Anatomy of the human lower extremities: structural features and functions

The leg is divided into the upper part (thigh) and the lower part (shin). The femur includes one thigh bone, and the tibia consists of two bones - the tibia (located on the big toe side) and the fibula (located on the little toe side).

The knee joint is a simple hinge between the femur and tibia. It can perform two movements - flexion and extension. When the knee bends, the shin deviates towards the back of the thigh, and when the knee extends, the leg straightens.

The hip joint is a ball-and-socket joint that connects the top of the femur and the pelvic bone. The hip joint can undergo six basic movements: flexion, extension, abduction, adduction, outward and inward rotation.

The ankle joint connects the lower part of the tibia and fibula to the talus bone of the foot. When the ankle flexes, the toes lift off the floor and the foot moves toward the shin. During extension, the heel lifts off the floor and the foot moves away from the shin.

Separation of leg muscles

The lower body has more than 30 muscles. But we are not interested in everyone. Since we are not trying to pass the medical examination. Our goal is to develop the core muscles that will help us achieve outstanding results in the gym. And also, give shape to the lower part of our body. Anatomically, we can divide the leg into 4 parts:

  • Pelvis (buttocks)
    . These muscles are not exactly part of our leg. But since they are attached to the femur, we take them into account too. And it’s very difficult not to engage your glutes when performing most leg exercises. This muscle group is located on the back side of the body. In the area between the lower back and thigh. Of greatest interest to us are: the gluteus maximus, the gluteus maximus and the gluteus minimus.
  • Hip. This is the part that almost all athletes want to develop. It is what gives our legs their shape. It starts from the pelvic bone (to which some muscles are attached) and ends at the knee. Its main functions include flexion and extension of the lower leg and thigh. As well as bringing the legs to the body and their rotation (rotation). Conventionally, this group is divided into parts. Anterior, medial (internal) and posterior.
  • Shin. These are not large, but very durable muscles that occupy the lower part of the leg. From knee to foot. We are interested in the back group. This includes the triceps and plantaris muscles. All other muscles are responsible for flexion and extension of the fingers. Therefore, we will not consider them.
  • Foot.
    This is our support. Which is responsible for balance. The muscles located in the foot mainly start from the lower leg. And they are responsible for the movement of fingers. Their flexion and extension. As well as sideways movement relative to each other. And for the turns of the foot. When performing any exercise that requires balancing the body, they are actively involved. Therefore, we will not do separate exercises for these muscles. Still, our task is to devote most of our time to the larger groups.

We can also divide the leg muscles according to the degree of their location:

  • Superficial . These are the muscles that are located in plain sight directly under the skin. We can easily touch them with our hands. These muscles give that visual appearance.
  • Deep. Located under the surface. And even though they are practically invisible. But they also play a huge role in the formation of legs.

But don't forget one more point. When training our legs, we not only strive to give them one shape or another. We also face the task of making these muscles stronger. This will increase the stability of our body and we will be able to lift heavier weights. And for people involved in strength sports, load progression is one of the key factors.

Anatomical structure of the human leg

Functions

The leg has many functions:

  • walking;
  • run;
  • jumping;
  • crawl;
  • swimming;
  • support, etc.

Parts

If you remember the anatomy, the leg has three parts - thigh, lower leg, foot.

Hip

Performs a protective function. It consists of the femur, the patella, and on top it is covered with the quadriceps, biceps femoris and flexor muscles.

Shin


It has a fairly simple structure and consists of two bones of different lengths, called the fibula and the tibia.

The latter connects the tibia and femur at the knee joint and is the second largest in the human leg.

Foot

Formed from many small bones. The foot or sole is the point of contact with the surface of the earth. And the opposite side has a name - the back.

The foot is divided into 3 sections:

  • the anterior one, consisting of the toes and balls of the foot;
  • middle - arch of the foot. The concept of arch includes that part of the foot where it does not reach the ground;
  • back - heel.

The foot is much more complex in structure and has more than 26 bones and 33 joints. The structure of the foot and hand are very similar, differing only in the degree of load tolerated. The muscles and bones of the foot are many times stronger, but they cannot boast of the mobility of the hand.

Leg areas

The leg consists of the following areas:

  1. anterior + posterior thigh areas;
  2. anterior + posterior knee areas;
  3. anterior + posterior areas of the lower leg;
  4. anterior + posterior, outer + inner parts of the ankle joint;
  5. back of the foot;
  6. sole.

Ankle

The largest bone is the talus. At the top there is a block with a protrusion, connected by the tibia and fibula.

On the side there are projections of bone called ankles. On each surface of the joint there is hyaline cartilage, which performs shock-absorbing and nutritional functions.

The joint itself is complex in structure, as it consists of more than two bones. It has a block-like shape.

Ligaments

The ankle ligaments play a huge role. They are the ones who limit movement in the joint, protect it, and hold the bone structures together.

In general there are three groups:


  1. performs a connecting function between the bones of the lower leg . It includes the following ligaments: - lower, preventing internal rotation of the bone; - lower anterior fibular, which prevents the foot from turning to the outside; - interosseous; - transverse, fixing the foot.

  2. deltoid ligament , representing the outer lateral fibular fibers that strengthen the outer edge. These are: - heel; - anterior talar; - posterior talus.
  3. preventing bones from shifting . This group originates on the medial malleolus and consists of: - tibial calcaneal ligament; - tibial scaphoid; - front ram; - rear ram.

Calf muscles

The lower leg consists of 20 muscles responsible for raising, lowering, and moving the leg and toes. A large number of muscles begin at the back of the knee and end at the foot. They are the ones who set the leg in motion. Each muscle has its own purpose and function.

The lower leg has three muscle groups:

  1. anterior, responsible for extension of the feet and fingers;
  2. external, driving the outer edge of the foot;
  3. back, allowing movement of the foot and toes.

The strongest muscle is the gastrocnemius. Its origin is located at the heel bone of the foot, on which it is held by the calcaneal tendon.

The calves are made up of two muscles: the gastrocnemius and the soleus. The gastrocnemius is a large, knobby muscle formed from two parts that form a diamond shape. The second, soleus, is completely flat and hidden by the gastrocnemius.

When you walk, run, or otherwise move your legs, the calf muscle pulls up your heel, which is what makes your legs move.

An important part is the Achilles tendon, which gives rise to three muscles at once - the gastrocnemius, plantaris and soleus. It is thanks to this tendon that a person can run, jump, walk and move. Often this is the part that is subject to stretching and tearing.

Functionality

The lower leg is designed to provide the necessary mobility when walking. The muscles of the joint work harmoniously and perform extension, flexion, rotation of the ankle, and also create shock absorption.

Blood supply


The junction of the tibia and fibula is located below the knee joint.

The lower leg is fed through the tibial arteries - posterior and anterior, starting under the knee.

The arteries branch and surround the joint on all sides.

Veins run next to the arteries. Blood circulates through the internal and external networks, forming the tibial and saphenous veins.

Anatomy of the skeletal bones of the lower limb (leg, pelvis)

Before we start looking at the leg muscles, we'll talk a little about the bones they are attached to. We won’t go too deep, since this is the topic of a completely different article. Below in the picture we can see the skeleton of our lower part.

As you can see, it all starts from the pelvis. Which consists of two iliac bones. The muscles of the pelvis and thigh are attached to their edges, namely the iliac crest. There is also a sacrum, which is attached to the spine. It allows us to keep our body upright. And already at its end, there is a coccyx. Below are two pubic bones. The edges of which serve as the attachment point for the adductor muscles and the back of the thigh. Now let's move on to the leg bones. The largest of them are the femoral ones. At their ends there are two so-called heads, which are attached to the ilium. Next to these heads, there are two protrusions, these are the greater and lesser trochanters. At the lower ends of the femur, there are two epicondyles. Medial (internal) and lateral (external). Also, there are two bones in our lower leg. Tibial and fibular. At the top of the tibia, located are two condyles. Medial and lateral. They serve as places for muscles to attach to them. All the bones of the leg connect to form the knee. There is a small bone there called the kneecap. Better known to everyone as the kneecap. And of course, don’t forget about the bones of the foot. Where are the phalanges of all our fingers located? And the large calcaneus.

This information will be enough to give you an idea. And it will be easier for you to perceive further information.

Functions of the lower extremities

Main functions:

  • Support. The special physiology of the legs allows a person to stand normally and maintain balance. Functional dysfunction can occur due to a common disease - flat feet. As a result, pain may appear in the spine, and the body will become tired from long walking.
  • Spring or shock absorbing. Helps soften human movement. It is performed thanks to joints, muscles and special pads (menisci), which soften the fall, creating a spring effect. That is, damage to the rest of the skeleton does not occur when moving, jumping, or running.
  • Motor. Carries out human movement with the help of muscles. Bones are like levers that are activated by muscle tissue. An important feature is the presence of a large number of nerve endings, through which the signal about movement is transmitted to the brain.


Load on the arch of the human foot

Muscles of the pelvic region

As I said earlier, this includes the gluteal muscles. For the sake of the development of which, a large number of girls in the hall shed a lot of sweat. But this does not mean that men avoid training them. It’s just that their priority is not the round shape, but the strength of these muscles. For example, in powerlifting and weightlifting, the development of the gluteal muscles is given great importance.

Gluteus maximus

It is a very large (hence its name) and flat muscle. The shape is vaguely reminiscent of a rhombus. Its development among all gluteal muscles is a priority. It is located on the surface and covers all the other muscles of this group. At the top it is attached to the posterior surface of the ilium. And also to the lateral edge of the sacrum and coccyx. Directing obliquely downward with its upper bundles, it is woven into the fascia lata (the protective sheath of the muscles). And the lower ones are attached to the gluteal tuberosity of the femur.

Functions:

Extends the hip, abducts it to the side and is responsible for its outward rotation. With fixed legs, rotates the pelvis.

Gluteus medius

This muscle is located immediately under the gluteus maximus. The shape resembles a triangle. Attaches to the outer surface of the ilium wing. Heading down, it turns into a powerful tendon. And is attached to the outer surface of the greater trochanter of the femur.

Functions:

Extends the hip. Participates in hip abduction and is the most powerful muscle that performs this movement. The position of the pelvis stabilizes when we stand on one leg. Also involved in lateral and medial rotation (outward and inward rotation).

Gluteus minimus

This is the smallest and deepest muscle of the three gluteal muscles. The top is covered by the middle one and completely resembles its shape. Just a smaller size. And it is attached in the same places. Above to the outer surface of the iliac wing. And below to the outer surface of the greater trochanter of the femur.

Functions:

Together with the gluteus medius, it moves the leg to the side. Also helps maintain balance when walking. Participates in internal rotation of the hip. That is, in its rotation.

BUTT MUSCLES

The gluteal muscles consist of three paired muscles of the gluteal region:

  • Gluteus maximus muscle
  • Gluteus medius muscle
  • Gluteus minimus

The gluteus maximus muscle is attached to the pelvic bone at one end, goes around the hip joint and is attached to the upper part of the femur at the other end. It is the largest of the gluteal muscles and one of the most powerful muscles in the human body. It serves to extend the leg at the hip joint. Good exercises for developing the gluteal muscles include squats, deadlifts and lunges.

The remaining two muscles are abductors. The gluteus medius muscle is located under the gluteus maximus. It starts from the outer surface of the iliac crest and attaches to the femur. Participates in hip abduction, also abducts the pelvis to the side and straightens the bent torso. Gluteus minimus , the deepest of the buttock muscles, is also involved in hip abduction and torso straightening. It starts from the outer surface of the ilium and attaches to the edge of the femur.

Exercises to train the gluteal muscles

From what was written above, we can notice that these muscles connect the pelvis and thigh. Thus, they become stabilizers for our legs. They also move the leg to the side. But the most important thing is the participation of the gluteus maximus muscle in hip extension. In order to develop them, you need to select exercises where these functions are present. There are several most effective ones:

  • Sumo squats. All conditions are met here. Due to the wide stance of the legs, the leg abduction function is activated. When you come into a standing position from a sitting position, the hip extension occurs. And in order not to lose balance, the stabilizing function of these muscles comes into play.
  • Romanian cravings. This exercise is aimed at working the buttocks. And it is one of the best for these purposes. The main function it involves is hip extension. Thus, it actively activates the gluteus maximus muscle. And by bending the legs at the knee joint, the biceps femoris muscle is excluded from the work.
  • Leg abduction in crossover.
    You can move your leg in different directions. Back, focusing on hip extension and working the gluteus maximus. And to the side, engaging the middle and small muscles.

The structure of the menisci

The meniscus is a pad of cartilaginous material that serves as protection for the joint and is a shell for it. In addition to the lower extremities, this element is also used as part of the jaw, collarbone and chest.

The meniscus helps absorb joint movement. This happens due to constant compression and changes in shape when moving. Cartilage material increases elasticity.

There are two types of this element in the knee joint:

  • outer;
  • interior.


Meniscus in the knee joint

If damage to these elements occurs, most often the meniscus is damaged, since it is the least mobile, then you should immediately seek the help of doctors, otherwise you can walk on crutches for a long time in order to rehabilitate the injury.

Thigh muscles anterior group

It is this group that forms the thigh from the front. For men, the development of these muscles is of paramount importance. Several main muscles can be identified.

Sartorius

The shape resembles a narrow ribbon. And it is the longest muscle in our body. Its upper end originates from the anterior surface of the ilium. Then it descends obliquely down the front surface of the thigh. And is attached to the tuberosity of the tibia.

Functions:

Participates in flexion of the thigh and lower leg. With fixed hips, the pelvis tilts forward. It also participates in turning the hip inward.

Quadriceps femoris (quadriceps)

This is the largest muscle in our body. From the name it is clear that it consists of 4 heads:

Rectus muscle

The largest of the 4 heads. Located centrally on the front of the thigh. It is this muscle that forms the thickness of the leg. It originates from the lower surface of the ilium. Heading down, it passes into the common tendon. Which is attached to the tibial tuberosity.

Functions:

Due to the fact that the muscle crosses two joints: the hip and knee. She can not only straighten her leg at the knee. But also bend it at the hip.

Important:

When leaning forward during squats, this head is less involved in the work.

Vastus medialis

Located on the anteromedial (inner) surface of the lower thigh. From above it is slightly blocked by the rectus muscle. The shape resembles a drop of water. When well developed, it gives the thigh an expressive shape. From above, a thin tendon is attached to the inner side of the femur. Next, its fibers go down and pass into the broad tendon. With them it partially passes into the common tendon. And the remaining fibers are attached to the inner edge of the patella.

Functions:

Leg extension at the knee joint. Turn the shin inward. Stabilizes the knee, preventing it from falling inward.

Vastus lateralis muscle

Located on the outer part of the front surface of the thigh. Occupying almost the entire area. Slightly covered by the rectus muscle. This head gives shape to the thigh from the outside. Making your legs more massive. In bodybuilding, it is given special importance compared to other strength sports. It originates from the outside of the femur. Heading down, it passes into the common tendon of the 4 heads. And in some bundles it is woven into the lateral (outer) edge of the patella.

Functions:

Leg extension at the knee joint. Rotate the shin outward. Acts as a knee stabilizer. Not letting it fall out. That is, it performs the opposite action of the medial head.

Vastus intermedius muscle

Located on the front of the thigh, immediately under the rectus muscle. It is the weakest among all heads. The upper edge is attached to the anterior surface of the femur. And heading down it passes into the common tendon.

Functions:

Participates in leg extension at the knee joint.

Exercises to train the front of the thigh

As you already understand, this muscle group extends the leg at the knee joint. The most effective exercises that fit these functions include:

  • Front squats . Due to the fact that the bar is located in front, we will be forced to tilt it back a little. So as not to drop it. Therefore, most of the load will fall on the quadriceps. The main function involved in this exercise is leg extension.
  • Bench press in a machine with narrow legs. Due to the narrow setting, the gluteal muscles are not included in the work. To shift the emphasis to the lateral head, place your feet together. On the medial side, place shoulder width apart.
  • Stepping onto the platform. In this exercise, we focus on leg extension. And this is the main function of the quadriceps.
  • Leg extension in a sitting machine.
    It is a very dangerous exercise. Therefore, you should not use it on an ongoing basis. To avoid damaging your knee joints. From the name it is clear that it meets our requirements. Namely, it extends the leg at the knee joint. When we turn our toes to the side, we load the lateral head more. And inside, medial.

Medial thigh group: adductors

This area is very problematic. And most athletes are developmentally delayed. Because they are not given due attention during training. And without their development, the thigh will not look aesthetically pleasing. Large and developed from the outside. And atrophied from the inside. This group includes the following muscles:

Thin muscle

It has the most superficial location, on the inside of the thigh directly under the skin. The upper edge is attached to the anterior surface of the pubic bone. Then it goes down, around the medial epicondyle of the femur. And is attached to the tibial tuberosity.

Functions:

Takes part in hip adduction and flexion. It also rotates the lower leg inward and takes part in its flexion.

Adductor longus muscle

This is a flat muscle, vaguely shaped like a triangle. Located slightly in front, closer to the quadriceps. It originates from the pubic bone. As it moves downwards, it widens and attaches to the middle part of the femur.

Functions:

Hip adduction, flexion and internal and external rotation.

Adductor brevis muscle

It also has a triangular shape. It is located slightly deeper than the adductus longus. Starts from the front surface of the pubic bone. Next it goes down and is attached just above the middle of the inner surface of the femur.

Functions:

Involved in hip flexion and hip retraction. Stabilizes the pelvis, preventing it from tilting back.

Adductor magnus muscle

This is a wide and thick muscle. She is the strongest of the adducting group. It is located deeper than the long and short muscles, on the inside of the thigh. It originates from a powerful tendon from the bottom of the pubis and ischium. Heading down, it spreads out like a fan onto the wide tendon. And it is attached to the entire inner surface of the femur, and partly to the medial epicondyle.

Functions:

Adducts the hip. Takes part in its bending. Participates in stabilizing the pelvis.

Exercises to train the adductor muscles

As you can see, these muscles are responsible for a stable position. Don't let your pelvis fall back. And of course they bring their legs towards each other. Their development will help improve your posture. Strengthen your inner thighs. Due to this, we can increase strength in many basic exercises. The following are good for their development:

  • Plie squats. This is a great basic exercise. Which meets all anatomical functions. By placing the legs wide and turning the feet, we stretch the adductor muscles as much as possible. Also, when coming out of a squat, the thighs are brought towards each other.
  • Leg abduction in the simulator. From the name it is clear that the exercise meets our requirements. But when performing it, you must follow the correct technique. There should be no jerky movements. To avoid injuring the adductor muscles.
  • Adduction of the leg in a crossover
    . Also a common exercise that allows you to work the adductor muscles.

Thigh muscles posterior group

These muscles are antagonists for the anterior group. That is, they perform opposite functions. The front one extends the leg, and the back one bends it. In their training, the main thing is to exclude the gluteal muscles from the work as much as possible. If we don't do this then they will take on most of the load. This group includes:

Biceps muscle (biceps femoris)

Located along the outer (lateral) edge of the back of the thigh. This muscle is the main one in this group. And most of the exercises are aimed at its development. Consists of two heads:

  • Long. Which starts from the ischial tuberosity, with a small flat tendon.
  • Short. It originates from the inner surface of the lower half of the femur.

Below, these two heads unite into one powerful abdomen. Which passes into a narrow tendon. And bending around the back of the lateral epicondyle of the femur, it is attached to the head of the fibula.

Functions:

Extends the thigh together with the gluteal muscle. Bending the leg at the knee joint. And in this position it can turn it outward.

Semitendinosus muscle

This is a long and thin muscle. It is located closer to the inner (medial) edge of the back of the thigh. Starts from the ischial tuberosity. Heading down, it passes into a thin tendon that wraps around the medial epicondyle of the femur from behind. And is attached to the tuberosity of the tibia.

Functions:

Participates in hip extension and leg flexion at the knee joint.

Semimembranosus muscle

Located along the inner edge of the back of the thigh. Covered below by the semitendinosus muscle. It originates from the ischial tuberosity. Heading down, it goes around the epicondyle of the femur and attaches to the medial condyle of the tibia.

Functions:

Extends the hip. Bends his leg. It also turns the shin inward with the knee joint bent.

Hamstring workout

That is, as we see, exercises should perform two main functions. This is hip extension or leg flexion. We can also use foot rotation in some exercises. When bringing your toes together, the semitransverse muscle is loaded more. When extended to the sides, hamstrings.

  • Deadlift on straight legs . This is a basic exercise. Which engages the hip extension function when coming out of a bend. Thus, all the muscles of the posterior group are activated. And since the legs remain straight when tilted. Most of the load will be taken by the back of the thigh.
  • Squats with wide legs. Also applies to basic exercises. Involves two functions. Bend the leg at the moment of the squat itself. And hip extension when returning to the starting position. Squats also work all 3 gluteal muscles. And the adductor muscles receive a small share of the load.
  • Leg bending in the simulator. Here I think everything is clear. The exercise gives us the opportunity to work the back of the thigh in isolation. By bending the leg at the knee joint.
  • Taking the leg back in a crossover. This exercise is mainly performed by girls. It allows you to work all the muscles of the posterior group in isolation.

Joints

A joint is a connection between two or more bones, which not only holds them together, but also provides mobility to the system. Thanks to the joints, the bones form a single skeleton, which is also quite mobile.

There are 4 important joint systems in the anatomy of the lower extremities.

Hip joint

The hip joint is where the pelvic region attaches to the torso. Thanks to the acetabulum, a person performs one of the most important functions - movement. In that area, muscles are attached that activate further systems. The structure is similar to the shoulder joint and essentially performs similar functions, but only for the lower extremities.

Functions of the hip joint:

  • the ability to move regardless of direction;
  • providing support for a person;
  • abduction and adduction;
  • implementation of hip rotation.


Structure of the hip joint

If injuries in the pelvic area are ignored, other functions of the body will gradually be disrupted, since internal organs and the rest of the skeleton suffer from improper shock absorption.

Knee-joint

The area of ​​the kneecap is one of the most important in the anatomy of the lower extremities for the reason that it provides mobility to the knee system, which not only makes it possible to walk, but also serves as a cushion for shocks and falls.

The knee joint is formed by:

  • joint capsule;
  • nerves and blood vessels;
  • ligaments and menisci (joint surfaces);
  • muscles and immovable tendons.


Structure of the human knee

When the knee joint is functioning properly, the cup should slide due to grooves in the structure covered with cartilaginous material. When damaged, bones are injured, muscle tissue is erased, severe pain and a constant burning sensation are felt.

Ankle joint

Consisting of musculoskeletal tendon formations, this part of the lower extremities is practically immobile, but it communicates between the knee joint and the joints of the foot.

The joint allows:

  • carry out a wide range of different foot movements;
  • ensure vertical stability of a person;
  • jump, run, perform certain exercises without the risk of injury.


Ankle joint

The area is most vulnerable to mechanical damage due to low mobility, which can lead to fracture and the need for bed rest until the bone tissue is restored.

At the first symptoms of possible problems, a diagnosis should be made so as not to lead to serious diseases such as arthritis.

Foot joints

They ensure mobility of the foot bones, of which there are exactly 52 on both legs.

This is approximately a quarter of the total number of bones in the human body, so the joint in this area of ​​the lower extremities is constantly tense and performs very important functions:

  • regulate balance;
  • allow the foot to bend and reduce the load;
  • form a solid base of the leg;
  • provide maximum support.


Tarsometatarsal joints of the foot

Damage to the feet is rare, but each injury is accompanied by pain and the inability to move and transfer body weight to the feet.

Calf muscles

These muscles are stabilizers for our feet. And is involved in bending the leg at the knee joint. The muscles of the anterior group are responsible for turning the foot, flexing and extending the fingers. But as I said earlier, we will not consider them. We are more interested in the back group. Which includes:

Triceps surae muscle

This is the main muscle that can be trained, and we can influence its shape.

Consists of two muscles:

Calf

lies on the surface and has two powerful heads.

  • Medial. It is located closer to the inner part of the back surface of the lower leg. And it is more powerful. Starts from the posterior surface of the medial epicondyle of the femur.
  • Lateral. This head, on the contrary, is located closer to the outer part of the lower leg. And it starts from the posterior surface of the lateral epicondyle of the femur.

These two heads are directed downwards and in the middle of the lower leg they are connected into one powerful tendon. The second muscle is the soleus.

This is a flat muscle. Located under the calf. One edge is attached to the head of the fibula. And the other to the inner surface of the tibia. And going down, it connects to the tendon of the gastrocnemius muscle. Which attaches to the heel bone. This tendon is known to many as the Achilles tendon.

Functions:

Participates in bending the leg at the knee joint. Flexes the foot. It is also a stabilizer for the lower leg muscles.

Plantaris muscle

This is a very short muscle that has a long and thin tendon. It originates from the lateral condyle of the femur. It goes down and passes into a narrow tendon that lies between the soleus and gastrocnemius muscles. Attaches to the heel bone.

Functions:

Helps bend the leg at the knee joint. Participates in raising the foot. Tenses the capsule of the knee joint.

Arteries and veins of the lower extremities

The lower limbs experience a lot of stress, hence the need to constantly nourish the muscles and ensure a strong flow of blood, which contains nutrients.

The venous system of the lower extremities is distinguished by its branching; there are two types:

  • Deep veins. They ensure the outflow of blood from the area of ​​the lower extremities and remove already filtered blood.
  • Superficial veins. They provide blood supply to joints and muscle tissue, providing them with the necessary substances.


The structure of the veins of the lower extremities

The network of arteries is less diverse than the venous network, but their function is extremely important. In the arteries, blood flows under high pressure, and then all nutrients are transferred through the venous system.

There are 4 types of arteries in the lower extremities:

  • ileal;
  • femoral;
  • popliteal;
  • arteries of the leg.


Arteries of the lower extremities

The main source is the aorta, coming directly from the heart muscle area. If the blood does not circulate properly in the lower extremities, then in the joints and muscles there will be pain, reminiscent of a burning sensation.

Calf muscle training

Based on what was written above, we can draw a conclusion. That this muscle group receives part of the load in almost any exercise for the legs where we bend them at the knee joint. Plus, they act as a stabilizer for the foot and are also used when rising onto the toes. There are several specialized exercises:

  • Calf raises in a special machine. There are a lot of such simulators. There is an option where we perform the exercise standing, sitting and even lying at an angle. Therefore, choose any exercise machine that is in your gym and start raising your toes.
  • "Donkey." Refers to a number of rarely seen exercises in modern gyms. But by bodybuilders of the golden era, it was in demand. By tilting the body forward, we stretch the buttocks and the back of the thigh. Therefore, they will not be able to turn on and take the load from the calf muscles.
  • Calf raises with dumbbells. This is similar to the first exercise, but instead of a machine, a dumbbell weight is used. For greater stability, take it in one of the hands and perform lifts on each leg in turn.

As you can see, anatomy is an interesting science and its knowledge is very useful. Especially for people who want to develop their body. You don't need to know all the scientific terms. The main thing is to understand what the muscle is roughly attached to. To the pelvis, to the thigh or lower leg and what function it performs. Then you can choose the right exercises.

Good luck to everyone in your training!

Blood vessels and nerve endings

The lower extremities are supplied with oxygen through the anterior and posterior tibial arteries (come from the aorta and have high blood pressure in the vessels). The knee joint is supplied by eight arterial trunks.

The main innervating links of the muscle structures are the sciatic nerve, which originates in the sacrolumbar plexus, passes along the back of the thigh, covering the entire length of the legs and ending in the foot area, as well as the femoral nerve fiber, connected to the related branching of sensory cells. Both of them begin in the spine, pass in the back of the thigh, encircle the gluteal region, and are responsible for sensitivity and mobility of all components.

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