Pelvis - 1.pptx PDF

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This document provides anatomical information about the pelvis. It describes the pelvic bones, pelvic types, and pelvic diameters. It also includes some clinical anatomical aspects including pelvic fractures. The content is suitable for medical students, healthcare professionals, and anatomy enthusiasts.

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HAYAT MEDICAL COLLEGE

PELVIS AND PERINEIUM

By Solomon Seyoum (MSC in Anatomy, MPH)

October, 2024 G.c.

1
 The pelvic region
Introduction
 Is the part of the trunk inferoposterior to the abdomen.
 Is the area of transition between the trunk and the lower
limbs.
 Is also the space or compartment surrounded by the pelvic
girdle.
 Externally, the pelvis is covered or overlapped by:
 The inferior anterolateral abdominal wall anteriorly.
 The gluteal region of the lower limb posterolaterally.
 The perineum inferiorly.
The pelvic cavity
 Is enclosed by the true pelvis.
 Consists of the pelvic inlet, walls, and floor.
2
 Is continuous superiorly with the abdominal cavity.
 Bone of pelvis
 The bony pelvis’s functions are:
 Transmit the weight of the body from the vertebral column
to the femurs.
 It contains, supports, and protects the pelvic viscera
 Provides attachment for trunk and lower limb muscles.
 The bony pelvis is composed of four bones:
 the two hip bones, which form the lateral and anterior walls
 the sacrum and the coccyx, which are part of the vertebral
column and form the back wall.
Pelvic girdle
 Is a basin-shaped ring of bones that connects the vertebral
column to the two femurs.
 Is formed by three bones in the mature individual:
 Right and left hip bones 3
 Fig. Lateral view of hip bone
Hip Bone
 Formed by the fusion of ilium,
ischium, and pubis at the end
of teenage years.
 At birth- the three primary
bones are joined by hyaline
cartilage.
 At puberty- the 3 bones are
separated by a Y-shaped
triradiate cartilage.
 The bones begin to fuse
between 15 and 17 years of
age.
 fusion is complete between 4
 The pelvis
 It is divided into greater (false) and lesser (true) pelvis by the
pelvic inlet.
Pelvic inlet (superior pelvic aperature)
 The bony edge (rim) surrounding and defining the pelvic inlet is
the pelvic brim.
 It is the circular opening between the abdominal cavity and the
pelvic cavity through which structures traverse between the
abdomen and pelvic cavity.
 It is completely surrounded by bones and joints.
 It is bounded
 Posteriorly by the sacral promontory.
 Laterally by the iliopectineal lines
 Anteriorly by the symphysis pubis.
Function 5
 Help structures to pass b/n the abdomen and pelvic cavity.
 Pelvic outlet (inferior pelvic aperture)

 It is bounded by the:
 Pubic arch
anteriorly.
 Ischial tuberosities
laterally.
 Inferior margin of
the sacrotuberous
ligament
posterolaterally.
 Tip of the coccyx
posteriorly.

Figure - Pelvic outlet.
6
 The greater (false) pelvis
 It is surrounded by the superior pelvic girdle.
 It is the part of the pelvis:
 Superior to the pelvic inlet.
 Bounded by the iliac alae posterolaterally and the
anterosuperior aspect of the S1 vertebra posteriorly.
 Occupied by abdominal viscera (e.g., the ileum and sigmoid
colon).
The lesser (true) pelvis

 It is the part of the pelvis:
 Between the pelvic inlet and the pelvic outlet.
 Is surrounded by the inferior pelvic girdle.
 Bounded by the pelvic surfaces of the hip bones, sacrum,
and coccyx. 7
 The lesser pelvis
 Includes the true pelvic cavity and the deep parts of the
perineum, specifically the ischioanal fossae.

8
Fig. Comparison of male and female bony
pelvis

9
Fig. Comparison of male and female pelvis

10
 Classification of pelvis
 Pelvis was classified into four groups:
1- The gynecoid type
 Present in about 41% of women.
 Is the typical female pelvis.
2- The android type
 Present in about 33% of white females and 16% of black
females.
 Is the male or funnel-shaped pelvis with a contracted outlet.
3- The anthropoid type
 Present in about 24% of white females and 41% of black
females.
 Is long, narrow, and oval shaped.
4- The platypelloid type
 Present in only about 2% of women 11
 Fig. Types of pelvis

Note
 Android and
anthropid type are
common in male
 Android and
gynecoid type are
common in white
female
 Gynecoid and
anthropoid type
are common in
black female
 Platepelloid is
uncommon in 12
 Joints and Ligaments of Pelvic Girdle
1- SACROILIAC JOINTS
 Are synovial joints b/n
 The L-shaped articular facets on the lateral surfaces of the
sacrum
 Similar facets on the iliac parts of the pelvic bones.
 Is stabilized by three ligaments:
1- The anterior sacro-iliac ligament.
2- The interosseous sacro-iliac ligament.
3- The posterior sacro-iliac ligament.

13
Fig. Sacroiliac joint
 2- PUBIC SYMPHYSIS
 It is a joint b/n adjacent
surfaces of the pubic
bones.
 Its Two major ligaments
:
 Superior pubic ligament
 Inferior pubic ligament.

14
 3- LUMBOSACRAL JOINTS
 The lumbosacral joints are
formed between vertebra LV
and the sacrum and consist of:

1-Two zygapophysial (facet
joints) joint
 It Is b/n adjacent inferior and
superior articular processes L5
and S1.
2- An intervertebral joint
 it is formed b/n the bodies of
vertebrae LV and SI disc.
Ligament
 Iliolumbar ligaments
 lumbosacral ligaments 15
 4- Sacrococcygeal joint
 It is a Joint b/n the apex of
the sacrum and the base of
the coccyx.
Ligament
 Anterior sacrococcygeal
ligaments
 Posterior sacrococcygeal
ligaments.

16
 Clinical anatomy
Pelvic Diameters (Conjugates)
 To determine capacity of female pelvis for childbearing,
diameters of lesser pelvis are noted radiographically or
manually during a pelvic examination (PE).
 The true (obstetrical) conjugate
 The minimum anteroposterior (AP) diameter of the lesser
pelvis
 It is from the middle of sacral promontory to posterosuperior
margin of SP.
 It is the narrowest fixed distance through which baby's head
must pass in a vaginal delivery.
 It cannot be measured directly during a (PE) b/se of presence
of the bladder.

17
 Clinical anatomy
The diagonal conjugate
 It can be measured directly during a PE and help to estimate
true conjugate.
 It is measured by palpating sacral promontory with tip of
middle finger, using other hand to mark level of inferior
margin of the SP on the examining hand.
 After the examining hand is withdrawn, the distance b/n the tip
of the index finger and the marked level of the SP is measured
to estimate the true conjugate, which should be 11.0 cm or
greater.

18
 Clinical anatomy
The interspinous distance
 It is the narrowest part of the pelvic canal through which a
baby's head must pass at birth but it is not a fixed distance.
During a pelvic examination
 if the ischial tuberosities are far enough apart to permit three
fingers to enter the vagina side by side,
 the subpubic angle is considered sufficiently wide to permit
passage of an average fetal head at full term.

19
 Pelvic Fractures
 Weak areas of
the pelvis, where
fractures often
occur, are the:
 pubic rami,
 acetabula,
 region of the
SIJ
 alae of the
ilium.
 Pelvic fractures
may
cause injury to
 pelvic soft
tissues, 20
 PELVIC CAVITY
 It is the funnel-shaped.
 It is the inferoposterior part of the abdominopelvic cavity.
 It is continuous with the abdominal cavity at the pelvic inlet.
 It Contains:
 the terminal parts of the ureters, the urinary bladder,
rectum, pelvic genital organs, blood vessels, lymphatics, and
nerves.
 it also contains loops of small intestine (mainly ileum) and
large intestine (appendix and transverse and/or sigmoid
colon).
 It is limited inferiorly by the musculofascial pelvic diaphragm.
 It is bounded posteriorly by the coccyx and inferiormost
sacrum
 The bodies of the pubic bones, and the pubic symphysis form
21
an anteroinferior wall
FIGURE. Thoracic and
abdominopelvic cavities.

22
 PELVIC CAVITY
Walls and Floor of Pelvic Cavity
The pelvic cavity has:
 an anteroinferior wall
 two lateral walls
 a posterior wall.
 pelvic floor
The anteroinferior pelvic wall:
 Is formed primarily by the bodies and rami of pubic bones and
pubic symphysis.
 It Participates in bearing the weight of the urinary bladder.
The lateral pelvic walls:
 Are formed by the right and left hip bones
 Covered by the fleshy attachments of the obturator internus
muscles 23
 PELVIC CAVITY
POSTERIOR WALL (POSTEROLATERAL WALL AND ROOF)
 In the anatomical position, the posterior pelvic wall consists
of
 a bony wall and roof in the midline (formed by the sacrum
and coccyx)
 musculoligamentous posterolateral walls, formed by the
ligaments associated with the sacroiliac joints and
piriformis muscles.
ligaments include the anterior sacroiliac, sacrospinous,
and sacrotuberous ligaments.

24
 PELVIC CAVITY
Pelvic floor
 Is formed by the funnel-shaped pelvic diaphragm, which
consists of:
 The levator ani and coccygeus muscles
 Fascias covering the superior and inferior aspects of these
muscles.
 The pelvic diaphragm stretches between the anterior, the
lateral, and the posterior walls of the lesser pelvis.
 An anterior gap between the medial borders of the levator
ani muscles of each side (urogenital hiatus) gives
passage to the urethra and, in females, the vagina

25
 Muscles of pelvic walls and floor
Lateral wall contain Obturator internus
 Proximal Attachment=Pelvic surfaces of ilium and ischium;
obturator membrane
 Distal Attachment=Greater trochanter of femur
 Innervation = Nerve to obturator internus (L5, S1, S2)
 Main Action = Rotates thigh laterally; assists in holding head
of femur in acetabulum.

26
 Muscles of pelvic walls and floor
Posterolateral wall contain Piriformis
 Proximal Attachment
 Pelvic surface of S2-S4 segments; superior margin of greater
sciatic notch and sacrotuberous ligament
 Distal Attachment=Greater trochanter of femur
 Innervation – Anterior rami of S1 and S2
 Main Action - Rotates thigh laterally; abducts thigh; assists in
holding head of femur in acetabulum

27
 Muscles of pelvic walls and floor
Floor contains pelvic diaphragm composed of :
1. Coccygeus (ischiococcygeus)
 Proximal Attachment=Ischial spine
 Distal Attachment= Inferior end of sacrum and coccyx
 Innervation – Branches of S4 and S5 spinal nerves
 Action - Forms small part of pelvic diaphragm that supports
pelvic viscera; flexes coccyx.

28
 Muscles of pelvic walls and floor
2. Levator ani (puborectalis, pubococcygeus, and
iliococcygeus)
Proximal Attachment=Body of pubis; tendinous arch of
obturator fascia; ischial spine
Distal Attachment=Perineal body; coccyx; anococcygeal
ligament; walls of prostate or vagina, rectum, and anal canal
Innervation – Nerve to levator ani (branches of S4), inferior
anal (rectal) nerve, and coccygeal plexus
Action - Forms most of pelvic diaphragm that helps support
pelvic viscera and resists increases in intra-abdominal
pressure to assist in maintaining urinary and fecal continence

29
 Fig. Muscles of Floor and walls of pelvis.

GURE. Puborectalis muscle.

30
 Injury to Pelvic Floor
 Weakening of the levator ani and pelvic fascia from stretching or
tearing during childbirth.
 May decrease support for the vagina, bladder, uterus, or rectum, or
alter the position of the neck of the bladder and the urethra.
 These changes may cause:
 Urinary stress incontinence= Characterized by dribbling of urine
when intra- abdomenal pressure is raised during coughing and lifting.
 Lead to the prolapse of one or more pelvic organs. e.g.
Cystocele.

31
 NEUROVASCULAR STRUCTURES OF PELVIS
Pelvic Arteries
 Six main arteries enter the lesser pelvis of females:
 The paired internal iliac and ovarian arteries
 The unpaired median sacral and superior rectal arteries.
 Four main arteries enter the lesser pelvis of males.
 The paired internal iliac.
 The unpaired median sacral and superior rectal arteries
Internal iliac artery (IIA)
 Is the principal artery of the pelvis.
 Supplies most of the blood to pelvic viscera and some to
musculoskeletal part of pelvis.
 It also supplies branches to the gluteal region, medial thigh regions, and
the perineum.
 It arises from the common iliac artery at the level of the IV disc b/n the
L5 and S1.
 It divide into anterior and posterior divisions (trunks) at the32 superior
edge of the greater sciatic foramen.
 Pelvic Arteries
Anterior division of Internal Iliac Artery (IIA)
 The branches of the anterior division of the IIA are:
1- Umbilical Artery
 Conduct deoxygenated blood to the placenta
 Runs a short pelvic course, gives off superior vesical arteries, then
obliterates, becoming medial umbilical ligament
 Distributed to Superior aspect of urinary bladder and, in some males,
ductus deferens (via superior vesical arteries and artery to ductus
deferens).
2- Obturator Artery
 It Runs anteroinferiorly on obturator fascia of lateral pelvic wall, exiting
pelvis via obturator canal
 Within the pelvis, the obturator artery gives off muscular branches, a
nutrient artery to the ilium, and a pubic branch.
 It supplies Pelvic muscles, nutrient artery to ilium, head of femur, and
muscles of medial compartment of thigh
 Form Anastomosis with Inferior epigastric (via pubic branch); umbilical 33
 Pelvic Arteries
3- Inferior Vesical Artery
 Occurs only in males and replaced by the vaginal artery in females.
 It Passes subperitoneally in lateral ligament of bladder, giving rise to
prostatic artery and occasionally the artery to the ductus deferens
 It is distributed to Inferior aspect of male urinary bladder, pelvic part of
ureter; prostate, and seminal glands; occasionally ductus deferens
 Forms Anastomosis with Superior vesical artery.
4- Vaginal Artery
 Is the homolog to the inferior vesical artery in males.
 It Divides into vaginal and inferior vesical branches
 Distribution:
 Vaginal branch: lower vagina, vestibular bulb, and adjacent rectum;
 inferior vesical branch: fundus of urinary bladder
 Forms Anastomosis with Vaginal branch of uterine artery, superior
vesical artery
34
 Pelvic Arteries
5- Uterine Artery
 It usually arising separately and directly from the internal iliac artery
 It descends on the lateral wall of the pelvis, anterior to the internal iliac
artery, and passes medially to reach the junction of the uterus and
vagina.
 As it passes medially, the uterine artery passes directly superior to the
ureter.
 On reaching the side of the cervix, the uterine artery divides into
A- Descending vaginal branch- Supplies the cervix and vagina
B- Ascending branch
 Bifurcates into ovarian and tubal branches.
 anastomose with the ovarian and tubal branches of the ovarian artery.

35
 Pelvic Arteries
6- Middle Rectal Artery
 It may arise independently from the internal iliac artery, or it may arise
in common with the inferior vesical artery or the internal pudendal
artery.
 It Descends in pelvis to inferior part of rectum
 Distribution: Inferior part of rectum, seminal glands, prostate (vagina)
 Forms Anastomosis with Superior and inferior rectal arteries
7- Internal Pudendal Artery
 It gives the artery that supply the perineal structure
 It Exits pelvis via greater sciatic foramen, enters perineum (ischioanal
fossa) via lesser sciatic foramen, passes via pudendal canal to UG
triangle
 Distribution: Main artery of perineum, including muscles and skin of anal
and urogenital triangles, erectible bodies.
 Forms Anostomosis: with (Umbilical artery; prostatic branches of inferior
vesical artery in males) 36
 Pelvic Arteries
8- Inferior Gluteal Artery
 Is the larger terminal branch of anterior division of the IIA.
 It Exits pelvis via greater sciatic foramen
 It supplies the muscles and skin of the buttock and the posterior surface
of the thigh.
 Forms Anastomosis with Deep femoral artery (via medial and lateral
circumflex femoral arteries).
Posterior Division of Internal Iliac Artery. gives rise to
1- Iliolumbar artery:
 Iliac branch - supplies the iliacus muscle and ilium
 A lumbar branch - supplies the psoas major and quadratus lumborum
muscles.
 Forms anastomosis with Circumflex iliac artery and 4th (and lowest)
lumbar artery
2- Lateral sacral (superior and inferior) arteries:
 Its spinal branches supply the spinal meninges. 37
 Some its branches supply erector spinae muscles of back and skin
 Pelvic Arteries
3- Superior gluteal artery:
 The largest branch of the posterior division.
 Supplies the Piriformis, 3 gluteal muscles and tensor fasciae latae.
OVARIAN ARTERY
 It crosses pelvic brim, descends in suspensory ligament of ovary
 Arises from the abdominal aorta.
 It has: an ovarian branch and a tubal branch, which supply the ovary
and uterine tube, respectively.
 It also supply Abdominal and/or pelvic ureter
 Forms anastomosis with Uterine artery via tubal and ovarian branches.
MEDIAN SACRAL ARTERY
 Arises from the abdominal aorta
 Descends close to midline over L4 and L5 vertebrae, sacrum, and
coccyx
 Supply Inferior lumbar vertebrae, sacrum, and coccyx
38
 Forms anastomosis with Lateral sacral artery (via medial sacral
 Pelvic Arteries
SUPERIOR RECTAL ARTERY
 Is the direct continuation of the inferior mesenteric artery.
 It Crosses left common iliac vessels and descends into pelvis between
layers of sigmoid mesocolon
 It Supply superior part of rectum
 It forms anastomosis with Middle rectal artery; inferior rectal (internal
pudendal) artery.

39
 Fig-
Arteries
of pelvis

40
 Pelvic Veins
 Various plexuses within the lesser pelvis (rectal, vesical, prostatic,
uterine, and vaginal) unite and are drained mainly by tributaries of the
internal iliac veins.
The internal iliac veins
 Form superior to the greater sciatic foramen
 It merge with the external iliac veins to form the common iliac veins
(CIVs).
 The CIVs at the level of vertebra L4 or L5 to form the IVC.
The superior rectal vein
 drains into the inferior mesenteric vein of the hepatic portal system.
The lateral sacral veins
 They anastomose with the internal vertebral venous plexus, providing
an alternate collateral pathway to reach either the inferior or superior
vena cava.
 It may also provide a pathway for metastasis of prostatic or ovarian
cancer to vertebral or cranial sites. 41
 Pelvic Veins
The iliolumbar veins
 from the iliac fossae of the greater pelvis usually drain into the
common iliac veins instead.
The median sacral veins
 coalesce to form a single vein that joins either the left common iliac
vein or the junction of the two common iliac veins to form the inferior
vena cava.
The ovarian veins or testicular veins
 follow the course of the corresponding arteries;
 on the left, they join the left renal vein
 on the right, they join the inferior vena cava in the abdomen.

42
FIGURE-
Pelvic
veins.

43
 Lymph Nodes of Pelvis
1- External iliac lymph nodes:
 Lie above the pelvic brim, along the external iliac vessels.
 They receive lymph:
 Mainly from the inguinal lymph nodes.
 They also receive lymph from pelvic viscera
 Drain into the common iliac nodes.
2- Internal iliac lymph nodes:
 Clustered around the anterior and posterior divisions of the internal
iliac artery and the origins of the gluteal arteries.
 They receive drainage from
 Inferior pelvic viscera, deep perineum, and gluteal region.
 Drain into the common iliac nodes.
3- Sacral lymph nodes:
 Lie in the concavity of the sacrum
 They receive lymph from posteroinferior pelvic viscera
 Drain either to internal or common iliac nodes. 44
 Lymph Nodes of Pelvis
4- Common iliac lymph nodes:
 Lie superior to the pelvis, along the common iliac blood vessels.
 Receive drainage from the three main groups listed above.
 These nodes begin a common route for drainage from the pelvis that
passes next to the lumbar (caval/aortic) nodes.

Fig. Lymph Nodes of Pelvis 45
 Pelvic Nerves
 The pelvis is innervated mainly by
 the sacral and coccygeal spinal nerves
 the pelvic part of the autonomic nervous system.
 Obturator nerve
 Arises from the anterior rami of spinal nerves L2-L4 in the
abdomen (greater pelvis) and enters the lesser pelvis.
 It Leave the pelvis through obturator canal.
 Supply the medial thigh muscles.
 No pelvic structures are supplied by the obturator nerve.
Lumbosacral trunk
 Is formed when the descending part of the L4 nerve unites
with the anterior ramus of L5 nerve at or immediately
superior to the pelvic brim.
 The trunk passes inferiorly, on the anterior surface of
46 the ala
of the sacrum, and joins the sacral plexus.
 Pelvic Nerves
Sacral plexus
 Is located on the posterolateral wall of the lesser pelvis.
 Most of its branches pass through the greater sciatic foramen.
 Some of examples of nerves arising from sacral plexus:
 The sciatic nerve is the largest nerve in the body. It is formed as the large
anterior rami of spinal nerves L4-S3
 The pudendal nerve is the main nerve of the perineum and the chief
sensory nerve of the external genitalia. S2 to S4
 The superior gluteal nerve from L4 to S1
 The inferior gluteal nerve from L5 to S2

FIGURE Somatic nerves of
pelvis—the sacral plexus.

47
 Pelvic Nerves
Coccygeal plexus
 Is a small network of nerve fibers formed by the anterior rami of
S4 and S5 and the coccygeal nerves.
 It supplies part of levator ani, and the sacrococcygeal joint.
 The anococcygeal nerves from S4 to Co
 Arises from coccygeal plexus and pierce coccygeus and
anococcygeal ligament
 Supply a small area of skin b/n tip of coccyx and the anus.

48
FIG. Nerves and nerve plexuses of pelvis.

49
 Pelvic autonomic nerves
 Autonomic nerves enter the pelvic cavity via four routes:
1-Sacral sympathetic trunks:
 Provide sympathetic innervation to the lower limbs.
2- Periarterial plexuses:
 Postsynaptic, sympathetic, vasomotor fibers to superior
rectal, ovarian, and internal iliac arteries and their derivative
branches.
3- Hypogastric plexuses:
 Most important route by which sympathetic fibers are
conveyed to the pelvic viscera.
4- Pelvic splanchnic nerves:
 Are pathway for parasympathetic innervation of pelvic viscera
and descending and sigmoid colon.

50
 The sacral sympathetic trunks
 Are the inferior continuation of the lumbar sympathetic trunks.
 Each of the sacral trunks usually has four sympathetic ganglia.
 The sacral trunks descend on the pelvic surface of the sacrum and
converge to form the small median ganglion impar (coccygeal
ganglion) anterior to the coccyx.
 It descend posterior to the rectum in the extraperitoneal connective
tissue and send communicating branches (gray rami
communicantes) to each of the anterior rami of the sacral and
coccygeal nerves.
 They also send small branches to the median sacral artery and the
inferior hypogastric plexus.
 The primary function of the sacral sympathetic trunks is
 to provide postsynaptic fibers to the sacral plexus for
sympathetic innervation of the lower limb.
The periarterial plexuses of the ovarian, superior rectal, and
internal iliac arteries
 Are minor routes by which sympathetic fibers enter the pelvis. 51
 The hypogastric plexuses (superior and
inferior)
 Are networks of sympathetic and visceral afferent nerve
fibers.
 The superior hypogastric plexus
 Its main part is a prolongation of the intermesenteric
plexus, which lies inferior to the bifurcation of the aorta.
 It carries fibers conveyed to and from the intermesenteric
plexus by the L3 and L4 splanchnic nerves.
 It enters the pelvis, dividing into right and left hypogastric
nerves, which descend on the anterior surface of the
sacrum.
 These nerves descend lateral to the rectum within
hypogastric sheaths
 It merge with the pelvic splanchnic nerves to form the
right and left inferior hypogastric plexuses.
52
 The hypogastric plexuses (superior
and inferior)
 The inferior hypogastric plexuses
 contain both sympathetic and parasympathetic fibers as well as
visceral afferent fibers, which continue to the pelvic viscera
Here they form sub-plexuses collectively referred to as the pelvic
plexuses.
 In both sexes, sub-plexuses are associated with the lateral aspects
of the rectum and inferolateral surfaces of the bladder.
 In the male sub-plexuses are also associated with the prostate and
seminal glands.
 In females, sub-plexuses are also associated with the cervix of the
uterus and the lateral fornices of the vagina.

53
 Pelvic splanchnic nerves
 Arise in the pelvis from the anterior rami of spinal nerves S2-S4 of
the sacral plexus.
 They convey presynaptic parasympathetic fibers derived from the
S2-S4 spinal cord segments and visceral afferent fibers from cell
bodies in the spinal ganglia of the corresponding spinal nerves.
 The greatest contribution of these fibers is usually from the S3
nerve.
 the sympathetic component
 produces vasomotion
 inhibits peristaltic contraction of the rectum and
 The parasympathetic fibers distributed within the pelvis
 stimulate contraction of the rectum and bladder for defecation
and urination, respectively.
 Parasympathetic fibers in the prostatic plexus penetrate the
pelvic floor to reach the erectile bodies of the external genitalia,
producing erection.
54
FIGURE-Autonomic nerves of pelvis.

55
 PELVIC VISCERA
The pelvic viscera include the
1- Distal parts of the urinary system
- Pelvic part of ureter
- bladder
- Pelvic part of urethra
2- Reproductive system.
- Female internal genital organs
- Male internal genital organs
3- Digestive tract
- rectum
 The pelvic urinary

organs 57
 The pelvic urinary organs
The pelvic urinary
organs are the:
Pelvic portions of the
ureters, which carry
urine from the kidneys.
Urinary bladder, which
temporarily stores
urine.
Urethra, which
conducts urine from
the bladder to the
exterior

58
 Ureters
 Are muscular tubes, 25-30 cm long
 Connect the kidneys to the urinary bladder.
 Are retroperitoneal.
 The ureter enters the lessor pelvis by crossing the bifurcation of

the common iliac artery or the beginning of the EIA.
 The pelvic parts of the ureters:
 run on the lateral walls of the pelvis
 parallel to the anterior margin of the greater sciatic notch.
 B/n the parietal pelvic peritoneum and the IIAs.
 Ureter curve anteromedially, superior to the levator ani,
and enter the urinary bladder opposite the ischial spine.

59
 Ureters
 The inferior ends of the ureters are surrounded by the vesical venous
plexus.
 The ureters pass obliquely through the muscular wall of the urinary
bladder in an inferomedial direction, entering the outer surface of the
bladder ~ 5 cm apart.
 Their internal openings into the lumen of the empty bladder are
separated by ~ 2.5cm
 The oblique passage ureters in to wall of bladder provides a valve like
action, which prevents a reverse flow of urine toward the kidneys as
the bladder fills.
 Urine is transported down the ureters by means of peristaltic
contractions
 In females
 the ureters passes medial to origin of uterine artery and continues
to the level of the ischial spine, where it is crossed superiorly by
uterine artery.
60
 It then passes close to the lateral part of the fornix of the vagina
 Ureters
 In males
 the only structure that passes between the ureter and the
peritoneum is the ductus deferens. It crosses the ureter within the
ureteric fold of peritoneum.
 It enters the posterosuperior angle of the bladder, just superior to
the seminal gland.

FIGURE- Right half of the pelvis
61
showing relations of the ureter and
vas deferens.
 Ureters
 In the pelvis, the ureter is crossed by:
 the ductus deferens in men
 the uterine artery in women
Constrictions
 The ureter possesses three constrictions:
 where the renal pelvis joins the ureter in the abdomen
 where it crosses the pelvic brim to enter the pelvis
 where it pierces the bladder wall.

62
 Clinical anatomy
Ureteric Calculi

63
 Ureters
The arterial supply
 Ureteric branches extending from
the common iliac, internal iliac and
ovarian arteries.
 The terminal parts of the ureter
 in females are supplied by branches
of the uterine arteries.
 in male are supplied by: the inferior
vesical arteries.
The venous drainage
 Parallels the arterial supply,
draining to veins with
corresponding names.
Lymphatic vessels
 pass primarily to common and
internal iliac nodes. 64
 Ureters
Innervation of Ureters.
 The nerves to the ureters derive from adjacent autonomic plexuses
(renal, aortic, superior and inferior hypogastric).
 The ureters are primarily superior to the pelvic pain line.
 Afferent (pain) fibers from the ureters follow sympathetic fibers in a
retrograde direction to reach the spinal ganglia and spinal cord
segments of T11-L1 or L2
 Ureteric pain is usually referred to the ipsilateral lower quadrant of
the abdomen, especially to the groin (inguinal region).

65
Fig. Innervation of ureters.
 Urinary bladder
 Is a hollow viscus with strong muscular walls.
 Is characterized by its distensibility.
 Is a temporary reservoir for urine.
 Varies in size, shape, position, and relationships according to its
content and the state of neighboring viscera.
 When empty, the adult urinary bladder :
 It is located in the lesser pelvis, lying partially superior to and
partially posterior to the pubic bones.
 It is separated from pubic bones by the potential retropubic
space (of Retzius)
 It lies mostly inferior to the peritoneum, resting on the
 pubic bones and pubic symphysis anteriorly
 prostate (males) or anterior wall of the vagina posteriorly.
 The bladder is relatively free within the extraperitoneal 66
 Urinary bladder
 In females
 The posterior aspect of the bladder rests directly upon the
anterior wall of the vagina
 Paracolpium is the tendinous arch of the pelvic fascia to
which lateral part of vagina attaches on.
It provides an indirect but important factor in supporting
the urinary bladder.

67
 Urinary bladder
 In infants and young children
 The urinary bladder is in the abdomen even when empty.
 By 6 years of age
 The bladder usually enters the greater pelvis
 It is not located entirely within the lesser pelvis until after puberty.
An empty bladder in adults
 It lies almost entirely in the lesser pelvis, its superior surface level
with the superior margin of the pubic symphysis.
When the bladder fills
 It enters the greater pelvis.
 In some individuals
 a full bladder may ascend to the level of the umbilicus.

Fig. The bladder of an infant lies almost
68
entirely in the abdominal cavity
FIGURE. Viscera in hemisected male and female pelvis.

69
 Urinary bladder
The bladder has four surfaces:
 Superior, two inferolateral and posterior surfaces.
When empty, the bladder is somewhat tetrahedral and
externally has:
 An apex, body, fundus, and neck.
The apex of the bladder
 Points toward the superior edge of the symphysis pubis when the
bladder is empty.
 the median umbilical ligament continues from it superiorly up
the anterior abdominal wall to the umbilicus.
The fundus of the bladder
 Is opposite the apex, formed by the somewhat convex posterior
wall.
The body of the bladder
 Is the major portion of the bladder b/n apex and fundus.
The fundus and inferolateral surfaces 70
 Urinary bladder
The neck of the bladder
 It surrounds the origin of the urethra at the point where the two
inferolateral surfaces and the base intersect.
 The neck is the most inferior part of the bladder and also the most
'fixed' part.
 lies inferiorly and rests on the upper surface of the prostate.
 It is held in position by ligaments that are thickenings of the pelvic
fascia. These are:
 Puboprostatic ligaments in the male.
It is paired fibromuscular bands which blend with the fibrous
capsule of the prostate, which surrounds the neck of the bladder
and adjacent part of the urethra.
 Pubovesical ligaments in the female.
It is a pair of tough fibromuscular bands, which connect the neck
and pelvic part of the urethra to the posteroinferior aspect of each
pubic bone:
It help support the bladder together with the perineal membrane 71
 Urinary bladder
 Only the superior surface is covered by peritoneum.
 In males the fundus is separated from the rectum
 centrally by only the fascial rectovesical septum
 laterally by the seminal glands and ampullae of the
ductus deferentes.
 In females
 the fundus is directly related to the superior anterior wall
of the vagina.

72
 Urinary bladder
 The walls of the bladder
 Are composed chiefly of the detrusor muscle.
 Toward the neck of the male bladder, the muscle fibers form the
involuntary internal urethral sphincter.
 This sphincter contracts during ejaculation to prevent retrograde
ejaculation of semen into the bladder.
 In males, the muscle fibers in the neck of the bladder are
continuous with the fibromuscular tissue of the prostate
 In females these fibers are continuous with muscle fibers in the
wall of urethra.

73
 Urinary bladder
The trigone of the bladder
 The mucous membrane of the greater part of the empty bladder is
thrown into folds that disappear when the bladder is full.
 The area of m/m covering internal surface of the base of the bladder is
called the trigone.
 It is Formed:
 superiorly by The right and left ureteric orifices
 inferiorly by internal urethral orifice
The ureteric orifices are encircled by loops of detrusor musculature
that tighten when the bladder contracts to assist in preventing reflux
of urine into the ureter.
 The uvula of the bladder
 It is a slight elevation of the trigone.
 It is usually more prominent in older men owing
to enlargement of the posterior lobe of the prostate.
74
Fig. Urinary
bladder and
prostatic
urethra

75
 Clinical anatomy
Cystocele—Hernia of Bladder
 Loss of bladder support in females by damage to the pelvic floor
during childbirth
 laceration of perineal muscles or a lesion of the nerves supplying
them
 rupture of the fascial support of the vagina, the paracolpium
 can result in collapse of the bladder onto the anterior vaginal wall.

76
 Suprapubic Cystotomy
 Surgical approach to the pubic symphysis for the
introduction of in-dwelling catheters or instruments without
traversing the peritoneum and entering the peritoneal
cavity.

77
 Urinary bladder
 The main arteries supplying the bladder are
branches of the IIA
 The superior vesical arteries
 Supply anterosuperior parts of the bladder.
 In males, the inferior vesical arteries
 Supply the fundus and neck of the bladder.
 In females, the vaginal arteries
 Replace the inferior vesical arteries and send small
branches to posteroinferior parts of the bladder.
 The obturator and inferior gluteal arteries
 Also supply small branches to the bladder.

78
 Urinary bladder
The veins draining blood from the bladder
 The veins form the vesical venous plexus which drains into the internal
iliac vein.
 In males, the vesical venous plexus
 It is continuous with prostatic venous plexus and combined plexus
complex envelops
the fundus of the bladder and prostate, the seminal glands, the
ductus deferentes, and the inferior ends of the ureters.
 It also receives blood from the deep dorsal vein of the penis, which
drains into the prostatic venous plexus.
 It mainly drains through the inferior vesical veins into the internal
iliac veins
 It may drain through the sacral veins into the internal vertebral
venous plexuses.
 In females, the vesical venous plexus
 Envelops the pelvic part of the urethra and the neck of the bladder
 Receives blood from the dorsal vein of the clitoris, 79 and
 Urinary bladder
Lymph Drainage- Internal and external iliac nodes.
Innervation of Bladder
Parasympathetic fibers
 Arise as the pelvic splanchnic nerves from the second, third, and
fourth sacral nerves.
 They pass through the inferior hypogastric plexuses to reach the
bladder wall.
 Stimulate contraction of the detrusor muscle of the bladder wall.
 Inhibit the action of the internal urethral sphincter.
Sympathetic fibers
 Are conveyed from inferior thoracic and upper lumbar spinal cord
(T11-L2 or L3 spinal cord levels) levels to the vesical (pelvic) plexuses
primarily through the hypogastric plexuses and nerves.
 Inhibit contraction of the detrusor muscle of the bladder wall.
 Stimulate closure of the internal urethral sphincter to prevent reflux
of semen into the bladder. 80
 Urinary bladder
Visceral afferent fibers
 Conveying reflex information and pain sensation from subperitoneal
viscera (inferior to pelvic pain line) follow parasympathetic fibers
retrogradely to the S2-S4 spinal ganglia
 Those conducting pain from the bladder roof (superior to the pelvic
pain line) follow sympathetic fibers retrogradely to the T11-L2 or L3
spinal ganglia.

FIG -Innervation of bladder
and urethra
81
 PROXIMAL (PELVIC) MALE URETHRA
 The male urethra is a muscular tube (18-22 cm long).
 It conveys urine from the internal urethral orifice of the
urinary bladder to the external urethral orifice
 It also provides an exit for semen (sperms and glandular
secretions).
 For descriptive purposes, the urethra is divided into four
parts
 Intramural (preprostatic) part
 Prostatic urethra
 Intermediate (membranous) part
 Spongy urethra
 The pelvic male urethra includes
 Intramural (preprostatic) part
 The preprostatic part of the urethra
 it is about 0.5- 1 cm long
 It extends from the base of the bladder to the prostate
 It is surrounded by internal urethral sphincter
 It is a circular cuff of smooth muscle fibers
 Its contraction prevents retrograde movement of semen
into the bladder during ejaculation.
 The prostatic part of the urethra
 It is 3 to 4 cm long
 It is surrounded by the prostate.
 It is a part of urethra where the connection between the
urinary and reproductive tracts in men occurs
 The urethral crest
 a longitudinal midline fold of mucosa in this region.
 The prostatic sinus
 The depression on each side of the urethral crest
 the ducts of the prostate empty into these two sinuses
 The seminal colliculus
 a circular elevation formed along Midway the urethral
crest
 In men, it is used to determine the position of the
prostate gland during transurethral transection of the
 The prostatic part of the urethra
 The prostatic utricle
 A small blind-ended pouch that opens onto the center of
the seminal colliculus.
 On each side of the prostatic utricle is the opening of the
ejaculatory duct.
 Arterial Supply and Venous Drainage of
Proximal Male Urethra.
Arterial supply to the proximal parts of the urethra
 by prostatic branches of the inferior vesical and
middle rectal arteries.
 Arterial Supply and Venous Drainage of
Proximal Male Urethra.

The veins from the proximal two parts of the
urethra
 drain into the prostatic venous plexus.
 Innervation of Proximal Male Urethra.
 The nerves are derived from the prostatic plexus (mixed
sympathetic, parasympathetic, and visceral afferent fibers).
 The prostatic plexus is one of the pelvic plexuses (an inferior
extension of the vesical plexus) arising as organ-specific
extensions of the inferior hypogastric plexus.

FIG. Innervation of bladder
and urethra.
 FEMALE URETHRA
 It is approximately 4 cm long and 6 mm in diameter.
 It passes anteroinferiorly from the internal urethral orifice
of the urinary bladder to the external urethral orifice.
 The musculature surrounding the internal urethral orifice
of the female bladder is not organized into an internal
sphincter.
 In females, the external urethral orifice is located in the
vestibule directly anterior to the vaginal orifice.
 The urethra passes with the vagina through the pelvic
diaphragm, external urethral sphincter, and perineal
membrane.
 FEMALE URETHRA
 The paraurethral glands (or Skene glands)
 Urethral glands are present, particularly in the superior part
of the urethra.
 One group of glands on each side of urethra
 These glands have a common paraurethral duct, which opens
(one on each side) near the external urethral orifice.
 The inferior half of the urethra is located in the perineum
 FEMALE URETHRA
 Blood is supplied to the female urethra by
 the internal pudendal and vaginal arteries
 The veins follow the arteries and have similar names
 FEMALE URETHRA
Innervation of Female Urethra.
 The nerves to the urethra arise from the vesical (nerve) plexus
and the pudendal nerve.
 Visceral afferents from most of the urethra run in the pelvic
splanchnic nerves, but the termination receives somatic
afferents from the pudendal nerve.
 Both the visceral and the somatic afferent fibers extend from
cell bodies in the S2-S4 spinal ganglia.