I wasn't going to include these mini posts on the blog itself, but I kind of like this one, so here we go. We covered the dorsal forearm pretty thoroughly over the summer, but coming across this photo made me think maybe a quick encore was in order. Some of the muscles show pretty clearly here, so I slapped on some quick labels.
In the photo above, we can see the three most commonly visible dorsal forearm muscles, anconeus, extensor carpi ulnaris, and extensor digitorum. We can also see the lateral epicondyle of the humerus (the bony protuberance from which all these muscles originate) and the tendons of the extensor digitorum heading across the back of the hand to their insertion points on fingers II through V.
Compare the original photo to the labeled photo to get an idea of how clearly these structures can show, as well as where they appear and disappear. And don't forget that other variables (such as arm and hand position, age of the individual, and light source) will affect the surface appearance of these structures.
For more detailed description of this area, check out a previous post, The Dorsal Forearm, Part 2: Which Side Are You On, Anyway?
Some leg posts are coming up soon!
Explanations, sketches, and occasional obscure musings about human muscular and skeletal anatomy for the figure artist.
Saturday, September 24, 2011
Wednesday, September 21, 2011
A Lateral Ankle Tendon: Peroneus Longus or Peroneus Brevis?
Hello! Just a quick post today to give you a taste of the extra anatomy information you can now get at the new Human Anatomy for the Artist Facebook page! Yep, I have a Facebook page now, on which I'll post links to all the full lessons that are normally seen on this blog, as well as other links, photos, book recommendations, and quick mini-lessons like the one below.
This will allow those who don't use Blogger (and those who use Blogger but don't check it often) to get updates on a more regular basis. The Blogger posts, after today, will resume their usual format of longer, more elaborate lessons.
So... today's mini-lesson is about a tendon seen on the lateral ankle and foot. Or is it two tendons? Let's take a look:
When drawing the lateral side of the foot, you'll almost always see a tendon up above (proximal to) the lateral malleolus of the fibula, which is a bony bump on the lateral side of the ankle. Sometimes, though, when the foot is everted (sole turned outward) and/or plantarflexed (toes pointed downward) you'll see what appears to be a continuation of that tendon down below (or distal to) the lateral malleolus. The whole thing really looks like one long tendon wrapping around the back of the malleolus. But... you guessed it. It's not!
What we're seeing here is actually two different tendons. The tendons of both the peroneus longus muscle and the peroneus brevis muscle wrap around the back of the lateral malleolus, but here's the weird thing. The peroneus longus tendon disappears right around the time it reaches the lateral malleolus. At that point, the peroneus brevis tendon emerges and continues its course along the lateral side of the foot. But the transition is so smooth that it looks like a single tendon both proximal to and distal to the lateral malleolus.
In drawing, the difference is that you'll almost always see the peroneus longus tendon, but the peroneus brevis tendon will usually only show when the foot is everted or plantarflexed.
One more thing: Some books call the peroneus longus and brevis tendons by a different name: fibularis longus and brevis. So if you see this, it isn't wrong. It's just an alternate name. Sometimes that happens in Anatomy. I guess it keeps things interesting.
We'll have a more detailed lateral leg post, complete with diagrams, soon!
This will allow those who don't use Blogger (and those who use Blogger but don't check it often) to get updates on a more regular basis. The Blogger posts, after today, will resume their usual format of longer, more elaborate lessons.
So... today's mini-lesson is about a tendon seen on the lateral ankle and foot. Or is it two tendons? Let's take a look:
What we're seeing here is actually two different tendons. The tendons of both the peroneus longus muscle and the peroneus brevis muscle wrap around the back of the lateral malleolus, but here's the weird thing. The peroneus longus tendon disappears right around the time it reaches the lateral malleolus. At that point, the peroneus brevis tendon emerges and continues its course along the lateral side of the foot. But the transition is so smooth that it looks like a single tendon both proximal to and distal to the lateral malleolus.
In drawing, the difference is that you'll almost always see the peroneus longus tendon, but the peroneus brevis tendon will usually only show when the foot is everted or plantarflexed.
One more thing: Some books call the peroneus longus and brevis tendons by a different name: fibularis longus and brevis. So if you see this, it isn't wrong. It's just an alternate name. Sometimes that happens in Anatomy. I guess it keeps things interesting.
We'll have a more detailed lateral leg post, complete with diagrams, soon!
Sunday, September 11, 2011
The Dorsal Forearm, Part 3: The Final Chapter
Hello, and welcome back! I am happy to say we will finally finish up the dorsal forearm today. Who knew such a small area of the body would require so many posts? We began with Dorsal Forearm: Compartment Search, in which we learned to identify the two compartments of the forearm-- an important first step in becoming oriented in such a complex muscular landscape. Then we learned about dorsal forearm muscles that are closer to the ulnar (pinky) side of the forearm in Dorsal Forearm: Which Side Are You On Anyway? As those muscles are easiest to identify, it was best we covered them first and then use them to find the remaining forearm muscles, which we'll cover today.
By the way, if you are interested in reading about the less complex tendinous landmarks of the ventral forearm, check out the very first post, The Ventral Forearm: What are those Tendons?
So. When we last left off in our forearm saga, we were looking at, among other structures, the "twin muscles," two muscles that look very much alike and run directly down the dorsal side of the forearm. Their similarity to one another as well as their central location on the dorsal forearm make them among the easiest to identify in this area.
The last three muscles we'll cover on the dorsal forearm can be found just radial to the twins-- meaning closer to the thumb side of the arm compared to the centrally located twins. It's no coincidence that each of these three muscles have the root "radial" in their names. As well as indicating that these muscles are found on the radial side of the arm, this root also tells us that these muscles pull the hand toward that side. This movement is known as abduction of the hand. Hence the fact that radial side arm muscles tend to abduct.
The photo above shows a dorsal forearm and an abducted hand. Because radial side muscles abduct the hand, they will stand out more in this position than in any other. The easiest one to spot is extensor carpi radialis longus, as it stands out clearly right next to the lateral epicondyle. Notice its oblique course compared to the surrounding dorsal forearm muscles. Notice also that it and brachioradialis originate on the upper arm (unlike the twin muscles that originate at the lateral epicondyle of the humerus.)
At the distal end of the arm, you may also notice three smaller muscles, abductor pollucis longus, extensor pollucis brevis, and extensor pollucis longus. While these muscles stand out clearly here, they often don't. We will look at them more closely later. You may remember, however, that we have already observed their tendons (which can be seen at the base of the thumb) in the post on the dorsal hand.
I've also pointed out the lateral head of the triceps and the triceps tendon, structures on the posterior upper arm. We will cover these later, but this photo shows them very clearly.
Now let's take a look at this arm without the structure overlay:
By the way, if you are interested in reading about the less complex tendinous landmarks of the ventral forearm, check out the very first post, The Ventral Forearm: What are those Tendons?
So. When we last left off in our forearm saga, we were looking at, among other structures, the "twin muscles," two muscles that look very much alike and run directly down the dorsal side of the forearm. Their similarity to one another as well as their central location on the dorsal forearm make them among the easiest to identify in this area.
The last three muscles we'll cover on the dorsal forearm can be found just radial to the twins-- meaning closer to the thumb side of the arm compared to the centrally located twins. It's no coincidence that each of these three muscles have the root "radial" in their names. As well as indicating that these muscles are found on the radial side of the arm, this root also tells us that these muscles pull the hand toward that side. This movement is known as abduction of the hand. Hence the fact that radial side arm muscles tend to abduct.
The three muscles we'll be looking for today are labeled in blue on this diagram. Notice that they are closest to the radial (thumb) side of the hand. And notice that all their names have "radial" somewhere in the name.
Of these muscles, the most radial is brachioradialis. This muscle starts way up on the upper arm (or brachium, hence the root brachio in its name) and travels distally, along the radius, towards its insertion on the styloid process of the radius (a bump at its distal end.) This muscle, despite its certified membership in the dorsal forearm compartment, can actually be seen more clearly from the ventral side. So we won't see much of it today in our photographs.
Running right between brachioradialis and extensor digitorum (one of the twin muscles) we see two muscles with very similar names: extensor carpi radialis longus and extensor carpi radialis brevis. Can you guess, by looking at these names, what these muscles have in common and what they don't?
Let's look at their names: Both names contain extensor carpi radialis, which means extensor of the wrist (carpi) on the radial side of the arm (radialis.) So these are attributes of both muscles. But how do we distinguish them from one another? The qualifiers tacked on to the end of each name tell us! Yes! One of these muscles is longer than the other. Extensor carpi radialis longus is the longer of the two, and extensor carpi radialis brevis is the shorter. (Brevis is Latin for short, or brief.) Knowing this, you should be able to tell one of these muscles from the other, as one is clearly longer than the other. In addition, it's helpful to know that extensor carpi radialis brevis lies right next to extensor digitorum and it tends to sink in rather than stand out when the dorsal forearm muscles show on the surface of the body.
Extensor carpi radialis longus is sometimes identified by its unique shape. It originates just proximal to the lateral epicondyle of the humerus, higher up on the arm than the origin points of the twin muscles. Also, unlike the twin muscles, extensor carpi radialis longus take a sharp turn where its muscle body meets its long insertion tendon. So its muscle body (which is its most visible part on the surface of the body) appears at an oblique angle on the upper dorsal-radial forearm. This is the only dorsal forearm muscle that lies at such an angle.
The photo above shows a dorsal forearm and an abducted hand. Because radial side muscles abduct the hand, they will stand out more in this position than in any other. The easiest one to spot is extensor carpi radialis longus, as it stands out clearly right next to the lateral epicondyle. Notice its oblique course compared to the surrounding dorsal forearm muscles. Notice also that it and brachioradialis originate on the upper arm (unlike the twin muscles that originate at the lateral epicondyle of the humerus.)
At the distal end of the arm, you may also notice three smaller muscles, abductor pollucis longus, extensor pollucis brevis, and extensor pollucis longus. While these muscles stand out clearly here, they often don't. We will look at them more closely later. You may remember, however, that we have already observed their tendons (which can be seen at the base of the thumb) in the post on the dorsal hand.
I've also pointed out the lateral head of the triceps and the triceps tendon, structures on the posterior upper arm. We will cover these later, but this photo shows them very clearly.
Now let's take a look at this arm without the structure overlay:
Notice the most obvious radial side muscle is extensor carpi radialis longus. It bulges out more than its counterpart, extensor carpi radialis brevis. Brachioradialis does show fairly well on the surface, but as pointed out earlier, it actually shows more clearly on the ventral side of the forearm. Brachioradialis is one of the dorsal forearm muscles that can't decide which side it wants to be on; although it's technically in the dorsal compartment, it tends to peek around to the ventral compartment, and although it technically belongs to the extensor muscle group, it does facilitate some flexion of the wrist as well. In any case, we don't see it very clearly on the dorsal side of the arm, nor to we see extensor carpi radialis brevis very clearly (other than in an exceptionally defined individual.) As such, if the hand is abducted, the muscle we want to look for (and to be sure to draw!) is extensor carpi radialis longus.
So let's look for this muscle in a few more images...
In the photo above, we can see three structures very clearly. (Well, four, if you count the extensor digitorum tendons on the back of the hand.) We can see extensor digitorum (the more radial of the twin muscles), the lateral epicondyle of the humerus, and the extensor carpi radialis longus muscle. Notice again how ECRL runs more obliquely than its neighboring muscles and how it originates higher up on the arm than the twin muscles.
The extensor carpi radialis longus muscle is softer in this photo but still visible because the hand is abducted. We can also see the lateral epicondyle, anconeus, and both extensor digitorum and extensor carpi ulnaris. The degree to which the dorsal forearm structures are visible on the surface of the depends on several variables. These include but aren't necessarily limited to: the tone of the muscles, the amount adipose tissue overlying the muscles, the position of the arm and the degree of muscle contraction, the age of the individual (as it relates to skin thickness) and even the light source and the amount of contrast in the values of the structure.
Well, we've covered just about everything we can on the dorsal forearm, with the exception of the radial thumb muscles. Perhaps that can be our epilogue? But I'm going to put the forearm aside for awhile and move on to something different. I'm thinking maybe the posterior torso muscles or something with the thigh. We'll see. As always, suggestions are welcome!
Thanks to my forearm models, Christian, Jessica, and Jeff. I couldn't write this blog without your willingness to stand around and do funny poses for me.