24:11
Dr. William Li's 2010 TED Talk
Dr. William Li's 2010 TED Talk
Dr. William Li, President of the Angiogenesis Foundation, presents a new way to think about treating cancer and other diseases: anti-angiogenesis, preventing the growth of blood vessels that feed a tumor. The crucial first (and best) step: Eating cancer-fighting foods that cut off the supply lines and beat cancer at its own game. This lecture was given at the February 2010 TED Conference in Long Beach, CA.
6:37
Anti-Angiogenic Cancer Research
Anti-Angiogenic Cancer Research
Dr William Li, President of the Angiogenesis Foundation, provides an overview of the accomplishments and future of anti-angiogenic research against cancer.
6:38
TEDxManhattan - Dr William Li - Angiogenesis Foundation: 2010 TEDTalk Update
TEDxManhattan - Dr William Li - Angiogenesis Foundation: 2010 TEDTalk Update
An update from Dr. William Li, President of the Angiogenesis Foundation. Since his February 2010 TED Talk about fighting cancer by eating healthy, Dr. Li has been studying exactly which foods help most. More information at www.tedxmanhattan.org About TEDx, x = independently organized event: In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
5:04
A New Hope
A New Hope
This video gives a brief description of the history of angiogenesis told by patients who have benefited from antiangiogenic therapy. These patient went from a no hope situation to one of hope that the Angiogenesis Foundation gave them.
20:03
Dr. William Li 2010 TED Talk
Dr. William Li 2010 TED Talk
Dr. William Li, President of the Angiogenesis Foundation, presents a new way to think about treating cancer and other diseases: anti-angiogenesis, preventing the growth of blood vessels that feed a tumor. The crucial first (and best) step: Eating cancer-fighting foods that cut off the supply lines and beat cancer at its own game. This lecture was given at the February 2010 TED Conference in Long Beach, CA.
3:55
How to Cook Bok Choy
How to Cook Bok Choy
www.karenrothnutrition.com Can we eat to starve cancer? Eating certain foods for halting the growth of cancer-feeding blood vessels could be key to treating tumors, according to Dr. William Li, head of the Angiogenesis Foundation http Blood vessels, literally the lifelines in our bodies, deliver the nutrients our organs need to survive. But they also feed cancerous growths. Cancers don't start out with a blood supply. Instead, they begin as tiny nests of cells that if given a blood supply will grow into cancer. Without a blood supply, most of these cancers will never become dangerous. What does this have to do with Bok Choy? Dr. Li is conducting a million person study, the world's largest study on cancer prevention with foods. One of the foods that he has studied that has great potential for preventing cancer from growing is bok choy. I was thrilled to learn this, because it's one of the easiest vegetables to prepare and delicious at that.
24:33
Can we eat to STARVE CANCER? William Li - Talk, Lecture, Documentary - (Health Food)
Can we eat to STARVE CANCER? William Li - Talk, Lecture, Documentary - (Health Food)
www.healthandsuperfoods.com Can we eat to starve cancer? William Li - Talk, Lecture, Documentary - (Health Food) William Li presents a new way to think about treating cancer and other diseases: anti-angiogenesis, preventing the growth of blood vessels that feed a tumor. The crucial first (and best) step: Eating cancer-fighting foods that cut off the supply lines and beat cancer at its own game. Many of society's most devastating diseases -- cancer, cardiovascular disease, diabetes and Alzheimer's, to name a few -- share a common denominator: faulty angiogenesis, the body's growth of new capillary blood vessels. Given excessive or insufficient blood vessel growth, serious health issues arise. While researching under Harvard surgeon Judah Folkman, who pioneered the study of angiogenesis, Li learned how angiogenesis-based medicine helps patients overcome numerous diseases by restoring the balance of blood-vessel growth. Li co-founded the Angiogenesis Foundation in 1994. The foundation's Project ENABLE -- a global system that integrates patients, medical experts and healthcare professionals -- democratizes the spread and implementation of knowledge about angiogenesis-based medicines, diet and lifestyle. Some 40000 physicians have been educated on new treatments, ranging from cancer care to wound care, by the foundation's faculty of medical experts, and they are bringing new, lifesaving and disease-preventing techniques to people around the world. www.ted.com TED shares the <b>...</b>
3:03
Progression of wet Age-Related Macular Degeneration
Progression of wet Age-Related Macular Degeneration
Welcome to the AMD Resource Center, presented by the Angiogenesis Foundation. This animation will explain how wet AMD causes vision loss. Age-Related Macular Degeneration (AMD) is a disease that causes progressive damage to the macula, a central region of the retina. The retina is the light receiving nerve layer located in the back of the eye. The macula contains the densest population of nerve cells, called photoreceptors, and is particularly important for seeing detail and maintaining the central part of our vision. Central vision is important for ordinary daily activities like reading, driving, dialing the telephone, and recognizing faces. The macula is composed of several layers of specialized cells. The photoreceptors sit atop a layer of cells called retinal epithelial cells (RPE). Underneath these layers is a thin lining called Bruch's membrane. Beneath Bruch's membrane is the choroid, a network of blood vessels that provide oxygen and nutrients to the macula. As the eye ages, debris from the RPE cell layer, and surrounding tissues accumulates above and within the Bruch's membrane. The debris form deposits called drusen. The presence of drusen is usually the first sign of early dry AMD. As drusen accumulate, they can cause inflammation. Inflammatory cells are then recruited to the retina, and these cells, along with the RPE, begin releasing growth factors that cause blood vessels to grow. The primary growth factor released is called vascular endothelial growth <b>...</b>
24:11
威廉.李:我们能通过吃来饿死癌症吗?Can We Eat to Starve Cancer?
威廉.李:我们能通过吃来饿死癌症吗?Can We Eat to Starve Cancer?
Recommended by Dr Chang of www.eternalhealthcorporation.com 威廉李向我们展示了一个治疗癌症的新途径:利用我们对血管新生的知识来对付给肿瘤供血的血管。至为关键的第一步,也是最有成效的一步:吃抗癌的食物,让它们来战胜癌症。 Can We Eat to Starve Cancer? 是一場非常重要的英語醫學演講,片長二十分鐘,希望您一定要看完它。請各位朋友一定要看完此演講,並祝福大家身體健康! Chinese Translations can be found here www.ted.com About William Li William Li heads the Angiogenesis Foundation, a nonprofit that is re-conceptualizing global disease fighting.
3:03
Electro-Medicine : Biological Physics - Angiogenesis VEGF and Bjorn Nordenstrom BCEC
Electro-Medicine : Biological Physics - Angiogenesis VEGF and Bjorn Nordenstrom BCEC
youtu.be youtu.be youtu.be youtu.be NOTE : Angiogenesis INHIBITION PLATELET FACTOR 4 Prof. Gera Neufeld New Cancer Fibrosis Treatment Lysyl-Oxidase family called LOXL2 Björn Nordenström has utilized concepts in physics, mathematics, chemistry, physiology and immunology; combined with a massive amount of experimentation; to describe a system of continuous energy circulation and circulating electrical currents in living systems. Living cells consist of ions, charged molecules, membranes and organelles, which are responsive to electrical fields and currents and sometimes even generate electrical activity. When a non-uniform electric field is generated near living cells, polar molecules will move towards the higher field intensity. When an altering current is generated the molecules stay in place, their reaction being only vibration. However, in dividing cells the altering field causes the molecules to move towards the furrow, which is the narrow place between the two daughter cells. Using this principle the scientists had a way to tell apart normal cells from dividing cells, which are normally cancerous cells. Biologically Closed Electric Circuits, Björn EW Nordenström, MD, (Nordic Medical Publications, Arsenalsgatan 4, S-1ll 47 Stockholm, Sweden), This remarkable book introduces a new physiologic concept that could solve many long-standing biologic problems. This far-reaching concept evolved from a series of ingenious experiments that began with the author's search for the <b>...</b>
3:29
Starve a Cancer, Stop Its Growth 1
Starve a Cancer, Stop Its Growth 1
Starve a Cancer, Stop Its Growth: Advances in Anti-Angiogenesis Evelyn H. Lauder Founder and Chairman, The Breast Cancer Research Foundation
1:22
Natural Cancer Cure? Tumor Inhibitor?
Natural Cancer Cure? Tumor Inhibitor?
Madrid, Spain: Compounds in marijuana inhibit malignant brain tumor growth in animals, and may provide a potential therapy for human glioma patients, according to a clinical review appearing in the September issue of Neuropharmacology. "Current therapeutic strategies for the treatment of [gliomas] are usually ineffective or just palliative," researchers from the Department of Biochemistry and Molecular Biology at Madrid's Complutense University wrote. "During the last few years, several studies have shown that cannabinoids ... slow the growth of different types of tumours, including gliomas, in laboratory animals. Cannabinoids induce apoptosis (programmed cell death) of glioma cells [in vitro.] In addition, cannabinoid treatment inhibits angiogenesis (growth) of gliomas in vivo. Remarkably, cannabinoids kill glioma cells selectively and can protect non-transformed glial cells from death. These and other findings reviewed here might set the basis for a potential use of cannabinoids in the management of gliomas." Last year, a clinical review in the journal Nature Reviews Cancer made similar recommendations, noting that cannabinoids possess a "favorable drug safety profile" and have shown in clinical trials to inhibit various forms of cancerous tumors, including gliomas, lung carcinoma, breast cancer, skin cancer, thyroid cancer, lymphoma, and prostate cancer. For more information, please contact Paul Armentano, NORML Senior Policy Analyst, at (202) 483-5500. Abstracts of <b>...</b>
2:35
Lexapro 5 mg
Lexapro 5 mg
Link to online store pillsrx24.com Lexapro 5 mg Like with all prescription drugs, it is very important that you follow the instructions that were given to you by your doctor when they prescribed Lexapro to you. Antidepressant Lexapro 10mg Dr. Potts joined Flagship from Aperio, where he was Vice President of Life Sciences. He managed worldwide sales and marketing in the biopharma segment, where his team achieved global adoption by nearly all of the largest pharmaceutical companies. He defined and led the GLP product development and validation services for the use of whole slide images in regulated preclinical and clinical trials studies, as well as the development of image analysis techniques for angiogenesis. Prior to Aperio, he was Head of Bioinformatics and Biostatistics at Quest Diagnostics Nichols Institute, where his team supported the development of In Vitro Diagnostics Multianalyte Assays (IVDMIA) in oncology and other therapeutic areas. He was a product manager at Accelrys, where he created a protein-ligand data management system for medicinal and computational chemists, crystallographers, and biologists to provide structural bioinformatics data across multiple pharmaceutical departments. He earned a Ph.D. and MS in Biological Engineering, and an MBA from the University of California at Davis, and a BS in Physics from Wheaton College, Illinois. He has over 20 peer-reviewed publications and patents. Lists sites describing the symptoms and treatment of pediatric and <b>...</b>
10:22
Cancer Drugs Make Tumors More Aggressive | La Chimiothérapie Cause Des Tumeurs Plus Agressives
Cancer Drugs Make Tumors More Aggressive | La Chimiothérapie Cause Des Tumeurs Plus Agressives
Cancer Drugs Make Tumors More Aggressive | La Chimiothérapie Cause Des Tumeurs Plus Agressives www.erichamel.com www.erichamel.com
51:30
Regenerative Medicine: Current Concepts and Changing Trends
Regenerative Medicine: Current Concepts and Changing Trends
Air date: Wednesday, January 25, 2012, 3:00:00 PM Timedisplayed is Eastern Time, Washington DC Local Category: Wednesday Afternoon Lectures Description: Patients with diseased or injured organs may be treated with transplanted organs. There is a severe shortage of donor organs which is worsening yearly due to the aging population. Regenerative medicine and tissue engineering apply the principles of cell transplantation, material sciences, and bioengineering to construct biological substitutes that may restore and maintain normal function in diseased and injured tissues. Stem cells may offer a potentially limitless source of cells for tissue engineering applications and are opening new options for therapy. Recent advances that have occurred in regenerative medicine will be reviewed and applications of these new technologies that may offer novel therapies for patients with end-stage tissue and organ failure will be described. The NIH Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide. For more information, visit: The NIH Director's Wednesday Afternoon Lecture Series Author: Anthony Atala, MD, Wake Forest School of Medicine Runtime: 00:51:29 Permanent link: videocast.nih.gov
59:38
Richard Scheller: Developing Products that Save Lives [Entire Talk]
Richard Scheller: Developing Products that Save Lives [Entire Talk]
As Genentech's Executive Vice President of Research and Early Development, Richard Scheller leads scientists discovering medicines that will significantly impact the lives of patients. In this candid interview, he describes the challenges of his industry, and outlines the required steps for developing products in a heavily regulated environment. Scheller also shares some personal learning curves faced when he elected to leave academic life for a new role in a commercial enterprise. View more clips and share your comments at ecorner.stanford.edu
123:37
Information Technology and Genetic Research: The Eighth White House Millennium Evening (1999)
Information Technology and Genetic Research: The Eighth White House Millennium Evening (1999)
thefilmarchive.org October 12, 1999 Genetics (from Ancient Greek γενετικός genetikos, "genitive" and that from γένεσις genesis, "origin"), a discipline of biology, is the science of genes, heredity, and variation in living organisms. Genetics deals with the molecular structure and function of genes, gene behavior in context of a cell or organism (eg dominance and epigenetics), patterns of inheritance from parent to offspring, and gene distribution, variation and change in populations,such as through Genome-Wide Association Studies. Given that genes are universal to living organisms, genetics can be applied to the study of all living systems, from viruses and bacteria, through plants and domestic animals, to humans (as in medical genetics). The fact that living things inherit traits from their parents has been used since prehistoric times to improve crop plants and animals through selective breeding. However, the modern science of genetics, which seeks to understand the process of inheritance, only began with the work of Gregor Mendel in the mid-19th century. Although he did not know the physical basis for heredity, Mendel observed that organisms inherit traits via discrete units of inheritance, which are now called genes. Genes correspond to regions within DNA, a molecule composed of a chain of four different types of nucleotides—the sequence of these nucleotides is the genetic information organisms inherit. DNA naturally occurs in a double stranded form, with nucleotides <b>...</b>