Introduction to the Reproductive System - Online Tutor, Practice Problems & Exam Prep

Hey, everyone, and welcome to the reproductive system. So this chapter is quite long because male and female reproductive anatomy and physiology are quite different. So it's kind of like 2 chapters in 1. So we made just a little map to go through with you guys, the order that we're going to be presenting information in, and you can always be referring back to this map to see how many videos are going to be in a certain section or what videos will be coming up next. So we're going to begin with just a quick introduction to our reproductive system. We'll talk about some kind of background info and some terminology that you'll need to know moving forward. Then we're going to dive into anatomy. So we're going to start with male reproductive anatomy. We'll go over the scrotum, the testes, the ducts, accessory organs, and the penis. Then we'll dive into our female reproductive anatomy, which as you can see, is going to be quite a long section. So we've got our ovaries, uterine tube, the uterus, the uterine wall, vascular supply, the vagina, external anatomy, clitoral anatomy, and our mammary glands. So buckle in for that one. Get yourself a nice cup of coffee or something before that. And then we're going to begin talking about physiology. So we're going to just go over meiosis, which you may have learned about previously, but we'll do a nice review for you. And then we'll go over the physiology of the male reproductive system. So we'll talk about spermiogenesis, the process of actually creating sperm cells, as well as the structure of a sperm cell. Then we'll go over female physiology, then we'll talk about oogenesis or the creation of eggs, follicle development, our ovarian cycle, and then our uterine cycle. And then we'll wrap up the chapter by talking about the male and female sexual response. So what actually happens when males and females get aroused and have orgasms. We'll talk about hormonal regulation of our reproductive system, then we'll talk about what sex hormones do to both males and females, as well as our HPG axis. And then we'll finish up by just talking about the development of our reproductive system, so we will begin with fetal development. We'll spend some time talking about puberty, which is, of course, a huge milestone in the maturation of the system. Then we'll wrap up by talking about aging, particularly in females and what that looks like. Alright. So that is our little map of the chapter. Again, feel free to refer back to this if you ever are wondering how long a section will be or what videos are going to be coming up next. Alright. So I'm excited to dive in with you and I'll see you in the next one. Bye bye.

Before going any further into the chapter, let's just review some basic terminology. So we're going to begin with the primary sex organs, and these are also known as the gonads. So the primary sex organs for males are going to be the testes, and the primary sex organs for females are going to be the ovaries. So the testes and the ovaries are going to be the location where sex hormones are produced as well as where gametes are produced. Scooching down here to our second row, gametes are reproductive cells. And so for males, the gametes are the sperm, and for females, the gametes are the ova or the egg.

Now moving on to sex hormones. So sex hormones are just hormones that are specialized to assist in the maturation and function of reproductive organs, as well as having various other functions throughout the human body. Like all hormones, they are very complex. We will have a whole bunch of videos on sex hormones coming up later in the chapter. But for males, the primary sex hormone is testosterone. And for females, the primary sex hormones are estrogen and progesterone. Now, I do want to be clear, males do produce estrogen and progesterone, and females do produce testosterone. Those are simply just produced in lower levels. So in males, the primary hormone is testosterone, and then for females, the primary sex hormones are estrogen and progesterone. But all three of these are produced in males and females.

And then finally, we're going to be talking about accessory reproductive organs and accessory reproductive organs include things like ducts, glands as well as external genitalia, and that is true for both males and females.

Alright. So now that we got that out of the way, I will see you in our next video. Bye bye.

Alrighty. So which of these statements is true? Let's run through them and see what we have. So "a" reads, "the primary sex hormone for males is progesterone." That is false. That would be testosterone. So "a" is out. "b" reads, "ovaries and testes are considered accessory reproductive organs." That is also false. Our ovaries and our testes are the primary reproductive organs, or our gonads. So that is also out. "c" reads, "while males do produce estrogen and progesterone, the primary male sex hormone is testosterone." And that is absolutely true. Right? Our primary sex hormone there is going to be testosterone, but males do also produce estrogen and progesterone. So "c" is looking pretty promising. And then "d" reads that ovaries are the female gamete. That is incorrect. The female gamete, or the actual reproductive cells, are the ova or the egg. Right? So "d" is out and our answer here is going to be "c." There you go.

Okay. So now let's get into what the reproductive system actually is. The reproductive system is a collection of organs in males and females that work together to produce offspring. And of course, males and females have different reproductive organs. The reproductive system is unique in that it is actually relatively inactive until puberty. Puberty will mark the beginning of the growth and development and physical maturation of reproductive organs, as well as maturation of their physiological processes. As a result, the reproductive system plays an important role in adolescent development and health, as well as in adult life, more generally, of course. The reproductive system has four major functions. The first is to actually form the gametes or the reproductive cells, which we now know are the sperm and the ova. The next major function is to bring those gametes together during copulation. And copulation is just a fancy way of saying sexual intercourse. So males and females have complementary anatomy that allows gametes to come together successfully. And while we're on the topic, I do want to clarify that while there are, of course, many ways to have sex, in the context of this course, anytime I say the word "copulation" or "sexual intercourse," I am always referring to the act of inserting a penis into a vagina. Just keep that in mind as we move forward. Our third major function is to combine the genetic information of gametes during fertilization. That is going to be the process of meiosis. We'll have lots of videos talking about that. And then finally, we are going to be, specifically in females, supporting the development of a fetus, as well as the birth of a baby and the survival of an infant through lactation. So those are the major functions of our reproductive system. Alright. I will see you guys in our next video. Bye-bye.

Okay. So which of the following is not a major function of our reproductive system across both males and females? Let's run through them and see what we have here. So a reads to create gametes, and that is a major function of our reproductive system, if not one of the most important functions. So a is definitely out. B is to support the development of a fetus and that is, of course, a major feature of the female reproductive system, so that needs to stay. C is to bring male and female gametes together and that, of course, is a huge part of our reproductive system. Males and females have complementary anatomy that allows us to do that. Right? So C is out. And then D reads to filter waste products from the blood. And that is not a part of our reproductive system. That would be our kidneys. So they're in the neighborhood, but they're not part of our actual reproductive system. So our answer here is going to be D.