Stem Cells Therapy For Cardiovascular Disease | Dr. David Greene Arizona

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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 CELLS THERAPY FOR
CARDIOVASCULAR DISEASE

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.

Conditions Of Cardiovascular
Disease Include:
• coronary artery disease (CAD)
• valvular heart disease
• cardiomyopathy
• congenital heart disease
• myocardial infarction (heart attack, MI)
• ischemic stroke
• heart failure

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

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.

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.

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

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 disoders

StemcellGP21

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

Sara Hassan

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 saving lives 4412

Colin 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 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.

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DKMS Saving Lives - Colin's Online Version

Colin 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.

Stem cell and neonatology vinayak

Vinayak Kodur

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 Cell

R3 Stem Cell

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.

Stem cell and neonatology vinayak

Vinayak Kodur

Stem Cell Therapy For Cardiac Disease - Dr. David Greene R3 Stem Cell

R3 Stem Cell

Stem cell

Dr NEETHU ASOKAN

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.

Cell therapy in cardiovascular diseases

The department of Cardiovascular medicine.

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.

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