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Military-Backed French Biotech Brings Ricin Antidote
Military-Backed French Biotech Brings Ricin Antidote
France has authorized Ricimed, the first antibody-based treatment specifically indicated for acute ricin intoxication, providing clinicians with a targeted option beyond supportive care for exposure to one of the most lethal naturally occurring toxins.
Fabentech is a French biopharmaceutical company specializing in medical countermeasures against biological threats and infectious diseases.
The polyclonal antibody technology used in the development of Ricimed has received marketing authorization in France as a treatment for ricin poisoning. Ricin is a highly toxic natural substance that can cause death within hours to a few days of exposure.
Supported by the Ministry of Armed Forces and Veterans Affairs (Directorate General of Armaments [DGA] and Armed Forces Health Service) in France, Ricimed is the first approved antidote for ricin poisoning, a condition for which treatment was previously limited to supportive measures alone.
Historical Incident
One incident, in particular, remains etched in espionage history. On September 7, 1978 in London during the Cold War, Bulgarian dissident writer Georgi Markov, living in exile, was struck by the umbrella of a passer-by while waiting at a bus stop. He felt a slight sting. Four days later, he died in the hospital due to a sudden and unexplained illness. An autopsy revealed that he had been poisoned by a tiny metal pellet implanted at the tip of an umbrella containing ricin, a lethal toxin. The legend of the “Bulgarian umbrella,” later invoked in other assassination attempts, was born.
Since then, although Markov remains the only known individual to have been killed by ricin poisoning, this theoretically extremely toxic substance, which can be manufactured relatively easily from castor beans, a widely available plant, has continued to fascinate authors of thrillers and spy novels.
Numerous works of fiction depict characters who succumb to ricin poisoning. The toxin is notably portrayed as a favored weapon of the main character in the hit television series Breaking Bad.
However, ricin is not confined to the realm of science fiction. For several years, authorities in various countries have feared that extremist groups could carry out attacks using ricin. The threat has been taken particularly seriously since 2018, when a clandestine ricin laboratory operated by members of the Islamic State was dismantled in Germany. Since then, several similar attack plots have been thwarted.
This context triggered a race among major powers to develop an effective antidote as quickly as possible. In this effort, Fabentech has risen to a challenge.
“Having demonstrated its ability to target and then neutralize ricin before it causes irreparable damage, Ricimed is a treatment that works based on polyclonal antibodies and compensates for the absence of a vaccine or specific treatment,” Fabentech said in a press release.
The polyclonal antibody technology used by Fabentech offers potential for the development of antidotes against bioterrorist attacks and for the treatment of many infectious diseases.
Ricimed contributed to the deployment of a European health shield against intentional biological threats in France.
Military Backing
Speaking to Le Figaro, France’s oldest national newspaper, Fabentech CEO Sébastien Iva explained that ricin disrupts the body by halting cell function, while noting several other drug candidates in development at the firm.
Typically, the lungs sustain fatal damage. Our treatment interrupts this toxic process. In animals administered the antidote, we observed pulmonary function recovery, allowing survival.
Given that the possibility of terrorist attacks using ricin is considered a national security issue, Fabentech benefited from the support by the Ministry of the Armed Forces and the DGA and lasted nearly a decade of research and development work.
The granting of marketing authorisation was also supported by the French Armed Forces and welcomed by the French Minister of the Armed Forces, Catherine Vautrin, who previously served as France’s Minister of Labour, Health, and Solidarity.
“Supporting the development of companies in France capable of manufacturing antidotes against certain biological agents helps guarantee the operational superiority of our armed forces. Developing and producing such drugs when they do not yet exist on the market is also serving the nation and the public interest,” she said.
Although the threat posed by ricin remains hypothetical, Fabentech reports a strong interest from potential clients, with many countries seeking protection against possible bioterrorist attacks.
The DGA had already placed an order for several doses of Ricimed for deployment in France. For optimal effectiveness, the antidote must be administered within 6 hours of poisoning. Iva confirmed that multiple countries had already expressed interest in acquiring the antidote.
This story was translated from JIM, part of the Medscape Professional Network.
A version of this article first appeared on Medscape.com.
France has authorized Ricimed, the first antibody-based treatment specifically indicated for acute ricin intoxication, providing clinicians with a targeted option beyond supportive care for exposure to one of the most lethal naturally occurring toxins.
Fabentech is a French biopharmaceutical company specializing in medical countermeasures against biological threats and infectious diseases.
The polyclonal antibody technology used in the development of Ricimed has received marketing authorization in France as a treatment for ricin poisoning. Ricin is a highly toxic natural substance that can cause death within hours to a few days of exposure.
Supported by the Ministry of Armed Forces and Veterans Affairs (Directorate General of Armaments [DGA] and Armed Forces Health Service) in France, Ricimed is the first approved antidote for ricin poisoning, a condition for which treatment was previously limited to supportive measures alone.
Historical Incident
One incident, in particular, remains etched in espionage history. On September 7, 1978 in London during the Cold War, Bulgarian dissident writer Georgi Markov, living in exile, was struck by the umbrella of a passer-by while waiting at a bus stop. He felt a slight sting. Four days later, he died in the hospital due to a sudden and unexplained illness. An autopsy revealed that he had been poisoned by a tiny metal pellet implanted at the tip of an umbrella containing ricin, a lethal toxin. The legend of the “Bulgarian umbrella,” later invoked in other assassination attempts, was born.
Since then, although Markov remains the only known individual to have been killed by ricin poisoning, this theoretically extremely toxic substance, which can be manufactured relatively easily from castor beans, a widely available plant, has continued to fascinate authors of thrillers and spy novels.
Numerous works of fiction depict characters who succumb to ricin poisoning. The toxin is notably portrayed as a favored weapon of the main character in the hit television series Breaking Bad.
However, ricin is not confined to the realm of science fiction. For several years, authorities in various countries have feared that extremist groups could carry out attacks using ricin. The threat has been taken particularly seriously since 2018, when a clandestine ricin laboratory operated by members of the Islamic State was dismantled in Germany. Since then, several similar attack plots have been thwarted.
This context triggered a race among major powers to develop an effective antidote as quickly as possible. In this effort, Fabentech has risen to a challenge.
“Having demonstrated its ability to target and then neutralize ricin before it causes irreparable damage, Ricimed is a treatment that works based on polyclonal antibodies and compensates for the absence of a vaccine or specific treatment,” Fabentech said in a press release.
The polyclonal antibody technology used by Fabentech offers potential for the development of antidotes against bioterrorist attacks and for the treatment of many infectious diseases.
Ricimed contributed to the deployment of a European health shield against intentional biological threats in France.
Military Backing
Speaking to Le Figaro, France’s oldest national newspaper, Fabentech CEO Sébastien Iva explained that ricin disrupts the body by halting cell function, while noting several other drug candidates in development at the firm.
Typically, the lungs sustain fatal damage. Our treatment interrupts this toxic process. In animals administered the antidote, we observed pulmonary function recovery, allowing survival.
Given that the possibility of terrorist attacks using ricin is considered a national security issue, Fabentech benefited from the support by the Ministry of the Armed Forces and the DGA and lasted nearly a decade of research and development work.
The granting of marketing authorisation was also supported by the French Armed Forces and welcomed by the French Minister of the Armed Forces, Catherine Vautrin, who previously served as France’s Minister of Labour, Health, and Solidarity.
“Supporting the development of companies in France capable of manufacturing antidotes against certain biological agents helps guarantee the operational superiority of our armed forces. Developing and producing such drugs when they do not yet exist on the market is also serving the nation and the public interest,” she said.
Although the threat posed by ricin remains hypothetical, Fabentech reports a strong interest from potential clients, with many countries seeking protection against possible bioterrorist attacks.
The DGA had already placed an order for several doses of Ricimed for deployment in France. For optimal effectiveness, the antidote must be administered within 6 hours of poisoning. Iva confirmed that multiple countries had already expressed interest in acquiring the antidote.
This story was translated from JIM, part of the Medscape Professional Network.
A version of this article first appeared on Medscape.com.
France has authorized Ricimed, the first antibody-based treatment specifically indicated for acute ricin intoxication, providing clinicians with a targeted option beyond supportive care for exposure to one of the most lethal naturally occurring toxins.
Fabentech is a French biopharmaceutical company specializing in medical countermeasures against biological threats and infectious diseases.
The polyclonal antibody technology used in the development of Ricimed has received marketing authorization in France as a treatment for ricin poisoning. Ricin is a highly toxic natural substance that can cause death within hours to a few days of exposure.
Supported by the Ministry of Armed Forces and Veterans Affairs (Directorate General of Armaments [DGA] and Armed Forces Health Service) in France, Ricimed is the first approved antidote for ricin poisoning, a condition for which treatment was previously limited to supportive measures alone.
Historical Incident
One incident, in particular, remains etched in espionage history. On September 7, 1978 in London during the Cold War, Bulgarian dissident writer Georgi Markov, living in exile, was struck by the umbrella of a passer-by while waiting at a bus stop. He felt a slight sting. Four days later, he died in the hospital due to a sudden and unexplained illness. An autopsy revealed that he had been poisoned by a tiny metal pellet implanted at the tip of an umbrella containing ricin, a lethal toxin. The legend of the “Bulgarian umbrella,” later invoked in other assassination attempts, was born.
Since then, although Markov remains the only known individual to have been killed by ricin poisoning, this theoretically extremely toxic substance, which can be manufactured relatively easily from castor beans, a widely available plant, has continued to fascinate authors of thrillers and spy novels.
Numerous works of fiction depict characters who succumb to ricin poisoning. The toxin is notably portrayed as a favored weapon of the main character in the hit television series Breaking Bad.
However, ricin is not confined to the realm of science fiction. For several years, authorities in various countries have feared that extremist groups could carry out attacks using ricin. The threat has been taken particularly seriously since 2018, when a clandestine ricin laboratory operated by members of the Islamic State was dismantled in Germany. Since then, several similar attack plots have been thwarted.
This context triggered a race among major powers to develop an effective antidote as quickly as possible. In this effort, Fabentech has risen to a challenge.
“Having demonstrated its ability to target and then neutralize ricin before it causes irreparable damage, Ricimed is a treatment that works based on polyclonal antibodies and compensates for the absence of a vaccine or specific treatment,” Fabentech said in a press release.
The polyclonal antibody technology used by Fabentech offers potential for the development of antidotes against bioterrorist attacks and for the treatment of many infectious diseases.
Ricimed contributed to the deployment of a European health shield against intentional biological threats in France.
Military Backing
Speaking to Le Figaro, France’s oldest national newspaper, Fabentech CEO Sébastien Iva explained that ricin disrupts the body by halting cell function, while noting several other drug candidates in development at the firm.
Typically, the lungs sustain fatal damage. Our treatment interrupts this toxic process. In animals administered the antidote, we observed pulmonary function recovery, allowing survival.
Given that the possibility of terrorist attacks using ricin is considered a national security issue, Fabentech benefited from the support by the Ministry of the Armed Forces and the DGA and lasted nearly a decade of research and development work.
The granting of marketing authorisation was also supported by the French Armed Forces and welcomed by the French Minister of the Armed Forces, Catherine Vautrin, who previously served as France’s Minister of Labour, Health, and Solidarity.
“Supporting the development of companies in France capable of manufacturing antidotes against certain biological agents helps guarantee the operational superiority of our armed forces. Developing and producing such drugs when they do not yet exist on the market is also serving the nation and the public interest,” she said.
Although the threat posed by ricin remains hypothetical, Fabentech reports a strong interest from potential clients, with many countries seeking protection against possible bioterrorist attacks.
The DGA had already placed an order for several doses of Ricimed for deployment in France. For optimal effectiveness, the antidote must be administered within 6 hours of poisoning. Iva confirmed that multiple countries had already expressed interest in acquiring the antidote.
This story was translated from JIM, part of the Medscape Professional Network.
A version of this article first appeared on Medscape.com.
Military-Backed French Biotech Brings Ricin Antidote
Military-Backed French Biotech Brings Ricin Antidote
Doctor on Death Row: Ahmad Reza Djalali Begins Hunger Strike
Ahmad Reza Djalali, an Iranian-Swedish physician specializing in disaster medicine, has begun a hunger strike after being sentenced to death in 2017.
Last year, Iran set a grim record, leading the world in executions. The country carried out at least 853 executions, which accounted for three quarters of the officially recorded executions worldwide. The Iranian government uses the death penalty to intimidate political opponents, especially since the women’s uprising in 2022, and to exert pressure on Western states in diplomatic standoffs.
He emigrated to Sweden in 2009 and joined the Karolinska Institutet in Stockholm, Sweden. Over the years, he became one of Europe’s leading experts in disaster medicine. His work has been cited more than 700 times in medical literature, and he played a key role in establishing the emergency and disaster research center at the University of Piedmont.
In Italy, Denmark, and Sweden, Dr. Djalali helped hospitals and healthcare professionals in preparing for earthquakes, nuclear accidents, and terrorist attacks and designed several disaster medicine training programs.
‘Spreading Corruption’
Despite settling in Sweden with his family, Dr. Djalali never forgot his Iranian roots. His doctoral thesis was dedicated to the victims of the 2003 Bam earthquake in Iran, which killed 23,000 people. He expressed a desire to share his knowledge with his Iranian colleagues to help people. So when he was invited to participate in a 2016 conference at the University of Tehran, he accepted without hesitation.
Unfortunately, this decision had severe consequences. On April 25, 2016, as he was concluding his trip to Iran, the researcher was arrested by intelligence agents. After being held incommunicado for several days, he was officially accused of passing confidential information to Israeli intelligence services. According to his family, this accusation was baseless. They believed he was targeted for refusing to work for Iranian intelligence services in Europe.
On October 21, 2017, Dr. Djalali was sentenced to death for “spreading corruption on Earth,” a vague charge often used by Islamic courts against those who allegedly have challenged the regime. A few days later, a video of his “confessions” was broadcast on Iranian television. These confessions were coerced; Dr. Djalali later revealed that Iranian police had threatened to harm his mother in Iran and his family in Sweden.
Since then, Dr. Djalali and his loved ones have anxiously awaited the moment when the regime might carry out the sentence. Several times over the years, he has seemed on the verge of execution, only to receive a last-minute reprieve each time.
His imprisonment has taken a severe toll on his physical and mental health. He has reportedly lost 24 kg since his incarceration, and his family, who receive sporadic updates, suspect he has leukemia. Despite his deteriorating condition, the authorities have refused him access to a hematologist.
‘Forgotten’ in Exchange
The international medical community has rallied to secure Dr. Djalali’s release, but their efforts have so far been fruitless. The United Nations, the European Union, Amnesty International, several universities, and the World Medical Association have called for his release. In 2018, Sweden granted him citizenship in an attempt to increase pressure on Tehran, but Iranian law does not recognize dual citizenship.
On June 16, after nearly 7 years on death row, Dr. Djalali informed his family that he had begun a hunger strike. “It’s the only way to make my voice heard in the world,” he explained. “As a doctor, Ahmad Reza knows all too well that his fragile physical state makes a hunger strike potentially fatal, but he sees no other option. He suffers from cardiac arrhythmia, bradycardia, hypotension, chronic gastritis, anemia, and extreme weight loss following his two previous hunger strikes,” his wife told the press.
Aside from a potential (and unlikely) act of clemency by the Iranian authorities, Dr. Djalali’s best hope lies in a prisoner exchange. The Iranian government often imprisons foreign nationals to exchange them for Iranians detained in Western countries.
On June 15, Sweden agreed to release an Iranian dignitary serving a life sentence in exchange for the release of Swedish nationals detained in Iran. For a long time, Dr. Djalali’s family had hoped he would be included in this exchange.
However, to avoid jeopardizing the deal, the Swedish prime minister chose to accept the release of only two other Swedish nationals, leaving Dr. Djalali to his grim fate. “Mr Prime Minister, you have decided to abandon me at the enormous risk of being executed,” Dr. Djalali responded bitterly, knowing he could be hanged at any moment.
This story was translated from JIM using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
Ahmad Reza Djalali, an Iranian-Swedish physician specializing in disaster medicine, has begun a hunger strike after being sentenced to death in 2017.
Last year, Iran set a grim record, leading the world in executions. The country carried out at least 853 executions, which accounted for three quarters of the officially recorded executions worldwide. The Iranian government uses the death penalty to intimidate political opponents, especially since the women’s uprising in 2022, and to exert pressure on Western states in diplomatic standoffs.
He emigrated to Sweden in 2009 and joined the Karolinska Institutet in Stockholm, Sweden. Over the years, he became one of Europe’s leading experts in disaster medicine. His work has been cited more than 700 times in medical literature, and he played a key role in establishing the emergency and disaster research center at the University of Piedmont.
In Italy, Denmark, and Sweden, Dr. Djalali helped hospitals and healthcare professionals in preparing for earthquakes, nuclear accidents, and terrorist attacks and designed several disaster medicine training programs.
‘Spreading Corruption’
Despite settling in Sweden with his family, Dr. Djalali never forgot his Iranian roots. His doctoral thesis was dedicated to the victims of the 2003 Bam earthquake in Iran, which killed 23,000 people. He expressed a desire to share his knowledge with his Iranian colleagues to help people. So when he was invited to participate in a 2016 conference at the University of Tehran, he accepted without hesitation.
Unfortunately, this decision had severe consequences. On April 25, 2016, as he was concluding his trip to Iran, the researcher was arrested by intelligence agents. After being held incommunicado for several days, he was officially accused of passing confidential information to Israeli intelligence services. According to his family, this accusation was baseless. They believed he was targeted for refusing to work for Iranian intelligence services in Europe.
On October 21, 2017, Dr. Djalali was sentenced to death for “spreading corruption on Earth,” a vague charge often used by Islamic courts against those who allegedly have challenged the regime. A few days later, a video of his “confessions” was broadcast on Iranian television. These confessions were coerced; Dr. Djalali later revealed that Iranian police had threatened to harm his mother in Iran and his family in Sweden.
Since then, Dr. Djalali and his loved ones have anxiously awaited the moment when the regime might carry out the sentence. Several times over the years, he has seemed on the verge of execution, only to receive a last-minute reprieve each time.
His imprisonment has taken a severe toll on his physical and mental health. He has reportedly lost 24 kg since his incarceration, and his family, who receive sporadic updates, suspect he has leukemia. Despite his deteriorating condition, the authorities have refused him access to a hematologist.
‘Forgotten’ in Exchange
The international medical community has rallied to secure Dr. Djalali’s release, but their efforts have so far been fruitless. The United Nations, the European Union, Amnesty International, several universities, and the World Medical Association have called for his release. In 2018, Sweden granted him citizenship in an attempt to increase pressure on Tehran, but Iranian law does not recognize dual citizenship.
On June 16, after nearly 7 years on death row, Dr. Djalali informed his family that he had begun a hunger strike. “It’s the only way to make my voice heard in the world,” he explained. “As a doctor, Ahmad Reza knows all too well that his fragile physical state makes a hunger strike potentially fatal, but he sees no other option. He suffers from cardiac arrhythmia, bradycardia, hypotension, chronic gastritis, anemia, and extreme weight loss following his two previous hunger strikes,” his wife told the press.
Aside from a potential (and unlikely) act of clemency by the Iranian authorities, Dr. Djalali’s best hope lies in a prisoner exchange. The Iranian government often imprisons foreign nationals to exchange them for Iranians detained in Western countries.
On June 15, Sweden agreed to release an Iranian dignitary serving a life sentence in exchange for the release of Swedish nationals detained in Iran. For a long time, Dr. Djalali’s family had hoped he would be included in this exchange.
However, to avoid jeopardizing the deal, the Swedish prime minister chose to accept the release of only two other Swedish nationals, leaving Dr. Djalali to his grim fate. “Mr Prime Minister, you have decided to abandon me at the enormous risk of being executed,” Dr. Djalali responded bitterly, knowing he could be hanged at any moment.
This story was translated from JIM using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
Ahmad Reza Djalali, an Iranian-Swedish physician specializing in disaster medicine, has begun a hunger strike after being sentenced to death in 2017.
Last year, Iran set a grim record, leading the world in executions. The country carried out at least 853 executions, which accounted for three quarters of the officially recorded executions worldwide. The Iranian government uses the death penalty to intimidate political opponents, especially since the women’s uprising in 2022, and to exert pressure on Western states in diplomatic standoffs.
He emigrated to Sweden in 2009 and joined the Karolinska Institutet in Stockholm, Sweden. Over the years, he became one of Europe’s leading experts in disaster medicine. His work has been cited more than 700 times in medical literature, and he played a key role in establishing the emergency and disaster research center at the University of Piedmont.
In Italy, Denmark, and Sweden, Dr. Djalali helped hospitals and healthcare professionals in preparing for earthquakes, nuclear accidents, and terrorist attacks and designed several disaster medicine training programs.
‘Spreading Corruption’
Despite settling in Sweden with his family, Dr. Djalali never forgot his Iranian roots. His doctoral thesis was dedicated to the victims of the 2003 Bam earthquake in Iran, which killed 23,000 people. He expressed a desire to share his knowledge with his Iranian colleagues to help people. So when he was invited to participate in a 2016 conference at the University of Tehran, he accepted without hesitation.
Unfortunately, this decision had severe consequences. On April 25, 2016, as he was concluding his trip to Iran, the researcher was arrested by intelligence agents. After being held incommunicado for several days, he was officially accused of passing confidential information to Israeli intelligence services. According to his family, this accusation was baseless. They believed he was targeted for refusing to work for Iranian intelligence services in Europe.
On October 21, 2017, Dr. Djalali was sentenced to death for “spreading corruption on Earth,” a vague charge often used by Islamic courts against those who allegedly have challenged the regime. A few days later, a video of his “confessions” was broadcast on Iranian television. These confessions were coerced; Dr. Djalali later revealed that Iranian police had threatened to harm his mother in Iran and his family in Sweden.
Since then, Dr. Djalali and his loved ones have anxiously awaited the moment when the regime might carry out the sentence. Several times over the years, he has seemed on the verge of execution, only to receive a last-minute reprieve each time.
His imprisonment has taken a severe toll on his physical and mental health. He has reportedly lost 24 kg since his incarceration, and his family, who receive sporadic updates, suspect he has leukemia. Despite his deteriorating condition, the authorities have refused him access to a hematologist.
‘Forgotten’ in Exchange
The international medical community has rallied to secure Dr. Djalali’s release, but their efforts have so far been fruitless. The United Nations, the European Union, Amnesty International, several universities, and the World Medical Association have called for his release. In 2018, Sweden granted him citizenship in an attempt to increase pressure on Tehran, but Iranian law does not recognize dual citizenship.
On June 16, after nearly 7 years on death row, Dr. Djalali informed his family that he had begun a hunger strike. “It’s the only way to make my voice heard in the world,” he explained. “As a doctor, Ahmad Reza knows all too well that his fragile physical state makes a hunger strike potentially fatal, but he sees no other option. He suffers from cardiac arrhythmia, bradycardia, hypotension, chronic gastritis, anemia, and extreme weight loss following his two previous hunger strikes,” his wife told the press.
Aside from a potential (and unlikely) act of clemency by the Iranian authorities, Dr. Djalali’s best hope lies in a prisoner exchange. The Iranian government often imprisons foreign nationals to exchange them for Iranians detained in Western countries.
On June 15, Sweden agreed to release an Iranian dignitary serving a life sentence in exchange for the release of Swedish nationals detained in Iran. For a long time, Dr. Djalali’s family had hoped he would be included in this exchange.
However, to avoid jeopardizing the deal, the Swedish prime minister chose to accept the release of only two other Swedish nationals, leaving Dr. Djalali to his grim fate. “Mr Prime Minister, you have decided to abandon me at the enormous risk of being executed,” Dr. Djalali responded bitterly, knowing he could be hanged at any moment.
This story was translated from JIM using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.