Hypoxia & Hair Loss: Your Hair Follicles are Suffocating!
Summary
TLDRThis video explores the link between hypoxia, or oxygen deprivation, and hair loss. It explains that hypoxia, often caused by hypothyroidism or copper deficiency, can lead to inflammation and hair loss. The script suggests that improving thyroid function, increasing copper intake through shellfish, and getting adequate sunlight to activate ATP production can help combat hypoxia and promote hair growth. It challenges the genetic theory of hair loss, offering a holistic approach to understanding and addressing the physiological imbalances behind it.
Takeaways
- 😷 Hypoxia, or oxygen deprivation, is a condition where tissues in the body, including the scalp, have low oxygen saturation, which can lead to hair loss.
- 📊 Studies have shown a connection between hypoxia and male pattern baldness, with bald scalp areas showing a lack of oxygen compared to hair-bearing areas.
- 💨 Breathing exercises or meditation might not be enough to combat hypoxia, as it can also be caused by physiological factors beyond just breathing deeply.
- 🏃♂️ Intense cardiovascular exercise can contribute to hypoxia by causing hyperventilation, which may be a factor in hair loss for some individuals.
- ❄️ Hypothyroidism is a significant factor that can lead to hypoxia, as the thyroid regulates oxygen consumption and helps in the production of carbon dioxide, which is essential for oxygen delivery to tissues.
- 🦐 Copper deficiency can also cause hypoxia, as copper is crucial for activating oxygen and making it available for cells and tissues, including the hair follicle.
- 🔆 Sunlight plays a role in activating an enzyme called cytochrome C oxidase, which is involved in ATP production and is stimulated by copper and sunlight, promoting healthy hair growth.
- 🔋 ATP, or adenosine triphosphate, is essential for hair follicle health, and copper is responsible for about 90% of ATP production in the electron transport chain.
- 🌞 Getting adequate sunlight is important for hair growth, as it activates the production of ATP and helps in the prevention of hypoxia.
- 🧬 Androgenic alopecia is not solely caused by androgens, but rather is a symptom of underlying physiological imbalances, including hypoxia.
- 🛠️ To address hair loss potentially caused by hypoxia, consider improving thyroid function, increasing copper intake through shellfish, and ensuring adequate sunlight exposure.
Q & A
What is hypoxia in the context of this video?
-Hypoxia, in this context, refers to oxygen deprivation, specifically a condition where there is low saturation of oxygen in the tissues of the body, such as the scalp tissue, leading to a lack of oxygen that can cause hair loss.
How does hypoxia relate to hair loss according to the video?
-Hypoxia is an underlying precursor to baldness, as it has been verified by studies that show a relative microvascular insufficiency in regions of the scalp that lose hair in male pattern baldness, indicating a lack of oxygen in bald scalp compared to hair-bearing scalp.
What is the role of carbon dioxide in the context of hypoxia and hair loss?
-Carbon dioxide plays a protective role by detaching oxygen from hemoglobin in the blood, allowing the oxygen to reach the tissues. A low thyroid can lead to hypoxia because it affects the production of carbon dioxide, which in turn can result in inadequate oxygen delivery to the tissues, including hair follicles.
Why is copper important for preventing hypoxia and hair loss?
-Copper is crucial because it activates oxygen, making it available for cells and tissues. It is involved in the production of ATP in the electron transport chain, which is essential for energy. A deficiency in copper can lead to hypoxia by affecting the activation of cytochrome C oxidase and the production of ATP.
How does sunlight play a role in preventing hair loss as discussed in the video?
-Sunlight is an activator of cytochrome oxidase, which is involved in ATP production in the electron transport chain. Adequate sunlight helps in the activation of this enzyme, promoting healthy hair growth by ensuring the production of sufficient ATP for hair follicle energy needs.
What is the misconception about androgenic alopecia that the video aims to clarify?
-The video clarifies that androgenic alopecia is not solely caused by androgens, but rather it is a symptom of underlying physiological imbalances, such as hypoxia, which can be addressed and corrected through various means, contrary to the genetic theory that suggests it is an unavoidable fate.
What are some of the factors that can cause hypoxia aside from intense cardiovascular exercise?
-Aside from intense cardiovascular exercise, which can lead to hyperventilation and hypoxia, other factors include hypothyroidism, copper deficiency, and insufficient sunlight exposure, all of which can affect the body's ability to produce and utilize oxygen effectively.
How does the video suggest addressing hypoxia to prevent hair loss?
-The video suggests addressing hypoxia by improving thyroid function, ensuring adequate copper intake through dietary sources like shellfish, and getting sufficient sunlight to activate the necessary enzymes for ATP production and oxygen utilization in hair follicles.
What does the video suggest about the role of the thyroid in hair health?
-The video suggests that the thyroid is crucial for hair health because it regulates oxygen consumption and metabolism in the body. A suboptimal thyroid can lead to hypoxia by affecting the production of carbon dioxide, which is necessary for oxygen delivery to tissues.
What is the significance of cytochrome C oxidase in the context of the video?
-Cytochrome C oxidase is significant because it is an enzyme responsible for the transport of electrons into oxygen, leading to ATP production. Sufficient levels of copper and sunlight are necessary for its activation, which in turn affects the oxygen and energy supply to hair follicles.
What is the 'forever healthy hair course' mentioned in the video, and how does it relate to the discussion on hypoxia and hair loss?
-The 'forever healthy hair course' is a resource mentioned in the video that delves deeper into the material discussed, including the role of hypoxia in hair loss and holistic approaches to address it. It aims to provide step-by-step information to help viewers understand and correct hair loss issues.
Outlines
🌀 Hypoxia and Hair Loss Connection
This paragraph introduces the concept of hypoxia, which is a state of oxygen deprivation in tissues, particularly focusing on the scalp tissue in relation to hair loss. The speaker clarifies that hypoxia often precedes inflammation and fibrosis, which are implicated in baldness. Studies have shown a link between hypoxia in bald scalps and male pattern baldness. The paragraph also touches on the misconception that simply breathing more deeply can solve hypoxia, emphasizing the complexity of the issue and the need to consider other physiological factors such as exercise habits and the potential role of hyperventilation in exacerbating the condition.
🔬 Hypoxia Causes and Copper's Role in Oxygen Activation
The second paragraph delves into the causes of hypoxia, highlighting hypothyroidism as a significant factor due to its impact on oxygen consumption regulation and carbon dioxide production, which is essential for oxygen dispersal to tissues. Copper deficiency is also discussed as a major cause of hypoxia, with copper being crucial for oxygen activation and ATP production in the electron transport chain. The paragraph explains the biochemical mechanisms by which copper activates oxygen and supports hair follicle health, and how a lack of copper can lead to hypoxia and hair loss. The importance of sunlight in activating enzymes and promoting ATP production is also mentioned, suggesting a synergistic relationship between copper and sunlight for healthy hair growth.
🌱 Addressing Hypoxia to Prevent Hair Loss
The final paragraph emphasizes the importance of identifying and addressing the underlying causes of hair loss, such as hypoxia, which is a sign of physiological imbalance. It suggests that correcting hypoxia may involve improving thyroid function, ensuring adequate copper intake through dietary sources like shellfish, and getting sufficient sunlight to activate the necessary enzymes for ATP production. The paragraph concludes by offering resources for further learning, such as the 'Forever Healthy Hair' course, and encourages viewers to explore these avenues to understand and potentially reverse hair loss from a holistic perspective.
Mindmap
Keywords
💡Hypoxia
💡Hair Loss
💡Inflammation
💡Hypothyroidism
💡Carbon Dioxide
💡Copper Deficiency
💡Cytochrome C Oxidase
💡Sunlight
💡ATP
💡Androgenic Alopecia
💡Electron Transport Chain
Highlights
Hypoxia is defined as oxygen deprivation, specifically low saturation of oxygen in body tissues, including the scalp.
Hypoxia is a precursor to inflammation and fibrosis, and is implicated in baldness.
Studies have shown a correlation between microvascular insufficiency and hair loss in male pattern baldness.
Breathing exercises and meditation may not fully address hypoxia-related hair loss.
Hyperventilation from intense exercise can contribute to hypoxia and hair loss.
Hypothyroidism is a major causative factor for hypoxia due to its role in regulating oxygen consumption.
Carbon dioxide, produced by the thyroid, helps disperse oxygen to tissues.
Copper deficiency is common and can lead to hypoxia due to its role in activating oxygen for cell use.
Copper is crucial for ATP production in the electron transport chain.
Sunlight activates cytochrome C oxidase, promoting ATP production and healthy hair growth.
Research indicates lower copper levels in individuals with androgenic alopecia.
Androgenic alopecia is not solely caused by androgens, but is a symptom of underlying issues.
Hair loss is a sign of physiological imbalance or stress in the body.
Improving thyroid function, addressing copper deficiency, and getting sunlight are suggested corrective measures for hypoxia-related hair loss.
The Forever Healthy Hair course offers a holistic approach to correcting hair loss.
The video provides a comprehensive look at the physiological factors contributing to hair loss.
Transcripts
hey guys in this video I want to talk
about the correlation between hypoxia
and hair loss
[Music]
all right so first and foremost what is
hypoxia if you're not familiar with our
YouTube channel you haven't seen our
videos or heard of this condition let's
clear it up first so you know what we're
talking about here in this video so
hypoxia in the simplest of terms means
oxygen deprivation it is specifically
referring to a condition of low
saturation of oxygen in the tissues in
your body so pertaining to this video
we're talking about scalp tissue that
doesn't have enough oxygen and this
causes hypoxia and hypoxia typically
precedes inflammation in often fibber
OSIS so one of the underlying precursors
to scout theosis that's implicated in
baldness is typically hypoxia in fact
this has even been verified by studies
like this one where they point out that
there is a relative micro vascular
insufficiency two regions of the scalp
that lose hair in male pattern baldness
we have identified a previously
unreported tissue hypoxia in bald scalp
compared to hair bearing scalp so in
other words what that studies pointing
out is that in the scalps of balding men
wherever there is a loss of hair
wherever there's a bald region there is
a lack of oxygen so at this point
perhaps you're thinking well if hypoxia
is just a lack of oxygen maybe all I
need to do is breathe more deeply I need
to do some sort of breathing exercises
meditations because I you know I've
heard I don't breathe deep enough and
this is causing the stress and this is
why my hair is falling out well this is
only partially true that could
definitely be beneficial because
ultimately if you start hyperventilating
let's say from aerobic exercise or
cardiovascular exercise and you can't
breathe well certainly then your cells
are hyperventilating and that's going to
cause hypoxia so this is one of the many
reasons I always advocate against
cardiovascular exercise if you're
somebody that's a cyclist and if you do
marathons and you do intense
long-distance running or tons of aerobic
or anaerobic exercise to avoid that
stuff because it's putting a major
stress in the body however there is more
to the picture so I would definitely
recommend avoiding hyperventilation
I would definitely look at the way
you're exercising if you're somebody
who's always doing
cardiovascular exercise if you're doing
aerobic or anaerobic exercise and you're
experiencing hair loss it could be a
major contributing factor but expanding
the physiological picture there are
other dominant factors and if you're
somebody who doesn't engage in
cardiovascular exercise you might still
be experiencing hypoxia due to these
factors were about to touch on so one of
the first major causative factors to
hypoxia is hypothyroidism we talk so
much about the thyroid but it's so
crucial for good hair health and good
overall health and because of our
stressful estrogenic world so many
people are dealing with a suboptimal
thyroid and the reason that low thyroid
can lead to hypoxia is very simple the
thyroid gland is the key gland for
regulating oxygen consumption and
regulation in the body so the thyroid
gland is what drives oxidative
metabolism or oxidative phosphorylation
which is a fancy term for a glucose
oxidation and the byproduct of glucose
metabolism is carbon dioxide in carbon
dioxide is not this way substance we
have been told it to be it is actually a
very protective substance and one of the
major things that carbon dioxide does is
it detaches oxygen from the hemoglobin
in the blood so that way the oxygen is
not bound up with the hemoglobin in your
blood and instead can get to the tissue
so in other words carbon dioxide helps
to disperse oxygen to your tissues from
your bloodstream so now if you have a
low thyroid you're not gonna be
producing enough carbon dioxide and this
could result in hypoxia moving along
another major causative factor for
hypoxia other than the hypothyroid could
actually be a copper deficiency which is
very common in today's world because
copper is most abundant in things like
shellfish not many people eat shellfish
either due to an allergy or because of a
dietary preference or they just don't
like the taste
not all shellfish tastes that great but
shellfish is some of the most abundant
sources of copper in fact it's one of
the only sources of dietary copper the
only other place you're gonna really
find copper is maybe in chocolate or
cacao however the copper in chocolate is
not that bioavailable is typically bound
up with five paints and
things that make it unavailable for
assimilation so your best sources of
copper to me and shellfish which a lot
of people don't consume now the basic
reason that low levels of copper can
cause hypoxia is because copper through
a series of complex physiological and
chemical mechanisms actually activates
oxygen so copper activates oxygen and
makes it available for your cells and
tissues to use very similarly to what
carbon dioxide does and here are a few
of the ways that copper specifically is
responsible for the activation of oxygen
and ultimately feeding the hair follicle
and when copper is low how it can
contribute to hypoxia and hair loss so
first and foremost copper is actually
responsible for about 90% of the ATP
produced in the electron transport chain
which is one of the processes chemical
processes that occur through oxidative
phosphorylation which is basically the
oxidation of glucose ultimately into ATP
so copper is actually one of the
substrates the building blocks of an
enzyme known as cytochrome C oxidase in
cytochrome C oxidase is responsible for
the transport of electrons ultimately
into oxygen and perhaps the simplest way
to look at this without getting into the
complex chemistry is that without
sufficient copper levels then you're not
going to be able to activate cytochrome
C oxidase and then you're not going to
be able to produce enough oxygen and
ultimately not enough ATP or energy so
low copper levels means low energy
levels so as I've talked about in
previous videos cytochrome C oxidase is
an enzyme that is actually activated by
the Sun as well so copper activates this
but also when you're in the presence of
the Sun the Sun interacts with the
mitochondria and it can stimulate
cytochrome oxidase to basically turn on
the mitochondrion to produce more energy
or ATP so this is one the complex
reasons that the Sun feels so energizing
and why the Sun can actually activate
and promote healthy hair growth which is
one of the things that we talk about so
frequently in the forever healthy hair
course that getting adequate sunlight is
essential for good hair growth it is one
of the major regulators of healthy hair
growth and it largely is responsible for
activating cytochrome oxidase and turn
the mitochondria to make ATP and if
you're familiar with our channel then
you know that the hair follicle has
three basic nutrients oxygen glucose and
ATP ATP is the basic energy to
everything every cell in your body uses
including the hair follicle so copper is
essential for the production of the 34
ATP produced under oxidative
phosphorylation and if this process
doesn't occur if there's deficient
levels of copper or or let's say you're
not getting enough sunlight - that's a
key factor as well copper and sunlight
are very synergistic so if you don't
have enough copper or you're not getting
enough sunlight there's gonna be low
activity of cytochrome C oxidase which
means low oxygen levels low ATP and this
is what causes oxidative stress or the
reactive oxygen species to start to
damage the hair follicle through a
complex series of mechanisms largely
through the inability to get oxygen
which is going to cause oxidative stress
but also through the down regulation of
antioxidants in free radical scavengers
like superoxide dismutase in fact if we
look at a research paper here on the
rules of oxidative stress in androgenic
alopecia this study found that there is
a superoxide dismutase dysfunction in
the red blood cells of people with
androgenic alopecia in this whole
process we're talking about here the low
levels of copper the insufficient
activity of cytochrome C oxidase and the
whole dysfunctioning of the electron
transport chain is one of the major
reasons that there's low levels of s OD
now if you haven't understood anything
i've said so far let's just take a quick
look at this study to simplify things
this study basically indicates very
clearly that the levels of copper in men
and women who have androgenic alopecia
are significantly lower than those who
do not have it and that's one of the
major points i want to get across in
this video androgenic alopecia is not
caused by androgens that's just a
misunderstanding of the science and
misinterpretation of what's actually
going on and even the male pattern
baldness is not some gender specific
mutation or unfortunate fate because
you're a man you're gonna go bald and
you're inferior in this way or something
the fact the matter is research like
this in the research that we share on
these videos just further verifies that
hair loss is
a symptom meaning that it's a sign that
something's not working correct in your
body now this isn't to invalidate you
and say if you're experiencing hair loss
something's wrong with you you're a sick
person no but what it's saying is that
just like getting the cold just like
getting a skin rash or some sort of
other health symptoms that your body is
trying to give you a sign and say hey
something's off
something is not working right let's
figure this out now unfortunately with
hair loss unlike other health and
balances or symptoms we have been told
less about what's actually going on so
therefore the problem persists and we
don't solve it like we do acne and other
issues but this is actually the good
news because the whole genetic theory
the whole andro genetic theory or
angiogenic theory actually just makes
you a victim it says hey this is just
genetic poor you there's nothing you can
do about it
you just gotta suffer you were born
genetically inferior
however exposing the actual underlying
pathology and physiology tells you hey
there is something you can do about it
there is underlying issues going on
maybe it's the way you're eating
maybe it's your physiological stress
load maybe it's your environment but
nevertheless it's saying something's off
in your biology but there is something
that you can do about it there's
something that can be done about it so
getting back to the takeaway of this
video the first thing that I want you to
understand is what I just said that
there is something off in the body when
you're experiencing hair loss it's your
body's response to a physiological
imbalance when the body's in homeostasis
the hair tends to get the adequate
energy it needs to grow so hair loss is
more a sign that something's going off
there is biological chaos stress or
imbalance the other thing to understand
is that one of those major bounces might
be hypoxia meaning that your cells are
not getting oxygen or specifically the
hair follicle and the scalp tissue is
not getting oxygen and that is a key
sign that there's some sort of stress
occurring and as we talked about through
more complex mechanisms this could be
due to hypothyroidism and the inability
to produce carbon dioxide and deliver
that oxygen to the cells or it could be
due to a copper deficiency
or even a sunlight deficiency which
results in low ATP production basically
causing a dysfunction in something
called the electron transport chain
which is an aspect of oxidative
phosphorylation or the production of ATP
or energy so to summarize if you're
experiencing baldness male pattern
baldness androgenic alopecia or some
sort of hair loss it's possible that
there's tissue oxygen deprivation or
hypoxia and a few simple things you're
gonna want to take a look at or
experiment with to start the corrective
process would be first and foremost take
a look at your thyroid function get the
thyroid into good shape so that way your
cells can use oxygen number 2 perhaps
you are copper deficient and again the
best sources of copper are going to be
shellfish I recommend consuming
shellfish at least once or twice a week
my favorite would be hoisters shrimp and
mussels but of course you're gonna want
to eat something that tastes good to you
but I sirs are definitely gonna be one
of the richest sources of copper and
they have zinc and other beneficial
nutrients as well
the third thing I'm gonna recommend is
get adequate sunlight because sunlight
is also an activator of cytochrome
oxidase that enzyme that turns on ATP
production in the electron transport
chain so there you have it three very
simple things that you can start to do
to correct hypoxia one of the major
underlying imbalances that tends to be
implicated in all sorts of hair loss
proven in various clinical studies and
very obvious to see as well now if
you're interested in learning more about
how to correct hair loss from this sort
of point of view a more broad range
holistic physiologically sound point of
view be sure to check out our forever
healthy hair course we dive into this
material in greater depth and it's also
a very great place to get step-by-step
information sometimes watching these
videos can be a little bit difficult
because if you haven't watched some of
our previous videos maybe we're talking
about stuff that you haven't heard
before
so although for us these videos build on
one another to a degree they also might
seem very sporadic to the viewer if you
haven't followed us from the beginning
so if you want to see information like
this in a very step-by-step fashion and
get all the pieces to the puzzle put
into one place then deaf
be sure to check out our forever healthy
hair course that you can find in the
description box below otherwise if
you've enjoyed this video and found it
helpful be sure to give it a thumbs up
subscribe to our YouTube channel if you
are new here and if you're interested in
learning more beyond this video remember
we do have an online Mullis Academy with
the forever healthy hair course and we
also have a blog and then online tonic
herbs op both which are full of free
information and resources that you can
find in the description box below
関連動画をさらに表示
Automatic Regrowth of Severe Hair Loss (Norwood 7), Over A Decade is Possible (Natural Restoration)
Fibrosis, Calcification and Hair thinning : How to Regrow Hair Naturally
Does Vitamin D3 Deficiency Cause Hair Loss?
NOS MAS CANAS COME ESTO Y EVITALAS - Oswaldo Restrepo RSC
Top 5 Vitamins To PREVENT Hair Loss
How To Prevent Hair Loss With Lupus
5.0 / 5 (0 votes)