Yoga_Journal_-_February_2016_USA_

48

february 2016

yogajournal.com

Get to know the different ways your muscles

contract to power up your asana practice.

Body of knowledge

Understanding your muscle tissue

By Joe Miller

ANATOMY

practice well

THERE’S A REASON your yoga teachers say things like, “Eccentrically

contract your triceps to slowly lower into Chaturanga,” instead

of just, “Contract your triceps.” It’s because there are three dif-

ferent ways a muscle can contract, and how you utilize these

actions can affect strength and safety in a pose. So, what

is really going on inside the muscle tissue when we fl ex,

and why does it matter?

To get a feel for the mechanics in question, bend your

elbow. The biceps on the front of your arm contracts to lift your

forearm, creating a shortening of muscle fi bers, or concentric

contraction. If you keep your elbow bent, your biceps stays con-

tracted to resist gravity in a static (nonmoving), or isometric,

contraction. These types of contractions probably feel famil-

iar—they’re what you’d do if you wanted to “make a muscle.”

Now slowly lower your forearm. You might assume that

the triceps muscle on the back of your arm, which is responsible

for straightening your elbow, is working now. However, because

gravity pulls your forearm down, your triceps doesn’t need to do

anything. Rather, your biceps continues to contract as it length-

ens, resisting gravity. If it didn’t, your forearm would simply

fall. Such lengthening, or eccentric contractions, are critical

to controlling many movements, from folding forward into

Uttanasana (Standing Forward Bend) to jumping back to

Chaturanga Dandasana (Four-Limbed Staff Pose) to moving

into an arm balance like Parsva Bakasana (Side Crane Pose).

Targeting concentric, isometric, and eccentric contractions

in your asana practice will work your muscles through their full

range of motion, helping you to develop balanced strength and

lessening your risk of injury. To understand these contractions,

you need to know what happens in your muscles when they’re

working. Muscle cells, or fi bers, contain many smaller strands

called myofi brils, each of which in turn is comprised of a series

of contractile units called sarcomeres. Within the sarcomere, two

types of protein fi laments—thick fi laments called myosin and

thin fi laments called actin—overlap like interlaced fi ngers.

When a muscle like the biceps contracts concentrically, a sig-

nal from the central nervous system prompts the thick myosin

fi laments to catch hold of nearby thinner actin fi laments, form-

ing linkages called cross-bridges. If the pull is strong enough to

overcome opposing resistance (usually from the force of gravity),

continued on page 5o ILLUSTRATION: MICHELE GRAHAM

MUSCLE

FASCICLE

MYOFIBRIL

MUSCLE CELL

(FIBER)

SARCOMERE

BICEPS

MUSCLE

MYOSIN

ACTIN

CROSS-BRIDGE