I sent this pic to a lab asking what are these white cells on the edge of a glass slide of my blood. They said Lymphocytes. So I asked a Artificial Intellegence what are thy? How long can they last on a glass slide before degrading? Read below what AI says. Quess what I have two slides one 3/1/24 and 5/1/24 and the white cells dont degrade. Local temperature 20º C. No chemicals to slow degradation. Well two posibilities to answer the conundrum.
The white cells = Linfocitos are some sort of new nano technology.
The white cells = Linfocitos are a new strain to attack Nano Technology.
I will explain further down what I see under the microscope after you read what AI has to say about this. RR
Good day TT
ChatGPT
Good day! How can I assist you today?
What are Linfocitos?
ChatGPT
"Linfocitos" is the Spanish term for lymphocytes. Lymphocytes are a type of white blood cell that plays a crucial role in the immune system. They are essential for the body's ability to fight off infections and other diseases. There are three main types of lymphocytes:
B cells (B lymphocytes): These cells produce antibodies, which are proteins that specifically target and neutralize pathogens such as bacteria and viruses. B cells are responsible for the humoral immune response.
T cells (T lymphocytes): These cells are involved in cell-mediated immunity. They do not produce antibodies but rather directly attack infected cells and help control the immune response. There are different types of T cells, including:
Helper T cells (CD4+ T cells): They assist other white blood cells in immunologic processes, including the activation of B cells to secrete antibodies.
Cytotoxic T cells (CD8+ T cells): They kill virus-infected cells and tumor cells.
Regulatory T cells: They help maintain immune system tolerance to self-antigens, preventing autoimmune disease.
Natural Killer (NK) cells: These cells are involved in the early defense against viral infections and cancer. They can recognize and destroy cells that are stressed, infected, or malignant without prior sensitization to them.
Lymphocytes are produced in the bone marrow and can be found in the blood and lymphoid tissues, such as the lymph nodes, spleen, and thymus. They are an integral part of both the adaptive and innate immune systems, helping to protect the body from a wide range of diseases.
Can lymphocytes cleanse the blood of nano technology?
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Lymphocytes are a key component of the immune system, but they are not specifically designed to cleanse the blood of nanotechnology. Their primary role is to recognize and respond to pathogens, such as bacteria, viruses, and other foreign invaders, through immune responses.
Nanotechnology refers to materials and devices at the nanoscale (1-100 nanometers). If these materials were introduced into the body, the immune system might recognize them as foreign particles. Here’s how the body might interact with nanotechnology:
Phagocytosis: Some immune cells, such as macrophages and neutrophils, can engulf and digest foreign particles, including some types of nanoparticles. However, this capability depends on the size, shape, and surface properties of the nanoparticles.
Lymphocyte Response: Lymphocytes, particularly T cells, might respond if the nanotechnology affects cells in a way that presents abnormal proteins on their surface. However, lymphocytes are not directly involved in engulfing or degrading nanoparticles.
Biocompatibility and Clearance: The body’s ability to clear nanoparticles depends on their design. Some nanoparticles are engineered to be biocompatible and can be cleared by the body’s natural processes (e.g., through the liver or kidneys). Others might persist and could potentially cause chronic immune responses or other effects.
Immune System Evasion: Some nanotechnologies are designed to evade the immune system to improve their effectiveness for medical treatments (e.g., drug delivery systems). These might not be easily recognized or cleared by lymphocytes or other immune cells.
Overall, while lymphocytes and other immune cells can respond to some foreign materials, they are not specifically equipped to cleanse the blood of all types of nanotechnology. The interaction between the immune system and nanotechnology is a complex and evolving field of study, and ongoing research is investigating how to manage these interactions effectively for medical and technological applications.
How long will it take lymphocytes to degrade on a glass blood slide?
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The degradation of lymphocytes on a glass blood slide depends on several factors, including environmental conditions such as temperature, humidity, and exposure to light. In general, here's what happens:
Immediate Changes: Once blood is placed on a glass slide and exposed to air, lymphocytes and other cells start to undergo changes almost immediately. This includes the drying out of the sample and potential damage to the cell membranes.
Minutes to Hours: Within minutes to hours, lymphocytes will begin to degrade. The exact time frame can vary. For example:
Morphological Changes: Cells will start to lose their normal shape and structure. The cytoplasm may shrink, and the nucleus may become less distinct.
Staining and Fixation: If a stain (such as Wright-Giemsa) is applied, it can help preserve the cells temporarily, allowing for better visualization under a microscope. However, even with staining, the cells are still degrading at a molecular level.
Beyond a Few Hours: After several hours, especially if the slide is not properly fixed and stored, significant degradation will have occurred. The cells will lose most of their structural integrity and become increasingly difficult to identify. Enzymatic breakdown and autolysis (self-digestion by cellular enzymes) will contribute to this process.
Long-Term Degradation: Without proper preservation, lymphocytes on a slide will continue to degrade over the course of a day or more, eventually becoming unrecognizable.
To preserve lymphocytes and other cells on a blood slide for extended periods, laboratory techniques such as fixation (using chemicals like methanol) and proper storage (in cool, dark, and dry conditions) are used. Fixatives help to cross-link proteins and stabilize cellular structures, thereby slowing down the degradation process and allowing for longer-term examination and analysis of the cells.
So in this slide a swarm of lymphocytes attacking what ever these objects are they are surrounding. Or are these nano objects attracting the lymphocytes to destroy them? Note there not on the edge of the slide and are in the blood plasma and there color is on the dark side. Partial Darkfield 250X. RR
Here is another example to ask the same question who or what is doing the attacking? Darkfield 250X. Its clear the red blood cells are in the backgound. The hydrogel along with the Lymphocytes and this nano object clearly above the red blood cells. RR
Here is another example Partial Darkfield 250X a swarm of Lymphocytes surrounding a Nano Object,,, Crystal,,, Polomer? It appears 3D. RR
What are these Nano objects floating in the blood? Darkfield 250X The one on the left rectangular 3D and on the right Hydrogel? Bubbles are round these objects could start out being round and then take on other geometric shapes. Hydrogel is a intellegent shape shifter. Note the red blood cells have degraded the rectangular object No. WHY? One type of Hydrogel shape shifts into fractals and the other NO. RR
I just took this pic 24 days after blood draw. These cant be Lymphocytes. They degrade in hours on a slide. These have not. Or are they a new Lymphocytes white blood cell that has been brought on the seen ny evolution to attack all this nano technology that is in everything. RR
i am seeing exacly the same it is a transformation of our blood in a synthetic lifevorm
i am seeing exacly the same it is a transformation of our blood in a synthetic lifevorm