• Marketing management's job is to create attractive offers for target markets. However, marketing managers cannot simply focus on the target market's needs. Their success will also be affected by actors in the company's microenvironment. These actors include other company departments, suppliers, marketing intermediaries, customers, competitors, and various publics.

    To learn more about this topic, share it with your friends through this link.
    https://www.egypttales.com/2022/01/the-companys-micro-environment.html
    Marketing management's job is to create attractive offers for target markets. However, marketing managers cannot simply focus on the target market's needs. Their success will also be affected by actors in the company's microenvironment. These actors include other company departments, suppliers, marketing intermediaries, customers, competitors, and various publics. To learn more about this topic, share it with your friends through this link. https://www.egypttales.com/2022/01/the-companys-micro-environment.html
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    The Company's Micro environment
    Marketing management's job is to create attractive offers for target markets. However, marketing managers cannot simply focus on the target market
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  • The Brain Cancer Microenvironment and Genetics.

    Xi Huang, assistant professor in the department of molecular genetics at the University of Toronto (Molecular Genetics, University of Toronto), discusses his research on the mechanical aspects of cancer cells.

    Listen to it here: https://www.findinggeniuspodcast.com/podcasts/the-brain-cancer-microenvironment-and-genetics-an-examination-of-the-mechanics-of-cancer-with-xi-huang/?fbclid=IwAR2qZTKxihIljr_skkjaoTqSYJrxzKYKlB61fXs9B83uNPkqpnOJoHjqvvQ

    Episode also available on Apple Podcasts: apple.co/30PvU9C
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    #braincancer #choroma #cells #cancercells #molecules #braintumor #tumor #genetics #microenvironment #Findinggeniuspodcast #Healthpodcast #InternalMedicinepodcast #Biosciencespodcast
    The Brain Cancer Microenvironment and Genetics. Xi Huang, assistant professor in the department of molecular genetics at the University of Toronto (Molecular Genetics, University of Toronto), discusses his research on the mechanical aspects of cancer cells. Listen to it here: https://www.findinggeniuspodcast.com/podcasts/the-brain-cancer-microenvironment-and-genetics-an-examination-of-the-mechanics-of-cancer-with-xi-huang/?fbclid=IwAR2qZTKxihIljr_skkjaoTqSYJrxzKYKlB61fXs9B83uNPkqpnOJoHjqvvQ Episode also available on Apple Podcasts: apple.co/30PvU9C . . . . #braincancer #choroma #cells #cancercells #molecules #braintumor #tumor #genetics #microenvironment #Findinggeniuspodcast #Healthpodcast #InternalMedicinepodcast #Biosciencespodcast
    The Brain Cancer Microenvironment and Genetics – An Examination of the Mechanics of Cancer with Xi Huang
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  • Cancer: It Takes a Village Insights from Shervin Takyar

    What allows a cancer cell to proliferate and metastasize? Is cancer a product of evolutionary selection? How do the leading hypotheses in cancer research apply specifically to lung cancer?

    Shervin Takyar is an associate professor at Yale School of Medicine and practicing pulmonologist who joins the show to discuss his experience with cancer, both in research and in the clinic.

    His work is focused primarily on endothelium, which is an important part of the tumor microenvironment, and also on what happens before cancer develops, rather than what to do once it has.

    Listen to it here: http://bit.ly/38FVe54

    Episode also available on Apple podcast: http://apple.co/30PvU9C
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    #cancer #cancersurvivor #cancerawareness #cancersucks #lungcancer #bladdercancer #ctscan #health #DNA #oncology #cancercare #cancerresearch #chemotherapy #chemo
    Cancer: It Takes a Village Insights from Shervin Takyar What allows a cancer cell to proliferate and metastasize? Is cancer a product of evolutionary selection? How do the leading hypotheses in cancer research apply specifically to lung cancer? Shervin Takyar is an associate professor at Yale School of Medicine and practicing pulmonologist who joins the show to discuss his experience with cancer, both in research and in the clinic. His work is focused primarily on endothelium, which is an important part of the tumor microenvironment, and also on what happens before cancer develops, rather than what to do once it has. Listen to it here: http://bit.ly/38FVe54 Episode also available on Apple podcast: http://apple.co/30PvU9C . . . . #cancer #cancersurvivor #cancerawareness #cancersucks #lungcancer #bladdercancer #ctscan #health #DNA #oncology #cancercare #cancerresearch #chemotherapy #chemo
    Cancer: It Takes a Village—Insights from Shervin Takyar, MD, PhD
    0 Commentaires 0 Parts 624 Vue
  • What Is Cancer?
    An Out of Control Parasitic Growth

    Cancer cells differ from normal cells in many ways that allow them to grow out of control and become invasive. One important difference is that cancer cells are less specialized than normal cells. That is, whereas normal cells mature into very distinct cell types with specific functions, cancer cells do not. This is one reason that, unlike normal cells, cancer cells continue to divide without stopping.

    In addition, cancer cells are able to ignore signals that normally tell cells to stop dividing or that begin a process known as programmed cell death, or apoptosis, which the body uses to get rid of unneeded cells.

    Cancer cells may be able to influence the normal cells, molecules, and blood vessels that surround and feed a tumor—an area known as the microenvironment. For instance, cancer cells can induce nearby normal cells to form blood vessels that supply tumors with oxygen and nutrients, which they need to grow. These blood vessels also remove waste products from tumors.

    Cancer cells are also often able to evade the immune system, a network of organs, tissues, and specialized cells that protects the body from infections and other conditions. Although the immune system normally removes damaged or abnormal cells from the body, some cancer cells are able to “hide” from the immune system."
    What Is Cancer? An Out of Control Parasitic Growth Cancer cells differ from normal cells in many ways that allow them to grow out of control and become invasive. One important difference is that cancer cells are less specialized than normal cells. That is, whereas normal cells mature into very distinct cell types with specific functions, cancer cells do not. This is one reason that, unlike normal cells, cancer cells continue to divide without stopping. In addition, cancer cells are able to ignore signals that normally tell cells to stop dividing or that begin a process known as programmed cell death, or apoptosis, which the body uses to get rid of unneeded cells. Cancer cells may be able to influence the normal cells, molecules, and blood vessels that surround and feed a tumor—an area known as the microenvironment. For instance, cancer cells can induce nearby normal cells to form blood vessels that supply tumors with oxygen and nutrients, which they need to grow. These blood vessels also remove waste products from tumors. Cancer cells are also often able to evade the immune system, a network of organs, tissues, and specialized cells that protects the body from infections and other conditions. Although the immune system normally removes damaged or abnormal cells from the body, some cancer cells are able to “hide” from the immune system."
    0 Commentaires 10 Parts 596 Vue
  • “By wearing a mask, the exhaled viruses will not be able to escape and will concentrate in the nasal passages, enter the olfactory nerves and travel into the brain.” — Russell Blaylock, MD

    Researchers found that about a third of the workers developed headaches with use of the mask, most had preexisting headaches that were worsened by the mask wearing, and 60% required pain medications for relief. As to the cause of the headaches, while straps and pressure from the mask could be causative, the bulk of the evidence points toward hypoxia and/or hypercapnia as the cause. That is, a reduction in blood oxygenation (hypoxia) or an elevation in blood C02 (hypercapnia).

    It is known that the N95 mask, if worn for hours, can reduce blood oxygenation as much as 20%, which can lead to a loss of consciousness, as happened to the hapless fellow driving around alone in his car wearing an N95 mask, causing him to pass out, and to crash his car and sustain injuries. I am sure that we have several cases of elderly individuals or any person with poor lung function passing out, hitting their head. This, of course, can lead to death.

    A more recent study involving 159 healthcare workers aged 21 to 35 years of age found that 81% developed headaches from wearing a face mask. Some had pre-existing headaches that were precipitated by the masks. All felt like the headaches affected their work performance.

    Unfortunately, no one is telling the frail elderly and those with lung diseases, such as COPD, emphysema or pulmonary fibrosis, of these dangers when wearing a facial mask of any kind—which can cause a severe worsening of lung function. This also includes lung cancer patients and people having had lung surgery, especially with partial resection or even the removal of a whole lung.

    The importance of these findings is that a drop in oxygen levels (hypoxia) is associated with an impairment in immunity. Studies have shown that hypoxia can inhibit the type of main immune cells used to fight viral infections called the CD4+ T-lymphocyte. This occurs because the hypoxia increases the level of a compound called hypoxia inducible factor-1 (HIF-1), which inhibits T-lymphocytes and stimulates a powerful immune inhibitor cell called the Tregs. This sets the stage for contracting any infection, including COVID-19 and making the consequences of that infection much graver. In essence, your mask may very well put you at an increased risk of infections and if so, having a much worse outcome.

    People with cancer, especially if the cancer has spread, will be at a further risk from prolonged hypoxia as the cancer grows best in a microenvironment that is low in oxygen. Low oxygen also promotes inflammation which can promote the growth, invasion and spread of cancers. Repeated episodes of hypoxia have been proposed as a significant factor in atherosclerosis and hence increases all cardiovascular (heart attacks) and cerebrovascular (strokes) diseases.

    There is another danger to wearing these masks on a daily basis, especially if worn for several hours. When a person is infected with a respiratory virus, they will expel some of the virus with each breath. If they are wearing a mask, especially an N95 mask or other tightly fitting mask, they will be constantly rebreathing the viruses, raising the concentration of the virus in the lungs and the nasal passages. We know that people who have the worst reactions to the coronavirus have the highest concentrations of the virus early on. And this leads to the deadly cytokine storm in a selected number.

    It gets even more frightening. Newer evidence suggests that in some cases the virus can enter the brain. In most instances it enters the brain by way of the olfactory nerves (smell nerves), which connect directly with the area of the brain dealing with recent memory and memory consolidation. By wearing a mask, the exhaled viruses will not be able to escape and will concentrate in the nasal passages, enter the olfactory nerves and travel into the brain.”
    “By wearing a mask, the exhaled viruses will not be able to escape and will concentrate in the nasal passages, enter the olfactory nerves and travel into the brain.” — Russell Blaylock, MD Researchers found that about a third of the workers developed headaches with use of the mask, most had preexisting headaches that were worsened by the mask wearing, and 60% required pain medications for relief. As to the cause of the headaches, while straps and pressure from the mask could be causative, the bulk of the evidence points toward hypoxia and/or hypercapnia as the cause. That is, a reduction in blood oxygenation (hypoxia) or an elevation in blood C02 (hypercapnia). It is known that the N95 mask, if worn for hours, can reduce blood oxygenation as much as 20%, which can lead to a loss of consciousness, as happened to the hapless fellow driving around alone in his car wearing an N95 mask, causing him to pass out, and to crash his car and sustain injuries. I am sure that we have several cases of elderly individuals or any person with poor lung function passing out, hitting their head. This, of course, can lead to death. A more recent study involving 159 healthcare workers aged 21 to 35 years of age found that 81% developed headaches from wearing a face mask. Some had pre-existing headaches that were precipitated by the masks. All felt like the headaches affected their work performance. Unfortunately, no one is telling the frail elderly and those with lung diseases, such as COPD, emphysema or pulmonary fibrosis, of these dangers when wearing a facial mask of any kind—which can cause a severe worsening of lung function. This also includes lung cancer patients and people having had lung surgery, especially with partial resection or even the removal of a whole lung. The importance of these findings is that a drop in oxygen levels (hypoxia) is associated with an impairment in immunity. Studies have shown that hypoxia can inhibit the type of main immune cells used to fight viral infections called the CD4+ T-lymphocyte. This occurs because the hypoxia increases the level of a compound called hypoxia inducible factor-1 (HIF-1), which inhibits T-lymphocytes and stimulates a powerful immune inhibitor cell called the Tregs. This sets the stage for contracting any infection, including COVID-19 and making the consequences of that infection much graver. In essence, your mask may very well put you at an increased risk of infections and if so, having a much worse outcome. People with cancer, especially if the cancer has spread, will be at a further risk from prolonged hypoxia as the cancer grows best in a microenvironment that is low in oxygen. Low oxygen also promotes inflammation which can promote the growth, invasion and spread of cancers. Repeated episodes of hypoxia have been proposed as a significant factor in atherosclerosis and hence increases all cardiovascular (heart attacks) and cerebrovascular (strokes) diseases. There is another danger to wearing these masks on a daily basis, especially if worn for several hours. When a person is infected with a respiratory virus, they will expel some of the virus with each breath. If they are wearing a mask, especially an N95 mask or other tightly fitting mask, they will be constantly rebreathing the viruses, raising the concentration of the virus in the lungs and the nasal passages. We know that people who have the worst reactions to the coronavirus have the highest concentrations of the virus early on. And this leads to the deadly cytokine storm in a selected number. It gets even more frightening. Newer evidence suggests that in some cases the virus can enter the brain. In most instances it enters the brain by way of the olfactory nerves (smell nerves), which connect directly with the area of the brain dealing with recent memory and memory consolidation. By wearing a mask, the exhaled viruses will not be able to escape and will concentrate in the nasal passages, enter the olfactory nerves and travel into the brain.”
    Like
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    0 Commentaires 1 Parts 649 Vue
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