Heart Disease causes damage to heart tissue. It’s often hard for the heart to repair this damage after it has occurred. In this presentation Dr. David Greene Arizona talk about Stem Cells Therapy For Cardiovascular Disease.
Stem cell therapy : A hope to "No Hope Disorders" Diseased Dr. Sharda Jain Lifecare Centre
This document discusses stem cell therapy and its potential to treat various "no hope disorders". It provides an overview of stem cell sources and types, including adult stem cells from bone marrow, blood, dental pulp and other tissues. Mesenchymal stem cells are highlighted as having advantages for therapy due to their plasticity and low risk of rejection. A range of conditions are described as effectively treated with stem cell therapy, including diabetes, neurological disorders, bone/cartilage disorders and liver/kidney diseases. The document promotes an Indian stem cell company that offers various banking and treatment services.
Stem cell therpay a hope to no hope disodersStemcellGP21
This document discusses stem cell therapy and its potential to treat various incurable or "no hope" disorders. It provides an overview of stem cells, their sources and types. Mesenchymal stem cells from sources like bone marrow, umbilical cord blood and adipose tissue are highlighted as having advantages for therapy due to their ability to differentiate, lack of ethical issues, and potential to be used across HLA barriers. A number of incurable conditions are identified where stem cell therapy may be effective or very effective, including diabetes, neurological disorders, anti-aging, and orthopedic issues. The success of stem cell therapy depends on isolating and culturing the appropriate stem cell types for differentiation. Questions about the therapy are also addressed
Cord blood banking involves collecting and storing the blood from the umbilical cord and placenta after a baby is born. This cord blood contains hematopoietic stem cells that can treat over 80 diseases. The stem cells in cord blood have advantages over bone marrow and peripheral blood stem cells, including being younger, more abundant, and less likely to cause graft-versus-host disease after transplantation. Cord blood is collected after delivery, processed to test for infections, and frozen for potential future medical use to treat conditions like cancer, blood disorders, and immune deficiencies.
DKMS is the world's largest bone marrow donor center with over 3 million registered donors. It was founded in Germany in 1991 by Peter Harf, who lost his wife to blood cancer, to help patients find matching bone marrow donors. DKMS works to register potential donors and match them with patients in need of bone marrow transplants. The organization helps organize donor drives and uses high-resolution typing to minimize search times for patients. DKMS does not charge new donors the $65 registration fee.
The document calculates the average lifetime total heartbeats for a person based on average heart rate, lifespan, and conversions between heartbeats per minute/hour/day/year. It finds that the average lifetime total heartbeats is approximately 2.8 billion beats.
DKMS Saving Lives - Colin's Online VersionColin Hall
DKMS is the world's largest bone marrow donor center with over 3 million registered donors. It was founded in Germany in 1991 by Peter Harf, who lost his wife to blood cancer, to help patients find bone marrow donors. DKMS guides patients and families on bone marrow donation processes, helps organize donor drives, and registers donors at no cost to increase chances of finding matches for blood cancer patients in need of transplants. The document provides information on bone marrow and stem cell donations, the donation process, donor eligibility, common myths and facts, cancer statistics, and stories of cancer warriors and celebrity supporters of bone marrow donation.
This document discusses stem cells and neonatology. It provides a brief history of stem cell research, defining stem cells and describing the different types. It discusses the sources of stem cells including embryonic, adult, and umbilical cord blood stem cells. Umbilical cord blood stem cells are highlighted as they can be collected at birth, have unique advantages over other stem cell sources, and are being studied for various diseases. The roles of public versus private cord blood banking and the current policies are summarized. The document also discusses some emerging stem cell therapies being studied particularly for neonates.
Stem Cell Therapy For Cardiac Disease - Dr. David Greene R3 Stem CellR3 Stem Cell
In this presentation, Dr. David Greene R3 Stem Cell discusses stem cell therapy for Cardiac Disease. Cardiac Disease is a systemic disease affecting all organ systems in the body. Stem cells are a unique cell type characterized by two vital qualities: The ability to self-renew, and the potential to distinguish into various cell types.
Stem cell therapy : A hope to "No Hope Disorders" Diseased Dr. Sharda Jain Lifecare Centre
This document discusses stem cell therapy and its potential to treat various "no hope disorders". It provides an overview of stem cell sources and types, including adult stem cells from bone marrow, blood, dental pulp and other tissues. Mesenchymal stem cells are highlighted as having advantages for therapy due to their plasticity and low risk of rejection. A range of conditions are described as effectively treated with stem cell therapy, including diabetes, neurological disorders, bone/cartilage disorders and liver/kidney diseases. The document promotes an Indian stem cell company that offers various banking and treatment services.
Stem cell therpay a hope to no hope disodersStemcellGP21
This document discusses stem cell therapy and its potential to treat various incurable or "no hope" disorders. It provides an overview of stem cells, their sources and types. Mesenchymal stem cells from sources like bone marrow, umbilical cord blood and adipose tissue are highlighted as having advantages for therapy due to their ability to differentiate, lack of ethical issues, and potential to be used across HLA barriers. A number of incurable conditions are identified where stem cell therapy may be effective or very effective, including diabetes, neurological disorders, anti-aging, and orthopedic issues. The success of stem cell therapy depends on isolating and culturing the appropriate stem cell types for differentiation. Questions about the therapy are also addressed
Cord blood banking involves collecting and storing the blood from the umbilical cord and placenta after a baby is born. This cord blood contains hematopoietic stem cells that can treat over 80 diseases. The stem cells in cord blood have advantages over bone marrow and peripheral blood stem cells, including being younger, more abundant, and less likely to cause graft-versus-host disease after transplantation. Cord blood is collected after delivery, processed to test for infections, and frozen for potential future medical use to treat conditions like cancer, blood disorders, and immune deficiencies.
DKMS is the world's largest bone marrow donor center with over 3 million registered donors. It was founded in Germany in 1991 by Peter Harf, who lost his wife to blood cancer, to help patients find matching bone marrow donors. DKMS works to register potential donors and match them with patients in need of bone marrow transplants. The organization helps organize donor drives and uses high-resolution typing to minimize search times for patients. DKMS does not charge new donors the $65 registration fee.
The document calculates the average lifetime total heartbeats for a person based on average heart rate, lifespan, and conversions between heartbeats per minute/hour/day/year. It finds that the average lifetime total heartbeats is approximately 2.8 billion beats.
DKMS Saving Lives - Colin's Online VersionColin Hall
DKMS is the world's largest bone marrow donor center with over 3 million registered donors. It was founded in Germany in 1991 by Peter Harf, who lost his wife to blood cancer, to help patients find bone marrow donors. DKMS guides patients and families on bone marrow donation processes, helps organize donor drives, and registers donors at no cost to increase chances of finding matches for blood cancer patients in need of transplants. The document provides information on bone marrow and stem cell donations, the donation process, donor eligibility, common myths and facts, cancer statistics, and stories of cancer warriors and celebrity supporters of bone marrow donation.
This document discusses stem cells and neonatology. It provides a brief history of stem cell research, defining stem cells and describing the different types. It discusses the sources of stem cells including embryonic, adult, and umbilical cord blood stem cells. Umbilical cord blood stem cells are highlighted as they can be collected at birth, have unique advantages over other stem cell sources, and are being studied for various diseases. The roles of public versus private cord blood banking and the current policies are summarized. The document also discusses some emerging stem cell therapies being studied particularly for neonates.
Stem Cell Therapy For Cardiac Disease - Dr. David Greene R3 Stem CellR3 Stem Cell
In this presentation, Dr. David Greene R3 Stem Cell discusses stem cell therapy for Cardiac Disease. Cardiac Disease is a systemic disease affecting all organ systems in the body. Stem cells are a unique cell type characterized by two vital qualities: The ability to self-renew, and the potential to distinguish into various cell types.
This document provides an overview of stem cells, including their biology, types, collection, storage, and applications. It discusses embryonic and adult stem cells, how they are collected and cryopreserved, and their use in treating diseases like leukemia, diabetes, Parkinson's, and hair loss. While stem cells show promise for regenerative medicine, adult stem cells have advantages over embryonic stem cells due to being easier to obtain and not raising ethical issues.
This document discusses cell therapy for cardiovascular diseases. It defines stem cells and progenitor cells, and classifies cells according to their potency and source. Various cell types that may be used for cell therapy are described, including embryonic stem cells, bone marrow-derived cells, and resident cardiac stem cells. Methods of cell delivery include direct injection, transcatheter injection, intracoronary injection, and intravenous injection. The mechanisms by which cell therapy may aid myocardial repair include differentiation of cells into cardiomyocytes, cell fusion with host cardiomyocytes, and paracrine effects. Most clinical trials for acute myocardial infarction have used bone marrow-derived cells.
This presentation tells us about the differences between mesenchymal stem cells and epithelial stem cells, and how both can be used to treat certain contingencies. It also tells us about the different benefits of Banking Cord Blood.
In this presentation, Dr. David Greene Arizona discusses Stem Cells and Bone Marrow. A stem cell or bone marrow transplant replaces damaged blood cells with healthy ones. It can be used to treat conditions affecting the blood cells, such as leukaemia and lymphoma.
Adult stem cells are undifferentiated cells found in the body after development that have the abilities of self-renewal and multipotency. They are mostly found in blood and bone marrow and can be used to treat degenerative diseases, autoimmune disorders, injuries, and cosmetic conditions. A stem cell transplant for leukemia involves finding a donor, extracting their stem cells, clearing the recipient's body of cancerous cells through chemotherapy or radiation, and transplanting the donor's healthy stem cells to repopulate the recipient's blood and immune system.
Adult stem cells are undifferentiated cells found in the body after development that have the abilities of self-renewal and multipotency. They are mostly found in blood and bone marrow. Adult stem cells can be used to treat degenerative diseases, autoimmune diseases, musculoskeletal injuries, cosmetic issues, and more. A stem cell transplant replaces a leukemia patient's abnormal white blood cells with healthy ones from a donor by extracting the donor's stem cells, clearing out the patient's body, and then transplanting the new cells.
This document discusses adult stem cells (ASC), including their properties of self-renewal and multipotency. ASCs are found in many parts of the body including blood and bone marrow. The document outlines how ASCs can be used to treat degenerative diseases, autoimmune disorders, injuries, and for cosmetic purposes. It then focuses on the process of an allogenic blood stem cell transplant for leukemia patients, including finding a donor, extracting stem cells, cleansing the patient, and transplanting the new cells.
Cardiac and skeletal stem cells play important roles in tissue homeostasis and regeneration. Cardiac stem cells are found in the adult heart and can generate new cardiomyocytes and blood vessels to repair damage. Skeletal stem cells in developing bone give rise to chondrocytes and osteoblasts during endochondral bone formation and help maintain the skeleton. While stem cells show promise for regenerative therapies, more research is needed to fully understand their functions in vivo.
An acquired or inherited disease of the heart muscle which makes it difficult for the heart to pump blood to other parts of the body. Can be dangerous or life threatening if untreated
This document discusses stem cell banking and its benefits. It explains that stem cell banking involves extracting, processing and storing stem cells that can potentially treat over 80 diseases. Stem cells have the ability to transform into any tissue or organ and can benefit not just the baby but also siblings and family members. The document provides information on what stem cells are, where they come from, how they work and the potential of stem cell therapy for regenerative medicine. It discusses private and public stem cell banking options available in India. The overall goal is to create awareness of stem cell banking and its ability to provide a healthy future for families.
Stem cells have the unique ability to both self-renew and differentiate into specialized cell types. This allows stem cells to play an important role in normal development and tissue repair. There are two main types of stem cells: embryonic stem cells which are pluripotent and can become any cell type, and adult stem cells which are multipotent and usually form cell types of their tissue of origin. Stem cell therapies show promise for treating diseases by replacing damaged cells, though many applications are still experimental. Ethical debates surround the use of embryonic stem cells due to their source as human embryos.
This powerpoint discusses heart disease and heart attacks. It begins with a disclaimer and then outlines the scope of the presentation. The document is a personal study by the author who had a heart attack in 2012 and underwent triple bypass surgery. It discusses the causes of heart disease including plaque buildup from cholesterol in the blood. It explains the diagnostic tools and enzymes doctors use to detect a heart attack. Lifestyle changes around diet, exercise and stress reduction are recommended to prevent heart disease.
This document discusses Frederick Blalock's personal experience and research into heart disease and heart attacks after suffering a heart attack himself in 2012. It provides information on:
1) The scope and disclaimer of the document as Blalock's personal research.
2) Details of Blalock's heart attack in 2012 and subsequent triple bypass surgery.
3) Explanations of what a heart attack is, the different types (unstable angina, NSTEMI, STEMI), how doctors diagnose them using cardiac enzymes like troponin and CK, and the causes and process of atherosclerosis and plaque buildup in the arteries.
Stem Cells and the Future of Cardiac Medicine | R3 Stem CellR3 Stem Cell
Stem Cells and the Future of Cardiac Medicine" by R3 Stem Cell delves into emerging cardiac treatments. This piece highlights the pivotal role of stem cells in heart health advancements, shedding light on their potential to redefine cardiac care. A comprehensive guide for those keen on medical innovations.
Get information of what are stem cells, sources of stem cells, what is umbilical cord and the umbilical cord blood, what us HLS matching etc and many more.
Stem cell therapy uses stem cells to treat various medical conditions. Stem cells are unique in that they can become any cell type in the body and help regenerate tissues and organs. The document discusses how stem cell therapy works and some of its applications, including treating musculoskeletal injuries, heart and lung diseases, spinal cord injuries, hair loss, and more. Potential benefits are its high effectiveness, minimally invasive nature, and ability to cure diseases and repair damaged tissues.
The document discusses coronary artery disease (CAD). It begins with an introduction to coronary circulation and the importance of the coronary arteries in delivering blood to the heart muscle. It then discusses atherosclerosis, the primary cause of CAD. CAD is defined as the narrowing of one or more coronary arteries due to atherosclerotic plaque buildup, reducing blood flow to the heart. Risk factors, pathophysiology, clinical manifestations, diagnostic tests, medical and surgical management, and lifestyle changes are summarized. Nursing assessment and management of patients with CAD are also outlined.
Repair and regeneration of tissues using stem cellsBhanu Jaseja
Stem cells are undifferentiated cells that can differentiate into specialized cell types and potentially be used to treat diseases. There are two main types of stem cells: embryonic stem cells and adult stem cells. Stem cell therapies show promise for treating conditions like Parkinson's disease, spinal cord injuries, blood disorders, and more. Key factors that must be considered for stem cell therapies include their availability, ability to differentiate, safety, and adherence to manufacturing standards.
ABC of STEM CELL therapy (Lifecare - ReeCure Centre)Lifecare Centre
This document provides information about LifeCare - ReeCure Centre for Stem Cell Therapy. It introduces the directors and board members. It discusses sources of stem cells, procedures for stem cell therapy, and indications that can be treated. Key points include that stem cell therapy depends on cell type, technology for differentiation and multiplication, and quality control analysis. A variety of diseases are described that stem cell therapy may help treat, including cardiovascular, liver, bone, neurological, and more. The document outlines the stem cell therapy process and notes it is safe, non-toxic, and without side effects. Pricing for various conditions is also listed. The future of stem cell medicine is described as having great potential. Contact information is provided
Reversing Ovarian Failure: The Promise of Stem Cell Therapy with Dr. David Gr...Dr. David Greene Arizona
Ovarian failure can be a life-altering condition, but with the promise of stem cell therapy, there is newfound hope. Dr. David Greene's groundbreaking work in Arizona is paving the way for a future where ovarian failure can be reversed, and fertility restored. As research continues to progress, the day may soon come when stem cell therapy becomes a standard treatment for ovarian failure, offering hope and healing to countless women around the world.
Stem Cell Solutions: Dr. David Greene's Path to Non-Surgical Cardiac CareDr. David Greene Arizona
Explore the groundbreaking work of Dr. David Greene, a pioneer in regenerative medicine, who is revolutionizing the field of cardiology through stem cell therapy in Arizona. This ppt delves into how Dr. Greene's innovative approach is providing non-surgical, effective treatments for heart disease, using the body's own cells to repair heart damage and improve patient outcomes. Learn about the science behind stem cell therapy, its benefits over traditional cardiac surgeries, and the promising future it holds for modern medicine. Join us as we uncover how Dr. Greene's commitment to stem cell research and therapy is setting new standards in healthcare and offering new hope to cardiac patients.
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This document provides an overview of stem cells, including their biology, types, collection, storage, and applications. It discusses embryonic and adult stem cells, how they are collected and cryopreserved, and their use in treating diseases like leukemia, diabetes, Parkinson's, and hair loss. While stem cells show promise for regenerative medicine, adult stem cells have advantages over embryonic stem cells due to being easier to obtain and not raising ethical issues.
This document discusses cell therapy for cardiovascular diseases. It defines stem cells and progenitor cells, and classifies cells according to their potency and source. Various cell types that may be used for cell therapy are described, including embryonic stem cells, bone marrow-derived cells, and resident cardiac stem cells. Methods of cell delivery include direct injection, transcatheter injection, intracoronary injection, and intravenous injection. The mechanisms by which cell therapy may aid myocardial repair include differentiation of cells into cardiomyocytes, cell fusion with host cardiomyocytes, and paracrine effects. Most clinical trials for acute myocardial infarction have used bone marrow-derived cells.
This presentation tells us about the differences between mesenchymal stem cells and epithelial stem cells, and how both can be used to treat certain contingencies. It also tells us about the different benefits of Banking Cord Blood.
In this presentation, Dr. David Greene Arizona discusses Stem Cells and Bone Marrow. A stem cell or bone marrow transplant replaces damaged blood cells with healthy ones. It can be used to treat conditions affecting the blood cells, such as leukaemia and lymphoma.
Adult stem cells are undifferentiated cells found in the body after development that have the abilities of self-renewal and multipotency. They are mostly found in blood and bone marrow and can be used to treat degenerative diseases, autoimmune disorders, injuries, and cosmetic conditions. A stem cell transplant for leukemia involves finding a donor, extracting their stem cells, clearing the recipient's body of cancerous cells through chemotherapy or radiation, and transplanting the donor's healthy stem cells to repopulate the recipient's blood and immune system.
Adult stem cells are undifferentiated cells found in the body after development that have the abilities of self-renewal and multipotency. They are mostly found in blood and bone marrow. Adult stem cells can be used to treat degenerative diseases, autoimmune diseases, musculoskeletal injuries, cosmetic issues, and more. A stem cell transplant replaces a leukemia patient's abnormal white blood cells with healthy ones from a donor by extracting the donor's stem cells, clearing out the patient's body, and then transplanting the new cells.
This document discusses adult stem cells (ASC), including their properties of self-renewal and multipotency. ASCs are found in many parts of the body including blood and bone marrow. The document outlines how ASCs can be used to treat degenerative diseases, autoimmune disorders, injuries, and for cosmetic purposes. It then focuses on the process of an allogenic blood stem cell transplant for leukemia patients, including finding a donor, extracting stem cells, cleansing the patient, and transplanting the new cells.
Cardiac and skeletal stem cells play important roles in tissue homeostasis and regeneration. Cardiac stem cells are found in the adult heart and can generate new cardiomyocytes and blood vessels to repair damage. Skeletal stem cells in developing bone give rise to chondrocytes and osteoblasts during endochondral bone formation and help maintain the skeleton. While stem cells show promise for regenerative therapies, more research is needed to fully understand their functions in vivo.
An acquired or inherited disease of the heart muscle which makes it difficult for the heart to pump blood to other parts of the body. Can be dangerous or life threatening if untreated
This document discusses stem cell banking and its benefits. It explains that stem cell banking involves extracting, processing and storing stem cells that can potentially treat over 80 diseases. Stem cells have the ability to transform into any tissue or organ and can benefit not just the baby but also siblings and family members. The document provides information on what stem cells are, where they come from, how they work and the potential of stem cell therapy for regenerative medicine. It discusses private and public stem cell banking options available in India. The overall goal is to create awareness of stem cell banking and its ability to provide a healthy future for families.
Stem cells have the unique ability to both self-renew and differentiate into specialized cell types. This allows stem cells to play an important role in normal development and tissue repair. There are two main types of stem cells: embryonic stem cells which are pluripotent and can become any cell type, and adult stem cells which are multipotent and usually form cell types of their tissue of origin. Stem cell therapies show promise for treating diseases by replacing damaged cells, though many applications are still experimental. Ethical debates surround the use of embryonic stem cells due to their source as human embryos.
This powerpoint discusses heart disease and heart attacks. It begins with a disclaimer and then outlines the scope of the presentation. The document is a personal study by the author who had a heart attack in 2012 and underwent triple bypass surgery. It discusses the causes of heart disease including plaque buildup from cholesterol in the blood. It explains the diagnostic tools and enzymes doctors use to detect a heart attack. Lifestyle changes around diet, exercise and stress reduction are recommended to prevent heart disease.
This document discusses Frederick Blalock's personal experience and research into heart disease and heart attacks after suffering a heart attack himself in 2012. It provides information on:
1) The scope and disclaimer of the document as Blalock's personal research.
2) Details of Blalock's heart attack in 2012 and subsequent triple bypass surgery.
3) Explanations of what a heart attack is, the different types (unstable angina, NSTEMI, STEMI), how doctors diagnose them using cardiac enzymes like troponin and CK, and the causes and process of atherosclerosis and plaque buildup in the arteries.
Stem Cells and the Future of Cardiac Medicine | R3 Stem CellR3 Stem Cell
Stem Cells and the Future of Cardiac Medicine" by R3 Stem Cell delves into emerging cardiac treatments. This piece highlights the pivotal role of stem cells in heart health advancements, shedding light on their potential to redefine cardiac care. A comprehensive guide for those keen on medical innovations.
Get information of what are stem cells, sources of stem cells, what is umbilical cord and the umbilical cord blood, what us HLS matching etc and many more.
Stem cell therapy uses stem cells to treat various medical conditions. Stem cells are unique in that they can become any cell type in the body and help regenerate tissues and organs. The document discusses how stem cell therapy works and some of its applications, including treating musculoskeletal injuries, heart and lung diseases, spinal cord injuries, hair loss, and more. Potential benefits are its high effectiveness, minimally invasive nature, and ability to cure diseases and repair damaged tissues.
The document discusses coronary artery disease (CAD). It begins with an introduction to coronary circulation and the importance of the coronary arteries in delivering blood to the heart muscle. It then discusses atherosclerosis, the primary cause of CAD. CAD is defined as the narrowing of one or more coronary arteries due to atherosclerotic plaque buildup, reducing blood flow to the heart. Risk factors, pathophysiology, clinical manifestations, diagnostic tests, medical and surgical management, and lifestyle changes are summarized. Nursing assessment and management of patients with CAD are also outlined.
Repair and regeneration of tissues using stem cellsBhanu Jaseja
Stem cells are undifferentiated cells that can differentiate into specialized cell types and potentially be used to treat diseases. There are two main types of stem cells: embryonic stem cells and adult stem cells. Stem cell therapies show promise for treating conditions like Parkinson's disease, spinal cord injuries, blood disorders, and more. Key factors that must be considered for stem cell therapies include their availability, ability to differentiate, safety, and adherence to manufacturing standards.
ABC of STEM CELL therapy (Lifecare - ReeCure Centre)Lifecare Centre
This document provides information about LifeCare - ReeCure Centre for Stem Cell Therapy. It introduces the directors and board members. It discusses sources of stem cells, procedures for stem cell therapy, and indications that can be treated. Key points include that stem cell therapy depends on cell type, technology for differentiation and multiplication, and quality control analysis. A variety of diseases are described that stem cell therapy may help treat, including cardiovascular, liver, bone, neurological, and more. The document outlines the stem cell therapy process and notes it is safe, non-toxic, and without side effects. Pricing for various conditions is also listed. The future of stem cell medicine is described as having great potential. Contact information is provided
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In some case, your chronic prostatitis may be related to over-masturbation. Generally, natural medicine Diuretic and Anti-inflammatory Pill can help mee get a cure.
Adhd Medication Shortage Uk - trinexpharmacy.comreignlana06
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2. Cardiovascular disease, also called heart disease,
is a broad medical term used to describe a group
of conditions that affect the blood vessels or the
heart. It is the most common cause of death
worldwide.
4. The symptoms of cardiovascular disease
will depend on the specific type of heart
disease but can include:
• Chest pain also called angina
• Shortness of breath
• Sweating
• Nausea
• Irregular heartbeat; racing or slow heartbeat
(tachycardia, bradycardia)
• Fluttering in your chest
5. How Are The Stem Cells Collected?
R3 Stem Cell staff focuses on obtaining healthy stem
cells exclusively from umbilical cord blood donors. We
collect the placenta once the baby is born, with the
parent’s informed consent. Additionally, we follow strict
ethical guidelines and collect stem cells from reliable
and reputable sources.
6. How Can Stem Cell Therapy Improve The
Symptoms Of Cardiovascular Disease?
Stem cell transplantation uses healthy cells to promote
the repair of damaged cells and regeneration of healthy
and functional cells to repair injured tissue.
transplanted stem cells repair damaged tissue by
releasing factors that promote the regeneration of
healthy stem cells, reduce inflammation, promote the
growth of new blood vessels, inhibit cell death, and
reduce hypertrophy.
7. What Are The Advantages Of Human
Umbilical Cord Mesenchymal Stem Cells?
• Abundant supply containing up to 10 times more stem cells
than bone marrow or adipose derived stem cells
• hUC-MSC have immunosuppressors and immunomodulatory
properties that allow their use in any individual without rejection-
Human Leukocyte Antigen (HLA) matching is not necessary
• Greater proliferation ability than adult autologous stem cells
• They regenerate at a very rapid rate
• They have not been impacted by the aging process