Making It is a weekly audio podcast that comes out every Friday hosted by Jimmy Diresta, Bob Clagett and David Picciuto. Three different makers with different backgrounds talking about creativity, design and making things with your bare hands.
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محتوای ارائه شده توسط The Nonlinear Fund. تمام محتوای پادکست شامل قسمتها، گرافیکها و توضیحات پادکست مستقیماً توسط The Nonlinear Fund یا شریک پلتفرم پادکست آنها آپلود و ارائه میشوند. اگر فکر میکنید شخصی بدون اجازه شما از اثر دارای حق نسخهبرداری شما استفاده میکند، میتوانید روندی که در اینجا شرح داده شده است را دنبال کنید.https://fa.player.fm/legal
مشابه The Nonlinear Library: LessWrong
Five-time winner of Best Education Podcast in the Podcast Awards. Grammar Girl provides short, friendly tips to improve your writing and feed your love of the English language. Whether English is your first language or your second language, these grammar, punctuation, style, and business tips will make you a better and more successful writer. Grammar Girl is a Quick and Dirty Tips podcast.
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Everyone has a dream. But sometimes there’s a gap between where we are and where we want to be. True, there are some people who can bridge that gap easily, on their own, but all of us need a little help at some point. A little boost. An accountability partner. A Snooze Squad. In each episode, the Snooze Squad will strategize an action plan for people to face their fears. Guests will transform their own perception of their potential and walk away a few inches closer to who they want to become ...
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The Voice of ASWJ Australia. Listen to & Download Our Latest Programs. Topics: Aqeedah (Creed), Tafsir Qur'an, Islamic Fiqh, History, Youth & Community programs, Medical & Health programs and much much more. Podcasts are in Arabic & English.
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An original podcast brought to you by the graduate students of the Department of Anthropology at The Ohio State University. Join us once as we explore the human experience! We are now a part of the Anthropology Public Outreach Program at The Ohio State University. Follow us @ohiostateAPOP
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Are you looking for more happiness, success and vitality in your life? Get inspired each week with Wellness Expert, Integrative Medicine Fellow & Keynote Speaker, Kristel Bauer. Live Greatly shares empowering conversations about life, wellness & success talking with top experts, athletes, celebrities, CEOs and other incredible individuals. Tune in for insights to thrive personally and professionally. It’s time to awaken your ultimate potential! Disclaimer: All of the information shared on th ...
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A science guy from the deep south (Destin) and a humanities guy from the wild west (Matt Whitman) discuss deep questions with varying levels of maturity.
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America is more divided than ever—but it doesn’t have to be. Open to Debate offers an antidote to the chaos. We bring multiple perspectives together for real, nonpartisan debates. Debates that are structured, respectful, clever, provocative, and driven by the facts. Open to Debate is on a mission to restore balance to the public square through expert moderation, good-faith arguments, and reasoned analysis. We examine the issues of the day with the world’s most influential thinkers spanning s ...
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The Art of Charm is where self-motivated people, just like you, come to learn from the company’s coaches about to how to master human dynamics, relationships, and becoming your best self with the help of Johnny and AJ, the company’s founders. Johnny and AJ bring their 11 years of coaching experience from their famous Bootcamps, where they host clients in Los Angeles from all over the world and they share their stories, best practices and themselves on this weekly podcast. Not only does The A ...
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Hosted by former Marvel entertainment lawyer Paul Sarker and entertainment enthusiast Mesh Lakhani, Better Call Paul will delve into the business and legal issues at play behind the glitz and glam. This show takes you beyond the catchy headlines to find out what’s really at play behind the scenes and gives you an introduction to the business side of show business.
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LW - Refactoring cryonics as structural brain preservation by Andy McKenzie
Manage episode 439407865 series 3337129
محتوای ارائه شده توسط The Nonlinear Fund. تمام محتوای پادکست شامل قسمتها، گرافیکها و توضیحات پادکست مستقیماً توسط The Nonlinear Fund یا شریک پلتفرم پادکست آنها آپلود و ارائه میشوند. اگر فکر میکنید شخصی بدون اجازه شما از اثر دارای حق نسخهبرداری شما استفاده میکند، میتوانید روندی که در اینجا شرح داده شده است را دنبال کنید.https://fa.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 قسمت
اشتراک گذاری
Manage episode 439407865 series 3337129
محتوای ارائه شده توسط The Nonlinear Fund. تمام محتوای پادکست شامل قسمتها، گرافیکها و توضیحات پادکست مستقیماً توسط The Nonlinear Fund یا شریک پلتفرم پادکست آنها آپلود و ارائه میشوند. اگر فکر میکنید شخصی بدون اجازه شما از اثر دارای حق نسخهبرداری شما استفاده میکند، میتوانید روندی که در اینجا شرح داده شده است را دنبال کنید.https://fa.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 قسمت
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مشابه The Nonlinear Library: LessWrong
Making It is a weekly audio podcast that comes out every Friday hosted by Jimmy Diresta, Bob Clagett and David Picciuto. Three different makers with different backgrounds talking about creativity, design and making things with your bare hands.
…
continue reading
Five-time winner of Best Education Podcast in the Podcast Awards. Grammar Girl provides short, friendly tips to improve your writing and feed your love of the English language. Whether English is your first language or your second language, these grammar, punctuation, style, and business tips will make you a better and more successful writer. Grammar Girl is a Quick and Dirty Tips podcast.
…
continue reading
Everyone has a dream. But sometimes there’s a gap between where we are and where we want to be. True, there are some people who can bridge that gap easily, on their own, but all of us need a little help at some point. A little boost. An accountability partner. A Snooze Squad. In each episode, the Snooze Squad will strategize an action plan for people to face their fears. Guests will transform their own perception of their potential and walk away a few inches closer to who they want to become ...
…
continue reading
The Voice of ASWJ Australia. Listen to & Download Our Latest Programs. Topics: Aqeedah (Creed), Tafsir Qur'an, Islamic Fiqh, History, Youth & Community programs, Medical & Health programs and much much more. Podcasts are in Arabic & English.
…
continue reading
An original podcast brought to you by the graduate students of the Department of Anthropology at The Ohio State University. Join us once as we explore the human experience! We are now a part of the Anthropology Public Outreach Program at The Ohio State University. Follow us @ohiostateAPOP
…
continue reading
Are you looking for more happiness, success and vitality in your life? Get inspired each week with Wellness Expert, Integrative Medicine Fellow & Keynote Speaker, Kristel Bauer. Live Greatly shares empowering conversations about life, wellness & success talking with top experts, athletes, celebrities, CEOs and other incredible individuals. Tune in for insights to thrive personally and professionally. It’s time to awaken your ultimate potential! Disclaimer: All of the information shared on th ...
…
continue reading
A science guy from the deep south (Destin) and a humanities guy from the wild west (Matt Whitman) discuss deep questions with varying levels of maturity.
…
continue reading
America is more divided than ever—but it doesn’t have to be. Open to Debate offers an antidote to the chaos. We bring multiple perspectives together for real, nonpartisan debates. Debates that are structured, respectful, clever, provocative, and driven by the facts. Open to Debate is on a mission to restore balance to the public square through expert moderation, good-faith arguments, and reasoned analysis. We examine the issues of the day with the world’s most influential thinkers spanning s ...
…
continue reading
The Art of Charm is where self-motivated people, just like you, come to learn from the company’s coaches about to how to master human dynamics, relationships, and becoming your best self with the help of Johnny and AJ, the company’s founders. Johnny and AJ bring their 11 years of coaching experience from their famous Bootcamps, where they host clients in Los Angeles from all over the world and they share their stories, best practices and themselves on this weekly podcast. Not only does The A ...
…
continue reading
Hosted by former Marvel entertainment lawyer Paul Sarker and entertainment enthusiast Mesh Lakhani, Better Call Paul will delve into the business and legal issues at play behind the glitz and glam. This show takes you beyond the catchy headlines to find out what’s really at play behind the scenes and gives you an introduction to the business side of show business.
…
continue reading
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