“More than vaccines, medical care..it’s contraceptive’s they want”. I’m pretty sure they want clean water, freedom, a living wage etc. What the Gates & Schwabs etc are going to give them is promotion and access to abortions under the guise of “family planning”. Just as Canada is pushing euthanasia as a first step solution to problems, abortion will be the agenda in these countries, “for the good of the unborn child”, you know, to keep it from dying later. Wealthy, powerful people doing evil things..they will meet their Maker one day, nothing is hidden from His sight. I pray they repent before it is too late.
Do you have any info if these graphene particles are gonna get inside our private organs and wreck them for good? That would surely be an enduring family planning.
Gates’ Graphene condom is gonna make the 21,000 J&J’s talc ovarian cancer victims seem small in number as Gates and his foundation will be distributing them worldwide.
Cytotoxicity of Formulated Graphene and Its Natural Rubber Nanocomposite Thin Film in Human Vaginal Epithelial Cells: An Influence of Noncovalent Interaction
Graphene family materials (GFMs) are extensively explored for various biomedical applications due to their unique physical properties. The prime challenge is to establish a conclusive safety profile of these nanomaterials and their respective products or devices. Formulating GFMs with appropriate ingredients (e.g., surfactant/compatibilizer) will help to disperse them homogeneously (i.e., within the polymer matrix in the case of polymer–graphene nanocomposites) and aid in good interfacial interaction to achieve the desired properties. However, no cytotoxicity report is available on the effects of the additives on graphene and its incorporated materials. Here, we report in vitro cytotoxicity of formulated FLG (FLG-C), i.e., a mixture of FLG, melamine, and sodium poly(naphthalene sulfonate) (SPS), along with natural rubber (NR) latex and FLG-C-included NR latex nanocomposite (FLG-C-NR) thin films on human vaginal epithelial (HVE) cells. FLG-C shows reduced cellular proliferation (∼55%) only at a longer exposure time (72 h) even at a low concentration (50 μg/mL). It also displays significant down- and upregulation in mitochondrial membrane potential (MMP) and reactive oxygen species (ROS), respectively, whereas no changes are observed in lactate dehydrogenase (LDH), propidium iodide (PI), uptake, and cell cycle analysis at 48 h. In vitro experiments on NR latex and FLG-C-NR latex thin films demonstrate that the incorporation of FLG-C does not compromise the biocompatibility of the NR latex. Further substantiation from the in vivo experiments on the thin films recommends that FLG-C could be suitable to prepare a range of biocompatible rubber latex nanocomposites-based products, viz., next-generation condoms (male and female), surgical gloves, catheters, vaginal rings, bladder–rectum spacer balloon, etc.
For up to 48 h, no cytotoxicity is detected even for the highest concentration [1000(242) μg/mL] of FLG-C (FLG), but at longer exposure time (72 h), even the smallest content [50(12) μg/mL] provokes the cytotoxicity.
In fact, these studies are usually so short (2-3days???), but even if so, the obvious toxicity is there.
Nanotechnology/nanomaterials are another new emerging field with unique physicochemical properties that have the potential to improve the limitations of biomedical applications including those with antimicrobial and drug delivery properties.[73,74] The disruptions of pathogens’ infectivity through the broad-spectrum activities of nanoparticles with antimicrobial properties can play a significant role in decreasing infectious contact, chain transmission, and spread of diseases, including STIs. The development of nanocomposite stable condoms coated with antimicrobials that are able to sustain, augment, and inactivate mucosal surfaces from sustaining HIV and STIs during (anal/vaginal) sexual intercourse activities has opened up another dimension of molecular prevention of STIs. These nanoparticle antimicrobials are functionalized on the condoms in such a way that they cannot be washed by mucosal surfaces of anal or vagina secretions but provide a sustained release at the mucosal surfaces during usage.[15,75] The nanotechnology condom may be another innovation that will greatly overtake the mechanical suppression of HIV and augment ART outcomes in mucosal surfaces of anal and vaginal secretions. The reinforcement of the condom by coating with stable antimicrobial nanoparticles may play a significant role in reducing condom breakage and slippage during sexual activities. There are reports[76] that nanoparticles, including those consisting of carbon nanotubes, have demonstrated excellent antimicrobial, elastic, mechanical, and reinforcement polymer nanocomposite properties.[77]
Microbicides and nanotechnology
Microbicides are vaginal or rectal antimicrobial gels that are used to prevent STIs.[57,58] Several clinical trials have shown microbicides’ potential prevention of STIs, including HIV as well as pregnancy.[5,58,59] They come in various types including gels, creams, films, sponges, and suppositories all containing active antimicrobial agents.[57,59] They are usually inserted before intercourse[57] and some of them are formulated with a nanotechnology background, especially the Viva Gel™ (SPL7013).[5] The SPL7013 is functionalized with dendrimer that offers anti-HIV and anti-herpes simplex virus (HSV) activity, with a well-tolerated minimal in vitro and in vivo health effect.[5] The limitation of microbicides is that they are target specific; however, broad-spectrum microbicides can provide a wide range of antimicrobial activities.[58] Condoms on the other hand can provide protection likely to all types of STIs.[24]
The application of nanotechnology provides a wide range of support, including targeted, slow and sustained release of vaginal microbicides.[5] The combination of nanoparticles with microbicides and condom usage will provide extra prevention of STIs and other related health consequences. Without condoms, microbicides can offer both primary protection but in conjunction with condoms they can provide back-up protection if a condom breaks, leaks, or slips off during sexual activities.[57,59]
Nanoparticles such as gold, quantum dots, silver, zinc, iron, platinum, magnesium oxide, titanium, and copper have the potential to be used in various biomedical applications of drug delivery, and antimicrobial and diagnostic tests applications.[73,76,77,78,79] Among these silver nanoparticles[15] and to a lesser extent, gold[79] and carbon nanotubes[76] have received greater attention as antimicrobial agents. In addition, AgNPs have been demonstrated to bind to HIV-CD4 sites, thereby preventing HIV-CD4-mediated fusion, and thus disrupting viral replication processes.[80] The development of antimicrobial nanoparticles-coated condom as indicated in Figure 2 will provide additional protection against STIs. For example, AgNPs-coated polyurethane condom has been developed by Mohammed Fayaz et al.[15] with no significant effect on human HeLa and C8166 T-cell lines. Their findings showed that these condoms can effectively destroy HIV-1 and HSV-1/2.[15] The AgNPs were shown to inhibit HIV-1 and HSV-1/2, together with bacteria and fungi, thereby providing another line of microbial defense. The AgNP-coated polyurethane condom therefore provides multiprotection: it ensures disruption of the infectivity of the STI pathogen and prevention of both attachment to CD4 cells and transmission of HIV on mucosal surfaces during sexual intercourse.[15,60,80] These findings thus indicate that this emerging field of nanoparticle-coated condoms can augment and overcome the current treatment limitations regarding some STIs on mucosal surfaces during sexual intercourse.
Previous research studies with respect to innovative approaches indicate that antimicrobial nanoparticle-coated condoms have great qualities of nonspecific broad-spectrum antimicrobial properties against viruses, bacteria, and fungi.[16] In addition to preventing HIV transmission, they potentially destroy secreted HIV and other STIs in anal and vaginal fluid during sexual activities, thus reducing HIV and STIs transmission.[15,16] The antimicrobial nanoparticle-coated condoms, thus, perform a dual role of preventing HIV and other STIs’ transmissions, including inactivating the infectiousness of HIV and other STIs pathogens.[16] These antimicrobial broad-spectrum properties are due to the vast physiochemical properties of the nanoparticles imparted onto the condom and also the slow release of antimicrobial agents, thus maintaining a sustained action.[17] For example, silver nanoparticle (AgNP)-coated antimicrobial condoms have extensive physiochemical properties that impart broad-spectrum nonspecific antimicrobial actions that are antiviral, antibacterial, and antifungal.[15,16]
It has recently been discovered that most brands use harmful toxins in the production of condoms! These condoms contain a host of chemicals including spermicides, parabens, benzocaine and glycerine, just to name a few. So, even though condoms are made of natural latex, the addition of these petro-chemicals and preservatives have varied harmful effects on the human body.
Let’s take a closer look at these harmful effects that each of the chemicals produce in our bodies.
1) Spermicides – These chemicals basically act in killing the sperm and preventing STD’s, which is a good thing. However, most spermicides contain nonoxynol-9, a volatile chemical that can kill skin cells in the vagina and rectal wall, thus increasing the chances of contracting an STD or urinary tract infection in the long run. Isn’t that a wonderful irony! On one hand, the chemical helps prevent unwanted pregnancies and guards against STDs, but on the other end of the spectrum, they may also lead you into contracting an STD or other genital infections over time!
2) Parabens – Primarily used in the prevention of bacterial growth, parabens are a group of chemical preservatives commonly used in cosmetics and pharmaceuticals. They are found to mimic estrogen and can cause estrogen misbalance in the human body. It has also been widely acknowledged that breast cancer tissues also contain parabens. Although the FDA still categorizes parabens to be perfectly safe if exposed to in low levels, the EU has banned its use completely, citing the fact that cumulative exposure to parabens from various sources can cause serious health problems.
3) Benzocaine – Benzocaine is a local anesthetic used in condoms as a numbing agent to reduce physical stimulation and delay a man’s climax. Now, the fact is that this chemical doesn’t really make much of a difference in prolonging a man’s stamina during intercourse. Instead, it has been reported to cause itching, swelling, sweating and dizziness in men. Ultimately, benzocaine doesn’t really meet its intended usage and rather ends up being just one of the many chemicals your body has to deal with.
4) Glycerine – Glycerine is used in condoms as a lubricant. While glycerine has no connection with glycerol (a type of sugar), it can transform into a sugar if left in the vagina for too long and eventually throw off your body’s pH balance, thus increasing your chances of contracting a yeast infection.
You see, this is why I encouraged you to start up your Substack. You are indispensable and, of course, admirable (it doesn't matter that you and I don't always agree on everything; that is only a mark of two intelligent and responsible thinkers :) ).
Actually, the author is much more knowledgeable about the technology; she has written a number of articles on the subject. I hoped to receive an answer from her. :)
In response to your question, no, I was not referring to that, but I'm interested.
guess the graphene dildo is next
It never flipping ends. NEVER.
Spermicidal condoms are pesticide coated.
This living hell had been perpetrated into/onto us for so long
“More than vaccines, medical care..it’s contraceptive’s they want”. I’m pretty sure they want clean water, freedom, a living wage etc. What the Gates & Schwabs etc are going to give them is promotion and access to abortions under the guise of “family planning”. Just as Canada is pushing euthanasia as a first step solution to problems, abortion will be the agenda in these countries, “for the good of the unborn child”, you know, to keep it from dying later. Wealthy, powerful people doing evil things..they will meet their Maker one day, nothing is hidden from His sight. I pray they repent before it is too late.
As a woman, it’s not an option. Black goo repackaged. Gates evil just never stops!
Will one fit over Bill Gates Head....
Do you have any info if these graphene particles are gonna get inside our private organs and wreck them for good? That would surely be an enduring family planning.
Nano particles get absorbed at the cellular level. Graphene IS cytotoxic: https://pubmed.ncbi.nlm.nih.gov/29495255/
Gates’ Graphene condom is gonna make the 21,000 J&J’s talc ovarian cancer victims seem small in number as Gates and his foundation will be distributing them worldwide.
Gross
Just that mug and your a limp dick, in no need of a condom.
Reading the Executive Order from the Biden White House is like reading the script of a horror movie. They want to place technology within us and the more GO in our bodies the better. https://www.whitehouse.gov/briefing-room/presidential-actions/2022/09/12/executive-order-on-advancing-biotechnology-and-biomanufacturing-innovation-for-a-sustainable-safe-and-secure-american-bioeconomy/
Wonder if he provided them to his buddy Jeffrey Epstein, or used them on his visits to Epstein Island?
Wish we had a world wide condom to protect us from this Gates prick
What does the product entail? Any consequences?
YES, OF COURSE, Just some FYI
https://pubs.acs.org/doi/full/10.1021/acsbiomaterials.9b01897
Cytotoxicity of Formulated Graphene and Its Natural Rubber Nanocomposite Thin Film in Human Vaginal Epithelial Cells: An Influence of Noncovalent Interaction
Graphene family materials (GFMs) are extensively explored for various biomedical applications due to their unique physical properties. The prime challenge is to establish a conclusive safety profile of these nanomaterials and their respective products or devices. Formulating GFMs with appropriate ingredients (e.g., surfactant/compatibilizer) will help to disperse them homogeneously (i.e., within the polymer matrix in the case of polymer–graphene nanocomposites) and aid in good interfacial interaction to achieve the desired properties. However, no cytotoxicity report is available on the effects of the additives on graphene and its incorporated materials. Here, we report in vitro cytotoxicity of formulated FLG (FLG-C), i.e., a mixture of FLG, melamine, and sodium poly(naphthalene sulfonate) (SPS), along with natural rubber (NR) latex and FLG-C-included NR latex nanocomposite (FLG-C-NR) thin films on human vaginal epithelial (HVE) cells. FLG-C shows reduced cellular proliferation (∼55%) only at a longer exposure time (72 h) even at a low concentration (50 μg/mL). It also displays significant down- and upregulation in mitochondrial membrane potential (MMP) and reactive oxygen species (ROS), respectively, whereas no changes are observed in lactate dehydrogenase (LDH), propidium iodide (PI), uptake, and cell cycle analysis at 48 h. In vitro experiments on NR latex and FLG-C-NR latex thin films demonstrate that the incorporation of FLG-C does not compromise the biocompatibility of the NR latex. Further substantiation from the in vivo experiments on the thin films recommends that FLG-C could be suitable to prepare a range of biocompatible rubber latex nanocomposites-based products, viz., next-generation condoms (male and female), surgical gloves, catheters, vaginal rings, bladder–rectum spacer balloon, etc.
For up to 48 h, no cytotoxicity is detected even for the highest concentration [1000(242) μg/mL] of FLG-C (FLG), but at longer exposure time (72 h), even the smallest content [50(12) μg/mL] provokes the cytotoxicity.
In fact, these studies are usually so short (2-3days???), but even if so, the obvious toxicity is there.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5875119/
Condom and nanotechnology
Nanotechnology/nanomaterials are another new emerging field with unique physicochemical properties that have the potential to improve the limitations of biomedical applications including those with antimicrobial and drug delivery properties.[73,74] The disruptions of pathogens’ infectivity through the broad-spectrum activities of nanoparticles with antimicrobial properties can play a significant role in decreasing infectious contact, chain transmission, and spread of diseases, including STIs. The development of nanocomposite stable condoms coated with antimicrobials that are able to sustain, augment, and inactivate mucosal surfaces from sustaining HIV and STIs during (anal/vaginal) sexual intercourse activities has opened up another dimension of molecular prevention of STIs. These nanoparticle antimicrobials are functionalized on the condoms in such a way that they cannot be washed by mucosal surfaces of anal or vagina secretions but provide a sustained release at the mucosal surfaces during usage.[15,75] The nanotechnology condom may be another innovation that will greatly overtake the mechanical suppression of HIV and augment ART outcomes in mucosal surfaces of anal and vaginal secretions. The reinforcement of the condom by coating with stable antimicrobial nanoparticles may play a significant role in reducing condom breakage and slippage during sexual activities. There are reports[76] that nanoparticles, including those consisting of carbon nanotubes, have demonstrated excellent antimicrobial, elastic, mechanical, and reinforcement polymer nanocomposite properties.[77]
Microbicides and nanotechnology
Microbicides are vaginal or rectal antimicrobial gels that are used to prevent STIs.[57,58] Several clinical trials have shown microbicides’ potential prevention of STIs, including HIV as well as pregnancy.[5,58,59] They come in various types including gels, creams, films, sponges, and suppositories all containing active antimicrobial agents.[57,59] They are usually inserted before intercourse[57] and some of them are formulated with a nanotechnology background, especially the Viva Gel™ (SPL7013).[5] The SPL7013 is functionalized with dendrimer that offers anti-HIV and anti-herpes simplex virus (HSV) activity, with a well-tolerated minimal in vitro and in vivo health effect.[5] The limitation of microbicides is that they are target specific; however, broad-spectrum microbicides can provide a wide range of antimicrobial activities.[58] Condoms on the other hand can provide protection likely to all types of STIs.[24]
The application of nanotechnology provides a wide range of support, including targeted, slow and sustained release of vaginal microbicides.[5] The combination of nanoparticles with microbicides and condom usage will provide extra prevention of STIs and other related health consequences. Without condoms, microbicides can offer both primary protection but in conjunction with condoms they can provide back-up protection if a condom breaks, leaks, or slips off during sexual activities.[57,59]
Nanoparticles such as gold, quantum dots, silver, zinc, iron, platinum, magnesium oxide, titanium, and copper have the potential to be used in various biomedical applications of drug delivery, and antimicrobial and diagnostic tests applications.[73,76,77,78,79] Among these silver nanoparticles[15] and to a lesser extent, gold[79] and carbon nanotubes[76] have received greater attention as antimicrobial agents. In addition, AgNPs have been demonstrated to bind to HIV-CD4 sites, thereby preventing HIV-CD4-mediated fusion, and thus disrupting viral replication processes.[80] The development of antimicrobial nanoparticles-coated condom as indicated in Figure 2 will provide additional protection against STIs. For example, AgNPs-coated polyurethane condom has been developed by Mohammed Fayaz et al.[15] with no significant effect on human HeLa and C8166 T-cell lines. Their findings showed that these condoms can effectively destroy HIV-1 and HSV-1/2.[15] The AgNPs were shown to inhibit HIV-1 and HSV-1/2, together with bacteria and fungi, thereby providing another line of microbial defense. The AgNP-coated polyurethane condom therefore provides multiprotection: it ensures disruption of the infectivity of the STI pathogen and prevention of both attachment to CD4 cells and transmission of HIV on mucosal surfaces during sexual intercourse.[15,60,80] These findings thus indicate that this emerging field of nanoparticle-coated condoms can augment and overcome the current treatment limitations regarding some STIs on mucosal surfaces during sexual intercourse.
Previous research studies with respect to innovative approaches indicate that antimicrobial nanoparticle-coated condoms have great qualities of nonspecific broad-spectrum antimicrobial properties against viruses, bacteria, and fungi.[16] In addition to preventing HIV transmission, they potentially destroy secreted HIV and other STIs in anal and vaginal fluid during sexual activities, thus reducing HIV and STIs transmission.[15,16] The antimicrobial nanoparticle-coated condoms, thus, perform a dual role of preventing HIV and other STIs’ transmissions, including inactivating the infectiousness of HIV and other STIs pathogens.[16] These antimicrobial broad-spectrum properties are due to the vast physiochemical properties of the nanoparticles imparted onto the condom and also the slow release of antimicrobial agents, thus maintaining a sustained action.[17] For example, silver nanoparticle (AgNP)-coated antimicrobial condoms have extensive physiochemical properties that impart broad-spectrum nonspecific antimicrobial actions that are antiviral, antibacterial, and antifungal.[15,16]
https://www.hindawi.com/journals/jnm/2023/2487468/
https://core.ac.uk/download/pdf/187522928.pdf
etc.
This MUST be another article... It is important enough for that.
https://www.naturerx.com/4-toxic-chemicals-found-condoms-can-poison/
It has recently been discovered that most brands use harmful toxins in the production of condoms! These condoms contain a host of chemicals including spermicides, parabens, benzocaine and glycerine, just to name a few. So, even though condoms are made of natural latex, the addition of these petro-chemicals and preservatives have varied harmful effects on the human body.
Let’s take a closer look at these harmful effects that each of the chemicals produce in our bodies.
1) Spermicides – These chemicals basically act in killing the sperm and preventing STD’s, which is a good thing. However, most spermicides contain nonoxynol-9, a volatile chemical that can kill skin cells in the vagina and rectal wall, thus increasing the chances of contracting an STD or urinary tract infection in the long run. Isn’t that a wonderful irony! On one hand, the chemical helps prevent unwanted pregnancies and guards against STDs, but on the other end of the spectrum, they may also lead you into contracting an STD or other genital infections over time!
2) Parabens – Primarily used in the prevention of bacterial growth, parabens are a group of chemical preservatives commonly used in cosmetics and pharmaceuticals. They are found to mimic estrogen and can cause estrogen misbalance in the human body. It has also been widely acknowledged that breast cancer tissues also contain parabens. Although the FDA still categorizes parabens to be perfectly safe if exposed to in low levels, the EU has banned its use completely, citing the fact that cumulative exposure to parabens from various sources can cause serious health problems.
3) Benzocaine – Benzocaine is a local anesthetic used in condoms as a numbing agent to reduce physical stimulation and delay a man’s climax. Now, the fact is that this chemical doesn’t really make much of a difference in prolonging a man’s stamina during intercourse. Instead, it has been reported to cause itching, swelling, sweating and dizziness in men. Ultimately, benzocaine doesn’t really meet its intended usage and rather ends up being just one of the many chemicals your body has to deal with.
4) Glycerine – Glycerine is used in condoms as a lubricant. While glycerine has no connection with glycerol (a type of sugar), it can transform into a sugar if left in the vagina for too long and eventually throw off your body’s pH balance, thus increasing your chances of contracting a yeast infection.
You see, this is why I encouraged you to start up your Substack. You are indispensable and, of course, admirable (it doesn't matter that you and I don't always agree on everything; that is only a mark of two intelligent and responsible thinkers :) ).
https://open.substack.com/pub/outraged/p/graphene-based-fraud?r=15iofs&utm_medium=ios&utm_campaign=post
I am familiar with this part. I'm wondering about the technology used in condoms.
Sorry, are you referring to the rebuilding 2-D and 3-D capability of graphene oxide when heavy metals are added?
Actually, the author is much more knowledgeable about the technology; she has written a number of articles on the subject. I hoped to receive an answer from her. :)
In response to your question, no, I was not referring to that, but I'm interested.
Do you have links? SubStack is such an awesome place to learn.
Links to what?
Sometimes, I am reluctant to put up links, because I want to protect the sources. Here is an example:
https://rayhorvaththesource.substack.com/p/the-horror-the-horror
Still, there are plenty of links, but I'm not sure what you need.
😪