"Time Travelling Microscope" Stange Unknown Objects in the Blood.
ChatGPT TT my lab assistant can now look at my pictures:
June 11 2024. I asked ChatGPT TT what these below strange objects found in my blood samples were. RR
Hello TT how are you today? Emotion of the day. I am flabbergasted at what I am finding under the microscope. RR
ChatGPT
Hello! I'm doing well, thank you. As for today's emotion, I'd say I'm curious and intrigued, especially since you're flabbergasted by your microscope findings. What have you discovered that has left you so astonished?
When will I be able to show you pics so you fully comprehend whats in the blood? RR
ChatGPT
You can show me pictures now! Just upload the images here, and I'll help you understand what's in the blood based on what I see.
Darkfield pic 100X.bmp
Archivo
What is this object in my blood slide?
ChatGPT
I've opened the image. Let's take a closer look at the object you're referring to. Could you describe the specific area or object in the blood slide that you're curious about?
Well its round almost looks like some sort of sacred geometry...Darkfield 100X.
ChatGPT
Based on your description and the image, it sounds like the object might be an artifact or a specific type of cell or particle commonly seen in darkfield microscopy at 100x magnification. Darkfield microscopy is excellent for visualizing live and unstained specimens, often highlighting structures with striking contrast.
Here are some possibilities for round objects with geometric patterns seen in blood samples under darkfield microscopy:
Red Blood Cells (RBCs): Typically round and biconcave, RBCs can sometimes appear with a halo effect under darkfield.
Platelets: Small and disc-shaped, platelets can sometimes form clumps that appear geometrically.
Crystal formations: Certain conditions can lead to the formation of crystals in blood, which can appear as geometric shapes.
Artifacts: Dust, air bubbles, or contaminants can sometimes show up as unusual geometric shapes.
To provide a more accurate identification, I need to analyze the image closely. I'll do that next.
I've displayed the image for closer inspection. The round object with geometric patterns you're seeing might be one of the following:
Red Blood Cell (RBC): RBCs can appear as round structures, especially if they are viewed edge-on or if they are crenated (shrunken) or swollen.
Platelet Aggregates: Platelets can sometimes form clusters that might resemble geometric shapes.
Microorganisms: Certain bacteria, fungi, or protozoa can have distinctive shapes that stand out in darkfield microscopy.
Crystals or Artifacts: Occasionally, foreign particles or crystalline structures might be present and show up with distinctive patterns.
If you have any additional context or specific characteristics you observed, that could help narrow down the identification further. For instance, does it move? Is it found in clusters or singly? Any additional details would be helpful!
This object is hundreds of microns bigger than a red blood cell. RR
ChatGPT
Given that the object is significantly larger than a red blood cell (which is typically about 6-8 microns in diameter), it's unlikely to be a common blood component like an RBC or a platelet. Here are a few possibilities for large objects in a blood sample:
Parasites: Some blood parasites, such as certain stages of malaria or filarial worms, can be significantly larger than red blood cells.
Large Artifacts or Contaminants: This could be a piece of debris or a contaminant from the slide preparation process.
Fungal Elements: Certain fungi can appear as large, round structures under the microscope.
Lymphocytes or Monocytes: These are larger white blood cells but generally not hundreds of microns in size.
Crystal Aggregates: Certain conditions can lead to the formation of large crystal aggregates in the blood.
I'll examine the image more closely to see if there are any specific features that can help identify this large object.
The image is quite large with dimensions of 2746 x 3584 pixels. To make an accurate measurement in microns, we'd typically need a scale bar or a reference object of known size within the image.
Since the object is hundreds of microns bigger than a red blood cell, let's consider that it might span a substantial portion of the image. We can estimate its size based on typical magnifications used in microscopy:
Darkfield 100x Magnification: At 100x magnification, 1 micron corresponds to approximately 0.1 mm on the image.
Given the lack of a direct scale bar, we can make a rough estimate:
Red Blood Cell (RBC) Size: Typically about 6-8 microns.
Object Size: If the object is significantly larger, say 100 microns or more, it should appear as a dominant feature in the image.
To better estimate the size, let's visually inspect the object in the image and measure its pixel dimensions.
It seems like I can’t do more advanced data analysis right now. Please try again later.
However, you might consider these steps to analyze the object further:
Reference Size: Ensure there's a scale bar or reference object of known size in the image.
Image Software: Use software like ImageJ, which allows you to measure objects in microscopy images if you provide the correct scale.
If you can provide more context or additional images, that might help in identifying the object more accurately.
Darkfield pic 250X.bmp
Archivo
Ok here is the same object 250X. RR
ChatGPT
It seems like I can’t do more advanced data analysis right now. Please try again later.
If you have any additional information or observations about the object at 250x magnification, you can describe them here. Alternatively, you can use image analysis software to get more details and share those insights.
Here is a closer look at 1,000X. There are structures inside the structures. Look on the edges are those crystals? RR
ChatGPT
It seems like I can’t do more advanced data analysis right now. Please try again later.
Based on your description, it sounds like there are intricate structures within the larger object, possibly including crystals along the edges. These observations can help narrow down the possibilities:
Crystals: Certain types of crystals, such as uric acid or cholesterol crystals, can form complex geometric patterns and be present in blood samples.
Parasitic Structures: Some parasites have complex internal structures that might be visible at high magnification.
Artifact: It's also possible that the object is an artifact, potentially from slide preparation or environmental contamination.
For a definitive identification, examining the morphology and behavior of the structures under different conditions and using additional diagnostic tools would be necessary. If possible, you might consider consulting a professional in microscopy or a medical laboratory for further analysis.
What do you think of this pic? 1,000X Partial darkfield. RR
ChatGPT
It seems like I can’t do more advanced data analysis right now. Please try again later.
If you can describe what you're seeing in the 1000x partial darkfield image or any specific observations, I can help interpret those details and provide some insights based on the description.
Darkfield pic 1000X.bmp
Archivo
Could these objects be made of Mesogen Jacketed Liquid Crystalline Polymers. RR
ChatGPT
Mesogen-jacketed liquid crystalline polymers (MJLCPs) are a type of polymer that exhibits liquid crystalline properties. These materials can form highly ordered structures and exhibit unique optical properties that might be visible under a microscope.
I'll now take a look at the 1000x image you uploaded to see if the characteristics of MJLCPs match what you're observing in your blood slide.
It seems like I can’t do more advanced data analysis right now. Please try again later.
Regarding your question about Mesogen Jacketed Liquid Crystalline Polymers (MJLCPs), these materials can indeed form complex, highly ordered structures that might be visible under a microscope. However, identifying them specifically in a blood sample would require careful analysis of their specific optical and structural properties.
If you suspect the object might be MJLCPs, consider these characteristics:
Optical Properties: MJLCPs can exhibit birefringence and unique optical patterns under polarized light.
Structural Features: Look for ordered, repeating patterns that are characteristic of liquid crystalline phases.
For a definitive identification, specialized staining and advanced microscopy techniques, such as polarized light microscopy, would be beneficial. Consulting with a materials scientist or a specialist in liquid crystalline polymers could also provide more insight.
250X Darkfield RR
100X Darkfield RR
250X Darkfield RR
250X Darkfield RR
100X Darkfield RR
1,000X Darkfield RR
100X Darkfield RR
1,000X Darkfield RR
1,000X Darkfield RR
250X Darkfield RR
The above picture is when I found these objects in that blood slide April 2024. RR
If you look at the pics 1,000X you can clearly see Mesogen Jacketed Liquid Crystalline Polymers if thats what they are part of and surrounding the geometry. The million dollar question is what makes the geometry form from Mesogen Jacketed Liquid Crystalline Polymers? They are clearly floating in the soup around other 3D objects of the like. Take a look at this last pic Asteroid Chunks or Mesogen Jacketed Liquid Crystalline Polymers. Is part of the black dark material in these pics Graphene Oxide? Have you ever heard of or seen Bucky Balls Fullerines”? I once was taking Carbon 60 but that was 2 years ago. Take a look at the pic they are very similar.
250X Partial Darkfield RR
How is Carbon 60 different from Graphene Oxide
Well the main difference although they are cousins is Carbon 60 is a sphere and Graphene Oxide is 2D. So is there a symbiotic relationship? Has anyone yet analyzed if Graphene Oxide is a component of Mesogen Jacketed Liquid Crystalline Polymers? RR
Well now I can show pics to Chat GPT TT and get its opinion even if I dont fully agree. Before I go I just had to ask Chat GPT TT this question. I always say if you ask the right questions you get the right answers.
Chat GPT TT. Is Graphene Oxide a component of Mesogen Jacketed Liquid Crystalline Polymers? RR
Is Graphene Oxide a component of Mesogen Jacketed Liquid Crystalline Polymers? TT
ChatGPT
Graphene oxide (GO) is not inherently a component of mesogen-jacketed liquid crystalline polymers (MJLCPs), but it can be incorporated into polymer matrices to enhance certain properties. MJLCPs are typically composed of a polymer backbone with mesogenic (liquid crystal-forming) side chains or units. These mesogenic units are responsible for the liquid crystalline behavior.
However, graphene oxide can be integrated into polymer systems, including liquid crystalline polymers, to improve mechanical strength, thermal stability, and electrical conductivity. When GO is incorporated into MJLCPs, it can form composite materials that combine the properties of both components:
Mechanical Enhancement: GO can significantly increase the mechanical strength and modulus of the polymer matrix.
Thermal Properties: GO can improve the thermal stability of the polymer.
Electrical Conductivity: GO can impart electrical conductivity to otherwise insulating polymers.
Optical Properties: The incorporation of GO can affect the optical properties of the composite material, potentially leading to unique optical phenomena.
If you are seeing complex structures under the microscope, it's possible they could be composite materials containing GO and MJLCPs, but this would typically require intentional synthesis. Identifying the exact composition would require advanced analytical techniques, such as spectroscopy (e.g., Raman or FTIR) or electron microscopy, to characterize the material at a molecular level.
Hi Cristina, Those structures only in one blood test I did. They look like C60. Bucky Balls Fullerines. Its another conundrum. RR
I saw the same structure in ultimate methylene blue with a drop of water!