How to Optimize Fertility in Both Males & Females

Welcome to the huberman Lab podcast, where we discuss science and science based tools

for everyday life.

I'm Andrew huberman. And I'm a professor of neurobiology and Ophthalmology at Stanford school of medicine. Today we are discussing fertility. We will discuss male fertility and female fertility. And I should mention that today's discussion is not just for people who are seeking to conceive children or who want to know how their children were conceived, but it's really for everybody and I say,

That because it is the story of all of us. All of us are here because a specialized set of cells called germ cells, that is the sperm and the Egg. And I'll make it very clear why they're called germ cells. A little bit later, has nothing to do with infection, but it's because a sperm cell and an egg cell arrived. At one, another either invivo inside of our mother or in vitro so called in vitro, fertilization. And then, we're implanted into our mother and became us. And so,

Understanding the process of how the egg cell and the sperm cell came to be is really the key to understanding how that fertilization process came to be. I know, everyone's think, I know how fertilization occurs it occurs through sexual intercourse, and so on and we'll talk a little bit about that, but I promise you that, if you understand the menstrual cycle and the menstrual cycle, in today's conversation can best be thought of, as a biological cycle that occurs in females, that allows the potential.

For fertilization by the sperm because that's really what it is. And it's a beautifully orchestrated process that I'll describe to you and I should say all people males and females should really understand how the menstrual cycle works, how it impacts fertilization but also how it impacts the brain and body Behavior, psychology Etc. And we will also talk about spermatogenesis how sperm cells come to be and how they arrive. That is how they swim to the egg and the incredible.

Play Between the biology of the sperm and the biology of the egg leads to this incredible thing that we call embryogenesis and the birth of the child. And of course, the development of that child into an infant toddler and Adolescent a team and an adult. Today's discussion again is not just for those of you that are seeking to have children. And I say that because when you look at the data, you look at the literature on lunch,

Levity and vitality to themes and biology that often times people lumped together but aren't always the same. For instance. There are a lot of things that we can do to increase our Vitality that actually can harm our longevity but there are a subset of biological rules and mechanisms that when aligned allow us to maximize both our vitality and our longevity. And I think it's fair to say that all of those mechanisms and tools are housed in the discussion around.

Maximizing fertility, and that's true, whether or not you're male or female. In other words, if you want children, or if you don't, if you already have children, or if you don't understanding how fertility and fertilization occurs in the brain and body will allow you to maximize Your vitality and Longevity. And of course, today's discussion will provide an understanding of the biology and many actionable tools that will also help you conceive children if that's your wish. So of course as is characteristic of this podcast. We will

Us science-based tools, including behavioral tools, both the do's and the don'ts, and we will discuss nutrition based tools, and supplementation based tools, and some other practices, including things like acupuncture, which have quite good data to support them in terms of improving fertility, and we will discuss why those certain practices can work. And we will discuss prescription drugs, that your doctor can prescribe to you. If, for instance, you have a deficit that at the level of hormone production or no.

Neurotransmitter production at the level of the brain or the pituitary gland. I'll explain what? All of those things are soon or the gonads, the ovary, and the testes in females and males respectively.

Again, by the end of today's episode you will have a lot of knowledge and actionable tools related to maximizing fertility. And you will have a lot of knowledge and actionable tools related to maximizing vitality and Longevity. Before we begin I'd like to emphasize that this podcast is separate from my teaching and research roles at Stanford. It is however, a part of my desire and effort to bring zero cost to Consumer information about science and science related tools to the general public in keeping with that theme. I'd like to thank the sponsors of today's podcast. Our

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So live momentous.com huberman and get 20% off any supplements. Again, that's live, momentous.com huberman to get 20% off. Let's talk about fertility and in doing. So let's take a step back from this word, fertility, and ask what is fertility and fertilization really all about? Well, the obvious answer is that it's about producing Offspring, but more importantly, it's about producing offspring that contain the genetic components of both parents and indeed, contain half of the genes from one.

Parent and half of the genes from another parent. Now, there are two general types of cells in the body, the most common types of cells in the body are called somatic cells. So this would be all the cells in your body except the egg in females and the sperm in males, the egg in females and the sperm and males are part of What's called the germline. And again, has nothing to do with infection. It's just that the cells of the germline have genes that cannot be modified by the behavior of the individual that houses, those jeans. What do I mean by that? Well,

If I were to tell you that by exercising, you can improve mitochondrial function, you can change hormones by reducing stress you can produce cortisol by hitting puberty for instance, you will have the secretion of hormones that then change gene expression and other cells leading to development of body hair, facial hair, deepening, The Voice, breast growth, Etc. You'd say okay, great, yeah, that all makes perfect sense, but that's all occurring in the so called somatic cells, The Germ cells or The Germ line cells.

Owls. That is the egg and the sperm are a very unique and protected set of cells that are generated in a particular way and whose genetic components are not modifiable by experience. And when you take a step back and think about it, you say, oh that's right. There's no reason to think that exercising will make the children that you have not yet had stronger and they said, of course not. Well, why is that? Well, that's because there is a barrier between the genes of

Germ line cells and behaviors. They cannot be modified by behaviors and the various things that you do in your lifetime. Now, I suppose there's an exception in the negative Direction and what I'm referring to here is, if you were to say be exposed to a chemical, that could mutate the DNA of your egg or sperm, or if you were to fertilize an embryo at a, in a certain way or to a certain stage of life that it got an extra chromosome. For instance, we'll talk about this a little bit later. Well, then, of course you could end up with offspring that have

Modified DNA that don't Faithfully represent, half of the genes from Mom and half of the genes from Dad, but that's not the same as specific behaviors, modifying, the genes of those cells. The sperm and the egg cells in a way that improves The Offspring, okay? So the key first thing to understand today is that there's a distinction between somatic cells, which is the vast majority of cells in your body in the so called germ line cells, which are the egg and the sperm, the egg and the sperm are these highly protected, populations of cells that in

I was actually come to be during embryogenesis. Okay. So for all females out there, you generate. What today I'm going to refer to as a vault of cells. You have a vault of of eggs that are your germline, those eggs all contain all the chromosomes of your DNA. So it's going to be as most of, you know, there are 23 chromosomes and chromosomes exist in pairs. So, the way to think about this is each pair is one strand and you have 22. So,

So called autosomes. And then you have one sex chromosome. The sex chromosome will be there X or Y. So, in a female, they have two X chromosomes. So when each one of the eggs that a woman has and that she's had since she was an embryo, and that's contained in this Vault, those eggs are, of course, going to be very immature at Birthright. She hasn't undergone puberty yet. And certainly as an embryo she hasn't undergone puberty and those cells are going to contain 23 pairs of chromosomes because this is very important, 23 pairs of chromosomes.

The chromosomes are essentially, the wrapped up DNA that contains all the genetic information to create any cell type in the body and actually, to create an entirely new individual. Now, there are 23 pairs of chromosomes, 22 of which are called autosomes, okay? If that doesn't make sense to you, just remember, autosome. Okay? There's 22 of them, and then there's one so-called sex chromosome, the sex chromosomes are either X or Y, but this is a female. So she's going to have 23 pairs of chromosomes, and she's going to have

two X chromosomes for the sex chromosomes, okay? If this is already confusing to you, don't worry, I'll make it very clear, how this all relates to fertility and how it relates to chromosomal segregation and a bunch of things that I think, maybe you've heard of. And that perhaps were opaque to you, but I promise to make them clearer. But just understand that within each of those eggs, they have 23 pairs, of chromosomes. And for those of you that like nomenclature, I'll tell you that those cells are considered diploid, they're called the diploid, and that means that they

I have 23 pairs of chromosomes, as distinguished from cells, that are haploid where there's only one set of those 23 chromosomes. So, instead of 23 pairs, there's only 23 chromosomes will come back to haploid cells a little bit later. Okay? So when a female is born, she has all these eggs in the reserve in this Vault that she'll have her her entire life. She's not going to make any more, but they are very, very immature. So when a woman is in embryogenesis,

Has, she develops? These very immature eggs. Okay, today, we're also going to talk about follicles and we will be careful to distinguish follicles from eggs. They're often talked about interchangeably online and elsewhere and even by fertility dachshund OBGYNs, but will right. Now we're just talking about the egg cells, okay? The eggs themselves which are cells now. The goal of fertilization is to bring that egg cell into close enough proximity that it can be fertilized by a single sperm.

I'm

cell and that sperm cell will. Bring 23 chromosomes as well. That include just as in the female egg, it'll have 22 autosomes and one sex chromosome. And in the mail that sex chromosome can either be an X chromosome, which then would give rise to female Offspring or a y chromosome, which would give rise to male offspring. And today, we're not talking about sexual differentiation. That's a topic of a previous and yet another future episode. But just to give you a sense of how

Ow, X chromosomes, and Y, chromosomes can actually accomplish that sexual differentiation, both of body and brain. I'll just mention in two sentences. That for instance, if there's a y chromosome as opposed to an X chromosome, that Y, chromosome contains genes that suppress, for instance, the development of female genitalia and thereby give rise to male genitalia. So, rather than the formation of a clitoris, is the formation of a penis. And rather the formation of ovaries, the formation of a test

Okay. So that's more directed towards sexual differentiation. We're not going to get into that right now. We'll get into that in a future episode, but even if you're only tracking about 10% of what I'm saying right now, I promise you're doing great if you're tracking more than ten percent. Well, then you're doing terrifically well because the essence of fertility and fertilization is to bring together that haploid cell that is the sperm. That only has 23 chromosomes but not pairs of chromosomes, right? Because that's the DNA.

From Dad together with the egg, which is, I told you already has 23, pairs of chromosomes. So, part of the fertilization process has to be to get rid of one, half of those 23 pairs in the female, India had to get rid of it and you have to get the egg in the sperm in proximity, so that the egg can potentially be fertilized by the sperm bringing the DNA, the 23 single strands of chromosomes from Dad

Into a cell that has 23 single strands from Mom, okay? So I realize I'm probably being a little bit repetitive here, but I want everyone to understand this because it really frames up fertility and reproduction in the proper way. We've got a cell from Mom, the egg, which has 23 pairs of chromosomes. We need to get rid of one set of those pairs. So that there's only 23 chromosomes, we need to get rid of half of those chromosomes, and then we need to

In

that cell together, physically with the sperm cell that contains the 23, chromosomal strands from Dad and we need to bring those together so that you get 23 chromosomal pairs from Dad and 23, chromosomal pairs from Mom and in doing. So you create a cell which then becomes multiple cells. That's going to be the developing embryo that has half the genes from Mom and half the genes from Dad. So I hope that's clear that is the

Urkel logic which I realize is a bit of a tongue twister but forgive me. It is the most accurate way to describe this process. We're trying to bring together the 23 single strands of chromosomes from Dad and the 23 single strands of chromosomes from mom into the same cell. Now that requires a literal physical contact and pairing of the two cells. But as I mentioned before, all these eggs in mom are sitting in a vault in there. Very, very immature. So the

Ovulatory cycle in the menstrual cycle are really about first eliminating half of the chromosomal pairs in that. 23 sets of chromosomes.

And not getting rid of, for instance, half, you know, just going one, two, you know, 1211 or and then or 12 to 23. That's not the goal. The goal is to have chromosomes 1, 2 3 4 5 6, all the way up to 23 but only to have half of the chromosomes there and to bring that cell together with the sperm cell. Physically then allow them to fuse and allow the chromosomes from dad in the chromosomes from Mom to fuse within a single cell and duplicate into cells that contain

Half the chromosomes from Dad and half the chromosomes from Mom. That's what the ovulatory a menstrual cycle are really all about. So in thinking about it, that way, I'd like to just initiate the discussion by focusing first on the female component or the Egg component of fertility and fertilization.

As I mentioned before, a female has all the eggs, I'll be at very immature eggs that she's going to have at the time that she's born. Now, puberty will happen at some point and will allow the ovulatory in the menstrual cycle to commence. Now, one question that you perhaps are asking is what controls the onset of puberty and there, there are a number of different results, Each of which could be an entire episode of a podcast on its own, but I'll just highlight a few things that we know.

About the onset of Menses or menstruation or it's sometimes also called menarche. All right. One thing you'll notice about today's discussion is that if you were to take any number of your notes online and put them into a search function that you would see a lot of different language used for the same thing. So, for instance, some people talk about the egg in the follicle, as the same thing, even though they are not, I'll explain the different soon. Some people talk about Menses or menstruation or menarche is the exact same thing and in fact, they are not the exact same thing but oftentimes these

Are used interchangeably. I'll do my best today to not overload you with nomenclature but rather to use the most commonly used terms for the different aspects of fertility and fertilization. But when it comes to the onset of puberty, first of all, most of you have probably heard that the onset of puberty is happening much earlier and females now than it was some years ago. And in fact, that is the case and I'll talk about some statistics related to this, which are pretty striking, but don't necessarily

Early point to anything detrimental. Doesn't necessarily mean that something bad is happening. What do we know for sure? Well we know that there are a number of signals that come both through the brain and through the body and more likely both in order to control the onset of puberty and females a couple of examples. The first is a mechanistic one. We know for instance that the entire process of the ovulatory and menstrual cycle is initiated from the brain. We're going to get into this in a lot more detail in a few minutes but

But there's a certain number of hormones and neurotransmitters that are communicated from the brain up structure called the hypothalamus, which roughly sits above the roof of your mouth and that communicates with a gland an endocrine or hormone releasing gland called the pituitary gland. The pituitary gland. Looks like a stalk that essentially extends out of the brain. It's also located not far from your the roof of your mouth and that has to sort of small marble or gray.

Sized protrusions that the anterior pituitary and the posterior pituitary, and they release different hormones into the bloodstream. Puberty is in part controlled by the fact that up until puberty. There are neurons in the hypothalamus that release a neurotransmitter called Gaba, which is inhibitory, and that prevents the neurons in the hypothalamus from releasing a very important hormone called gonadotropin-releasing hormone or GnRH.

Right? So the first thing I'd really like everyone to know and commit to memory today is very easy, GnRH stands for gonadotropin-releasing hormone. This comes from the brain and will communicate to the pituitary to release certain hormones prior to puberty in both males and females there are neurons in the brain that are actively suppressing. The neurons that release GnRH. It's like no puberty. No puberty. No puberty. Can't have puberty. Can't have puberty. And in fact, those cells are releasing this.

Transmitter called Gaba because its inhibitory prevents the firing of those neurons. Okay, so puberty is actively suppressed up until a certain point. It's also actively suppressed at least in some species and we think at least partially in humans by the tonic release. That means the ongoing release Around the Clock of a hormone called melatonin later in life. In fact, after puberty, melatonin will be secreted only in the dark phase of each night and around the time that one goes to sleep.

But in children, and in particular in children prior to puberty, melatonin is released more or less constantly. Now, melatonin isn't the only source of suppression of puberty. It's also these neural mechanisms involving Gaba but it is certainly a great candidate for one of the reasons why puberty doesn't generally tend to happen. It's a H4 H5. That would be very

Another component of suppression of puberty is that typically in children, they have relatively low body, fat stores. Why is this important? Well, we know that one of the things that can trigger the onset of puberty in particular in females. Is that when enough body fat accumulates that body, fat releases a hormone called leptin, and that hormone leptin travels in the bloodstream, across the blood-brain barrier and goes to the hypothalamus and can trigger the onset of puberty by

Dating the neurons that release gonadotropin-releasing hormone. So many people believe that one of the reasons that puberty is happening earlier and earlier in females is because of the accumulation of more body fat at younger ages than was observed? 30 or 40 and certainly a hundred years ago. Now I can already imagine a number of people are thinking, oh this must have relate to the Obesity crisis and indeed there is a crisis of obesity. Obesity is something that is causing all sorts of

Problems with People's Health at various levels, brain and body and that is far more frequent today than it was even 20 years ago. So it is indeed a crisis because it has enormous detrimental effects for so many aspects of brain and body Health and Longevity. But this whole process of thinking about body fat, signaling leptin, to the hypothalamus in the onset of puberty doesn't necessarily have to do with the Obesity crisis. It might relate, but it could also relate to, for instance, improve nutrition, which is allowing

Body fat stores to accumulate, maybe not to the level of obesity but to accumulate earlier and at younger ages and females which is then causing earlier puberty and females to just highlight how that might be possible when I want to review some data that talk about the onset of Menses menstruation that is puberty in females according to Country and according to age over the last hundred or more years. So what are the general Trends in terms of the onset of puberty and females? Well, that's an easy.

One to answer over the last 100 years or so. The onset of puberty has been occurring much earlier with each passing decade. It's really an incredible set of Statistics. I'll, I will provide a link to these data since I know a number of you are listening and not just watching on YouTube. This is from a study in which the onset of puberty has been analyzed from as early as the 1850s, right? In certain countries, there are data on that out to the 1970s and in other countries.

Starting at about 1900 extending out to about 1990. These are ongoing collections of data, but just to give you a sense of how the data are falling out in a couple of different countries just to give you a flavor. But for those of you listening and for those of you watching the essence of all of these findings is that puberty is happening much much earlier with each passing decade. So for instance, in the United States around 1900 or 1903, the average age

Of menarche of the onset of puberty and females was about 14 years old, whereas in 1990. The average age is 11, so that's a pretty significant. We can say acceleration of the onset of puberty. Now, of course, these are averages, so there will be exceptions. There's a distribution of data today. Still there will be young females who will undergo puberty at age, 11, or 10, or maybe even 9 and others who will undergo puberty at age 13, 14, maybe even 16 or 17.

However, if we look at, for instance, the data from Norway which dates back quite far, they have excellent record keeping to 1850. What we see is that the average age of the onset of female puberty in 1850 in Norway was 17 years old, whereas in 1970. It's 13 years old. So this is a dramatic acceleration of the onset of puberty and you see a similar Trend in other countries as well. So if we were to look in, for instance, in the UK they have,

I have a smaller data set. Meaning it only extends back to about 1940, but the average age of the onset of puberty in the UK in 1940 was 13 and a half years old. Again, this is just for females and in 1970, it was closer to 13 with a trend towards declining. Even further. Unfortunately, didn't continue to collect data out to 2022 and as a final point, if we were to look at for instance, in Germany and Finland, the average onset of puberty in 1870 was six.

And a

half years old by 1940 was down to 13 and a half years old. So all of these data have borne out over and over again, regardless of location in the world, which is important. Because when you start to think about the Obesity crisis, you could say, well that's mainly in developed countries. Believe it or not, or perhaps not surprisingly. And maybe it has to do with the Obesity crisis. And yet, I don't think we can conclude that at all. Something is happening. However, it could be increased body, fat stores due to over eating and obesity. However, it could

Could also be unrelated to obesity, it could be for instance improved nutrition and the availability availability of quality nutrition which can signal the maturation of the brain and body mechanisms. That trigger the onset of puberty ovulatory cycle and menstruation. So we want to be very careful about leaping to conclusions about what these Trends mean. But the trends themselves are very very apparent. And as a final point, I should also mention that there are a number of different behavioral. And psychosocial as they're called interactions, that can influence.

You ready as well? This has been most strikingly observed in animals and so I don't want anyone to be alarmed or to LEAP to any great conclusions about the onset of timing of puberty and humans. But I'd be remiss if I didn't tell you about a certain result, which shows that if a young female is exposed to the odor, not necessarily the pheromones, right? There's a distinction between odors that we perceive in pheromones, which are subconscious right that we don't actively perceive, but that can impact our biology.

And Fairmont effects in humans are very controversial, but we know for instance, that if you take a female animal and there's some evidence from humans that if you take a young pre-pubertal, female, and you expose her to the scent of a reproductively competent, male for a series of days, but maybe even as short as a few hours and she is also not regularly being exposed to the scent of her father that she can.

Puberty earlier, that's right. There is something about the odor and or pheromones or perhaps something else that occurs. When a young pre-pubertal female is in the has a father that she's in regular contact with. He wouldn't necessarily have to live at home, but that is around a lot that her his smell scuse me is registered by her biological systems that I don't want to say protects because it kind of skews the valence of the conversation but that that

offsets or buffers the otherwise observed effect which is that the scent of a reproductively competent male. If its present often enough or perhaps intensely enough that it can trigger the onset of puberty in that female. In other words, the scent of a female that is not the father and we think also that is not biologically related to her can trigger earlier onset of puberty and that affect can at least be partially buffered by

Her being in the presence of the sent from her biological father. Now, some of you are probably already leaping to conclusions about what this means, you know, should you not allow your daughter to be exposed to any males who are of reproductive age Etc? And that's certainly not what I'm saying. There's a huge number of considerations that that go into that calculation for everybody in circumstances, Etc. But the point is that the odors of individuals, both related in particular, closely related and

Non related individuals can shape the neural systems and the hormone systems that can trigger the onset of puberty or suppress the onset of puberty. So whether or not we're talking about onset of puberty at this age or that age and whether or not biologically related male or non biologically related, male sensurround etcetera, the thing I want everyone to know is that at some point during development typically nowadays between the ages of 11 and 15 or so?

And there's variability there. The suppression of gonadotropin releasing hormone released from the hypothalamus is removed and then gonadotropin-releasing hormone can activate cells within the pituitary. And if you really want to know, it's the anterior pituitary in particular, and then the anterior pituitary gland, which sits at, and kind of bridges, the brain, and the body because it allows the release of hormones into the bloodstream. That anterior pituitary is going to release.

Nice. Two key hormones that everyone should know the name of and what they do. And when I say everyone, I mean males and females need to know about these hormones because they have an active role in both males and females. And, of course, you should want to know, and should know about the biology of everyone, on the planet, in my opinion because it tells you a lot more about humans than if you just focus on your own biology but those two hormones are called luteinizing hormone which is abbreviated LH and follicle-stimulating hormone.

Own, which is abbreviated FSH. Okay? So the simple picture that you need to have in your mind is gonadotropin-releasing hormone from the brain from the hypothalamus in particular is causing the release of luteinizing hormone and follicle-stimulating hormone GnRH stimulates LH luteinizing hormone and follicle-stimulating hormone FSH LH and FSH travel in the blood and can access all the cells and tissues of the body. This is one of the incredible things about hormones is that

Many hormones and LH and FSH are included in this group can travel into cells and they can actually change the genetic expression of those cells. They can change, which genes are turned on in, which genes are turned off. And they can also attach to the surface of those cells and make those cells. Take on different properties so they can mature those cells. So, for instance, good example, this outside of the context we've been talking about, is the hormone testosterone can travel to the hair follicle and can stimulate.

In the genes of the cells of the hair, follicle that can make hair grow. A different hormone estrogen can travel to the cells of the breast tissue and activate genes, that control enlargement of the cells of the breast tissue prolactin, a different hormone, can travel to the memory, ducks and control the production, and the secretion of milk. And in males, that can actually happen in certain cases, although it's rare. But prolactin can also travel, to areas of the brain that control libido for instance and just so you'll never forget it.

It males elevated levels of prolactin, or actually, what set the refractory period after ejaculation, and prevent erection for some period of time. So you'll never forget. Prolactin the point, being that different hormones have different effects on different cells, depending on what sells those are, right? Estrogen or estrogen always going to have different effects on the breast tissue than it would on skin. Although, as effects on both, similarly, when LH and FSH, luteinizing hormone, and follicle-stimulating hormone travel in the blood too.

To the gonad and the gonad is an ovary. It will have a certain set of consequences and when luteinizing hormone and follicle-stimulating hormone travel in the blood to a gonad in that gonad happens to be at St then it will have a different set of biological implications. So let's focus now on what happens when LH and FSH arrive at the ovary and let's assume now that we're talking about a female who has already undergone puberty or perhaps

We could even frame this in the context of a female who is about to undergo puberty FSH, and LH are now able to be released because she's undergoing puberty. But the same set of processes essentially would occur for any point from puberty onward until menopause, which is the depletion of that Vault, that ovarian reserve of all those immature eggs. I'd like to take a brief break and acknowledge our sponsor athletic greens. Athletic greens is an all-in-one vitamin mineral.

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Why vitamin D3 K2? Okay, so we're now going to talk about ovulation and menstruation and let's just remember what this is all about. This is all about creating the potential for an egg to be fertilized. And that egg needs to have half of the chromosomal pair. So no pairs. But it's got to have 23 chromosomes, just from Mom, and we need to position that egg so that the egg can be met by the sperm and that sperm can penetrate that egg and donate its 23.

Individual strands of chromosomes to that egg so that you can bring together the DNA of dad and the DNA of mom. So the auditorium menstrual cycle occurs, when luteinizing hormone and follicle-stimulating hormone have been released and the ovulatory, / menstrual cycle. And here I have to kind of pick what I want to call it. I guess to be really accurate. We would just call it the female reproductive cycle but that includes underneath it. But the menstrual cycle is it sometimes

Is called in the ovulatory cycle. So you decide, I'm going to interchangeably discuss the ovulatory cycle and the menstrual cycle. The problem is, when you say menstruation people often, think about just the period. The shedding of the uterine lining when fertilization has not occurred. So, if I start saying ovulatory cycle, just keep in mind, I'm referring to the entire thing. Now, this is probably also a good opportunity to say that. If you heard that the ovulatory / menstrual cycle is 28 days long, that's true in some cases,

Cases, but that's not always true. It's on average 28 days long. There are some females for which the ovulatory cycle will be shorter, can be as short as 21 days and other females for which it will be 35 days, long shorter than 21 days and longer than 35 days is rare. Although, it does occur one of the key things, one thing about fertility is if you talk to OBGYNs who are focused on fertility, which I have in anticipation of this episode, they'll tell you that,

Whether or not your cycle is 21 days long or 35 days, long is not as much of an issue necessarily. Unless it's happening to become much shorter or much longer in a kind of erratic way. So if you're somebody who's consistently had 23 day long cycles and all of a sudden you're having 30 day long Cycles, that's not necessarily an indication of anything bad, but if it's 21 days 1 month and it's 30 days, the next month and that 17 days the next month or even if it's always

Falling within that 21 to 35 day long cycle but it's very variable from each month or every other month. Or so you probably want to talk to your OBGYN because that could indicate a number of different things, which things could it indicate. Well, that will become clear as I spell out the biology in a bit more detail, okay? But this idea that the menstrual cycle obligatory cycle is always 28 days, that's just false that's just not true. I should also mention that there is a common misconception that because the average menstrual cycle is 28 days.

Cindy, the average is 28 days, and the lunar cycle is 28 days. And of course, there is real biology to support the fact that the lunar cycle can, in fact, impact certain aspects of human behavior, it does. And we'll talk about lunar cycles in a future episode, but there is zero data to support the idea that the menstrual cycle. And the lunar cycle are linked in any kind of calls away. Sorry, to break it to you. The lunar cycle and the tidal Cycles at the ocean are definitely

Linked in ways that are super interesting related to the tilt of the earth and the pull of gravity of different planets and it's an incredible story unto itself. But the lunar cycle in the menstrual cycle despite having some weak correlation in terms of their their gender, their duration or their so-called periodicity, no pun intended. Well, there's no causal relationship whatsoever between the lunar cycle and the menstrual cycle if any of you are aware of any real data that conflict. With what I just said, please put that in the comment section on YouTube.

YouTube, but this is pretty well established as far as I know. Okay? So we need to bring together, the so-called haploid contents, the 23 individual strands of chromosomes from the egg to a place in a position where it could potentially be fertilized by the male. So what happens luteinizing, hormone follicle-stimulating hormone travel to the ovary. These hormones are able to access the ovary. There's a lot of blood supply to the ovary.