The Muscles of the Thoracic Limb
The muscles identified during the chicken dissection were m. pectoralis major, m. pectoralis minor, m. biceps brachii, m. triceps brachii, and m.
deltoideus. The muscles of the thoracic limb of the chicken work to elevate
and pull the wing downward as well as, flexing, extending, and rotating the
various bones associated with the thoracic limb. Variation in skeletal muscle is
most apparent in the wing of the chicken. The largest muscle of the bird is the
m. pectoralis major, which is the
major contributor to the downward movement of the wing. The muscle originates
at the sternum, furcula, and sternal ribs. It inserts at the ventral surface of
the humerus. The muscle that controls the elevation of the wing in the upstroke
is the m. pectoralis minor (Supracoracoideus)
and it lies deep to m. pectoralis major.
This muscle originates in the sternum, furcula, and sternal ribs. It inserts at
the proximal dorsal surface of the humerus. Movement of this muscle is
facilitated by a tendon, which connects to the m. pectoralis minor and passes along the medial surface of the
coracoid bone. The tendon then travels through an opening formed between the
coracoid, scapula, and humerus, and finally inserts into the dorsal surface of
the humerus. The muscle that aids the chicken in flexing its wing is the m. biceps brachii. It runs ventral to
the humerus and its two heads originate near the glenoid fossa and proximal end
of the humerus. It then inserts at the proximal anterior surface of the radius.
The m. triceps brachii flex the
shoulder and extend the forearm. Its two heads originate from the scapula and
proximal humerus. The point of insertion of the m. triceps brachii is located at the olecranon process of the
proximal ulna. The m. deltoideus also
flexes the shoulder; however, it also aids in outward rotation of the wing. It
is a sheet-like muscle that covers the dorsal shoulder and it originates at the
proximal clavicle. Its point of insertion is the deltoid tuberosity of the
proximal humerus (a picture is not shown because we did not look at the chicken
dorsally).
Muscles of the Pelvic Limb
The muscles of pelvic limb that were identified
during the chicken dissection enable flexion, extension, and adduction of the
bones within the pelvic limb. Muscles that flex joints decrease the angle
between two sectors and are located on the side of the limb in which the joint
bends. Conversely, extensor muscles work to increase the angle between to
segments. While flexor and extensor muscles aid in forward and backward motion,
adductors aid in pulling the limb toward the medial plane. The muscles observed
that aid in these movements include the m.
iliotibialis, m. sartorius, m. semiteninosus, m. semimembranosus, m. gastrocnemius,
m. tibialis anterior, m. adductor longus, and m. quadriceps femoris. The m. iliotibialis, also known as the
gluteus maximus, is a sheet like muscle that covers most of the thigh and works
to flex the hip and extend the knee and lower leg. The muscle originates in the
pelvis and inserts at the proximal tibia and patellar ligament. The m. sartorius also aids in flexion of the
hip and extension of the knee; however, it originates at the lumbo-sacral area
and inserts at the patellar ligament. Both the m. semitendinosus and m.
quadriceps femoris aid in the extension of the thigh; therefore, they work
to bring the thigh backwards. The m.
semitendinosus originates at the ilium and ischium and inserts on the
caudal femur. The m. semimembranosus
extends the thigh and bends the knee. It originates at the pelvis on the
lateral surface of the ischium and it inserts on the caudal surface of the
tibiotarsus. Flexion of the knee is further aided by the m. gastrocnemius; however, this muscle also aids in extension of
the foot. It has three heads and originates from the distal femur and proximal
tibiotarsus. It then inserts at the tuber calcanei. Movement of the thigh is
further supported by the m. tibialis
anterior, which works to adduct and extend the thigh. This muscle
originates at the ventral border of the ilium and pubis and inserts at the
distal femur. The m. tibialis anterior
assists in flexion of the tarsometatarsus forward. Its point of origin is at
the anterior and distal femur and the proximal tibiotarsus. Its point of
insertion is at the anterior surface of the tarsometatarsus.
Abdominal Muscles
The abdominal wall is mainly composed of muscles, which
support the organs of the digestive and reproductive system. Abdominal muscles
also aid in flexion of the vertebral column as well as defecation, micturition,
and parturition. These muscles are arranged in layers and they are classified
in regards to their location being either superficial or deep. External muscles
are the most superficial, internal muscles are located right below external
muscles, and transverse muscles are the deepest abdominal muscles. The fibers
of abdominal muscles run in different directions; however, most abdominal
muscles have aponeurtoic insertions that convene at the linea alba, a midventral line. The most superficial muscle of the
abdomen is the m. obliquus externus
abdominus and its fibers run in the ventral and caudal direction. Its point
of origin is the last few rib and the thoracolumbar fascia. The muscle inserts
at the linea alba by an aponeurosis, a broad flat tendon,
located on the opposite side of the linea
alba. The muscle that lies right below the m. obliquus externus abdominus is the m. obliquus internus abdominus. Although this muscle has the same
points of insertion as the m. obliquus
externus abdominus, it originates at the tuber coxae and its fibers run in
the ventral and cranial direction. This muscle eventually gives rise to the cremaster m., which aids in pulling the
testicles toward the abdominal cavity. The deepest abdominal muscle is the m. transverse abdominis, which
originates from the deepest layer of thoracolumbar fascia. Similarly, it
inserts on the linea alba; however,
its fibers run perpendicular to the body axis. The floor of the abdomen is
formed by the m. rectus abdominis,
which is divided into tendinous intersections and its fibers run in the caudal
direction. It originates from the cartilages of the ribs and the sternum and
its point of insertion is at the pubis using a prepubic tendon.
Muscles of the Head
The muscles of the head function in order to aid in
mastication, facial expression, eye movement, deglutition, phonation, and
tongue movement. The muscles of mastication attach to the mandible and move the
jaw allowing the animal to chew. Facial muscles aid in movement of the skin and
they also assist movement of hair and facial appendages. They are often thin cutaneous muscles
innervated by the facial nerve. The muscles of mastication include the m. temporalis, m. masseter, pterygoid muscles,
and the m. diastricus. The m. temporalis brings the upper and lower
jaw closer together. It originates from the sagittal crest and the expansive
temporal fossa of the lateral cranium. Its point of insertion is the coronoid
process of the mandible. The function of the m. masseter is to elevate the mandible and move it laterally. Its
point of origin is the maxillary region of the face and zygomatic arch and its
point of insertion is the caudal mandible. The pterygoid muscles are located medial to the mandible and originate
at the pterygoid and palatine bones. There point of insertion is on the
mandible. They aid in closing the jaw and side-to-side grinding movements. The
opening of the jaw is facilitated by the m.
digastricus, which originated at the region caudal to the temporomandibular
joint and inserts on the angle of the mandible. The muscles of facial
expression include the auricular muscles,
m. orbicularis oculi, m. orbicularis oris, and m. buccinator. The auricular muscles are located rostral and caudal to the ear and aid
in ear movement. The m. orbicularis oculi surrounds the opening of the
eyelid, the palpebral fissure, and
its contraction causes the eyelid to close. The m. orbicularis oris is another sphincter-like muscle and it
surrounds the lips. Contraction of this muscle purses the lips. The final
facial muscle is the m. bussinator,
which forms the wall of the cheek. Other muscles of the head include the extraocular muscles, m. genioglossus, m. hyoglossus, and m.
mylohyoideus. Extraocular muscles
are striated muscles that lie within the orbit of the eye. These muscles aid in
moving the globe of the eye. The m.
genioglossus, m. hyoglossus, and m. mylohyoideus are all extrinsic
muscles of the tongue, which means that they arise from the outside of the tongue.
The m. genioglossus originates from
the rostral part of the mandible and inserts in the base of the tongue. Its
function is to draw the tongue outward. Conversely, the m. hyoglossus functions to pull the tongue backwards. It originates
from the hyoid apparatus and inserts in the base of the tongue. The m. mylohyoideus contracts to lift the
floor of the mouth and it is located transversely between the rami of the
mandible.
Reproductive Tract Muscles
During the chicken dissection our chicken was a female,
which is why we do not have photographs of reproductive tract muscles; however,
the male reproductive tract muscle include the m. urethralis, the bulbospongiosus
muscle, the ischiocavernosus muscles,
the m. cremaster, and the rector penis muscles.
All of the male genitalia muscles are striated muscles except for the retractor penis muscles, which are
smooth muscles. The m. urethralis
forms a voluntary sphincter around the urinary bladder. Its contraction also
helps push semen through the urethra. The bulbospongiosus
muscle is a continuation of the m.
urethralis and it surrounds the urethra and the bulk of the penis.
Furthermore, its contraction continues the process of emptying the urethra. The
ishiovaernosus muscles cover the
superficial region of the crura of the penis. They are paired muscles located
on lateral sides of the body of the penis and their contraction pulls the penis
dorsocraniad, which aids in erection. The retractor
penis muscles are another group of paired muscles. These muscles originate
from the first few caudal vertebrae and then continue ventrally down the anal
canal towards the midline of the penis. The m.
cremaster travels through the inguinal canal with the spermatic cord and
then attaches to the outer layer of the testicles. This muscle aids in pulling
the testicles towards the inguinal canal.
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ReplyDeletethank you ! this blog is really helpful
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