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Saturday, August 26, 2023

3.151 AMICOR (26)

 3.151 AMICOR (26)

#Com Dra. Valderês Antonietta Robinson Achutti (*13/06/1931+15/06/2021)


Em Manila em fevereiro de 1990 no encerramento do XI World Congress of Cardiology

#Re-Publicando artigos Meus: da Zero Hora acho que do início do século 

"Summum jus, summa injuria", por Aloyzio Achutti*

Eu era guri quando, em minha terra natal, construíram um novo Fórum e este dístico estava sobranceiro, colocado em pedra no edifício. Aprendi que a tradução seria: "Um excesso de justiça pode ser causa de grande injustiça (dano)". Não tardou para trocarem a frase por "Dura lex, sed lex", provavelmente como reação corporativa, ou arrogância de linha-dura, facilmente encontrável em qualquer tempo e lugar.

É bom pensar no assunto enquanto está viva a discussão sobre Tropa de Elite, e o terrorismo a propósito e contra o "terrorismo" internacional. É pena, mas em nome da religião, da ciência, em defesa de princípios e de nobres causas, muitas vezes - com boas intenções - se manifestam instintos discriminatórios e se justificam violências.

Há também os oportunistas que descobrem mercado nas vicissitudes e passam a investir no filão, não se importando muito com as conseqüências. E para cada argumento que encontra eco, juntam-se facilmente grupos de prosélitos e acólitos a reverberar sem crítica as mensagens estereotipadas.

Pois a medicina - arte e ciência - está também sujeita às mesmas contingências. Há exemplos muito variados, basta trocar "jus/injuria" por "saúde/doença". A propósito, recentemente um estudo que pretendia demonstrar vantagens em obter em diabéticos níveis de glicose no sangue iguais aos de pessoas sadias teve que ser interrompido porque a mortalidade no grupo do tratamento exagerado foi maior do que no controle.

Bem cedo, ainda na faculdade, se aprende que criança não é um adulto em miniatura e que velho não é simplesmente um adulto com muita idade. Está-se chegando agora à idéia de que uma pessoa doente não é a mesma coisa do que uma sadia com parâmetros biológicos anormais.

As "metas" para prevenção em pessoas normais, nem sempre serão as ideais para os doentes. O reconhecimento da biodiversidade, a individualização das prescrições e o respeito pela relação humana médico-paciente são fundamentais e não se alteram com novas conquistas científicas e tecnológicas. Pelo contrário, quanto mais poder, maior o risco de dano.

Voltando às frases lapidares (latinas) - mesmo em nome da prevenção - , nada justifica passar por cima do refrão que se aprende no primeiro dia de aula: "Primum non nocere". O primeiro preceito da medicina é não causar dano.
*Médico

#Santa Maria - Hospital de Caridade 125 anos

Visitou-nos no fim da semana passada um arquiteto conterrâneo que está organizando a publicação de um livro comemorativo do centenário do Hospital de Caridade de Santa Maria. Revimos fotografias da coleção de nosso pai Bortolo Achutti que era muito amigo do Dr. Francisco Mariano da Rocha que fazia parte da direção do Hospital. Quem tiver fotos ou documentos antigos do Hospital, agradecemos se puder nos emprestar.

Alex Scherer, dando-nos o prazer de sua visita, em Porto Alegre, comigo e minha irmã Dra. Maria Helena Cechella Achutti (9/08 p.p.)#British Library

Neuroscience News

Aug 24

Researchers discovered a link between age-related hearing loss and decreased cholesterol in the inner ear. This cholesterol reduction affects the outer hair cells (OHCs), which are essential for amplifying sounds. Read more of this post

#aeonMagazine

We are not empty

 

The concept of the atomic void is one of the most repeated mistakes in popular science. Molecules are packed with stuff

 

by Mario Barbatti


#
My Bookmarks

QUANTUM COMPUTING | ALL TOPICS

 

New Codes Could Make Quantum Computing 10 Times More Efficient 

By CHARLIE WOOD

Quantum computing is still really, really hard. But the rise of a powerful class of error-correcting codes suggests that the task might be slightly more feasible than many feared.

Read the article

CONSCIOUSNESS

 

What a Contest of Consciousness Theories Really Proved

By ELIZABETH FINKEL

A five-year “adversarial collaboration” of consciousness theorists led to a stagy showdown in front of an audience. It crowned no winners — but it can still claim progress.

Read the article


Related: 
Neuroscience Readies for a Showdown
Over Consciousness Ideas

By Philip Ball (2019)

TOPOLOGY

 

An Old Conjecture Falls, Making Spheres a Lot More Complicated

By KEVIN HARTNETT

The telescope conjecture gave mathematicians a handle on ways to map one sphere to another. Now that it has been disproved, the universe of shapes has exploded.

Read the article


Related: 
Flow Proof Helps Mathematicians
Find Stability in Chaos

By Jordana Cepelewicz

ARTIFICIAL INTELLIGENCE

 

The AI Tools Making Images Look Better

By AMOS ZEEBERG

Researchers have discovered ways around a fundamental trade-off between accuracy and beauty in digital images.

Read the blog


Related: 
Neural Networks Need Data to Learn.
Even If It’s Fake.

By Amos Zeeberg 

ASTROPHYSICS

 

Quaking Giants Might Solve the Mysteries of Stellar Magnetism

By JACKSON RYAN

In their jiggles and shakes, red giant stars encode a record of their magnetic fields.

Read the blog


Related: 
Exoplanets Could Help Us Learn
How Planets Make Magnetism

By Jonathan O'Callaghan 

Around the Web

How A Worm Brain Works
Which neurons fire when a nematode turns right, turns left or eats lunch? The behaviors associated with more than 150 neurons in the worm Caenorhabditis elegans are detailed in a new atlas, as described by Lauren Leffer in Scientific American. Scientists mapped all 302 neurons in the C. elegans nervous system in 1986, creating the first complete connectome. Connectomes for larger, more complex organisms could enable predictions of their behaviors too, as Monique Brouillette explained for Quanta in 2021.

A Crash Course in Black Hole Collisions
When two black holes collide, the resulting gravitational waves can send one of the black holes hurtling through space — at speeds up to 28,500 kilometers per second, or nearly one-tenth the speed of light, according to a new simulation described in Science News by Nikko Gasa. How do such black hole collisions happen? In some cases, it’s possible that a third black hole nudges them together, Erika Carlson reported for Quanta in 2019.

#Our World in Data

Our recent publications

Homicide data: how sources differ and when to use which one

Measuring homicides across the world helps us understand violent crime and how people are affected by interpersonal violence.

But, as with measuring many things we care about, measuring homicides is challenging. Even homicide researchers do not always agree on the characteristics that define a homicide. Even when a definition is agreed upon, it is difficult to count each homicide.

In our work on homicides, we provide data from five main sources:
  • The WHO Mortality Database

  • The Global Study on Homicide by the UN Office on Drugs and Crime

  • The History of Homicide Database by Eisner

  • The Global Burden of Disease study by the Institute for Health Metrics and Evaluation

  • The WHO Global Health Estimates

In this article, we take a deep dive into these sources to understand where they agree, where they differ, and why. We discuss what these differences mean and when to use which source (answer: it depends on your questions).

We hope this deep dive serves as an example that helps you understand the complexities of global statistics and demonstrates the utility of a nuanced approach to extracting insights from such data.

Explore our featured work

Breaking out of the Malthusian trap: How pandemics allow us to understand why our ancestors were stuck in poverty

Poverty and poor material living conditions were such a persistent and pervasive reality for much of human history that it was unimaginable it could ever be different.

Writing in 1798, the Reverend Thomas Malthus lamented the living conditions in his native England: “It has appeared that from the inevitable laws of our nature, some human beings must suffer from want. These are the unhappy persons who, in the great lottery of life, have drawn a blank.”

In the past, our ancestors did achieve productivity increases (for example, producing more crops or other goods), but this reliably led to a bigger population, and not better living conditions for each individual. This has come to be known as “the Malthusian trap,” after Thomas Malthus.

But Malthus turned out to be very wrong about the world’s reality after his death: In the two centuries since then, many countries have broken out of the Malthusian trap, achieved economic growth, reduced poverty, and improved living conditions overall.

How did this happen? Why were our ancestors stuck in poverty for so long?

In this article we take a detailed walk through our past to understand why our ancestors remained in poverty for so long, and why sustained economic growth — where the material living conditions of a population increase over several generations — was not achieved until just a few generations ago.
At what age do people experience depression for the first time?
How does food affordability vary across the world?

The mission of Our World in Data is to make data and research on the world’s largest problems understandable and accessible.

#Scientific America

Quantum Physics Can Explain Earth's Weather
 

QUANTUM PHYSICS

Quantum Physics Can Explain Earth's Weather

By treating Earth as a topological insulator—a state of quantum matter—physicists found a powerful explanation for the twisting movements of the planet’s air and seas

By Katie McCormick,Quanta Magazine
What's the World's Oldest Language?
 

LANGUAGE

What's the World's Oldest Language?

Debate rages over which languages can claim to have the earliest origin

By Lucy Tu

Saturday, August 19, 2023

3.150 - AMICOR (26)

 3.150 AMICOR - 19/08/2023

#Com Dra. Valderês Antonietta Robinson Achutti (*13/06/1931+15/06/2021)

Por ocasião de nossas Bodas de Ouro, em casa, em 2007.


#Re-publicando artigos meus

#Radis.ENSP.Fiocruz

#TED

A mysterious design that appears across millennia
251,233 views |Terry Moore |TED2023 • April 2023



Roger Penrose made a contribution to the world of mathematics and that part of mathematics known as tiling. 


00:00

This is Roger Penrose. Certainly one of the great scientists of our time, winner of the 2020 Nobel Prize in Physics for his work reconciling black holes with Einstein's general theory of relativity. But back in the 1970s, Roger Penrose made a contribution to the world of mathematics and that part of mathematics known as tiling. You know, tiling, the process of putting tiles together so that they form a particular pattern.

00:30

The thing that was remarkable about the pattern that Roger Penrose developed is that by using only two shapes, he constructed a pattern that could be expanded infinitely in any direction without ever repeating. Much like the number pi has a decimal that isn’t random, but it will go on forever without repeating. In mathematics, this is a property known as aperiodicity and the notion of an aperiodic tile set using only two tiles was such a sensation, it was given the name Penrose tiling. Here's Roger Penrose, now Sir Roger Penrose, standing on a field of Penrose tiles.

01:13

Then in 2007, this man, Peter Lu, who was then a graduate student in physics at Princeton, while on vacation with his cousin in Uzbekistan, discovered this pattern on a 14th century madrassa. And after some analysis, concluded that this was, in fact, Penrose tiling 500 years before Penrose.

01:38

(Laughter)

01:40

That information took the scientific world by storm and prompted headlines everywhere, including “Discover” magazine, which proclaimed this the 59th most important scientific discovery of the year 2007.

01:56

So now we've heard about this amazing pattern from the point of view of mathematics and from physics and now art and archeology. So that leads us to the question what was there about this pattern that this ancient culture found so important that they put it on their most important building? So for that, we look to the world of anthropology and ask the question, What was the worldview of the culture that made this? And this is what we learn.

02:28

This pattern is life. And as you can see, life's complicated. It's complicated. But not only is life complicated, life is also aperiodic in the sense that every event, every happening, every decision will make the future unfold differently, often in ways that are impossible to predict. Yet, in spite of the complexity and in spite of a future that's impossible to predict, there remains an underlying unity that holds everything together and gives rise to everything. Let's see how that works in a design much like the one Peter Lu found in Uzbekistan.

03:13

This is that design. Now, it turns out this is actually based on this set of Penrose tiles, which are reducible to these shapes. And in order to draw these shapes, the medieval craftsmen who did this would have done them by using these construction lines. And I add here that the construction lines don't appear in the final work. But if we add them back, we have this. And now if we weave them together, we will have this. And now if we hide the tiles and just look at the construction lines, we see this. Clearly there's an underlying structure and unity to things that seem to be complex and aperiodic.

04:03

This notion of a hidden underlying unity was common throughout the ancient world, and one sees it in Egypt, in Greece, in Australia, in Mesoamerica, in North America, in Europe and in the Middle East. Now in the modern West, we might call this underlying unity “God,” but throughout the ages, other terms have been used to describe the same thing. This is what Plato called “first cause.” In the medieval period, philosopher Spinoza called this the “singular substance.” In the 20th century, a number of terms were coined to describe this, one of my favorites being from philosopher Alfred North Whitehead, who called this the “undifferentiated aesthetic continuum.” Doesn't that have a 20th century sound to it? But for me, a lover of science that I am, I will take the term coined by the great 20th century physicist David Bohm, who called this the “implicate order.”

05:12

So what's the takeaway here? Very simply, this. When we see these wonderful designs created by cultures that are separated from our own by thousands of miles or thousands of years, we can know these aren't decorations. These are statements about the fundamental values that culture had, what they found important, how they saw themselves, the world and themselves in the world. It has been said that architecture is a book written in stone. So when we see these amazing designs, we can know they're not decorations. They're a statement. They're a message. Look, listen. You can hear their voices.

05:59

Thank you.

#Dr. Antero Romeu de Arruda +

Médico-Psiquiatra, militar aposentado, pai da Katia Arruda, esposa de nosso Filho Prof. Luiz Eduardo Robinson Achutti

#CREMERS

#

My Bookmarks

Explore Season 2 of
The Joy of Why Podcast

Look for new episodes in 2024.

CONSCIOUSNESS

 

What Is the Nature of Consciousness?

With ANIL SETH

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Read the transcript

MULTIVERSE

 

Are There Reasons to Believe in a Multiverse?

With DAVID KAPLAN

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Read the transcript

THERMODYNAMICS

 

Is Perpetual Motion
Possible at the
Quantum Level?

With VEDIKA KHEMANI

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MATHEMATICS

 

How Can Some Infinities Be Bigger Than Others?

With JUSTIN MOORE

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COSMOLOGY

 

Does Nothingness Exist?

With ISABEL GARCIA GARCIA

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PHYSIOLOGY

 

Can Math and Physics Save an Arrhythmic Heart?

With FLAVIO FENTON

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IMMUNOLOGY

 

What Has the Pandemic Taught Us About Vaccines?

With ANNA DURBIN

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ALGEBRAIC GEOMETRY

 

Is There Math Beyond the Equal Sign?

With EUGENIA CHENG

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MATHEMATICAL BIOLOGY

 

Can We Program
Our Cells?

With MICHAEL ELOWITZ

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ASTROPHYSICS

 

How Will the Universe End?

With KATIE MACK

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Read the transcript

BIOMECHANICS

 

What Can Jellyfish
Teach Us About Fluid Dynamics?

With JOHN DABIRI

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FLUID DYNAMICS

 

What Causes Giant Rogue Waves?

With TON VAN DEN BREMER

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