ANTEROLATERAL ABDOMINAL WALL

OUTLINE

INTRODUCTION

BOUNDARIES OF THE ANTEROLATERAL ABDOMINAL WALL

REGIONS AND PLANES OF THE ANTEROLATERAL ABDOMINAL WALL

ANATOMICAL LANDMARKS ON THE ANTEROLATERAL ABDOMINAL WALL

LAYERS OF THE ANTEROLATERAL ABDOMINAL WALL

FASCIAS OF THE ANTEROLATERAL ABDOMINAL WALL

MUSCLES OF THE ANTEROLATERAL ABDOMINAL WALL

RECTUS SHEATH

BLOOD SUPPLY TO THE ANTEROLATERAL ABDOMINAL WALL

NERVE SUPPLY TO THE ANTEROLATERAL ABDOMINAL WALL 

DERMATOMES OF THE ANTEROLATERAL ABDOMINAL WALL

LYMPHATIC SUPPLY OF THE ANTEROLATERAL ABDOMINAL WALL

FUNCTIONS OF ANTEROLATERAL ABDOMINAL WALL

CLINICAL ANATOMY OF THE ANTEROLATERAL ABDOMINAL WALL

 

INTRODUCTION

The wall of the human abdomen is said to be continuous from anterior to lateral (both right and left) and finally to the posterior aspect but the absence of a definite boundary between the anterior and lateral walls of the human abdominal wall makes for the term ANTEROLATERAL ABDOMINAL WALL especially with the aim of  making description easier. The anterolateral abdominal wall is a musculo-aponeurotic wall i.e it is largely made up of muscles and their aponeurosis (whitish sheet of fibrous tissue)

 

BOUNDARIES OF THE ANTEROLATERAL ABDOMINAL WALL

SUPERIORLY: the anterolateral abdominal wall is suspended from (Bounded by) the cartilages of 7th-10th ribs and the Xiphoid process of the sternum

INFERIORLY: it attaches to the superior free margins of the anterolateral aspects of the pelvic girdle and the right and left Inguinal ligament; starting from the right; right Iliac crest; right Inguinal ligament; right public crest; pubis symphysis (central); left public crest; left Inguinal ligament; and finally the left public crest

LATERALLY: it is continuous with the posterior abdominal wall

 

REGIONS AND PLANES OF THE ANTEROLATERAL ABDOMINAL WALL

The anterolateral abdominal wall has been divided into 9 abdominal region and 4 abdominal quadrant mainly for the clinical purposes such as description of pain; swelling; incision. This regions and quadrants helps the physician to be able to isolate pain; swelling or any other pathology to the corresponding tissue or organ in that region or quadrant making clinical diagnosis and more so treatment more definitive and faster

 

What are the nine (9) divisions of the anterolateral abdominal wall?

The anterolateral abdominal wall is divided into 9 regions by 2 vertical plane and 2 horizontal planes (a plane is a straight line).

 The 2 vertical planes are namely; 

1. The Right and (2). the left Midclavicular planes: which are the clavicular lines; these planes starts from the midpoint of the clavicle approximately 9cm for the midline on both sides and cuts through the midinguinal points (the midpoint of an imaginary line that extends from the Anterior Superior Iliac Spine (ASIS) to the Pubic tubercle on each side; is completely different from midpoint of Inguinal ligament; the midpoint of another imaginary line that extends from the ASIS to the Pubic symphysis; so be careful not to confuse them). The two horizontal planes are the Transpyloric and intertubercular planes. 

3. Transpyloric plane; is an imaginary tranverse line that cuts through the abdomen midway between the Jugular notch of the Manubrium of the sternum and Pubic symphysis; at the level of L1 vertebrae transecting the Pylorus (the distal part of the stomach) when lying down (supine or prone) as against gravity when standing up; it also transect other abdominal structures like; the fundus of the gall bladder; neck of Pancreas; origins of Superior Mesenteric Artery; hepatic portal vein; root of transverse mesocolon; duodenojejunal junction and the hila of the kidneys. Some physicians use the Subcostal plane as their transverse plane which is a little lower and cuts through the inferior margins of the 10th costal cartilage on both sides.

4. Intertubercular or Transtubercular plane: as the name suggests is also an imaginary tranverse line that cuts across the right and left tubercle of the Iliac crest 5cm posterior to the ASIS and the body of L5 vertebra. The Transtubercular plane is midway between the umbilicus and the superior margin of Pubis Symphisis. Worthy of mentioning is the Interspinous plane the lowest transverse plane that transect both palpable point of the ASIS.

 

 

The 9 regions of the anterolateral abdominal wall are as follows;

(Starting from right to central to left)

1. Right hypochondrium

2. Epigastric region (central)

3. Left hypochondrium

4. Right lumbar/flank

5. Umbilical region (central)

6. Left lumbar/flank

7. Right Iliac fossa/Inguinal region

8. Hypogastric or suprapubic region

9. Left Iliac fossa/Inguinal

 

 What are the four (4) quadrants of the anterolateral abdominal wall?

The anterolateral abdominal wall is divided into 4 quadrants by one vertical plane and one horizontal plane that intersects at the umbilicus. The vertical plane is called the Vertical Median plane and the horizontal plane is called Transumbilical plane

1. Vertical Median plane: is a vertical imaginary line that separates the two halves of the body but in this context of the abdomen; it extends from the Xiphoid process cutting through the Linea alba; the umbilicus to the Pubis Symphisis

2. Transtubercular plane: is a horizontal imaginary line that transects the umbilicus and the Inter-vertebra disc between L3 and L4. It divides the body into upper half and lower half

Names of the four (4) quadrants and their contents

Starting from right to left;

1.   Right upper quadrant (RUQ):

§  Liver (right lobe)

§   Gall bladder

§  Duodenum: (1-3; superior; descending and inferior parts)

§  Pancreas: head

§  Right suprarenal gland

§  Right kidney

§  Right colic (hepatic) flexure

§  Ascending colon: superior part

§  Transverse colon: right half

 

2.   Left upper quadrant (LUQ):

§  Liver; left lobe

§  Spleen

§  Stomach

§  Jejunum and proximal Ileum

§  Pancreas; body and tail

§  Left kidney

§  Left suprarenal gland

§  Left colic (splenic) flexure

§  Transverse colon; left half

§  Descending colon: superior part

 

3.   Right lower quadrant (RLQ):

§ Cecum

§ Appendix

§ Majority of Ileum

§ Ascending colon; inferior part

§ Right ovary

§ Right uterine tube

§ Right ureter: abdominal part

§ Right spermatic cord; abdominal part

§ Uterus (If enlarged)

§  Urinary bladder; If fully distended

 

4.   Left lower quadrant (LLQ):

§ Sigmoid colon

§ Descending colon; inferior part

§ Left ovary

§ Left uterine tube

§ Left ureter; abdominal part

§ Left spermatic cord; abdominal part

§ Uterus (If enlarged)

§ Urinary bladder; If fully distended

 

 

LAYERS OF THE ANTEROLATERAL ABDOMINAL WALL

1.     Skin

2.     Superficial fascia (of subcutaneous tissue) is a thin single layer above umbilicus and all over the rest of the boy  but divides below it (umbilicus) into;

§ Superficial fatty layer of subcutaneous tissue (Campers fascia)

§ Deep membranous layer of subcutaneous tissue (Scarpa's fascia)

 

3.     Superficial investing fascia

4.      External Oblique muscle and it's aponeurosis

5.     Intermediate Investing fascia

6.      Internal Oblique muscle and it's aponeurosis

7.     Deep investing fascia

8.     Transversus abdominis muscle and it's aponeurosis

9.     Extraperitoneal fat

10.     Peritoneum (Parietal)

 

FASCIAS OF THE ANTEROLATERAL ABDOMINAL WALL

1.   Camper’s fascia: is the outer of layer of the subcutaneous fascia division below the unmbilicus anterior to Scarpa’s fascia and lies immediately below the skin. This fascia is generally thicker than Scarpa’s and its mainly made up of fat. It is continuous as the superficial fascia of the thigh

 

2.   Scarpa’s fascia: is the membraneous inner layer of the subcutaneous fascia division below the umbilicus posterior to the Camper’s fascia and anterior to the superficial investing fascia. It is thinner than Camper’s fascia and it continues inferiorly as dartos fascia (a superficial fascia that lies) over the spermatic cord, scrorum and penis; and medially it attaches to the linea alba and pubic symphysis and blends with the fascia lata just below the inguinal ligament in the upper thigh region; and finally posteriorly it continues with as the Colles fascia of the peritoneum

 

3.   Superficial investing fascia: is a layer of dense connective tissue that bounds the anterior aspect of external oblique muscle and lies below the Scarpa’s fascia

 

4.   Intermediate investing fascia: is a layer of dense connective tissue that bounds the anterior aspect of internal oblique muscle and lies below the external oblique muscle

 

5. Deep investing fascia: is a layer of dense connective tissue that bounds the anterior aspect of tranversus abdominis muscle and lies below the internal oblique muscle

 

MUSCLES OF THE ANTEROLATETRAL ABDOMINAL WALL

 

There are two groups of muslcles present in the anterolateral abdominal wall namel;

1.     Flat group of muscles:

§ External oblique muscle

§ Internal oblique muscle

§ Transversus abdominis muscle

                            

 

2.     Vertical group of muscles:

§ Rectus abdominis muscle

§ Pyramidalis muscle

 

 

 

 

1.   Flat group of muscles:

§  External oblique:

v Origin: external surface of 5-12 ribs

v Insertion: linea alba; pubic tubercle & anterior half of iliac crest

v Orientation/direction: fibers run inferomedially

v Nerve supply: thoracolumbar (T7-T11) and subcostal (T12)

v Blood supply: superior and inferior epigastric vessels

v Function: compresses and supports the abdominal visceras; flexes and rotates the trunk

 

§  Internal oblique:

v  Origin: thoracolumbar fascia; anterior 2/3^rd of iliac crest & lateral half of inguinal ligament

v  Insertion: inferior borders of ribs 10-12, linea alba & pubis via conjoint tendon

v  Orientation: fibers run superomedially but sweeps down medially parallel to the transversus abdominis aponeurosis in the inguinal region form which they unite to form cojoint tendon just posterior to the superficial inguinal ring

v  Nerve supply: thoracolumbar (T7-T11); subcostal (T12) & iliohypogastric nerve (L1)

v  Blood supply: superior and inferior epigastric vessels; deep circumflex iliac vessels

v  Function: compresses and supports the abdominal visceras; flexes and rotates the trunk

 

 

 

§  Transversus abdominis:

v  Origin: internal surfaces of costal cartilages 7-12, thoracplumbar fascia; iliac crest & lateral 3^rd of inguinal ligament

v  Insertion: linea alba with aponeurosis of internal oblique muscle;pubic crest & pectin pubis via cojoint tendon

v  Orientation: fibres run transversely but sweeps down  medially parallel to the internal oblique aponeurosis in the inguinal region from which they unite to form the cojoint tendon just posterior the superficial inguinal ring

v  Nerve supply: thoracolumbar (T7-T11); subcostal (T12) &iliohypogastric nerve (L1)

v  Blood supply: deep circumflex iliac & inferior epigastric vessels

v  Function: compresses and support abdominal viscera

 

 

 

 

 

2.   Vertical group of muscles

§ Rectus abdominis:

v  Origin: symphysis and pubic crest

v  Insertion: xiphoid process and costal cartilages 6-7

v  Orientation:  fibres run superiorly (from distal to proximal)

v  Nerve supply: thoracolumbar (T7-T11) and subcostal (T12)

v  Blood supply: superior and inferior epigastric vessels

v  Function: flexes the trunk; compresses abdominal viscera & stabilises and control tilting of the pelvis (antilordosis)

 

 

§ Pyramidalis:

v  Origin: body of pubis and anterior aspect of rectus abdominis

v  Insertion: linea alba

v  Shape: triangular

v  Orientation: apex is attached to linea alba while the base originatesfrom pubis bone

v  Nerve supply: iliohypogastric nerve (L1)

v  Blood supply: inferior epigastric artery

v  Function: tenses the linea alba

 

 

RECTUS SHEATH

 

OUTLINE

DEFINITION

STRUTURE

BORDERS

CONTENT

ARCUATE LINE OR LINEA SEMICIRCULARIS (OF DOUGLAS)

LINEA ALBA

LINEA SEMILUNARIS OR SPIGELIAN LINE

TENDINOUS INTERSECTIONS OR INSCRIPTIONS

BLOOD SUPPLY

NERVE SUPPLY

LYMPHATIC DRAINAGE

 

 

 

 

 

DEFINITION

 

The rectus sheath also called rectus fascia is a fibrous aponeurotic compartment of rectus abdominis and pyramidalis muscle (vertical muscles of anterolateral abdominal wall) with associated blood vessels, nerves and lymphatics enclosed by interwoven decussations (or fusion) of the aponeurosis of external oblique; internal oblique and transversus abdominis muscle (the flat muscles of the anterolateral abdominal wall)

 

 

STRUCTURE

 

The aponeurosis of the Rectus sheath is divided above the arcuate line into two walls or layers namely;

 

1.      Anterior aponeurotic wall or layer

2.      Posterior aponeurotic wall or layer

 

 

 

 

1.        Anterior aponeurotic wall or layer: above the arcuate line (of douglas) it consists (made) up of fusion of parallel fibrous sheet of external aponeurosis and the anterior lamina of internal oblique aponeurosis; below the arcuate line it unites with the posterior aponeurotic wall or layer (posterior lamina of internal oblique aponeurosis and transversus abdominis aponeurosis).

 

2.          Posterior aponeurotic wall or layer: it is suspended from the margins of 7-9^th costal cartilage and terminates at the arcuate line (of douglas); at this point it unites anteriorly with the anterior aponeurotic wall or layer to form a single cover above the rectus abdominis muscle. It is formed by fusion of posterior lamina of internal oblique aponeurosis and transversus abdominis aponeurosis which forms the posterior border of the rectus abdominis muscle above the arcuate line (of douglas)

 

 

NB:

§  “detailed studies indicates that aponeurosis of external oblique, internal oblique and transversus abdominis are each bilaminar giving 6 layers in all; 3 forms the anterior wall an 3 forms the posterior aponeurotic wall”-Last’s anatomy regional and applied 12^th edition by Chummy S. Sinnatamby

 

§  “Above the 7-9^th costal margin the anterior aponeuorotic wall or layer of the sheath consists only of external oblique aponeourosis” -Last’s anatomy regional and applied 12^th edition by Chummy S. Sinnatamby

 

 

 

BORDERS

1.   Superiorly: 7-9^th costal cartilages

2.   Inferiorly: pubis symphysis and pubis crest

3.   Laterally: curved semilunar or spigelian line on both sides

 

 

 

 

CONTENTS

1.   MUSCLE

§ Rectus abdominis

§ Pyramidalis

 

2.   BLOOD VESSELS

§ Superior epigastric arteries and veins

§ Inferior epigastric arteries and veins

 

3.   NERVES

§ Anterior branch of thoracoabdominal nerve (T7-T11)- terminal

§ Anterior branch of subcostal nerve (T12)- terminal

 

4.   LYMPHATIC VESSELS

 

 

ARCUATE LINE OR LINEA SEMICIRCULARIS (OF DOUGLAS)

 

It is an imaginary horizontal (transverse) crescent shaped line that cuts across one third (1/3^rd) the distance inferior between the umbilicus (from) and (to) the pubic crest. It marks the point the point at which the posterior lamina of internal oblique aponeurosis and aponeurosis of the transversus abdominis (posterior aponeurotic wall) unites with the anterior aponeurotic wall 3/4  (three quarter) the distance from the origin of the rectus sheath. It also dermacates the point of transition where the anterior covering of the superior 3/4 (three quarter) changes from the anterior aponeurotic wall (anterior lamina of internal oblique aponeurosis) to posterior aponeurotic wall and where the inferior epigastric vessels perforates the rectus abdominis and bifurcates resulting in lateral and medial row of perforating vessels

 

NB: a well defined arcuate line might be absent or present however there is an increasing reduction of aponeurotic fibres into a single layer (anterior aponeurotic layer) result in increasing thickening of transveraslis fascia that runs deep and parallel to the inguinal ligament and combines with iliac fascia (fascia iliaca) to form the iliopubic tract an important structure that plays a role in hernioraphy (surgical repair or hernia)

 

 

LINEA ALBA

 

It is a vertical white midline structure that consist of fusion of interlaced fibres of the anterior aponeurotic and posterior aponeurotic wall. It extends from the xiphoid process of the sternum to the pubic symphysis. It separates the pairs of the rectus abdominis muscle into two halves. It forms a visible and palpable groove in skinny individuals and the width narrows down inferiorly to fit the width of the xiphoid process. The linea alba has a defect in its middle at the level of transumbilical plane known as the umbilical ring. It is through this defect that blood vessels communicate (pass) to and from the umbilical cord and placenta. Around 7-14 days when the atrophic umbilical cord falls off fat begins to accumulate within the subcutaneous tissue and the surrounding skin overlying this regions becomes raised around the umbilical ring and the umbilicus becomes gradually depressed flat or inverted depending on the extent of fat accumulation but in situations of distended or big or bulgy or everted umbilicus in infants that might still remain in adulthood is as a result of herniation or protrusion of the intestine, fats or fluid through the defect in the linea alba (the umbilical ring which is usually common in many kids at birth). The linea alba also transmits small blood vessels (arteries and vein) and nerves to the overlying skin. Clinically umbilical and paraumbilical hernia occur here.

 

 

LINEA SEMILUNARIS OR SPIGELIAN LINE

 

Semilunar line is a bilateral vertical curved line structure that forms the lateral border of the rectus sheath (where the aponeurosis began to fuse) and the medial border of the oblique muscles.

 

 

TENDINOUS INTERSECTIONS OR INSCRIPTIONS

 

They are pairs of fibrous bands on both halves of the anterolateral abdominal wall that separates the rectus abdominis muscle transversely. Depending on anatomical variation this intersections or inscriptions if you like can range from 2-3 or more dividing the rectus abdominis muscle on both sides of the linea alba into segments circular regarded as 6 or 8 packs abs or more as the case maybe.

 

 

 

BLOOD SUPPLY

1.   Superior epigastric vessels (arteries and veins)

2.   Inferior epigastric vessels (arteries and veins)

 

 

NERVE SUPPLY

1.   Anterior branch of thoracolumbar nerve T7-T11 (terminal aspect)

2.   Anterior branch of subcostal vessels T12 (terminal aspect)

 

 

 

NERVE SUPPLY TO THE ANTEROLATERAL ABDOMINAL WALL

Brief anatomy of spinal nerve: In order to have a proper understanding of the nerve supply to the anterolateral abdominal wall  I thought it will be nice to take you through a brief anatomy of the spinal nerves as the anterolateral abdominal wall is supplied by the lower six anterior rami of the spinal nerves (T7-T12 & L1). 31 pairs of spinal nerves exists in the human body; 8 Cervical; 12 Thoraic; 5 Lumbar; 5 Sacral and 1 Coccygeal. Each spinal nerve is formed by union of the anterior (ventral) and posterior (dorsal) root which are attached by their corresponding rootlets (anterior and posterior) to the anterior and posterior horns of grey matter respectively. This union is formed within the intervertebrae foramen from which each pair of spinal nerve emerge bilaterally (on both sides of the vertebra) distal to the swelling of the spinal (posterior) root ganglion. Each emerging spinal nerve on each side then divides further into the anterior and posterior ramus. It is worthy of noting that the anterior root (not rami) carries motor (efferent) nerve supply to skeletal muscle and some small numbers of unmyelinated afferent (sensory) pain fibres whose cell bodies ironically originates from the spinal (posterior) root ganglion but it enters the spinal cord via the anterior root instead of the posterior root; so it “doubled back” ( a quick reminder that the afferent/sensory impulses moves from peripheral tissues; skin; muscles; organs etc. towards the central nervous system [the brain and spinal cord] and vice-versa [opposite direction] for afferent/motor neuron ) while the posterior root carries afferent fibres whose cell bodies are in the posterior root ganglion. These fibers are unipolar neurons which have a single nerve process and bifurcate to supply the central nervous system and peripheral receptors; they do not have synapse like the autonomic ganglia.

 

NERVE SUPPLY PROPER

The anterior rami of the lower six Thoracic spinal nerves (T7-T12 & L1) supplies the anterolateral abdominal wall

 

1.       Thoracoabominal nerve (T7-T11); is divided into

  Anterior cutaneous branch

  Lateral cutaneous branch (T7-T10 or T11)

 

  Anterior cutaneous branch (T7-T11); pierces the retus sheath to supply the subcutaneous tissue adjacent to the middline

 

  Lateral cutaneous (T7-T10 or T11); is shorter than the anterior branch and hence supplies the skin of right and left hypochondriac region

 

NB: the thoracoabdominal nerve generally supplies the muscles of the anterolateral abdominal wall and its overlying skin

 

2.       First lumbar spinal nerve (L1); which has 3 terminal branches

  Iliohypogastric nerve

  Ilioinguinal nerve

  Genitofemoral nerve (only exception)

Only the first two of these terminal branches supplies the lower aspects of the anterolateral abdominal wall

 

 Iliohypogastric nerve (L1); supplies the skin overlies the iliac crest, upper inguinal and hypogastric region; and the muscles of the internal oblique and transversus abdominis

 

 Ilioinguinal nerve (L1); supplies the skin that ovelies the lower inguinal region; mons pubis; anterior scrotum or labium majus, adjacent medial thigh and finally inferior aspect of internal oblique and tranversus abdominis muscle

 

NB: note that by the general principle of the anatomic neurovascular planes the spinal nerves are accompanied by their corresponding segmental vessels (arteries and veins) and they almost all run beneath the arteries except at the anterior aspect adjacent to the median plane and posteriorly around the vertebra column where the nerves crosses over the arteries. The thoracoabdominal branches (T7-T12) runs beneath the corresponding intercostal nerves and subcostal nerve while the terminal branches of the first lumbar vertebra (L1) the iliohypogastric nerve the only exception to this principle on the anterolateral abdominal wall runs immediately above the deep circumference iliac artey and ilioguinal nerves runs beneath the deep circumflex iliac artery

 

DERMATOMAL MAPS OF THE ANTEROLATERAL ABDOMINAL WALL

What are dermatomes?

 Dermatomes are area of the skin supplied by the spinal nerves as in contrast to myotome which are areas of the muscle supplied by spinal nerve

 

The dermatomal map of the anteolateral abdominal wall (T7-T12 and L1) would have been completely identical to the map of peripheral nerve distribution only that it’s anterior rami as opposed to other regions of the human body does not participate in the formation of great plexuses like; the Cervical plexus; Brachial plexus; Lumbar plexus and Sacral plexus

 

T7- supplies the skin around the subcostal angle

T8- supplies the skin around the costal rib cartilage

T9- supplies the skin just immediately above the umbilicus

T10- supplies the skin around the umbilicus

T11- supplies the skin of just immediately below the umbilicus

T12- supplies the skin of the lower abdomen & the upper buttocks

L1- supplies the skin of the Supra pubic region; penis; anterior scrotum or Labia and upper buttocks

 

Why you cannot trust the dermatomal map on the anterolateral abdominal wall?

  Note that adjacent T6 and T8 dermatomes overlap and cover up (i.e. this mix makes up) T7 which infers that possible loss of afferent nerve function of one spinal nerve would not generally cause complete loss of sensation but a decreased sensation might be experienced at this dermatome. Hence this explains why a anaesthesia of a single division of the intercostal nerve does not generally give rise to anaesthesia of the trunk>>>

 

BLOOD SUPPLY TO THE ANTEROLATERAL ABDOMINAL WALL

Venous drainage: primarily there are two sets of venous drainage of the anterolateral abdominal wall namely;

1.     The Superficial cutaneous vein or Subcutaneous venous plexus and

2.     The deep veins (of anterolateral abdominal wall)

 

 

1.    The Superficial vein or subcutaneous venous plexus drains in the;

§ Superomedial direction: drains from the superior epigastric vein into the internal thoracic vein (superficial epigastric vein>>>internal thoracic vein>>> brachiocephalic vein>>>superior vena cava>>>right atrium{heart}; on the respective sides right or left)

 

§ Inferiorly: drains from  the inferior epigastric and superficial epigastric veins into the tributaries of external iliac and femoral vein respectively (superficial epigastric and inferior epigastric veins >>>respectively into femoral and external iliac veins>>>common iliac vein>>>inferior vena cava>>>right atrium{heart})

 

§ Laterally: drains from the lateral thoracic vein into the axillary veins (lateral thoracic vein>>>axilliary vein>>>subclavian vein>>> brachiocephalic vein>>>superior vena cava>>>right atrium{heart}; on the respective sides right or left)

 

 

§ Umbilicus: drains from the paraumbilical vein into the hepatic portal vein which is parallel to round ligament of the liver an obliterated umbilical vein (paraumbilical veins>>>hepatic portal vein>>> inferior vena cava>>>right atrium{heart})

Anastomosis of the superficial cutaneous veins or subcutaneous venous plexus on anterolateral abdominal wall:  it’s worthy of noting that other superficial cutaneous veins anastomose with the paraumbilical veins at the umbilicus; this flow is considered to cause focal or diffuse hepatic steatosis (fatty liver) when there is obstruction to systemic venous  flow. A lateral anastomostic channel the thoraco-epigastric may also exist between superficial epigastric vein and lateral vein in healthy people or when the venous flow is also altered in the obstruction of the inferior vena cava. In similar fashion during portal hypertention the paraumblical veins also communicates with the thoraco-epigastric veins thus forming one of the 5 areas of  porto-systemic venous anastomosis (a collateral circulation between the hepatic portal vein and the systemic veins {mainly by  the tributaries of superior and inferior vena cava that finally empties into the right atrium} when there is an hepatic blockage or hypertension) in the paraumbilical region forming the characteristic group of distended called caput medusae.

NB: the superficial veins are also called the subcutaneous veins

2.      Deep veins (of the anterolateral abdominal wall): accompanies their corresponding arteries and bear the

same name

 

Deep venous anastomosis: may exist between the superior epigastric/internal thoracic veins and inferior epigastric vein in other words this anastomosis is between the tributaries of the subclavian and external iliac veins respectively; hence provides a collateral (alternate) pathway of venous drainage during obstruction of the vena cava; superior or inferior

 

 

 

Arterial supply: there are 9 primary arterial vessels that supplies the anterolateral abdominal wall along with their corresponding deep venous drainage and they bear the same name as follows;

 

1.      Superior epigastric vessels

2.      Muscilophrenic vessels

3.      Inferior egigastric vessels

4.      10^th posterior intercostals vessels

5.      11^th posterior intercostals vessels

6.      Anterior branch of Subostal vessels

7.      Superficial epigastric vessels

8.      Deep circumflex iliac vessels

9.      Superficial circumflex iliac vessels

 

 

 

1.     Superior epigastric artery:   one of the branches (the other Musculophrenic artery) and continuum of Internal thoracic artery (Superior epigastric artery<<<internal thoracic artery<<<subclavian artery<<<brachiocehpalic artery on the right side unlike the left subclavian artery that taps it’s source directly from<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: inferomedially (adjacent on both sides of the midline)

 

Supplies:  restus abdominis muscle; superficial and deep aspects of the epigastric region of the anterolateral abdominal wall and upper umbilical region; it also anastomosis inferiorly at the umbilical region with inferior epigastric artery; all on both sides

 

 

2.     Muscilophrenic vessels: the other branch of internal thoracic artery (Superior epigastric artery<<<internalthoracic artery<<<subclavian artery<<<brachiocehpalic artery on the right side unlike the left subclavian artery that taps it’s source directly from<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: inferolaterally (on both sides)

 

Supplies: the superficial and deep region of the hypochondriac abdominal wall and anterolateral aspect of the diagpragm; all on both sides

 

3.   Inferior epigastric artery:  a branch of external iliac artery ( inferior epigastric artery<<<external iliac artery<<<common iliac artery<<<abdominal aorta<<<thoracic aorta<<<descending aorta<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: superomedially (on both sides)

 

Supplies: rectus abdominis muscle and abdominal walls of the pubic and inguinal region

 

 

4.     10^th posterior intercostal artery: a branch of the thoracic aorta ( 10^th posterior intercostals artery<<<thoracic aorta<<<descending aorta<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: lateral and inferiorly (on both sides)

 

Supplies: superficial and deep lateral abdominal walls of the lumbar region

 

 

5.   11^th posterior intercostal artery: same as the 10^th posterior interostal artery

 

6.   Anterior branch of Subcostal artey: same as the 10^th posterior interostal artery

 

 

 

7.   Superficial epigastric artery: a  branch of femoral artery ( femoral artery<<< external iliac artery<<<common iliac artery<<<abdominal aorta<<<thoracic aorta<<<descending aorta<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: superomedially (on both sides)

 

Supplies: superficial aspects of the pubic and lower portion of the umbilical region

 

 

8.   Deep circumflex iliac artery: a branch of external iliac artery ( Deep circumflex iliac artery<<<external iliac artery<<<common iliac artery<<<abdominal aorta<<<thoracic aorta<<<descending aorta<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: superolaterally parallel to the inguinal ligament (on both sides)

 

Supplies: iliac muscle and deep abdominal wall of iliac fossa and inguinal region

 

NB: the superior branch of this artery pose a risk to gridiron incision (during appecdectomy)

 

 

9.     Superficial circumflex iliac artery: a  branch of femoral artery ( femoral artery<<< external iliac artery<<<common iliac artery<<<abdominal aorta<<<thoracic aorta<<<descending aorta<<<arch of aorta<<<ascending aorta<<<left ventricle{heart})

 

Orientation: superolaterally (on both sides)

 

Supplies: superficial aspects of the abdominal wall of the inguinal region and adjacent anterior thigh

 

 

LYMPHATIC SUPPLY TO THE ANTEROLATERAL ABDOMINAL WALL

 

There are two groups of lymphatic drainage of the anterolateral abdominal wall namely:

 

1.    Superficial lymphatic vessel

2.    Deep lymphatic vessel

 

1.     Superficial lymphatic vessel: accompanies their corresponding subcutaneous veins; superficial lypmphaticvessel superior to the transumbilical plane drains majorly into the Axillary group of lymph nodes and a few drains into the Parasternal lymph nodes while below the transumbilical plane they drain into the Inguinal lymph nodes

 

 

2.     Deep lymphatic vessel: accompanies their corresponding deep veins in the anterolateral abdominal wall and drains into the external iliac; common iliac; right and left lumbar (cava & aortic) lymph nodes

 

 

 

 

FUNCTIONS AND ACTIONS OF ANTEROLATERAL ABDOMINAL WALL AND IT’S MUSCLES

1.   Protect abdominal viscera from physical insult

2.   Maintain posture

3.   Move the trunk

4.   Helps to increase intrabdominal pressure which fascilitates expiration when the diaphragm is relaxed by compressing and squeezing the abdominal visceral the upward and can at the same time fascilitates sneezing and expulsion of fecal matter through the anus  (defecation) and or product of conception during parturition(child birth)

5.   It also provides flexibility and also  relaxes or distend to accommodate the downward squeezing of the abdominal visceral when the diaphragm contracts during inspiration; moreso the anterolateral abdominal walls and its muscles distended appropriately to create room for the growing fetus or rising uterus into the abdominal cavity

6.   It supports abdominal viscera; intestine only

                  

 

CLINICAL CORRELATES OF THE ANTEROLATERAL ABDOMINAL WALL TO BE DISCUSSED IN THE NEXT ARTICLE (POST)

 

 

 

 

 

REFERENCES

 

§  Moore clinically oriented anatomy 7^th edition by Keith L. Moore; Arthur F. Dalley & Anne M.R. Argur

§  Last’s anatomy regional and applied 12^th edition by Chummy S. Sinnatamby

§  Atlas of human anatomy 7^th edition by Frank H. Netter, MD

§  Wikipedia

§  radiopaedia.org

§  ncbi.nlm.nih.gov

§  some other internet sources that I can’t remember (pardon me)