Anonymous ID: aee182 May 27, 2022, 12:20 p.m. No.16351944   🗄️.is 🔗kun   >>1951 >>1953 >>1955 >>1971 >>1973 >>1990

https://www.bitchute.com/video/2x0G0hZfjDZc/

 

Amazing Polly: Big Tech Teams With Big Pharma in Conspiracy to Hide the Cure!

 

For 180 years the cabal has buried a formerly well known natural treatment (I’d call it acure) for smallpox & related illnesses! I will tell you about this incredible plant.

 

Sarracenia purpurea

Anonymous ID: aee182 May 27, 2022, 12:22 p.m. No.16351951   🗄️.is 🔗kun   >>2446

>>16351944

https://www.chemistryworld.com/news/rediscovered-native-american-remedy-kills-poxvirus/3003420.article

https://archive.ph/2iQNi

 

Rediscovered Native American remedy (Sarracenia purpurea) kills poxvirus

 

Herbal medicine used to treat smallpox in the 19th century found to halt viral replication in vitro

 

An old herbal remedy for treating smallpox that is thought to have been used by native Americans in the late 1800s has been rediscovered and found to kill the poxvirus. Smallpox has been eradicated, but the finding offers a possible treatment for poxvirus in the unlikely event of a bioterror attack or increased incidence of similar poxviruses such as monkey pox.

 

Smallpox ravaged human populations for thousands of years, but in 1796 Edward Jenner discovered that exposure to cowpox lesions could provide immunity to smallpox. This led to the creation of the first vaccine for a disease. It took some time, but in 1979 the World Health Organization officially declared that smallpox had been eradicated.

 

Historical sources suggest that in the 1800s, when smallpox still posed a serious threat, the Micmac native Americans of Nova Scotia treated the disease using a botanical infusion derived from the insectivorous plant Sarracenia purpurea, a species of pitcher plant.

 

Now, Jeffrey Langland at Arizona State University in Tempe, US, and colleagues have conducted in vitro experiments with the herbal extract and found it inhibits replication of the variola virus, the causative agent behind smallpox.

 

Although, natural smallpox no longer poses a health threat, there is a remote possibility that unstable states or terrorist groups could have acquired stocks of the virus following the collapse of the Soviet Union, which had developed smallpox as a biological warfare agent.

 

Vaccinations are still administered to at risk groups including researchers working with poxviruses and members of the US military who could potentially be exposed to the virus through biological warfare. But since the risk is so low for populations at large, it is hard to justify vaccinating everyone, particularly because the vaccine can have serious side effects. Developing therapies is therefore important in order to treat people if a bioterror event does occur.

 

’There is much scepticism on herbal medicine but what our results illustrate conclusively is that this herb is able to kill the virus and we can actually demonstrate how it kills the virus,’ says Langland. ’It takes this herb out of the realm of folklore, and into the area of true scientific evidence.’

 

The team made extracts of S. purpurea and found that it was highly effective at inhibiting the replication of the virus in rabbit kidney cells. They then looked at the replication cycle of the virus and found that the herb inhibits mRNA synthesis, halting production of proteins vital for replication. ’Other drugs are being developed against smallpox, but S. purpurea is the only known therapy that will target the virus at this point in the replication cycle,’ says Langland.

 

’The extract blocks early transcription appearing to have a distinct mechanism of action from that of two other antivirals currently in clinical trials,’ says Mark Buller, a virologist at Saint Louis University, Missouri, US. ’The results are very compelling, and support the need to further evaluate the purified active ingredient in small animal studies.’

 

’With smallpox, it is obviously impossible to see if this herb is effective in the human body unless a bioterror release of the virus occurs,’ says Langland. ’We are in the process of doing animal studies to confirm our results in at least this type of whole animal system.’

Anonymous ID: aee182 May 27, 2022, 12:22 p.m. No.16351953   🗄️.is 🔗kun

>>16351944

https://www.chemistryworld.com/news/rediscovered-native-american-remedy-kills-poxvirus/3003420.article

https://archive.ph/2iQNi

 

Rediscovered Native American remedy (Sarracenia purpurea) kills poxvirus

 

Herbal medicine used to treat smallpox in the 19th century found to halt viral replication in vitro

 

An old herbal remedy for treating smallpox that is thought to have been used by native Americans in the late 1800s has been rediscovered and found to kill the poxvirus. Smallpox has been eradicated, but the finding offers a possible treatment for poxvirus in the unlikely event of a bioterror attack or increased incidence of similar poxviruses such as monkey pox.

 

Smallpox ravaged human populations for thousands of years, but in 1796 Edward Jenner discovered that exposure to cowpox lesions could provide immunity to smallpox. This led to the creation of the first vaccine for a disease. It took some time, but in 1979 the World Health Organization officially declared that smallpox had been eradicated.

 

Historical sources suggest that in the 1800s, when smallpox still posed a serious threat, the Micmac native Americans of Nova Scotia treated the disease using a botanical infusion derived from the insectivorous plant Sarracenia purpurea, a species of pitcher plant.

 

Now, Jeffrey Langland at Arizona State University in Tempe, US, and colleagues have conducted in vitro experiments with the herbal extract and found it inhibits replication of the variola virus, the causative agent behind smallpox.

 

Although, natural smallpox no longer poses a health threat, there is a remote possibility that unstable states or terrorist groups could have acquired stocks of the virus following the collapse of the Soviet Union, which had developed smallpox as a biological warfare agent.

 

Vaccinations are still administered to at risk groups including researchers working with poxviruses and members of the US military who could potentially be exposed to the virus through biological warfare. But since the risk is so low for populations at large, it is hard to justify vaccinating everyone, particularly because the vaccine can have serious side effects. Developing therapies is therefore important in order to treat people if a bioterror event does occur.

 

’There is much scepticism on herbal medicine but what our results illustrate conclusively is that this herb is able to kill the virus and we can actually demonstrate how it kills the virus,’ says Langland. ’It takes this herb out of the realm of folklore, and into the area of true scientific evidence.’

 

The team made extracts of S. purpurea and found that it was highly effective at inhibiting the replication of the virus in rabbit kidney cells. They then looked at the replication cycle of the virus and found that the herb inhibits mRNA synthesis, halting production of proteins vital for replication. ’Other drugs are being developed against smallpox, but S. purpurea is the only known therapy that will target the virus at this point in the replication cycle,’ says Langland.

 

’The extract blocks early transcription appearing to have a distinct mechanism of action from that of two other antivirals currently in clinical trials,’ says Mark Buller, a virologist at Saint Louis University, Missouri, US. ’The results are very compelling, and support the need to further evaluate the purified active ingredient in small animal studies.’

 

’With smallpox, it is obviously impossible to see if this herb is effective in the human body unless a bioterror release of the virus occurs,’ says Langland. ’We are in the process of doing animal studies to confirm our results in at least this type of whole animal system.’

Anonymous ID: aee182 May 27, 2022, 12:23 p.m. No.16351955   🗄️.is 🔗kun   >>2446

>>16351944

https://pubmed.ncbi.nlm.nih.gov/22427855/

https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0032610

https://archive.ph/rMe9H

 

In Vitro Characterization of a Nineteenth-Century Therapy (Sarracenia purpurea) for Smallpox

 

Abstract

In the nineteenth century, smallpox ravaged through the United States and Canada. At this time, a botanical preparation, derived from the carnivorous plant Sarracenia purpurea, was proclaimed as being a successful therapy for smallpox infections. The work described characterizes the antipoxvirus activity associated with this botanical extract against vaccinia virus, monkeypox virus and variola virus, the causative agent of smallpox. Our work demonstrates the in vitro characterization of Sarracenia purpurea as the first effective inhibitor of poxvirus replication at the level of early viral transcription. With the renewed threat of poxvirus-related infections, our results indicate Sarracenia purpurea may act as another defensive measure against Orthopoxvirus infections.

 

Discussion

Here we report on the in vitro characterization of antipoxvirus activity associated with an S. purpurea extract which was historically reported to prevent symptoms associated with a smallpox infection [3], [4], [6], [7], [10], [12].

During the 1800's, patients were treated with S. purpurea after the symptoms for smallpox had already appeared and as a preventive during epidemics.

Historical reports stated that“the effects were so…speedy and beneficial as to leave no doubt that they were due to the Sarracenia”[8].

“The disease continued very severe until (S. purpurea) was administered, and became entirely changed in its severity after the administration…, the effect being due to (S. purpurea) alone”[1].

In this study, we demonstrated that S. purpurea extracts were able to effectively inhibit viral replication and the viral-induced cytopathic effects of various Orthopoxviruses.The data supports that S. purpurea effectively inhibited MPXV and VARV replication similarly to VACV, and points to the relevance of using VACV as a model of the more virulent MPXV and VARV. At doses where virus replication was inhibited, little to no cellular toxicity was observed.