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LW - Refactoring cryonics as structural brain preservation by Andy McKenzie
Manage episode 439407865 series 3337129
The Nonlinear Fund에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 The Nonlinear Fund 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
Link to original article
Welcome to The Nonlinear Library, where we use Text-to-Speech software to convert the best writing from the Rationalist and EA communities into audio. This is: Refactoring cryonics as structural brain preservation, published by Andy McKenzie on September 11, 2024 on LessWrong.
I first learned about cryonics when I read Eliezer and Robin's posts about it on Overcoming Bias years ago. I got cryopilled. Somewhat amazingly to me, I'm now a researcher in this field. So I thought this community might be interested to know that I was one of several co-authors on a paper just published in Frontiers in Medical Technology, titled "Structural brain preservation: a potential bridge to future medical technologies".
In this paper, we propose reframing cryonics as a type of structural brain preservation, focusing on maintaining the brain's physical structure that encodes memories and personality, rather than making the focus about low-temperature storage per se.
We explore what brain structures likely need to be preserved to retain long-term memories and other valued aspects of personal identity. We then review different methods of brain preservation, including cryopreservation, aldehyde-stabilized cryopreservation, fluid preservation, and fixation followed by polymer embedding. The paper also discusses the two most commonly discussed potential future revival technologies, i.e. molecular nanotechnology and whole brain emulation.
We argue that this structural preservation framing may be more technically grounded and agreeable to mainstream researchers than some of the traditional ways that cryonics has been discussed.
As a personal reflection here, I want to briefly discuss the idea of fluid preservation, which is one topic discussed in our review paper. I remember first reading about this idea in approximately 2017 on a cryonics mailing list.
Even though I was already sold on the idea of aldehyde-stabilized cryopreservation -- using fixation as a short-term bridge to cryoprotection and cryopreservation, I remember thinking that the idea of simply leaving the brain in fixative solution for the long-term was bizarre and outlandish.
Around 2020-2022, I spent a good amount of time researching different options for higher temperature (and thus lower cost) brain preservation. Mostly I was looking into different methods for embedding fixed brain tissue in polymers, such as paraffin, epoxy, acrylates, or silicon. I also studied the options of dehydrated preservation and preserving the fixed brain in the fluid state, which I was mostly doing for the sake of completeness.
To be clear, I certainly don't want to make it seem like this was a lone wolf effort or anything. I was talking about the ideas with friends and it was also in the zeitgeist. For example, John Smart wrote a blog post in 2020 about this, titled "Do we need a noncryogenic brain preservation prize?" (There still is no such prize.)
In 2022, I was reading various papers on brain preservation (as one does), when I came across Rosoklija 2013. If I recall correctly, I had already seen this paper but was re-reading it with a different eye. They studied human and monkey brain tissue that had been preserved in formalin for periods ranging from 15 months to 55 years, using the Golgi-Kopsch silver staining method to visualize neuronal structures.
They reported that even after 50 years of formalin fixation at room temperature, the method yielded excellent results. In particular, they had this figure:
That's a picture showing well-impregnated neurons with preserved dendritic spines. Looking at this picture was a viewquake for me. I thought, if fluid preservation can preserve the structure of the 1-5% of cells that are stained by the Golgi-Kopsch method, why not other cells? And if it can work in this one part of the brain, why not the whole brain? And if it can do it for 50 years, why not 100 or 150? Chemically, it is not clear why there would be differences across the tissue.
Aldehydes crosslin...
…
continue reading
Welcome to The Nonlinear Library, where we use Text-to-Speech software to convert the best writing from the Rationalist and EA communities into audio. This is: Refactoring cryonics as structural brain preservation, published by Andy McKenzie on September 11, 2024 on LessWrong.
I first learned about cryonics when I read Eliezer and Robin's posts about it on Overcoming Bias years ago. I got cryopilled. Somewhat amazingly to me, I'm now a researcher in this field. So I thought this community might be interested to know that I was one of several co-authors on a paper just published in Frontiers in Medical Technology, titled "Structural brain preservation: a potential bridge to future medical technologies".
In this paper, we propose reframing cryonics as a type of structural brain preservation, focusing on maintaining the brain's physical structure that encodes memories and personality, rather than making the focus about low-temperature storage per se.
We explore what brain structures likely need to be preserved to retain long-term memories and other valued aspects of personal identity. We then review different methods of brain preservation, including cryopreservation, aldehyde-stabilized cryopreservation, fluid preservation, and fixation followed by polymer embedding. The paper also discusses the two most commonly discussed potential future revival technologies, i.e. molecular nanotechnology and whole brain emulation.
We argue that this structural preservation framing may be more technically grounded and agreeable to mainstream researchers than some of the traditional ways that cryonics has been discussed.
As a personal reflection here, I want to briefly discuss the idea of fluid preservation, which is one topic discussed in our review paper. I remember first reading about this idea in approximately 2017 on a cryonics mailing list.
Even though I was already sold on the idea of aldehyde-stabilized cryopreservation -- using fixation as a short-term bridge to cryoprotection and cryopreservation, I remember thinking that the idea of simply leaving the brain in fixative solution for the long-term was bizarre and outlandish.
Around 2020-2022, I spent a good amount of time researching different options for higher temperature (and thus lower cost) brain preservation. Mostly I was looking into different methods for embedding fixed brain tissue in polymers, such as paraffin, epoxy, acrylates, or silicon. I also studied the options of dehydrated preservation and preserving the fixed brain in the fluid state, which I was mostly doing for the sake of completeness.
To be clear, I certainly don't want to make it seem like this was a lone wolf effort or anything. I was talking about the ideas with friends and it was also in the zeitgeist. For example, John Smart wrote a blog post in 2020 about this, titled "Do we need a noncryogenic brain preservation prize?" (There still is no such prize.)
In 2022, I was reading various papers on brain preservation (as one does), when I came across Rosoklija 2013. If I recall correctly, I had already seen this paper but was re-reading it with a different eye. They studied human and monkey brain tissue that had been preserved in formalin for periods ranging from 15 months to 55 years, using the Golgi-Kopsch silver staining method to visualize neuronal structures.
They reported that even after 50 years of formalin fixation at room temperature, the method yielded excellent results. In particular, they had this figure:
That's a picture showing well-impregnated neurons with preserved dendritic spines. Looking at this picture was a viewquake for me. I thought, if fluid preservation can preserve the structure of the 1-5% of cells that are stained by the Golgi-Kopsch method, why not other cells? And if it can work in this one part of the brain, why not the whole brain? And if it can do it for 50 years, why not 100 or 150? Chemically, it is not clear why there would be differences across the tissue.
Aldehydes crosslin...
1843 에피소드
공유
Manage episode 439407865 series 3337129
The Nonlinear Fund에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 The Nonlinear Fund 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
Link to original article
Welcome to The Nonlinear Library, where we use Text-to-Speech software to convert the best writing from the Rationalist and EA communities into audio. This is: Refactoring cryonics as structural brain preservation, published by Andy McKenzie on September 11, 2024 on LessWrong.
I first learned about cryonics when I read Eliezer and Robin's posts about it on Overcoming Bias years ago. I got cryopilled. Somewhat amazingly to me, I'm now a researcher in this field. So I thought this community might be interested to know that I was one of several co-authors on a paper just published in Frontiers in Medical Technology, titled "Structural brain preservation: a potential bridge to future medical technologies".
In this paper, we propose reframing cryonics as a type of structural brain preservation, focusing on maintaining the brain's physical structure that encodes memories and personality, rather than making the focus about low-temperature storage per se.
We explore what brain structures likely need to be preserved to retain long-term memories and other valued aspects of personal identity. We then review different methods of brain preservation, including cryopreservation, aldehyde-stabilized cryopreservation, fluid preservation, and fixation followed by polymer embedding. The paper also discusses the two most commonly discussed potential future revival technologies, i.e. molecular nanotechnology and whole brain emulation.
We argue that this structural preservation framing may be more technically grounded and agreeable to mainstream researchers than some of the traditional ways that cryonics has been discussed.
As a personal reflection here, I want to briefly discuss the idea of fluid preservation, which is one topic discussed in our review paper. I remember first reading about this idea in approximately 2017 on a cryonics mailing list.
Even though I was already sold on the idea of aldehyde-stabilized cryopreservation -- using fixation as a short-term bridge to cryoprotection and cryopreservation, I remember thinking that the idea of simply leaving the brain in fixative solution for the long-term was bizarre and outlandish.
Around 2020-2022, I spent a good amount of time researching different options for higher temperature (and thus lower cost) brain preservation. Mostly I was looking into different methods for embedding fixed brain tissue in polymers, such as paraffin, epoxy, acrylates, or silicon. I also studied the options of dehydrated preservation and preserving the fixed brain in the fluid state, which I was mostly doing for the sake of completeness.
To be clear, I certainly don't want to make it seem like this was a lone wolf effort or anything. I was talking about the ideas with friends and it was also in the zeitgeist. For example, John Smart wrote a blog post in 2020 about this, titled "Do we need a noncryogenic brain preservation prize?" (There still is no such prize.)
In 2022, I was reading various papers on brain preservation (as one does), when I came across Rosoklija 2013. If I recall correctly, I had already seen this paper but was re-reading it with a different eye. They studied human and monkey brain tissue that had been preserved in formalin for periods ranging from 15 months to 55 years, using the Golgi-Kopsch silver staining method to visualize neuronal structures.
They reported that even after 50 years of formalin fixation at room temperature, the method yielded excellent results. In particular, they had this figure:
That's a picture showing well-impregnated neurons with preserved dendritic spines. Looking at this picture was a viewquake for me. I thought, if fluid preservation can preserve the structure of the 1-5% of cells that are stained by the Golgi-Kopsch method, why not other cells? And if it can work in this one part of the brain, why not the whole brain? And if it can do it for 50 years, why not 100 or 150? Chemically, it is not clear why there would be differences across the tissue.
Aldehydes crosslin...
…
continue reading
Welcome to The Nonlinear Library, where we use Text-to-Speech software to convert the best writing from the Rationalist and EA communities into audio. This is: Refactoring cryonics as structural brain preservation, published by Andy McKenzie on September 11, 2024 on LessWrong.
I first learned about cryonics when I read Eliezer and Robin's posts about it on Overcoming Bias years ago. I got cryopilled. Somewhat amazingly to me, I'm now a researcher in this field. So I thought this community might be interested to know that I was one of several co-authors on a paper just published in Frontiers in Medical Technology, titled "Structural brain preservation: a potential bridge to future medical technologies".
In this paper, we propose reframing cryonics as a type of structural brain preservation, focusing on maintaining the brain's physical structure that encodes memories and personality, rather than making the focus about low-temperature storage per se.
We explore what brain structures likely need to be preserved to retain long-term memories and other valued aspects of personal identity. We then review different methods of brain preservation, including cryopreservation, aldehyde-stabilized cryopreservation, fluid preservation, and fixation followed by polymer embedding. The paper also discusses the two most commonly discussed potential future revival technologies, i.e. molecular nanotechnology and whole brain emulation.
We argue that this structural preservation framing may be more technically grounded and agreeable to mainstream researchers than some of the traditional ways that cryonics has been discussed.
As a personal reflection here, I want to briefly discuss the idea of fluid preservation, which is one topic discussed in our review paper. I remember first reading about this idea in approximately 2017 on a cryonics mailing list.
Even though I was already sold on the idea of aldehyde-stabilized cryopreservation -- using fixation as a short-term bridge to cryoprotection and cryopreservation, I remember thinking that the idea of simply leaving the brain in fixative solution for the long-term was bizarre and outlandish.
Around 2020-2022, I spent a good amount of time researching different options for higher temperature (and thus lower cost) brain preservation. Mostly I was looking into different methods for embedding fixed brain tissue in polymers, such as paraffin, epoxy, acrylates, or silicon. I also studied the options of dehydrated preservation and preserving the fixed brain in the fluid state, which I was mostly doing for the sake of completeness.
To be clear, I certainly don't want to make it seem like this was a lone wolf effort or anything. I was talking about the ideas with friends and it was also in the zeitgeist. For example, John Smart wrote a blog post in 2020 about this, titled "Do we need a noncryogenic brain preservation prize?" (There still is no such prize.)
In 2022, I was reading various papers on brain preservation (as one does), when I came across Rosoklija 2013. If I recall correctly, I had already seen this paper but was re-reading it with a different eye. They studied human and monkey brain tissue that had been preserved in formalin for periods ranging from 15 months to 55 years, using the Golgi-Kopsch silver staining method to visualize neuronal structures.
They reported that even after 50 years of formalin fixation at room temperature, the method yielded excellent results. In particular, they had this figure:
That's a picture showing well-impregnated neurons with preserved dendritic spines. Looking at this picture was a viewquake for me. I thought, if fluid preservation can preserve the structure of the 1-5% of cells that are stained by the Golgi-Kopsch method, why not other cells? And if it can work in this one part of the brain, why not the whole brain? And if it can do it for 50 years, why not 100 or 150? Chemically, it is not clear why there would be differences across the tissue.
Aldehydes crosslin...
1843 에피소드
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…
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…
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