBS and StemEnhance® groups showed very significant recovery. The difference between the two was also noted behaviorally
by a greater strength in the leg of the StemEnhance® group while being handled, though this was not quantified.
Less fluorescence was seen in the contralateral left tibialis muscle of both groups, indicating that migration of bone marrow
stem cells was more significantly directed toward the injury.
Contralateral
leg
Some fluorescence was also seen in most of the main organs, such as the heart, brain, kidney, liver and lung, though no
difference was seen between the two groups.
2. Discussion
StemEnhance® did not seem to have an effect on hematopoietic recovery, as it did not increase the number of red blood cells, white blood cells and platelets soon after
irradiation. However, StemEnhance® did enhance recovery from the cardio toxin-induced muscle injury. Reliable measurements of fluorescence were not made during the
healing process, therefore, it is not possible to discriminate whether StemEnhance® accelerated the repair process or enhanced the overall repair process. Studies have reported
that bone marrow stem cell mobilization accelerates the healing of skin burns and bone fractures. On the other hand, it was reported that scar formation appears to take place
when not enough stem cells are available to support full repair process. So it is likely that the effect of StemEnhance® was an acceleration of the repair process, which in some
conditions could also lead to a greater overall repair by reducing scar formation.
While StemEnhance® enhanced recovery, significant recovery was nonetheless seen in the control group indicating stem cells derived from the bone marrow - naturally
contributing to the repair of the injury. Furthermore, in both StemEnhance® and the control group, incorporation of GFP-muscle cell was much less in the contralateral left
tibialis muscle; indicating that stem cells migrate predominantly towards sites of injury. Therefore, this study confirms three key aspects of stem cell physiology:
1. Stem cell migration in an injured tissue is a natural process that takes place without any stimulation
2. Increasing the number of circulating stem cells accelerates the repair process
3. Stem cells primarily migrate to sites of injuries.
In conclusion, this study confirmed the hypothesis that StemEnhance® supports the natural process of tissue repair by supporting the release of adult stem cells from the bone
marrow.
References
Drapeau, C., Antarr, D., Ma, H., Yang, Z., Tang, L., Hoffman, R., & Schaeffer, D. (2010).
Mobilization of bone marrow stem cells with StemEnhance® improves muscle regeneration in cardiotoxin-induced muscle injury. Cell Cycle, 9 (9); pg 1-5.
Previously published online: www.landesbioscience.com/journals/cc/article/11540