Adobe Systems
1
Pathophysiology of endocrine system II–homeostasis, principles of regulation and its disorders)
-stress reaction and stress as a pathophysiological phenomenon
Julie Dobrovolná
Department of Pathological Physiology MED MUNI

Adobe Systems Obsah obrázku text, mapa Popis byl vytvořen automaticky
VL 2019 – JD – Ústav patologické fyziologie

The Santa Ana Volcano in El Salvador is a large “cinder cone” volcano that sits at 2,381 metres
above sea level.  The innermost crater contains a small crater lake.

3



4
WHAT IS STRESS?





Stress and environment
So what is stress?


Evolution of the term „stres“
ýsledek obrázku pro claude bernard ýsledek obrázku pro hans selye
Claude Bernard (1813-1878)
•Leçons sur les phénomènes de la vie communs aux animaux et aux végétaux
•Vnitřní prostředí je udržováno jako stálé
Walter Cannon (1871-1945)
•The Wisdom of the Body
•Homeostáza, stres, autonomní (sympatický) nervový systém
Hans Selye (1907-1982)
•The Physiology and Pathology of Stress; a Treatise Based on the Concepts of the
General-Adaptation-Syndrome and the Diseases of Adaptation
•Hypotalamo-hypofyzárně nadledvinková osa (HPA)
ýsledek obrázku pro walter cannon

Evolution of the term „stres“
ýsledek obrázku pro robert sapolsky ýsledek obrázku pro Bruce McEwen
http://gero.usc.edu/wp-content/uploads/2015/07/gordon-lithgow.jpg
Robert Sapolsky
Stress, the Aging Brain, and the Mechanisms of Neuron Death
Why Zebras Don’t Get Ulcers: an Updated guide to Stress, Stress-Related Diseases, and Coping
Úloha limbického systému (hippocampus) v regulaci HPA
Bruce McEwen & Theresa E. Seaman
•The End of Stress as We Know It
•Allostáza, homeodynamika
Gordon Lithgow a další
•Hormeze, endokrinní regulace délky života u much, hlístů a myší
•

So what is stress?



Social aspects of stress
Social factors such as lack of education, a low standard of housing, noise and crowding,
homelessness, lack of social support, domestic violence, and economic hardship put individuals
under greater stress, contributing to poor health and family problems.
Homeless_kids_001__t750x500.jpg
New-York-City-To-Remove-Over-400-Homeless-Children-From-Shelters-665x385.jpg

Effects of long-term exposure to poverty in childhood
Evans and Kim (2007)
fd62f49d7fb06a4638cefb7014899d2a.jpg
The aim of the study was to investigate the long-term relationship between poverty or low
socioeconomic status, cumulative risk factors and physiological stress.

Effects of long-term exposure to poverty in childhood
Evans and Kim (2007)
Participants were 200 seven-year-olds.
The researchers measured blood pressure and cortisol levels.
Stress regulation was assessed by measurement of the heart’s reactivity to a standard acute
stressor, and recovery after exposure to the stressor.
Exposure to risk factors such as substandard housing, and family violence were included to have a
measure of cumulative stress factors.
Sunday School7.JPG photos.demandstudios.com-12-85-fotolia_4442990_XS.jpg

13
The Stress of Life, Hans Selye, 1956:
„… the non-specific response of the body to any demand made upon it, whether it is caused by, or
results in, pleaseant, or unpleasant conditions“

Cannon (1914) The fight or flight theory
Fight or Flight Response.jpg
The fight or flight response is a physiological stress response evolved to help organisms (i.e.
animals and humans) to survive immediate danger.
Activation of the sympathetic nervous system.

Cannon (1914) The fight or flight theory
The theory proposes that when an organism faces an imminent danger (acute stressor), the body is
rapidly aroused and motivated to act via two systems: the sympathetic nervous system and the
endocrine system.
These two physiological systems interact to mobilize the organism to fight against or flee the
danger.
mike-twohy-fight-of-flight-cartoon.jpg

Fight or Flight?
animals-fighting-4.jpg
The fight or flight theory is only addressing the physiological aspects of stress.
This could be because Cannon only studied animals. The exclusive focus on physiological aspects of
stress is a limitation in relation to humans.
It is now known that cognitive factors can mediate the stress response.
good-timing127.jpg

GAS (General Adaptation Syndrome)
Selye (1956)
The theory is based on animal research (rats) and it extends Cannon’s theory.
Selye did experiments where he exposed rats to various stressors (e.g. cold, surgical injury,
excessive exercise).
milk-rats.jpg 79848429.jpg

GAS (General Adaptation Syndrome)
Selye (1956)
rat-shocks.gif
The animals all showed the same general physiological responses such as enlarged adrenal glands,
diminished thymus (important organ in the immune system) and ulcers when they were exposed to
stressors.
Some of them died.
deadrat-150x150.jpg

GAS (General Adaptation Syndrome)
Selye (1956)
GAS.jpg
The three stages of stress
Alarm: Physiological mobilization to respond to the danger. It is the same as the fight or flight
response.
Resistance: Attempts to cope with the stress response.
Exhaustion: Occurs when the organism fails to overcome the danger and is incapable of further
coping.

GAS (General Adaptation Syndrome)
Selye (1956)


GAS (General Adaptation Syndrome)
Selye (1956)
Selye concluded that rats (and humans) would respond with the same physiological pattern of
physiological changes no matter the stressor.
With prolonged exposure to stress (chronic stress), the physiological system will be damaged and
the organism may eventually die.
It may be problematic to generalize such results to humans but research in health psychology has
confirmed a link between stress and low immune functioning.

Psychological aspects of stress
Give me a list of things psychologically when you are stressed….


Which organ systems are involved in stress reaction?
23





001 002 006 007
WAT
BAT
For letter symbols, see slide 36

White adipocyte
Unilocular (à 200µm)
Storage and mobilization of lipids(+++)
Mitochondria (+)
Beta oxidation (+)
Respiratory chain (+)
UCP1 (0)
PGC-1a (+)
Brown adipocyte
Baby_crawling
Multilocular
Storage and mobilization of lipids (++)
Mitochondria (+++)
Beta oxidation (+++)
Respiratory chain (+++)
UCP1 (+++)
PGC-1a (+++)
Adopted from prof. D. Langin, Physiopathology of obesity and current theories on the association
between an excess of fat mass and insulin resistance

U savců nacházíme dva typy tukové tkáně – bílou a hnědou tukovou tkáň. Tyto tkáně se liší funkčním,
morfologickým i molekulárním fenotypem. V rámci BAT je energie uvolněna do okolí prostřednictvím
odpojení oxidace mastných kyselin od syntézy ATP prostřednictvím uncoupling proteinu 1, který je
zásadně důležitý pro regulaci tělesné teploty a je důležitý i pro udržování konstantní tělesné
hmotnosti. Hnědá tuková tkáň se stala atraktivním cílem experimentálních farmakologických zásahů za
účelem léčby obezity, jelikož nedávno bylo pomocí PET prokázáno, že i u dospělého člověka se
udržují okrsky vysoce aktivní BAT, která se mohou navíc zvyšovat následkem stimulace chladem či
adrenergní stimulace. U hlodavců i lidí se navíc nachází i přechodný fenotyp – BAT-podobné
adipocyty, které se označují také jako béžové. Tyto buňky exprimují UCP-1, typický znak BAT
adipocytů, mají multilokulární charakter a jsou indukovatelné prolongovanou beta adrenergní
stimulací.

Hypertrophy and hyperplasia
Angiogenesis
Inflammation
Macrophages
Mature adipocytes
Preadipocytes
Endothelia
Mature adipocytes
Preadipocytes
Adipose tissue – there is more than just pure differentiation
Adopted from prof. D. Langin, Physiopathology of obesity and current theories on the association
between an excess of fat mass and insulin resistance

Z hlediska adaptace je zásadní schopnost tukové tkáně pojímat v určité formě energii a ve vhodných
situacích ji uvolňovat. Tato schopnost se ovšem liší i v závislosti na lokalizaci tukové tkáně a
nazývá se EXPANDIBILITA. Obecně platí, že podkožní tuková tkáň má tuto schopnost nižší než
viscerální (periorgánový) tuk. Navíc dále platí, že existuje velmi silná korelace mezi množstvím
viscerálního tuku a množstvím lipidů v játrech. Diskordance zdravotního stavu mezi identickými
dvojčasty lze napříkldat částečně vysvětlit odlišým stupněm ukládání lipidů v játrech, které může
být ovlivněno např. expozicí polutantům z vnějšího prostředí. WAT se může rozšiřovat dvěma způsoby:
zvětšením velikosti buněk (hypertrofie) či jejich počtu (hpyerplazie). Zvětšování WAT v
mezenterické oblasti je predominantně hyperplastického charakteru, zatímco tuku v podkožní oblasti
spíše hypertrofuje. Co je zodpovědné za tyto rozdíly, není jasné, jak může anatomická lokalizace
tuku ovlivnit jeho expandibilitu? Z toho pohledu lze tuk ve viscerální oblasti považovat za
unikátní depot se změněným stupněm expandibility a zvýšeným prozánětlivým profilem. Metabolismus
glukózy a lipidů navíc ve viscerálním, podkožním a perigonadálním tuku podléhá jiným regulačním
mechanismům.

Adipocytes à Adipokines
Stromal vascular fraction cells
à cytokines & chemokines
Monocyte chemoattractant protein 1 (MCP1)
Macrophage inflammatory protein (MIP)
Tumor necrosis a (TNFa)
Interleukins 1b, 6, 8, 10, ….
Chemokines
Resistin
Apelin
…
Leptin
Adiponektin
Serum amyloid
Retinol binding protein 4 (RBP4)
Apelin
FIAF/PGAR
Cellular origin of secreted molecules
Adopted from  prof. D. Langin, Physiopathology of obesity and current theories on the association
between an excess of fat mass and insulin resistance

blanc)
Triglycerides
CL
Fatty acids
DGAT
CD36
 FAT
ASP
LPL
VLDL
FFA
ATP
NH2
1- 2- 3- AR
AC
cAMP
PKA
5' AMP
 2-AR
NH2
Gi
Gs
Perilipins
HSL
HSL
ALBP
P
Pyruvate
Glucose
Glucose- 6-P
Glycerol-3-P
GLUT4
Acetyl-CoA
FFA
GLUT4
PDE 3B
IR
IRS
PI3-K
PKB
ATGL
Adopted from prof. D. Langin, Physiopathology of obesity and current theories on the association
between an excess of fat mass and insulin resistance

Přežití organismu závisí na schopnosti adipocytů přechodně skladovat nadbytečné množství
energetických substrátů a schopnosti tyto substráty mobilizovat při poklesu příjmu živin zvnějšku.
Substráty jsou ukládány v lipidových kapénkách ve formě triacylglyceridů a jsou uvolňovány procesem
zvaným lipolýza ve formě mastných kyselin či glycerolu. V postprandiálním stavu adipocyty
vychytávají volné mastné kyseliny uvolněné z VLDL či chylomikronů. Intracelulárně se mastné
kyseliny následně esterifikují s glycerolem za vzniku triacylglyceridů. Během prodlouženého lačnění
či pohybové aktivity se z triacylclyceridů uvolňují celé acyly působením lipázy, konkrétně
adiipocytární triglyceridové lipázy, hormonsenzitvní lipázy a monoglyceridové lipázy. Po svém
transportu do lymfy se tyto mastné kyseliny volně nabízejí oxidaci a syntéze ATP. Regulace
vychytávání cirkulujících substrátů, biosyntézy triglyceridů i lipolýzy závisí na rovnováze mezi
systémovými anabolickými a katabolicmými signály. Zdá se, že z hlediska krátkodobé dostupnosti
substrátů hraje zásadní úlohu pankreatický hormon inzulínm. Klíčovou roli inzulínu např. podporuje
výrazná lipodystrofie pozorovaná u zvířat s knockoutovanými adipocytárním inzulínovým receptorem.




LEPTIN
WAT
adrenals
ARC
PVN/LHA
POMC
NPY/AgRP
OREXIN
CRH
CRH
ACTH
cortisol
Spinal cord
BAT
NTS/AP

Under CNS guidance, the gut is in charge of energy intake. Energy homeostasis can be well
maintained only when the brain-gut circuit is synchronized. This synchronization is achieved by
neuronal and humoral interaction between the brain and gut. In the gastrointestinal tract, nutrient
digestion and absorption trigger the secretion of gut satiety signals such as cholecystokinin
(CCK), peptide YY (PYY) and glucagon like peptide-1 (GLP-1) for stimulation of vagal sensory nerves
to provide feedback to the brain (Berthoud, 2008). Vagal sensory terminals also express receptors
for other gut hormones and peptides that are involved in metabolic regulation. The NTS in the
hindbrain is one of the major processors of vagal afferent signals, as evidenced by the finding
that upper intestinal lipids inhibit hepatic glucose production through a vagal-NTS circuit (Wang
et al, 2008). Additionally, gut hormones and nutrients can influence several specific brain regions
and neurons via the circulation. These factors reach these regions and neurons via transporters
across either the blood-brain barrier (BBB) and/or less BBB-protected circumventricular organs
where neurons can sense blood-borne signals more directly (Cottrell and Ferguson, 2004; Gross,
1992). Among these regions, the NTS–area postrema (AP) complex in the hindbrain and the ARC in the
forebrain are two of the major targets of gut hormones; insulin, produced in the pancreas, and
ghrelin, produced in the stomach, are among the best studied gut hormones acting in these brain
areas (Kojima et al., 1999; Obici et al., 2002; Pocai et al., 2005; Tschöp et al., 2000). In
response to gut hormones and nutrient signals, these brain areas relay the information to other key
regulatory areas, such as the paraventricular nucleus (PVH) of the hypothalamus (to maintain
systemic metabolic homeostasis by modulating neuroendocrine and autonomic outputs) and the
suprachiasmatic nuclei [SCN; where the central biological clock is located (Yi et al., 2006)] (to
synchronize the behavior and physiology of the whole body and balance the sympathetic and
parasympathetic autonomic outflow). Defective or weakened signal feedback by the brain in response
to satiety and nutrients from the gut could cause over-feeding and dis-inhibition of liver glucose
production, and thereby promote metabolic diseases (Berthoud, 2002).

PVN
PVN
LHA
MCH
CART
EPIPHYSIS
WAT - lipolysis
BeAT - BROWNING
BAT – BROWNING, TERMOGENESIS
ARC
ARC
VMN
DMN
VMN
DMN
LHA
DYNORPHIN
OREXINS
ARC
MÍCHA
ENDOCRINE SIGNAL

The most well-studied metabolic sensing region in the forebrain is the hypothalamus, where a number
of nuclei such as the arcuate nucleus (ARC) and ventromedial hypothalamus (VMH) express high levels
of receptors that bind adipokines (cell signaling molecules secreted by adipose tissue, such as
leptin) and gut hormones. Central leptin resistance, one of the major causes of obesity, is caused
by defective leptin sensing in these brain regions (Gautron and Elmquist, 2011). In the hindbrain,
the nucleus tractus solitarius (NTS)–dorsal motor nucleus of the vagus (DMV) complex is the
best-studied brain area with respect to detection of metabolic feedback, especially from the
gastrointestinal system via vagal afferents or the circulation (Berthoud et al., 2006).
Schematic overview of the hypothalamus–adipose axis (based on rat data) involved in food intake
regulation and energy expenditure. In short, the arcuate nucleus (Arc) integrates peripheral
endocrine signal via blood (such as leptin). Leptin acts on its receptor to modulate the expression
and release of Arc appetite-regulating neuropeptides. Then, the Arc drives other hypothalamic areas
such as ventromedial (VMN), dorsomedial (DMN) and paraventricular (PVN) nuclei (considered as
satiety centres) and the lateral hypothalamic area (LHA; considered as a hunger centre). Coronal
section shows the relative position of these nuclei with respect to each other through the
hypothalamus. Circuits allowing communications between these neuronal populations are indicated by
red arrows. Neuronal signal, especially from the PVN, modulates via the nucleus of the soli




Bienertova-Vasku et al.: PLoS One. 2016 Jan 15;11(1):e0146667..
Years of life
Zlámal et al.: PLoS One. 2018  - in press




Rodina, SES, zdraví
Policy
Society
Pollution
Availability of
sportplaces
Place of birth
Social norms
Social capital
Food
Exercise
Social interactions
Geographical
location
Is it more practical to attempt to change the human or the environment?

„Obesity is not simply about bodyweight or body image. It is about human vulnerability arising from
excess body fat, the origins of which lie in multiple determinants ranging from molecular genetics
to market forces.“
Ralston J, Brinsden H, Buse K, Candeias V, Caterson I, Hassell T, Kumanyika S, Nece P, Nishtar S,
Patton I, Proietto J, Salas XR, Reddy S, Ryan D, Sharma AM, Swinburn B, Wilding J, Woodward E. Time
for a new obesity narrative. Lancet. 2018 Oct 20;392(10156):1384-1386.

How do we adapt?
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Obsah obrázku text, mapa, kreslení Popis byl vytvořen automaticky Obsah obrázku exteriér, osoba,
bunda, sníh Popis byl vytvořen automaticky Obsah obrázku hora, příroda, exteriér, sníh Popis byl
vytvořen automaticky Obsah obrázku exteriér, budova, vpředu, stojící Popis byl vytvořen automaticky
Obsah obrázku sníh, osoba, oblečení, nošení Popis byl vytvořen automaticky Obsah obrázku osoba,
exteriér, budova, dítě Popis byl vytvořen automaticky

41
Breathable air?
Obsah obrázku snímek obrazovky Popis byl vytvořen automaticky
Noc vědců 2019 – JD – Ústav patologické fyziologie
An Improved Dynamic Model for the Respiratory Response to Exercise
       Leidy Y. Serna1,2*,        Miguel A. Mañanas1,2,        Alher M. Hernández3 and
Roberto A. Rabinovich4,5
Výsledek obrázku pro air

Obsah obrázku tráva, exteriér, osoba, pole Popis byl vytvořen automaticky Obsah obrázku osoba,
červená, skupina, stojící Popis byl vytvořen automaticky Výsledek obrázku pro ethiopian highlanders
Most of the adaptation during the first 2 weeks to 2 months after arrival to the high altitude
area, but in permanently living populations the changes occur prenataly already
Most of the changes go unnoticed
Typical morphology of populations living in the high altitude – the barrel chest
Different mechanism of adaptation (decreased or increased hemoglobin levels, etc.)
Higher hydration
Different distinct populations: Tibetians, Andians, Ethopians.
Breathable air

https://breathing.com/blogs/respiratory-chemistry/ethiopian-highlanders

Breathable air: record
Obsah obrázku voda, vsedě, kulečník, plavání Popis byl vytvořen automaticky Obsah obrázku osoba,
exteriér, lyžování, sníh Popis byl vytvořen automaticky

The current world record for static apnea, or holding your breath in water without moving (often
face down, unlike this training session), is 11 minutes and 35 seconds, and was set by Stéphane
Mifsud in 2009.

:Shelter: cold and heat - records
Very dry air: 120+ °C (248+ °F) short-term, 70+ °C (158+ °F) long-term (with accesss to water with
lower temperature)
Tropical air: 60+ °C (140 °F) short-term, 47 °C (117 °F) long-term
Saturated air: 48 °C (118 °F) short-term, 35 °C (95 °F) long-term
Water: 46° C (115 °F) short-term and 41°C (106 °F) long-term
Obsah obrázku sníh, exteriér, osoba, hora Popis byl vytvořen automaticky Obsah obrázku text, mapa
Popis byl vytvořen automaticky
Regulation of Body Temperature by the Nervous System
Chan LekTan1Zachary A.Knight1234

Live Science explains that your body's core temperature should stay in the vicinity of 98.6 degrees
Fahrenheit (37 degrees Celsius). Once your body drops to 95 degrees or below, hypothermia takes
hold. This impedes the function of vital organs such as the brain and heart. When your core body
temperature hits 91 degrees F (33 C), you might suffer amnesia. At 82 degrees F (28 C), you might
lose consciousness. At 70 degrees F (21 C), you experience "profound," deadly hypothermia.

45
Water?
Obsah obrázku text Popis byl vytvořen automaticky Obsah obrázku sklo Popis byl vytvořen automaticky

Water: physiological demands: record
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byl vytvořen automaticky

Andreas Mihavecz, an 18-year-old Austrian man, may have survived the longest without drinking
water: Police accidentally left him in a holding cell for 18 days in 1979. It's a fuzzy record,
though, since he allegedly licked condensation off the walls of the prison.

47
Food intake?
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Popis byl vytvořen automaticky

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oblek, staré Popis byl vytvořen automaticky
74 vs. 382 days?
Food: physiological demands, record?

But the longest-lasting hunger strike in recorded history was undertaken by an Irish political
prisoner, , Terence MacSwiney
 whose 74-day strike ended with his death in 1920. 382 days Angus Barbieri, 125 kg zhubnul

Stress and the surrounding environment
What do we know?
49

Adobe Systems
50
Human wellbeing vs stress
There is increasing acknowledgement that design of urban spaces can contribute to the health and
well-being of residents. Development of green spaces, design of parks and appropriate proximate
infrastructure may promote increased physical activity leading to improved health outcomes within
populations (Honold et al., 2015, Nordh et al., 2011, Nordh et al., 2009, Nordh and Østby, 2013).
Epictetus: "If you wish your house to be well managed, imitate the Spartan Lycurgus. For as he did
not fence his city with¨walls, but fortified the inhabitants by virtue and preserved the city
always free; so do you not cast around (your house) a large court and raise high towers, but
strengthen the dwellers by good-will and fidelity and friendship, and then nothing harmful will
enter it, not even if the whole band of wickedness shall array itself against it.
Also, that city is well fortified which has a wall of men instead of brick.“

Overall, more people in the world live in urban than in rural setting since 2010. In 2020, 56.2
percent of the world population was urban. Half of these people lived in towns of less than 500,000
inhabitants.

Adobe Systems
51
The WHO Expert Committee on Environmental Health in Urban Development
"The health of a city's people is strongly determined by physical, social, economic, political and
cultural factors in the urban environment, including the processes of social aggregation,
migration, modernisation and industrialisation, and the circumstances of urban living..... [T]he
impact of urban processes on health is not just the sum of the effects of the various factors taken
individually, since they interact synergistically with each other." (WHO, 1991, pag.11)
Masaryk University, Faculty of Medicine

Are the people in the cities more or less healthy than people living in the urban settings?

Adobe Systems
52
So, what constitutes human wellbeing?
Masaryk University, Faculty of Medicine
Urban form and mental wellbeing:  scoping a theoretical framework for action
Amir Hajrasoulih(1), Vicente del Rio(1), James Francis (1) and Jessica Edmondson(2) The Journal of
Urban Design and Mental Health
Percentage of Energy-efficient buildings Density of disused buildings, Roads conditions Traffic
intensity, Quality of the Local Transport Network Percentage of soft mobility lanes, Density of
areas subjected to flooding risk, Density of areas subjected to seismic risk, Density of areas
subjected to hydrogeological risk Territorial utilization for agriculture
Population density Presence of metropolitan functions Percentage of Tertiary activities Status of
the housing stock, Waste production Building obsolescence Bigger emission sources Building quality
Clime characteristics, Density of Illegal buildings Density of Sport and recreational structures
Crowding index
Noise pollution
Electromagnetic pollution
Unemployment rate
Multi-ethnic composition of residential population
Safety and care of elder population

Urban air pollution, noise and traffic congestion are the most recognised symptoms of urban
environmental stress. Causes of such stresses are clearly related to rapid changes in urban
lifestyles and increased urban activities which have occurred in the last decades. Yet, their links
with the patterns of urban development are often not fully appreciated. The interrelated nature of
urban environmental problems can be best explained by examining, for example, the relationship
between air pollution, energy consumption and transportation trends.
Major causes of air pollution in cities are the processes involving the combustion of fossil fuels.
These include the production and consumption of energy for domestic and commercial building heating
systems, industrial activities and transport. There are important differences in energy patterns
among European cities and within cities' inner and outer areas, as illustrated by the examples of
London and Berlin (Figure 37.1a, b and c). These are reflected in the levels of emissions of air
pollutants and air quality levels. Fuel substitution in domestic heating has reduced dramatically
the emissions of sulphur dioxide and particulates per unit of energy consumed in Western European
cities. The substitution of natural gas for coal and oil in European cities has also reduced
emissions of carbon dioxide per unit of energy. However, the majority of cities still exceed
short-term WHO-AQGs (air quality guidelines), and in most Eastern and Southern European cities
long-term exposure to particulates and sulphur dioxide is still an important concern. Furthermore,
as emissions from stationary sources of urban air pollution from domestic and industrial activities
have receded, traffic-generated pollutants such as nitrogen oxides, carbon dioxide, particulates
and volatile organic compounds have steadily increased.

53
The Stress of Life, Hans Selye, 1956:
„… the non-specific response of the body to any demand made upon it, whether it is caused by, or
results in, pleaseant, or unpleasant conditions“
Obsah obrázku text, hodiny Popis byl vytvořen automaticky

The relationship between stress and disease is now well established, but was not always recognised.
The word ‘stress’ is used in physics to refer to the interaction between a force and the resistance
to counter that force, and it was Hans Selye who first incorporated this term into the medical
lexicon to describe the “nonspecific response of the body to any demand “. Selye, who is known as
the ‘father of stress research’, disavowed the study of specific disease signs and symptoms, unlike
others before him, and instead focused on universal patient reactions to illness. His concept of
stress impacted scientific and lay communities alike, in fields as diverse as endocrinology,
complementary medicine, animal breeding and social psychology.

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So what is the problem?
How does extent of a given land cover type in a citizens‘ view affect her or his level of emotional
arousal, while controlling for walk speed, direction, and distance to automobile roads, and how do
changes in direction (turns) explain additional variation in physiological parameters when the
other variables are accounted for?
Masaryk University, RECETOX, Faculty of Sciences

a) Amygdala activity during social stress processing is highest in individuals residing in cities,
intermediate in those residing in towns and lowest in those residing in rural areas. *P ≤ 0.05;
error bars, mean ± s.e.m.(b) Activity in the perigenual anterior cingulate cortex (pACC) during
social stress processing correlates positively with urban exposure during upbringing. Images (a,b)
adapted from ref. 101 (Nature Publishing Group). (c) Gray matter volume in the pACC correlates
negatively with urban exposure during upbringing, specifically in males (image adapted from Haddad,
L. et al. Brain structure correlates of urban upbringing, an environmental risk factor for
schizophrenia, Schizophr. Bull. 2015, 41, 1, 115–122, by permission of Oxford University
Press)^102.

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So what is urban stress in terms of human health?
Urban health: an example of a “health in all policies” approach in the context of SDGs
implementation Oriana Ramirez-Rubio, Carolyn Daher, Gonzalo Fanjul, Mireia Gascon, Natalie Mueller,
Leire Pajín, Antoni Plasencia, David Rojas-Rueda, Meelan Thondoo & Mark J. Nieuwenhuijsen
Globalization and Health volume 15, Article number: 87 (2019
A state of bodily or mental tension developed through city living, or the physical, chemical, or
emotional factors that give rise to that tension.
Masaryk University, Faculty of Medicine

Urban air pollution, noise and traffic congestion are the most recognised symptoms of urban
environmental stress. Causes of such stresses are clearly related to rapid changes in urban
lifestyles and increased urban activities which have occurred in the last decades. Yet, their links
with the patterns of urban development are often not fully appreciated. The interrelated nature of
urban environmental problems can be best explained by examining, for example, the relationship
between air pollution, energy consumption and transportation trends.
Major causes of air pollution in cities are the processes involving the combustion of fossil fuels.
These include the production and consumption of energy for domestic and commercial building heating
systems, industrial activities and transport. There are important differences in energy patterns
among European cities and within cities' inner and outer areas, as illustrated by the examples of
London and Berlin (Figure 37.1a, b and c). These are reflected in the levels of emissions of air
pollutants and air quality levels. Fuel substitution in domestic heating has reduced dramatically
the emissions of sulphur dioxide and particulates per unit of energy consumed in Western European
cities. The substitution of natural gas for coal and oil in European cities has also reduced
emissions of carbon dioxide per unit of energy. However, the majority of cities still exceed
short-term WHO-AQGs (air quality guidelines), and in most Eastern and Southern European cities
long-term exposure to particulates and sulphur dioxide is still an important concern. Furthermore,
as emissions from stationary sources of urban air pollution from domestic and industrial activities
have receded, traffic-generated pollutants such as nitrogen oxides, carbon dioxide, particulates
and volatile organic compounds have steadily increased.

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So what are the determinants of urban health?
Masaryk University, RECETOX, Faculty of Sciences
J. Boydell et al. Br. J. Psychiatry 182, 45–49; 2003
Health and wellbeing in the changing urban environment: complex challenges, scientific responses,
and the way forward XuemeiBai  IndiraNath AnthonyCapon NordinHasan DovJaron, Current Opinion in
Environmental Sustainability Volume 4, Issue 4, October 2012, Pages 465-472

In 1965, health authorities in Camberwell, a bustling quarter of London's southward sprawl, began
an unusual tally. They started to keep case records for every person in the area who was diagnosed
with schizophrenia, depression, bipolar disorder or any other psychiatric condition. Decades later,
when psychiatrists looked back across the data, they saw a surprising trend: the incidence of
schizophrenia had more or less doubled, from around 11 per 100,000 inhabitants per year in 1965 to
23 per 100,000 in 1997 — a period when there was no such rise in the general population (J. Boydell
et al. Br. J. Psychiatry 182, 45–49; 2003 ). The result raised a question in many researchers'
minds: could the stress of city life be increasing the risk of schizophrenia and other
mental-health disorders?

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Why is it important?
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Masaryk University, Faculty of Medicine
„Urban resilience has conventionally been defined as the "measurable ability of any urban system,
with its inhabitants, to maintain continuity through all shocks and stresses, while positively
adapting and transforming towards sustainability".[1] Therefore, a resilient city is one that
assesses, plans and acts to prepare for and respond to hazards - natural and human-made, sudden and
slow-onset, expected and unexpected. Resilient Cities are better positioned to protect and enhance
people's lives, secure development gains, foster an investible environment, and drive positive
change.[1] Academic discussion of urban resilience has focused primarily on three distinct threats;
climate change, natural disasters, and terrorism.“ – Wikipedia as of 2021

Addressing the causes of environmental
maladaptations, instead of treating their symptoms, is necessary if current efforts to improve the
urban
environment's quality are to succeed. In cities, people are simultaneously exposed to high
concentrations of
environmental pollutants while being confronted with specific visuality of the cityscape and
multiple humanto-
human interactions. All of these can be a massive source of stress to the city inhabitants.1 The
term
“resilient city” encompasses the complexity of assessing and managing the urban environment
subjected to
environmental and internal influences – including the human component.1 The European Environment
Agency (EEA) sees the resilient city as a dynamic urban ecosystem that is “consuming, transforming
and
adaptively releasing materials and energy and interacting with other ecosystems, tackling
mitigation and
adaptation efforts and addressing quality of life through better and greener urban planning.”2
Clearly, such an
ecosystem is inevitably bound to the wellbeing and stress of its inhabitants.

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Smart cities – where we want-could be
Masaryk University, RECETOX, Faculty of Sciences

When we hear the word “SMART CITIY”, some of us think that it is something very far from our daily
life and from our point but I believe that the term “SMART CITY” is broader than just putting
“things to the city to measure”.
“SMART CITY” is helping to reduce traffic in a city by monitoring traffic in real time or free
parking spaces.
“SMART CITY” is to control and foresee the possible levels of environmental and/or noise pollution
of a CITY in order to make more reliable and transparent decisions of the situation.
“SMART CITY” is to prevent industrial accidents and fires by monitoring dangerous agents in the
environment.
“SMART CITY” is to control a person’s comfort parameters (temperature, humidity, air quality) in a
building so that they feel comfortable in it. Obviously, not everything is great about smart
cities. Lack of public awareness and social responsibility, building and maintaining the
infrastructure is costly and challenging, demands 24x7 connectivity and power supply, security
problems with access to citizens and city data, may lead a way towards social discrimination.
Difficult to release the business case for implementation

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So what can physiology offer to urbanism?
̶Deep understanding of pathogenic processes behind common illnesses
̶Deep insight into methodology of measurement of various urban-stress-related variables
̶Explanations of pathways between exposure and final health outcome, instead of plain association
of exposure with disease
̶Looking at the city as a platform capable of managing ENVIRONMENTAL DATA (pollution levels, water
and waste management), SECURITY (health of buildings, bridges and dams or emergency situations),
TRANSPORTATION (lighting on roads, real-time traffic, reduction of travel times and refueling),
QUALITY OF LIFE (health, accessibility, sport and leisure) and BUILDINGS (energy consumption and
user comfort), should enable major short-term improvements in health of citizens.
Masaryk University, RECETOX, Faculty of Sciences

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And, how do we measure stress in real world?
A Critical Review of Consumer Wearables, Mobile Applications, and Equipment for Providing
Biofeedback, Monitoring Stress, and Sleep in Physically Active Populations. Peake JM, Kerr G,
Sullivan JP. Front Physiol. 2018 Jun 28;9:743. doi: 10.3389/fphys.2018.00743.
Masaryk University, RECETOX, Faculty of Sciences

a) Hardware environment for functional MRI hyperscanning enabling delay-free data transmission,
synchronized data acquisition and live video streaming between scanner sites to study real-time
human social interaction. Adapted from ref. 127 (NAS). (b) A multimodal approach for the study of
the neural correlates of real-life environmental risk exposures through a combination of
neuroimaging with the real-time acquisition of position data, multivariate geographical mapping of
natural risk sources and EMA of stress-related psychological variables (MovisensXS platform,
Movisens GmbH). Map sources: GeoBasis-DE/BKG, Google (location tracking); OpenStreetMap
contributors and City of Mannheim Office of City Planning (traffic noise); Nexiga LOCAL
(unemployment percentage, population density and foreigner percentage).

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Humans as sensors
• We often do not know exactly the systems' equations of motion;
• We lack knowledge as to how to merge/combine these equations (e.g., due to the issue of
time-scale matching);
• We may have insufficient knowledge about relevant structural connections;
• We may not have direct access to interactions between systems (e.g., via probing).
The Human Organism as an Integrated Interaction Network: Recent Conceptual and Methodological
Challenges. Lehnertz K, Bröhl T, Rings T. Front Physiol. 2020 Dec 21;11:598694. doi:
10.3389/fphys.2020.598694. eCollection 2020.

So what happens if we put all available methodologies on a human simultaneously? Figure 1.
Schematic of the human organism as an evolving complex network of dynamical interactions between
organ systems. The dynamics of different organs exhibit a broad range of timescales, and
physiological observables are typically based on different physical and/or chemical quantities.
Time-dependent organ-organ interaction matrices are derived from a time-resolved
time-series-analysis-based characterization of interactions from all pairs of observables. These
matrices represent a network that evolves in time, with nodes representing organs and edges
representing time-varying interactions between them.

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Collective sensing
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Space-time analytics of human physiology for urban planning
Garrett C. Millara,*, Ondrej Mitasb, Wilco Boodeb, Lisette Hoekeb, Joost de Kruijfb,
Anna Petrasovaa, Helena Mitasova, Computers, Environment and Urban Systems 85 (2021) 101554

The 3D map view (Fig. 6b) from the study by Millara et al. provides an overview of the cyclists'
physiological responses within the spatial context, including the effects of buildings. It allows
us to display data as a 2D map or zoom-in and explore details in a 3D perspective view. The 3D view
facilitates visual assessment of data location accuracy in relation to the buildings and
transportation infrastructure, queries all attributes associated with each point, and visually
analyzes spatial patterns of attribute values using colored point symbols. The 3D mapping platform
thus serves as a valuable feature for exploration, analysis, and interpretation of complex human
physiology data across urban landscapes.

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What is the point? Change of paradigm?
Formal structures of cities are often inspired by a combination of human geometry and cosmological
patterns in both Eastern and Western civilizations, from early representations in mandalas to the
Vitruvian Man. Cities have also been understood as a living system, a macroscopic organism, linked
through its collective consciousness, communicative structure and relationship to natural resources
and cycles. Like the human body or other natural organisms, the city is comprised of multiple
parts, organs, cells and functions, each autonomously working with its own requirements. However,
we need to learn much more about the interconnectedness to understand better the processes.

“It is our attitude toward events, not events themselves, which we can control. Nothing is by its
own nature calamitous -- even death is terrible only if we fear it.”
― Epictetus

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Obsah obrázku osoba, muž, držení, žena Popis byl vytvořen automaticky Obsah obrázku červená, hora,
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automaticky

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Budeme u toho?
̶Ano!
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