• This 2D dissolve animation shows how this maneuver can release shoulder dystocia impaction and allow for delivery of the fetal shoulder.
    • Each animation has pause and play buttons to allow for more interactivity during viewing.
    • This 2D dissolve animation shows how this maneuver can release shoulder dystocia impaction and allow for delivery of the fetal shoulder.
    • Each animation has pause and play buttons to allow for more interactivity during viewing.
    • This 2D animation demonstrates how shoulder dystocia occurs during delivery.
    • It shows fetal descent down the birth canal and delivery of the fetal head, but impaction of the anterior shoulder on the pubic symphysis, preventing delivery of the shoulder.
    • This animation has pause and play buttons to allow for more interactivity during viewing.
    • Forceps delivery is a type of operative vaginal delivery performed to help guide the baby out of the birth canal if the second stage of labor isn’t progressing or if fetal safety depends on immediate delivery.
    • This 2D animation shows how this procedure is performed, showing that once the fetus has descended far enough down the birth canal, a health care provider applies the forceps to the fetal head.
    • The forceps are then used to gently assist and guide the fetus out of the birth canal during uterine contractions. Forceps are not used between contractions.
    • This 2D animation demonstrates the nor- mal course of labor, showing the dilation of the cervix, descent of the fetus, delivery of the fetal head, and finally delivery of the fetal shoulders and body.
    • This animation has pause and play buttons to allow for more interactivity during viewing.
  • Labor & Delivery

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    • In the first stage of labor, the cervix must thin (efface) and open (dilate) to a diameter of about 10 cm (4 in) in order to allow the fetal head to pass through.
    • Repeated uterine contractions pushing the fetal presenting part against the inside of the uterus cause the cervix to thin and open over time.
    • The fetal presenting part is considered to be engaged when the lowest portion is at the level of the ischial spines; this is called the 0 station. Fetal movement down the birth canal is measured by positive stations, using a 0/+3 scale or a 0/+5 scale.
    • The second stage of labor starts at full dilation of the cervix and is completed when the fetus is delivered. The third stage is the delivery of the placenta.
  • Apgar Scoring System

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    • This simple scoring system indicates how well the fetus fared through labor and delivery. The maximum score is 10 and the minimum is 0, with up to 2 points being awarded for each of 5 measures of health.
    • Apgar scoring is done at 1 minute and 5 minutes of age, sometimes by nursing staff, sometimes by physicians. If the 5-minute score is low, a 10, 15 or 20-minute score may be recorded, either until the baby is stable or moved from the delivery room for specialized care.
    • While there is some correlation between low 5 minute Apgar scores and neurological outcome, only a very small percentage of children with low 5 minute scores sustain brain damage. The longer the score remains low, the higher the correlation with neurological damage.
  • EFM (Variable Decelerations)

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    • Variable decelerations can occur at any time during or between contractions and are usually characterized by “shoulders” before and sometimes after the deceleration.
    • The decelerations are usually “V” or “U”-shaped and return to baseline within two minutes or less.
    • Variable decelerations are due to head or cord compression and are “treated” by changing the mother’s position and applying oxygen.
    • Unless very deep (<60 bpm) for extended periods (>2 minutes or more), they are considered benign.
    • Variable decelerations occur during the second stage of most labors, as the fetal head moves down the narrow vaginal canal and is compressed by a combination of the uterine contractions and the narrow vagina.
  • EFM (Late Decelerations)

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    • Late decelerations start at or after the peak of a contraction and are considered to be a sign of uteroplacental insufficiency.
    • The depth of late decelerations is probably not as significant as their presence. If frequent, they can be a sign of fetal distress and an indication for prompt delivery.
    • If late decelerations are accompanied by loss of beat-to-beat variability, it is generally considered an indication for urgent or emergent delivery, either by cesarean section or operative delivery (forceps or vacuum extraction), depending upon the state of the labor.
    • The vast majority of fetuses with nonreassuring fetal heart tracings are completely normal.
  • EFM (Normal Strip)

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    • This technology, used in approximately 87% of all labors in the U.S., tracks the fetal heart function against uterine contractions.
    • The normal fetal heart rate is approximately 120-160 beats per minute (bpm), although normal individual fetuses might be higher or lower than this range.
    • Beat-to-beat variability is literally the changes of the fetal heart rate from beat to beat (short-term variability), and within 3-5 minute periods (long-term variability). Beat-to-beat variability decreases or disappears for 20-30 minute time periods as the fetus sleeps, but is present in most normal labors and represents the health of the fetal brainstem.
  • Intracranial Hemorrhage

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    • Intraventricular hemorrhage is bleeding within the cavities of the brain that normally hold clear cerebrospinal fluid (CSF). Such bleeding is frequently associated with pre-term delivery and can result in hydrocephalus and loss of brain tissue.
    • Intraparenchymal bleeding is within the brain tissue itself and usually results from ruptured arteriovenous malformation (AVM), hemorrhage following ischemic infarction or hypertension.
    • Subarachnoid hemorrhage usually results from a ruptured surface AVM or cerebral artery aneurysm.
    • Subdural hemorrhage is the result of trauma leading to disruption of bridging veins between the dura and the brain.
  • Lumbosacral Plexus

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    • Analogous to the brachial plexus, the lumbosacral plexus is a series of nerve convergences and separations which ultimately combine into several large terminal nerves.
    • Plexi form a protective mechanism in that if one nerve root is damaged, a particular muscle might be weakened, but function would not be completely lost.
    • The terminal nerves in the legs generally follow the course of the deep vasculature.
    • Terminal sensory nerves to the feet are particularly vulnerable to diabetes, resulting in peripheral diabetic neuropathy. This frequently contributes to foot infections and the need for amputation.
  • Brachial Plexus

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    • The nerve roots of the lower cervical spinal cord split and merge several times before supplying the arm and hand.
    • The brachial plexus lies over the first rib and behind the clavicle. It is intimately related to the subclavian/brachial artery and passes between the scalene muscles of the neck.
    • The plexus is divided into roots, trunks, divisions, cords and terminal branches. By looking at the anatomical distribution of pain or dysfunction, it is possible to determine the location of a brachial plexus lesion.
    • Brachial plexopathy can occur during delivery with or without shoulder dystocia, and from thoracic outlet syndrome.
  • Dermatomes

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    • Dermatomes are strips of skin which are supplied by the nerve roots. If there is numbness or pain along a dermatome, it is a sign of damage or irritation of a specific nerve root, where the root exits the spinal cord and vertebral column. This is known as radiculopathy.
    • Soon after the cervical and lumbosacral nerves leave the cord, they join and separate several times (plexi) before reaching their target organs. Nerve fibers to a given muscle may come from several different nerve roots. The skin sensory supply, however, remains directly associated with the root alone.
    • Radicular pain usually occurs with compression of the nerve in the foramen, the hole by which the nerve exits the spinal canal.
  • Trigeminal Nerve

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    • The semilunar ganglion of the trigeminal nerve lies deep within the skull. The three branches of the nerve leave through large separate openings in the base of the skull.
    • The trigeminal nerve is the 5th cranial nerve. Its three portions are the ophthalmic nerve controlling sensation to the upper face, the maxillary nerve controlling sensation to the mid-face, and the mandibular nerve supplying sensation to the lower face and the skin around and above the ear. Each of the branches supplies both soft tissue and bone.
    • All large ganglia in the body can harbor certain viruses. Oral herpes infections “hibernate” within the semilunar ganglion, traveling down the nerve roots to the mouth when the virus is activated by stress.
  • Nerve Anatomy

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    • Nerves are composed of multiple fibers which in turn are composed of many, many axons. Each successive grouping of fibers is surrounded by connective tissue.
    • Axons are the long branches of nerves cells which transmit electrochemical impulses from one nerve to another or to and from target organs.
    • The axons are surrounded by myelin, a kind of insulating material formed by oligodendrocytes. In diseases in which myelin is destroyed, electrochemical conduction is impossible, and even if the nerve fibers do not die, they are ineffective.
    • Blood vessels travel through the mesoneurium and then divide into capillaries within the nerve to deliver oxygen and nutrients.
    • Nerves are vulnerable to trauma, reduced oxygen levels, and diabetes.
  • Anatomy of Spinal Cord

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    • The spinal cord lies within the spinal canal, formed by the vertebral bodies and the bony arch formed by the pedicles and laminae (see M6).
    • The cord and its terminal nerves, the cauda equina, lie within the dural sac, a tough membranous structure filled with cerebrospinal fluid bathing and protecting the cord.
    • The spinal cord itself ends at the level of the first lumbar vertebra, but nerve roots travel inside the dural sac to exit at lower levels; these roots form the cauda equina (”horse’s tail”).
    • Blood supply comes from the segmental branches of the aorta, traveling along the nerve root to emerge as the anterior spinal artery running in the front midline of the cord; there are two parallel vessels along the back surface of the cord. There is also a generous venous plexus within the canal.
  • Brain Surface Anatomy

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    • The surface of the brain has multiple folds, or gyri, separated by sulci. While many of these are specific to a particular individual, some are constant and serve as landmarks for functional control.
    • The cerebrum is the large, rounded portion of the brain and is the site of higher functions. The cerebellum and brainstem control more basic functions like heart rate, balance, and respiration.
    • The cranial nerves mostly originate in the brainstem and exit the skull via foramina in the base of the skull (see M1). The optic nerves originate in the occipital lobes, travel along pathways inside the brain matter, and exit anteriorly.
    • The corpus callosum is a group of myelin-covered neuronal fibers (white matter) which connect the right side of the brain with the left.
  • Osteoporosis

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    • A common condition, particularly among elderly women, osteoporosis is the reduction of bone density.
    • Osteoporosis affects both the dense cortical portion on the outside of a bone and the spongy bone inside.
    • Causes include age, low body mass, family history, smoking, malnutrition, alcoholism, insufficient physical activity and certain medications and toxins. It is also associated with a number of chronic diseases.
    • The primary risk is that of fracture, particularly of the hip, a potentially devastating event in the elderly. In severely osteoporotic patients, healing may be slow and insufficient.
    • Treatment depends on the cause but includes medication, dietary changes, and exercise.
  • Cervical Spine

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    • The 7 vertebrae of the cervical spine help support the skull and protect the spinal cord as it exits the cranium to pass downward through the spinal canal.
    • The transverse processes each have a small hole through which the vertebral arteries pass to join to form the basilar artery supplying the posterior and deep portions of the brain and brainstem.
    • The cervical nerve roots form the brachial plexus which supplies sensation and movement to the upper extremities.
    • Degenerative joint disease and disc disease are very common in the cervical spine, leading to arm and hand pain and dysfunction requiring decompression and sometimes fusion.
  • Degenerative Joint Disease

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    • Degenerative joint disease is a result of normal activity and is found in most people as they get older; it develops more rapidly and more severely in the case of joint trauma.
    • Articular surfaces are covered with glassy-smooth cartilage. As the cartilage disintegrates over time (chondromalacia), it flakes off until the bone is eventually exposed.
    • If bone starts to rub against bone, it reacts by forming more bone in the form of osteophytes. This is a very painful condition and when severe enough, requires joint replacement.
    • Degenerative joint disease is frequently called osteoarthritis; rheumatoid arthritis is an autoimmune disease with very different causes and a slightly different set of symptoms.
  • Lumbosacral Spine

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    • The lumbar spine is composed of large, strong bones which must support the entire weight of the spine and head.
    • The vertebral bodies are separated by fibrous discs which serve as shock absorbers. The discs have a fibrous ring (annulus fibrosis) and a gel-like center (nucleus pulposus).
    • The spinal canal is formed by the pedicles, laminae, and the vertebral bodies and discs; the canal protects the distal portion of the axial nervous system, the cauda equina.
    • The large transverse and spinous processes serve as support for the many paraspinous muscles which allow for the fine movement of the spine.
    • The sacrum is the large, wedge-shaped bone forming the posterior part of the pelvic bowl, and is composed of fused vertebrae.
  • Bones of the Foot

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    • The bones of the foot follow basically the same pattern of the hand bones. There is a double layer of sesamoid-like bones forming the ankle, which articulate with the long bones making up the central foot (metatarsals), which are in turn attached to the phalanges, or toes.
    • The tendons and the many ligaments of the foot attach to the tough, thin tissue covering the bones, the periosteum. The ligaments attach the bones to each other, and the tendons connect the muscles to the bones.
    • As in the hand, there are intrinsic muscles in the feet.
    • The bones of the foot form a longitudinal arch and a transverse arch. Most of the body’s weight is borne on the metatarsal heads, particularly the first and fifth.
  • Normal Shoulder Anatomy

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    • The tendons of the deep shoulder muscles (infraspinatus, supraspinatus, and teres minor) conjoin with the shoulder joint capsule to form the rotator cuff.
    • Rotator cuff injuries are common and may be difficult to treat.
    • The head of the humerus rests in the glenoid fossa, a relatively shallow depression in the scapula. The rotator cuff holds the head in the fossa during movement.
    • The shoulder joint is prone to dislocation due to the shallowness of the glenoid fossa.
    • The acromioclavicular joint lies over the shoulder and sometimes develops fibrosis, making movement painful or stiff.
  • Normal Knee Anatomy

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    • One of the major joints in the body, the knee is required to support huge and repeated pressures over the course of a lifetime. The articular surfaces of the joint are covered with glassy-smooth articular cartilage, and the menisci act as shock absorbers with each step.
    • The patella is a large sesamoid bone which lies within the quadriceps tendon. It articulates with the condyles of the femur.
    • The anterior and posterior cruciate ligaments are located at the center of the joint and allow some rotatory motion. The lateral and medial collateral ligaments are attached on either side of the joint to maintain stability.
  • Anatomy of the Hand

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    • One of the more complex structures, the hand has a high concentration of nerves and vessels. There are also many small intrinsic muscles which allow fine motor function.
    • Tendons, blood vessels and nerves originating in the arm cross the wrist to enter the hand; the intrinsic muscles are solely within the hand.
    • The structures crossing the double row of wrist bones are held in place by the flexor retinaculum on the volar (palmar) side (“carpal tunnel”), and by the extensor retinaculum on the dorsal side. The flexor retinaculum can sometimes thicken or scar, causing compression of the median nerve, or carpal tunnel syndrome.
  • Decubitus Ulcer Causes

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    • Decubitus ulcers are common in debilitated patients, particularly the aged who have thinner skin and subcutaneous tissue that is more susceptible to compression injury.
    • Patients with limited mobility (from injury, sickness, or neurologic disorders, etc.), poor nutritional intake, conditions affecting perfusion and oxygenation of tissues (like diabetes, cardiovascular disease, heart failure, etc.), skin moisture due to incontinence, and advanced age are particularly vulnerable.
    • These ulcers are often multifactorial, making them difficult to prevent and even more difficult to heal in at-risk patients.
  • Deep Tissue Injury

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    • Deep tissue injuries can have the same outward appearance as decubitus ulcers, but the underlying etiology is different. These injuries happen and progress quickly.
    • The mechanism of this injury is pressure to the skin and soft tissue, within a short period of time, that compromises tissue perfusion and results in ischemia and damage to the deeper subcutaneous tissues.
    • The initial injury is not visible on the surface of the skin and only manifests later as the underlying tissue starts to necrose, first forming what appears to be a bruise before progressing to an external/visible skin wound.
    • This type of wound evolves upward towards the skin as well as deeper, so once the external wound becomes apparent, it is frequently already a deep injury often with the appearance of a Stage 3–4 decubitus ulcer.
  • Decubitus Ulcer Formation

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    • Pressure ulcers are a localized injury to the skin and/or underlying tissue, usually over a bony prominence, that occur as a result of pressure, shear, and/or friction.
    • Stage I decubitus ulcers manifest as a non-blanchable area of skin redness, which then progresses to a partial thickness wound in Stage II, and further to full thickness skin loss in Stage III. Stage IV decubiti involve full thickness tissue loss with exposed bone, tendon, or muscle with sloughing, undermining, and tunneling. These ulcers can extend into muscle and/or supporting structures making osteomyelitis and sepsis a concern.
    • Decubitus ulcers are associated with an increased morbidity and mortality, and healing can be difficult as debilitated patients who form them usually have widespread vascular disease, nutritional de cits, and/or oxygenation/perfusion difficulties.
  • Male Pelvic Anatomy

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    • The male pelvis contains the bladder and rectum, along with the internal portions of the reproductive system: the prostate, seminal vesicles, and the intrapelvic portions of the ductal apparatus.
    • Sperm is produced in the testes, which lie in the scrotal sac outside of the pelvis. The sperm travels up the spermatic duct and is stored in the seminal vesicles. At ejaculation, sperm is released along with prostatic fluid, both of which travel down the urethra.
    • The urethra has three parts: the prostatic portion; the membranous portion which passes through the urogenital diaphragm, and the penile portion.
    • The spermatic cord contains a venous plexus, the spermatic artery and the spermatic duct.
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