Anatomy, Abdomen and Pelvis, Pelvic Inlet


Article Author:
Marco Siccardi


Article Editor:
Cristina Valle


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Tod Aeby


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Avais Raja
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James Hughes
Beata Beatty
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Hajira Basit
Phillip Hynes
Tehmina Warsi


Updated:
1/26/2019 9:26:59 PM

Introduction

The pelvic inlet, or the upper pelvic narrow, is the anatomical limit between the true pelvis below and the false pelvis above. There are tangible, genetic and hormonal differences between the male and female pelvis related to the reproductive function.

In obstetrics, the pelvic inlet is the entrance door toward the birth canal. The fetal cephalic extremity needs to position itself and to adapt adequately to be able to compare the smaller diameter with the largest diameter of the space delimited by the anatomical line of the maternal pelvic inlet.

The shape of the inlet depends on the general shape of the pelvis, according to the traditional classification of Caldwell and Moloy [1].

The dimensions of its anteroposterior, oblique, and transverse diameters vary according to the morphological type of the pelvis. The proportions of the shape of the internal pelvic spaces correspond to the proportion of the sacral area of Michaelis.

There is radiological evidence that the intrapelvic space changes with the posture of the subject. The position taken by the subject influences the values of the transversal and anterior-posterior diameters. This evidence is extremely useful to facilitate fetal entry into the true pelvis and to favor the dilating phase of labor [2].

A method of evaluating the diameters of the endopelvic spaces and their adaptability (mobility) would be extremely useful for diagnosing the "contracted pelvis" and avoiding the consequences on the health of the mother and the newborn that protracted labor and an operative birth can involve.

Structure and Function

Bone Anatomy

The pelvic inlet involves three of the four units of which the bone pelvis is composed. The pelvic brim involves the first sacral segment, the iliac and pubis portion, leaving out the ischium.

The pelvic inlet is delineated by a bone crest that defines its limit (the pelvic brim), which later refers to the promontory of the sacrum. Continue to the right and the left in a downward direction and laterally in the direction of the iliac bone passing on the rounded edge that separates the sacral bases from the front face of the sacrum itself: the linea terminalis.

It continues sideways, climbing over the sacroiliac joints, along the iliopectineal lines in their initial portion (linea innominata, arcuate lines) of the iliac bone (also called "innominate") and continuing toward the pectineal line of the pubic bone (crests), and closing before the pubic symphysis, passing through the superior-posterior edge of the iliopubic branches and the pubic tubercle.

Looking at the internal face of the iliac bone, one can see that the arched line ends behind the anterior angle that separates the upper and lower portions of the auricular surface which is articulated with the sacrum. Tracing an imaginary line that continues posteriorly, the pelvic brim continues towards the posterior superior iliac spine after passing through the inferior iliac tuberosity.

In this way, by analogy, the pubic tubercle and the pubic symphysis space are the anterior junction bridge of the two half parts of the pelvic inlet, while the superior posterior iliac spine (SIPS) and the space between the iliac (sacroiliac joints, and anterior and posterior ligaments) are the extremes of the posterior bridge.

Visceral Structures

The upper pelvic narrow is crossed by the sigma with the root of the mesosigma (which is at the level of the left sacroiliac joint), the ureter and the vas deferens. Sometimes even the cecum and the appendix descend into the pelvis from the right iliac fossa, near the right sacroiliac joint.

The bladder dome tends to protrude beyond the upper strait when the bladder is full, along with the medial vesicoumbilical ligament (vestiges of the urachus) and the medial vesicoumbilical folds (vestiges of the umbilical arteries).

The parietal peritoneum turns out to be the deepest parietal structure that crosses the upper pelvic narrow.

Embryology

The pelvic skeleton forms via mesenchymal condensation and endochondral ossification. The first ossification center develops in the ilium in the early-fetal period. Multiple sites ossify and continue to develop after birth until adolescence.

The fetal pelvis, including subpubic angle, width, and depth of the sciatic notch, varies with gender. However, the growth of the ischium and pubis and the ischiopubic indices do not change with age. Gender differences in pelvic morphology may be recognized in fetuses at nine weeks from fertilization (or 11 weeks from the last menstrual period) after the sex chromosomes were activated  [3].

The connections and articulations of the cartilage in the pelvis are essential for pelvic ring formation in a limited period: between 54 to 60 days after fertilization, at around eight weeks embryonic period, or 10 weeks gestation.

The normal period is necessary for the initiation of effective fetal movements that may induce mechanical forces and affect normal skeletal development. Fetal movement may also explain some of the variations in pelvic shape observed later. Observations done later during the fetal period have shown that the most frequent shape of the pelvic inlet is similar between sexes: android type in 56% of the male fetuses and in 54% of the female fetuses. It seems to indicate the importance of the environmental factors in defining the pelvic shape [3].

Blood Supply and Lymphatics

The division of the iliac vessels common in the external and internal ilia occurs in front of the sacroiliac joint. The internal iliac vessels descend into the pelvis, while the external iliac vessels run along the medial belly of the psoas parallel to the upper edge of the pelvic brim. Also, the internal obturator vessels do the same on its lower edge.

The structure that most closely runs along the pelvic edge of the pelvic brim seems to be the residual of the umbilical artery located above the obstructive vascular-nervous bundle in contact with the osseous-ligamentous plane of the pelvic inlet.

The middle sacral artery originates from the abdominal aorta in the angle formed by the emergence of the common iliac arteries, passes over the sacral promontory to descend to the coccyx.

The retropubic branch of the epigastric artery (a branch of the external iliac artery) bypasses the pelvic brim in its anterior hemicycle.

The same happens for the ovarian vessels (but not the testicular ones that enter the inguinal canal from the internal orifice) and for the round ligament of the uterus with its vessels.

Nerves

The obturator nerve must cross the upper pelvic narrow, as well as the fourth and fifth lumbar roots of the lumbosacral plexus.

The lateral-vertebral chain of the orthosympathetic system passes anterior to the sacral bases.

The upper hypogastric plexus runs first anteriorly to the abdominal aorta and then in front of the sacral promontory to descend and mix its fibers with the inferior endopelvic hypogastric plexus.

Muscles

Few myofascial structures insert on the bony edge of the pelvic inlet, while it is bypassed by many vascular, nervous, and visceral structures, which may be interested in compressive factors while the fetal head is about to engage inside the pelvis in the last week of gestation.

Muscle Structures

On the edge of the pelvis (the pelvic brim), the lower portion of the iliopsoas muscle is inserted posteriorly, straddling the sacroiliac joint, before the muscular stomach moves forward toward the pubis, sliding parallel to the pelvic brim with its medial border. Covered by the band that below continues, after passing the arched line, on the upper insertion of the obturator internus muscle.

The pectineus muscle originates anteriorly with respect to the pubopectineal crest of the upper pelvic narrow.

The psoas minor muscle, not constant, can take insertion directly on the pectineal line and its ligament [4].

Ligaments and Bands

The anterior longitudinal ligament, which runs anteriorly along the entire length of the vertebral column, continues with the sacral periosteum at the level of the promontory.

A small bundle of the anterior iliolumbar ligaments, which is part of the fibrous capsule of the sacroiliac joint, has a curvilinear downward course that is inserted anteriorly on the arched line [5].

The inguinal ligament has its main anteroinferior insertion on the pubic tubercle and continues with the lacunar ligament which sees as its robust thickening the iliopectineal ligament, which is found right on the continuation of the innominate line of the ilium.

The inguinal ligament is the continuation of the abdominal transverse muscle fascia, which originates posteriorly from the lumbar region as a continuation of the thoracolumbar fascia. The iliolumbar ligaments are thickening and continuation of the thoracolumbar fascia on the anterior side of the lateral aspect of the spine.

Physiologic Variants

Morphology of the Pelvic Inlet

The general shape of the pelvis was defined in a historical publication of the 1930s by Caldwell and Moloy. The shape of the circumference of the pelvic narrow. The internal space of the pelvis depends on the overall shape of the pelvis itself.

The shape of the female pelvis has been divided into four classes by Caldwell and Moloy who report the following proportions on a population of 147 cases: gynoid, 41.4%; android, 32.5%; anthropoid, 23.5%, and platypelloid, 2.6%. Each has peculiar characteristics regarding the width of the sub-pubic angle, the height of the pelvis, the transverse diameters of the three pelvic planes (inlet, midpelvis, outlet), and the shape of the circumference of the upper pelvic narrow [1].

The inlet of the gynoid pelvis appears to be ovoid, with a transverse diameter just greater than the anterior-posterior diameter. The android pelvis has a heart shape, with the greatest width of the transverse diameter moved towards the sacrum. The obstetric conjugate of the anthropoid pelvis is much greater than the transverse diameter. In the platypellic pelvis, the inlet is wide and very narrow.

The shape depends on both genetic factors and environmental factors such as nutrition and lifestyle. Food deficits or infectious diseases lead to pelvic deformations which fortunately are now part of the past. Severe forms of adolescent scoliosis can affect the pelvic morphology, as well as congenital hip dislocation, and probably also fetal posture in utero (unpublished personal observations).

A 1996 Abitbol study correlates pelvic morphology to factors such as hormone tone, the age at which the upright and walking are achieved, and intense sports activity in adolescence [6].

The orientation of the Pelvic Inlet

The pelvic inlet has an inclination of about 55 to 60 degrees with respect to the anatomical horizontal plane. Major or minor angles mean pelvic retroversion or anteversion and posterior or anterior pelvic tilt.

The general inclination of the pelvis is maintained by the balance tension between different muscular and fascial anatomical components. The thoracolumbar fascia plays a fundamental role in the statics and dynamics of the pelvis and in its relationship with the shoulder girdle, essential for maintaining posture, walking and coordinated movements of the limbs.

According to Cottingham (1988) [7][8], the front tilt corresponds to a general orthosympathetic tone, while the posterior pelvic inclination would correspond to a relative parasympathetic tone.

The muscles that maintain the inclination are mainly those of the abdominal "box:" the anterior and lateral abdominal muscles (which contribute with their bands to the formation of the inguinal ligament), the paravertebral muscles, the psoas major and the piriformis muscles; the thoracoabdominal diaphragm and the pelvic floor. In the hamstrings muscles group, the biceps femoris muscle is mentioned for its proximal insertion on the ischial tuberosity in continuity with the sacrotuberous ligament, which is one of the main thickenings of the sacral-lumbar-thoracic fascia complex.

Clinical Significance

Pelvic External Morphology and Pelvic Inlet

The traditional external pelvimetry of Baudelocque rose from the hypothesis that the external shapes and dimensions of the pelvis corresponded to the internal ones. Current literature confirms the correlation [9].

For the pelvic inlet, one can trace and measure the oblique diameter, the transverse diameter, and the anterior-posterior or conjugated diameter. The shape of the inlet is regulated by the relative proportions between the transverse diameter and the obstetric conjugate [10].

The sacral diamond area would externally correspond to the pelvic inlet: the transversal and longitudinal diameters of Michaelis sacral area will have a specific reciprocal relationship for each type of pelvis, matching the shape of the pelvic inlet.

The transverse diameter of the sacral rhombus-shaped area of Michaelis is the distance between the two posterior superior iliac spines (PSIS) [11].

The longitudinal diameter is described between the tip of the spinous process of the fifth lumbar vertebra at the top, and the upper limit of the intergluteal groove, which corresponds to the fourth-fifth sacral segment.

The two diameters of the sacral diamond area have the same dimensions, or the longitudinal one is larger than the transverse (the opposite is uncommon), and they intersect in their middle point. It could happen that the transverse diameter, which intersects the longitudinal one at the level of the second sacral segment, will divide the latter into two unequal parts: the upper part of the longitudinal diameter shorter than the lower portion.

The dynamics of the biomechanical movement will be different depending on the pelvic morphology, for the same principle. The fascia anatomy of the sides of the sacral diamond area which regulates its shape and movement corresponds to the fascial thickenings that are the part of the sacral complex of the thoracolumbar fascia, which surrounds the sacroiliac joints both posteriorly and, from the iliolumbar ligaments, anteriorly. The biomechanical properties of the bands would have repercussions from the inside to the outside and vice-versa [5].

The shape of the posterior muscular and adipose tissues seems to correspond with the general pelvic morphology. The classification is as follows: the gynecoid pelvis corresponds to round buttocks shape, the platypelloid pelvis to a triangular shape, the anthropoid pelvis a square shape, and the android pelvis to a trapezoidal gluteal form [12].

The diameters of the sacral area were utilized in detecting cephalpelvic disproportion followed by complicated labor and dystocia, resulting a correlation between the transverse diameter and the complications during the childbirth [11][9][13][14].

Diameters of the Pelvic Inlet

The pelvic inlet is an irregular circumference; three diameters can be defined.

The anteroposterior (or "conjugate") diameter is the distance between the pubic symphysis and the sacral promontory. Three distances are:

  • The anatomical conjugate or true: Measured between the sacral promontory and the upper edge of the pubic symphysis and measures an average of 11.0 cm
  • The obstetric conjugate: Measured from the sacral promontory to the point bulging the most on the back of the symphysis pubis, located about 1 cm below its upper border. It measures 10.5 cm on average; it is the lesser anteroposterior diameter.
  • The diagonal conjugate: Measured between the sacral promontory and the lower edge of the pubic symphysis, measuring an average of 12.5.

The anterior-posterior diameter can also be evaluated with external pelvimetry using the various types of pelvic tubes. The external conjugate is measured, according to the classical explanation of Baoudeloque, from the upper edge of the pubic symphysis anteriorly to the first sacral segment posteriorly ("the depression one centimeter under the spinous process of the fifth lumbar vertebra"), its dimensions are about 20 cm [9].

The oblique diameter is the largest of the three; it is the distance between the arched line near the sacroiliac joint posteriorly and the pubopectineal line anteriorly. It is the diameter on which the fetal head is presented and named as position; it measures about 12 cm.

The transverse diameter is the distance between the two innominate lines at their widest point and measures approximately 13 cm. The entrance of the fetal head into the pelvic excavation normally takes place through a rotation from the oblique diameter to the transversal diameter.

External pelvimetry can also evaluate the transverse diameter by measuring the distance between the two upper posterior iliac spines (PSIS). The average distance between the two PSIS is about 11 cm  [9].

Other Issues

Endopelvic Biomechanical Dynamics

An interesting longitudinal study of 2016, appeared on PNAS, shows that the pelvic form in both genders is not static, but changes with age. It seems that the pelvic morphology changes every 2 decades due to a form of re-modeling, general bone reshaping [15]. For women, the pelvic form which has the largest internal diameters is the one that is present between 20 and 40 years: the age of sexual maturity and pregnancy with lower risk.

Two radiological studies in MRI have explored the possibility of evaluating the endopelvic diameters of subjects positioned in different postures: in the supine position, on the "all-fours" (supporting herself on her hands and knees) and in kneeling squats. Significant changes have been highlighted in the change of position with a decrease in the diameters of the conjugate of about 3 mm, an increase in the anteroposterior diameters of the mid-plane and of the outlet of 4 and 5 mm, while the transversal diameters show an increase about 15 mm. The study was performed on two groups of women: pregnant and not pregnant. The results were the same. The pelvic inlet showed less different than the outlet and the midpelvis: it could mean that in changing position the inlet modifies more its shape and inclination on the horizontal plane, than its transverse diameter [2][16][2].

In the clinical obstetric and osteopathic field, the evaluation of the quality of the posterior pelvic movement is proposed as a general indication of the possibility of vaginal delivery. The diameters of the sacral area are the transverse diameter that lies between the two posterior superior iliac spines (PSIS), and the longitudinal diameter stretched between the spinous apophysis of the fifth lumbar vertebra and the beginning of the intergluteal groove (the "diamond test,” taught for decades in the osteopathic practice). They should increase their amplitude when the pregnant subjects pass from the standing upright to the squat position. Depending on possible amplitude restriction of the range of motion, a joint (sacroiliac, hip or pubis) or fascial/ligamentous dysfunction could be hypothesized.

Pelvimetry and Obstetrics: Past and Present

The classical external pelvimetry, whose major representative was the French medical doctor Baudelocque JL in the 18th century, was abandoned with the advent of the technological era. It had been an attempt to explain the reasons for the delivery dystocia, without having the means to solve it.

In the first decades of the twentieth century, the radiologic exam gave a new impulse to the static pelvimetric evaluation with the possibility of directly measuring the internal diameters; however, this method was also disappointing. MRI has made measurements easier and more precise due to reproducible scans. The ability to record images in the movement has made possible to see live childbirth, in addition to being able to confirm that the change of position of the parturient modifies the internal pelvic diameters [2]. This information was intuitively known and used by the midwives for several centuries.

The evidence exposed by the radiological studies gives rational support to the research and definition of a clinical test of external pelvimetry. The present qualitative test in pelvimetry, currently suggested in obstetric and osteopathic settings, has some practical limitations like the lack of standardization of the test, the difficulty for most of the pregnant women near term gestation to come down smoothly in squats, and the lack of the reference curves and the cut-off values.

The Journal of Perinatal Medicine (2017, vol.45, issue s2, pp.308-9, DOI 10.1515/jpm-2017-3002) published a study that evaluated the dynamic range of movement (ROM) of the distance between the transverse diameter of the sacral rhomboid area of Michaelis, which corresponds to the pelvic inlet. Then, distance ROM of the PSIS was correlated to the obstetric outcome.

On a sample of 364 nulliparas, the diameter changed with the change of position. The amplitude of the measure between the SIPS shifts from the erect knee position to the "all-fours" position. It can be related to the quality of delivery: a 3-mm cutoff in the screening of the intrapartum dystocia would have a true positive rate: 0.98; a true negative rate: 0.81; false positive rate 0.18; false negative rate: 0.01.

The movement dynamics, or the range of motion, would seem to be more significant than the static size measurement assessed by the traditional external and internal pelvimetry.

Further studies are needed to confirm the experience described by a single study, but the possibility of using a patented ad hoc tool and the sensitivity of the hands of experienced operators could offer an important service for the quality of the future life of mothers and children.


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Anatomy, Abdomen and Pelvis, Pelvic Inlet - Questions

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Which of the following is a characteristic of the female pelvis?



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How many diameters of the pelvic inlet are commonly considered in the classical pelvimetry?



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Anatomy, Abdomen and Pelvis, Pelvic Inlet - References

References

SWENSON PC, Anatomical variations in the female pelvis; the Caldwell-Moloy classification. Radiology. 1947 May;     [PubMed]
Reitter A,Daviss BA,Bisits A,Schollenberger A,Vogl T,Herrmann E,Louwen F,Zangos S, Does pregnancy and/or shifting positions create more room in a woman's pelvis? American journal of obstetrics and gynecology. 2014 Dec;     [PubMed]
Okumura M,Ishikawa A,Aoyama T,Yamada S,Uwabe C,Imai H,Matsuda T,Yoneyama A,Takeda T,Takakuwa T, Cartilage formation in the pelvic skeleton during the embryonic and early-fetal period. PloS one. 2017;     [PubMed]
Siccardi MA,Valle C, Anatomy, Bony Pelvis and Lower Limb, Psoas Major 2018 Jan;     [PubMed]
Willard FH,Vleeming A,Schuenke MD,Danneels L,Schleip R, The thoracolumbar fascia: anatomy, function and clinical considerations. Journal of anatomy. 2012 Dec;     [PubMed]
Abitbol MM, The shapes of the female pelvis. Contributing factors. The Journal of reproductive medicine. 1996 Apr;     [PubMed]
Cottingham JT,Porges SW,Richmond K, Shifts in pelvic inclination angle and parasympathetic tone produced by Rolfing soft tissue manipulation. Physical therapy. 1988 Sep;     [PubMed]
Cottingham JT,Porges SW,Lyon T, Effects of soft tissue mobilization (Rolfing pelvic lift) on parasympathetic tone in two age groups. Physical therapy. 1988 Mar;     [PubMed]
Liselele HB,Tshibangu CK,Meuris S, Association between external pelvimetry and vertex delivery complications in African women. Acta obstetricia et gynecologica Scandinavica. 2000 Aug     [PubMed]
Betti L,Manica A, Human variation in the shape of the birth canal is significant and geographically structured. Proceedings. Biological sciences. 2018 Oct 24     [PubMed]
Liselele HB,Boulvain M,Tshibangu KC,Meuris S, Maternal height and external pelvimetry to predict cephalopelvic disproportion in nulliparous African women: a cohort study. BJOG : an international journal of obstetrics and gynaecology. 2000 Aug     [PubMed]
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