• Normal Heart Anatomy

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    • Heart muscle is supplied by the coronary arteries, not by the blood flowing through the heart.
    • The major coronary vessels are the right coronary artery (RCA) and left main coronary artery (LCA), both of which come directly off of the aorta via the coronary ostia.
    • The LCA divides into the left anterior descending artery(LAD) and circumflex artery.
    • The RCA has no major branches, and terminates as the posterior descending artery (PDA).
    • There are may be variations in the anatomy.
  • Heart Function

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    • The normal heart is really two separate pumps working in tandem; there is no connection between the right and left sides in the normal post-fetal heart.
    • The right heart receives de-oxygenated blood from the body, moving it from the right atrium to the right ventricle to the lungs via the pulmonary artery. Carbon dioxide is released and oxygen is picked up in the lungs.
    • The left heart receives oxygenated blood from the lungs, moving it from the left atrium to the left ventricle, and from there to the aorta, which distributes it to the rest of the body.
    • The ventricles are thick muscular chambers which move blood with each contraction; the average left ventricle contracts with a force of 120 mmHg.
  • Coronary Artery Anatomy

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    • Right heart dominance: the posterior portion of the interventricular septum is supplied by the posterior descending branch of the right coronary artery.
    • Left heart dominance: the entire septum is supplied by branches of the left anterior descending artery; an obstruction in that vessel may lead to loss of the entire septum, an often fatal event. The posterior descending artery is derived from a branch of the circumflex artery instead of from the RCA.
  • Normal Valve Function

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    • Also known as the left atrioventricular valve, the mitral valve has 2 leaflets which are anchored to the ventricle floor by papillary muscles and chordae tendinae, as are the leaflets of the right atrioventricular valve (tricuspid valve).
    • The aortic and pulmonary (pulmonic) valves are semilunar valves, and have thin cusps with thickened edges which seal during diastole (when the ventricles are relaxed and blood flows into the atria).
    • The mitral valve prevents backflow from the left ventricle into the atrium; minor mitral valve prolapse or leak is usually clinically insignificant.
  • Pulmonary Embolism

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    • A pulmonary embolism is a blockage in one or more arteries of the lungs. In most cases, it is caused by clots that travel to the lungs from another part of the body, most commonly from a DVT in a lower extremity.
    • Depending on the size of the embolus, it can occlude the main pulmonary artery, straddle the arterial bifurcation, or dis- seminate out into the smaller branching arteries of the lungs.
    • Saddle embolisms are frequently fatal, while embolic showers can be clinically silent unless they block enough of the pulmonary vasculature.
  • The Aorta and Its Branches

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    • The largest artery in the body, the aorta leaves the left ventricle and supplies all of the body’s tissues, including the heart itself, via its branches.
    • The major parts are the arch (from the aortic valve to the left subclavian artery), descending thoracic aorta (from the left subclavian to the diaphragm) and abdominal aorta (from the diaphragm to the iliac bifurcation at about the level of the umbilicus).
    • There are three major vessels leaving the arch and these supply the head, neck and arms; there are segmental vessels supplying the body wall throughout the length of the aorta. Major branches supply abdominal structures; the iliac arteries and their branches supply the pelvis and legs.
  • Electrocardiography

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    • A tracing is made from electrical impulses traveling through the heart, tracking the way the heart muscle reacts to the conduction system.
    • An electrical impulse is initiated at the sinoatrial node, passes through specialized neuromuscular fibers lying beneath the inner lining of the heart until it reaches the atrioventricular node; from there, it travels through the Bundle of His, into the bundle branches and the Purkinje fibers, stimulating ventricular contraction.
    • Changes in tracings are evaluated by comparing them to normal and/or baseline tracings; a physician can get information about areas of heart damage, both acute and chronic.
  • Arterial and Venous Anatomy

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    • Although the cardiovascular system is referred to as one unit, it is actually two separate systems which work independently.
    • Through the arterial supply, oxygenated blood is distributed from the lungs to the left heart and aorta, and eventually to within 5 cells of every cell in the body. The arteries divide into smaller arteries, then into arterioles, which in turn divide into capillaries. Oxygen exchange takes place at the level of the capillaries, vessels whose walls are only one cell thick.
    • In the venous system, deoxygenated blood drains from the capillaries, which conjoin into venules, small veins, veins, and the major draining vessels – the superior and inferior venae cavae. This blood then enters the right heart and travels to the lungs to re- oxygenate and start the cycle again.
  • Cancer Metastasis

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    • Cancer tends to spread by two mechanisms: infiltration, in which the tumor pushes against and enters contiguous tissue; and metastasis, when cancer cells enter lymphatic channels and/or small blood vessels and eventually travel to distant locations and organs in the body.
    • Certain tumors have a predilection for specific sites. Colon cancer frequently spreads to the liver, and breast cancer to the brain and spine.
    • When there is lymphatic spread, the local and regional lymph nodes are the first line of defense; when the nodes fill up with dividing tumor cells, the cells then break free and travel toward the heart for distribution throughout the body.
  • Lead-Time Bias

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    • A common assumption is that a cancer may not have been diagnosed early enough to make a difference, with the assumption being that early diagnosis is always better.
    • In reality, cancers are present for very long periods of time before they are diagnosable, and many have metastasized prior to the period in which they can be detected.
    • The life span of more than 60% of cancer patients is essentially predetermined by the characteristics of the cancer itself. While a patient diagnosed earlier may live “longer” than one diagnosed later, both patients actually survive about the same length of time from the first cancer cell.
  • Breast Anatomy

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    • The breast in a premenopausal woman is composed of glandular tissue, fat, connective tissue and ducts; the axillary tail of breast tissue is tucked upward in the axilla. The breast lies on the pectoralis muscles of the thorax.
    • The breast is divided by irregular fibrous septa which prevent masses from migrating from one area of the breast to another; malignant tumors may eventually erode through these septa.
    • Lymphatic channels travel throughout the breast, with all but the most medial portions draining to the axillary lymph nodes. The “sentinel” node—the first node to receive drainage from the breast—can be determined with testing and evaluated for metastatic spread.
    • Post-menopausal women have little glandular tissue since most of it has been replaced by fat.
  • Mammography

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    • Mammography is an imaging technique which allows visualization of breast tissue. Fat, glandular tissue and ductal tissue have characteristic densities and patterns.
    • Solid tumors are generally easier to see in older patients with larger amounts of fat within the breasts, but can be difficult to see in patients with “dense” breasts (young women and women with fibrocystic breasts).
    • Approximately 75% of breast cancers can be seen on mammography, with the patient’s breast characteristics being the largest determining factor.
    • Like in the arm, the deep, muscular arteries of the leg travel together, but the superficial veins are unpaired and variable in course.
    • The legs receive blood from the terminal branches of the aorta, the iliac arteries. Branches supply the muscles of the thigh, and the name of the artery changes as it passes certain landmarks.
    • The major vessels trifurcate behind the knee, dividing into the anterior and posterior tibial arteries and the peroneal artery, all of which travel toward the feet supplying the muscles and other tissues along the way.
    • As in the arm, there are connective vascular arches in the foot supplying collateral circulation.
  • Blood Supply to the Brain

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    • The anterior 2/3 of the brain is supplied by branches of the internal carotid artery, whose terminal branches form the anterior and middle cerebral arteries.
    • The vertebral arteries branch off the subclavian arteries and through small openings in the transverse processes of the cervical vertebrae. They merge to form the basilar artery supplying the cerebellum, brain stem, and the posterior cerebrum via the posterior cerebral arteries.
    • The Circle of Willis has small connecting vessels between the three major cerebral vessels. Blood can change direction within the circle for collateral blood flow if needed. There can be significant variation in the form of the Circle of Willis from one individual to another.
    • Tissues supplied by the tiny terminal branches of vessels are known as watershed regions and are vulnerable to damage during periods of low perfusion or oxygenation.
  • Aortic Dissection

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    • Sometimes called “dissecting aneurysm”, this is not an aneurysm, but a separation of the aortic wall layers.
    • Blood enters the aortic wall through a small tear in the intima or inner lining of the artery. Under pressure, it then dissects through the wall, creating a false lumen or false channel. Sometimes there is a second tear through which the blood re-enters the true aortic lumen; sometimes the blood breaks through the wall to the thorax or retroperitoneal spaces.
    • Dissections are usually associated with hypertension and atherosclerosis, although certain genetic conditions (Marfan’s syndrome) can predispose to dissection.
    • Symptoms include a severe tearing pain in the back as the dissection travels distally, changes in blood pressure and distal pulses, and loss of various physiologic functions if the dissection blocks the blood supply to major organs.
  • Deep Vein Thrombosis

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    • These potentially lethal blood clots usually form in the deep veins of the leg or in the pelvis. Those in the legs are usually painful, whereas those in the pelvis may be asymptomatic.
    • The clots usually form in the valves of the larger veins, propagating upward toward the heart.
    • Clots of any size can break off and travel with the blood flow through the inferior vena cava to the right side of the heart and to the lungs; the pulmonary vasculature acts like a sieve and clots get caught in the vessels as the vessels get smaller, causing loss of blood flow in those areas. These clots are known as pulmonary emboli if they reach the lungs.
    • Conditions associated with DVT and PE include a history of leg trauma, cancer, surgery, venous stasis from illness, lack of exercise, clotting defects and others.
  • Atherosclerosis

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    • Atherosclerotic plaque is fatty, cholesterol-laden material which accumulates within the inner layer of the major arteries, narrowing the diameter of the lumen or opening.
    • It can occur in any artery in the body and is a direct cause of stroke when in the carotid arteries; myocardial infarction when in the coronary arteries; acute bowel ischemia when in the mesenteric vessels; peripheral vascular disease when in vessels to the legs, etc.
    • Atherosclerosis can result in increased blood pressure in an effort to overcome the higher pressures caused by arterial stenosis throughout the body.
  • Balloon Angioplasty

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    • This procedure is a relatively non-invasive technique of opening stenotic blood vessels.
    • A catheter is threaded through the arterial system from the arm or leg and into the diseased artery. The balloon is then positioned inside the stenotic area and gently inflated several times to crush the plaque and flatten it against the walls of the vessel.
    • This procedure is commonly performed and is often accompanied by the deployment of a stent to hold the vessel open.
    • Complications can include clot formation on the fractured plaque after the release of clotting factors and formation of a dissection (sometimes incorrectly called a “dissecting aneurysm”) in the vessel wall.
  • CABG

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    • When coronary arteries are significantly blocked (>70% stenosis), pain symptoms often occur with exercise in the form of stable angina, or at rest in the form of unstable angina.
    • Bypass vessels are harvested as free grafts from the saphenous veins of the legs. These are anastomosed to the aorta and then to the coronary arteries, literally bypassing the blocked regions.
    • The internal mammary arteries, which lie on either side of the sternum within the rib cage, can also be harvested and anastomosed directly to the coronary arteries. These grafts are less likely to stenose than are vein grafts.
    • The procedure can be performed either on or off cardiopulmonary bypass.
  • Fetal/Neonatal Circulation

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    • Heart muscle is supplied by the coronary arteries, not by the blood flowing through the heart.
    • The major coronary vessels are the right coronary artery (RCA) and left main coronary artery (LCA), both of which come directly off of the aorta via the coronary ostia.
    • The LCA divides into the left anterior descending artery(LAD) and circumflex artery.
    • The RCA has no major branches and terminates as the posterior descending artery (PDA).
    • There are may be variations in the anatomy.
  • Mandibular Anatomy

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    • The mandible, or lower jaw, is the bone that hinges to the skull and, together with the maxilla, forms the mouth.
    • The mandibular nerve, the third and largest branch of the trigeminal nerve, runs along the mandible.
    • The mandibular nerve has both sensory and motor functions. It divides into trunks and smaller branches to innervate the teeth and gums of the mandible, the lower lip and lower part of the face, and the muscles of mastication.
  • Normal Dentition

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    • There are normally 32 teeth, divided into 4 categories: molars, premolars, canines, and incisors.
    • The teeth are embedded in the bones of the maxilla (upper jaw) and mandible (lower jaw) and are held in position by periodontal ligaments.
    • The third molars (teeth #1, 16, 17, 32) are often vestigial and/or impacted. These are commonly known as “wisdom teeth”.
    • The roots of the teeth are anchored within the bone and contain an artery, vein, and nerve which travel to the main portion of the tooth and divide within the pulp.
    • Dentin covers the pulp and very hard enamel covers the dentin; the bone is covered with a mucosal tissue, the gingiva.
  • Anatomy of the Ear

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    • The external ear acts as a collecting device for sound waves, focusing them into the canal.
    • External sound waves cause vibration of the tympanic membrane (ear drum). The vibrating membrane moves the three ossicles of the middle ear (malleus, incus, and stapes) which transfer the vibration to branches of the vestibulocochlear nerve (cranial nerve VIII) within the cochlea.
    • Motion and balance are detected by three fluid-filled canals in the temporal bone. Oriented in three perpendicular planes, the canals contain tiny hair cells that pick up fluid movement with motion of the head. This information is transmitted through the vestibular portions of the nerve to the appropriate portions of the brain.
  • Gastric Bypass

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    • Gastric bypass is performed to reduce the volume of food which the stomach can hold, and to reduce the amount of bowel available to absorb nutrients.
    • There are several surgical variations; in this version, the stomach is divided and the small bowel is surgically joined to the small stomach remnant, bypassing the rest of the stomach. A second surgical anastomosis is made further down the length of the small bowel. No tissue is removed.
    • The procedure can be performed either through a large abdominal incision or laparoscopically, using “band-aid” incisions. A lighted scope is inserted into the abdomen, as are several slender tubes. Instrumentation is then placed into the tubes and the procedure is performed under direct vision through the scope.
  • Ileus

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    • Normal small bowel function is in the form of peristalsis, regular wave-like contractions of the smooth muscle within the wall of the bowel. Digested food materials (chyme) move through the small bowel, where intestinal villi absorb nutrients. These raw materials enter the bloodstream and are distributed throughout the body for growth and maintenance.
    • Ileus is a temporary reduction or cessation of peristalsis, allowing fluid, chyme, and gases to accumulate. It is characterized by abdominal distension and discomfort; on x-ray, distended bowel loops with air/fluid levels can be seen. Bowel sounds are reduced or absent, and gas and stool are not passed.
    • Ileus is a common sequela of abdominal or pelvic surgery, lasting hours to days. Symptoms are relieved by nasogastric suction to reduce pressure.
  • Cholangiography

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    • Performed during surgery for gallbladder removal, this is an effective intraoperative radiographic test to look for either blockage or leakage in the biliary tree.
    • This test may be performed prior to removing the gallbladder, or at any time a problem is suspected. A tiny catheter is threaded through a small incision in the cystic duct. Dye is injected into the biliary tract and x-rays are taken, allowing the surgeon to see which ducts are patent. Voids represent stones or tumors, and extravasation represents a leak in the system.
    • While this test is very reliable in the case of a retained stone or suspected damage, the outcome in patients having routine intraoperative cholangiography without apparent complication is the same as those in whom the test was not performed.
  • Lap Chole: Procedure

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    • After placement of the trocars, the gallbladder is grasped and retracted upward and outward. Adhesions, connective tissue, and the lesser omentum are divided from the neck of the gallbladder in a medial direction, to reveal a portion of the cystic duct.
    • Clips are placed on the exposed cystic duct and an incision is made between the clips.
    • The cystic artery is then located within the Triangle of Calot (formed by the planes of the lower border of the liver, the cystic duct, and the common hepatic duct), ligated and divided.
    • The gallbladder is removed through one of the ports.
  • Lap Chole: Surgical Set-up

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    • Cholecystitis, or inflammation of the gallbladder, is usually caused by gallstones blocking the cystic duct. Removal is usually performed via a laparoscopic approach, using an endoscope for visualization and hollow trocars holding the small instruments used for the surgery.
    • The view through the laparoscope is transmitted to a video monitor, and the physician controls the progress by either looking directly through the scope or at the video display, depending on his or her preference and training.
    • The overall complication rate for the laparoscopic procedure is about half that of the open procedure, although converting a laparoscopic procedure to an open one occurs approximately 4% of the time, usually because of difficulty in visualization.
  • Retroperitoneum

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    • Most of the abdominal contents lie within the peritoneum, a sac made up of a sheet of dense connective tissue. Some structures lie behind the peritoneum (retroperitoneal). Others go in and out of it, although edges are sealed and there is little or no direct connection between the intra- and retroperitoneal regions.
    • The liver has a “bare area” at its top where it lies directly against the lower surface of the diaphragm, but the rest of it is intraperitoneal. The ascending and descending colons are both retroperitoneal, while the transverse colon and part of the sigmoid are intraperitoneal; the duodenum, or first portion of the small intestine, is retroperitoneal.
    • True retroperitoneal structures include the pancreas, the kidneys, ureters and adrenals, the great vessels and the pelvic structures.
  • Adhesions

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    • Adhesions are fibrous scars which can form after any disturbance within body cavities and spaces. Inciting events can include surgery, trauma, and inflammation.
    • Within hours of disturbance, thin, filmy strands form between bowel loops and between bowel and peritoneum and/or body wall. These continue to form for a period of time and mature over a period of weeks.
    • Mature adhesions are dense, white fibrous tissues which have merged with the outer layer of the tissues; they eventually develop their own blood supply and may become severe enough to cause chronic pain and pose a chronic risk of small bowel obstruction or volvulus.
  • Portal System

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    • The portal system is a specialized venous drainage system of the large bowel. Instead of merely draining deoxygenated blood, the portal system drains metabolites and nutrients upward so that they detour through the liver instead of returning directly to the heart and lungs. The liver serves as a cleaning and metabolic sieve where drugs and other chemicals are further broken down and either used or removed from the system.
  • Blood Supply to Large Bowel

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    • The blood supply of the colon comes from three sources: the superior mesenteric arteries supplying the cecum, ascending (right) colon and half of the transverse colon; the inferior mesenteric arteries supplying the distal half of the transverse colon, the descending (left) colon, and the sigmoid colon; the rectal arteries supply the rectum.
    • The arteries then divide into arcades, as they do to the small bowel, with straight arteries entering the bowel wall at the mesenteric border.
  • Blood Supply to Small Bowel

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    • With the exception of a portion of the first part of the duodenum, the small bowel is supplied by the many branches of the superior mesenteric artery.
    • The branches anastomose with each other in two layers of arcades or arches, and from these, small straight vessels pass to the bowel surface, traveling around and through the wall, dividing into smaller and smaller branches.
    • The arcades and multiple straight vessels are an adaptation which protects the bowel. Damage can occur to a portion of the small bowel without loss of the entire organ. Clots and ischemia from atherosclerosis and other vascular pathologies can affect the small bowel, much like the brain, heart, kidney and other organs can be affected by such conditions.
  • Biliary Physiology

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    • The gallbladder stores bile formed within the liver, releasing it for fat digestion.
    • Bile travels through the intrahepatic ducts into the paired hepatic ducts; these merge into the common hepatic duct. Bile is then diverted via the cystic duct to the gallbladder for storage.
    • When food is ingested and travels through the stomach to the duodenum, a hormone is released (cholecystokinin) which stimulates the gallbladder to contract and the sphincter of Oddi to relax. This allows bile to flow through the cystic duct and the common bile duct into the duodenum.
    • The most common pathology in the extrahepatic biliary system is bile (gall) stones (concretions of bile salts, cholesterol, and minerals) which can block ducts, causing inflammation, pain, and jaundice.
  • Stomach Anatomy

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    • The stomach is a muscular sac derived from the simple fetal gastrointestinal tube. The mucosal lining has specialized cells which secrete strong acids and enzymes to break food down before it passes to the small bowel for absorption and distribution.
    • The walls are folded into rugae which increase the surface area of the sac. The muscular walls contract to help break up food material.
    • The greater omentum arises from the greater curvature of the stomach, and the lesser omentum from the lesser curvature; the hepatoduodenal ligament lies at the free edge and contains the extrahepatic biliary ducts.
    • The stomach lies under the diaphragm and to the left of the liver. The strong pyloric sphincter divides the distal stomach from the duodenum or the first portion of the small intestine.
  • Upper Abdominal Anatomy

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    • The primary function of the upper abdominal organs is the breakdown of food for distribution by the small bowel. Chewed and macerated food travels through the esophagus to the stomach, where strong acids and muscular contractions break it down further.
    • Proteolytic enzymes from the pancreas and bile from the liver and gallbladder drain into the duodenum to further the digestion and breakdown of food.
    • The spleen functions as part of the hematopoietic system, controlling the distribution and eventual destruction of red blood cells. It also acts as a part of the immune system.
    • Blood is supplied to most of these structures by branches of the celiac trunk, the first major aortic branch in the abdomen.
  • Abdominal Anatomy

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    • The contents of the abdomen are primarily associated with digestion and distribution of nutrients.
    • The esophagus, a tube which carries food and fluid through the thorax, enters the abdomen through the diaphragm, where it widens into the stomach; the stomach empties into the small bowel (duodenum, jejunum, and ileum, in which food is absorbed into the blood stream), and from there into the large bowel, where waste material is compacted as fluid is reabsorbed into the system.
    • The liver has multiple functions affecting a number of other body systems, including digestive, hematologic and endocrine/metabolic.
    • The large and small bowels are supplied by branches off of the aorta carried within the mesentery, a double-layered sheetlike structure.
  • Anatomy of the Eye

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    • The external eye has upper and lower lids which close over the globe to protect it. The sclera is the white of the eye, the colored portion is the iris, and the black opening in the middle of the iris is a hole known as the pupil. This is the only window in the body through which the nervous system can be seen directly.
    • The anterior transparent media consists of the cornea, anterior chamber and lens; the posterior elements of the globe are covered with specialized nerve tissue, the retina.
    • The optic nerve enters the eye posteriorly along with its own blood supply; this area is known as the optic disc. The macular area is where visual acuity is greatest.
  • Vision

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    • The visual system is composed of specialized nerve fibers originating in the retina. They join to form the optic nerve (cranial nerve II) just behind the globe. The medial portions of the optic nerve cross over each other at the optic chiasm in front of the pituitary gland. As the nerve fibers travel posteriorly within the brain, they form the optic tracts terminating in the occipital lobe of the brain. By identifying visual field defect patterns, it is possible to determine an anatomical location of the source of visual loss.
    • The visual fields of normally-aligned eyes overlap. Each eye sees objects from a slightly different angle, and the brain fuses these views. This binocular vision allows us to perceive depth and spatial relationships.
  • Cataract Surgery

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    • The lens opacifies with age or after trauma. When vision is sufficiently affected, the cataract can be surgically removed and replaced with an artificial intraocular lens.
    • The cornea is lifted from an incision in the blue-grey line surrounding the iris, and the anterior surface of the lens is opened. The nucleus of the lens is removed, leaving the posterior capsule of the lens in position.
    • The intraocular lens is then placed within the capsule and fixed into position. Laser treatments are often needed post-operatively to clear the posterior capsule.
    • This procedure is one of the safest and most common surgical procedures performed today, with a very low rate of complications.
  • Visual Field Defects

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    • A variety of retinal or more central pathologies can cause visual field deficits that are limited to particular regions of visual space.
    • By identifying visual field defect patterns, it is possible to determine the anatomical location of the source of visual loss.
    • Damage to the retina or one of the optic nerves before it reaches the optic chiasm results in a loss of vision that is limited to the eye of origin, while damage in the region of the optic chiasm or farther back in the brain will involve the visual fields of both eyes.
  • LASIK Procedure

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    • LASIK (laser-assisted in situ keratomileusis) is a popular type of refractive surgery, or surgery performed to improve visual acuity.
    • In LASIK, an incision is made to lift up a partial thickness of the cornea, using a very sharp, thin microtome.
    • Once the flap is formed, the stroma of the cornea is sculpted with the laser, under computer control. Many of the newer LASIK systems can also accommodate for any eye movement during surgery, using a tracking program.
    • This procedure has a very high success rate with relatively few complications.
  • Anatomy of Respiration

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    • The lungs are composed of thin-walled alveoli whose sacs are covered by a meshwork of capillaries. This is where oxygen and carbon dioxide are exchanged.
    • The trachea carries air from the nose and mouth to the bronchi, which branch to each lung. These divide several times to become very small bronchioles, which directly supply the alveoli.
    • The airways are lined with a ciliated mucosa which carries debris upward to the mouth on a layer of mucous, where it is swallowed. These mucosal membranes can swell in reaction to allergens, bacteria and viruses, leading to narrow airways and respiratory symptoms.
  • Lung Development

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    • The main reason that preterm infants are considered high risk is because their lungs are immature.
    • Lungs develop as the airways bud and branch into an anlage of mesenchymal cells. Since respiration requires oxygen and carbon dioxide to cross over two layers of tissue (alveolar wall and capillary wall), these relatively thick-walled airways in preterm babies permit little gas exchange. High-pressure ventilation is required to assist the infant, and this pressure frequently results in the development of chronic lung disease (bronchopulmonary dysplasia).
    • In addition, there are too few alveoli present for efficient oxygen supply until 2-3 weeks prior to term. Lungs continue to grow and develop new alveoli for several years after birth.
  • Sinus Anatomy

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    • Sinuses are hollow spaces within the facial bones. They are lined with a ciliated mucosa which has mucus glands. The sinuses are interconnected via a series of openings, allowing mucus to drain into the nose and pharynx.
    • The sinuses help to warm inhaled air before it enters the lungs.
    • Sinuses are prone to infection or reaction to allergens and react by mucosal swelling and overproduction of mucus. Chronic inflammation or infection can result in permanent thickening of the mucosa and reactive bone changes. Surgery is designed to facilitate drainage and relieve pressure; in some patients it must be repeated a large number of times.
  • Anatomy of the Larynx

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    • The larynx is composed of a number of cartilaginous structures, muscles and ligaments which maintain the patency of the airway and hold the vocal cords under tension during speech.
    • The large thyroid cartilage, which lies beneath the thyroid gland, is connected to the hyoid bone by a strong ligament (thyrohyoid ligament), and the epiglottis arises from its internal surface. All internal structures with the exception of the vocal cords are covered by a pink mucosal lining.
    • The small cartilages to which the vocal cords are attached are moved by tiny muscles under the control of the recurrent, superior and inferior laryngeal nerves. These muscles make small adjustments in the opening between the cords, allowing different pitches of sound to be created.
  • Endotracheal Intubation

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    • Intubation is required when a patient has difficulty breathing and needs ventilatory assistance. A hollow tube is inserted into the trachea and held in place by a small inflated balloon. If intubation is required for more than a few weeks, a tracheostomy is used to replace it.
    • Most endotracheal intubations are done using a laryngoscope, which holds the tongue and epiglottis out of the way while the health care provider inserts the ETT (endotracheal tube).
    • Following ETT placement, the provider listens for bilateral breath sounds, watches for the chest to rise, and usually orders a portable chest x-ray to check ETT placement.
  • Aspiration

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    • Aspiration occurs when foreign material, of either oropharyngeal or gastric contents, is inhaled into the lungs.
    • Aspiration can cause a number of respiratory problems depending on the quantity and nature of the inhaled material. Aspiration of gastric contents causes pulmonary edema and often pneumonia.
    • The risk of aspiration is increased by conditions associated with altered or reduced consciousness, esophageal conditions like dysphasia, certain neurological disorders, and mechanical conditions like NG tube placement, endotracheal intubation, etc.
  • Urinary System

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    • The urinary system consists of the kidneys, ureters, bladder, and urethra. This system is responsible for removing wastes and extra fluid from the body in the form of urine. It also keeps the levels of electrolytes in the body stable.
    • The kidneys filter the blood through specialized capillaries in order to remove waste materials and produce urine.
    • The ureters drain urine from the kidneys and transport it to the bladder, where it is stored until it is released outside the body through the urethra during urination.
  • Anatomy of the Prostate

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    • The prostate is a walnut-sized gland located between the bladder and the penis; it secretes fluid that nourishes and protects sperm. The male urethra runs through the center of the prostate, from bladder to penis.
    • The bladder is a hollow, muscular organ in the lower abdomen that stores urine and allows urination to be infrequent and voluntary.
    • It is not uncommon for older men to develop benign prostatic hyperplasia (BPH), in which the prostate becomes enlarged, resulting in restriction of the ow of urine through the urethra. The prostate can also develop cancer, although that is much less common than BPH.
  • 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.
  • 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.
  • 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 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.
  • 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.
  • 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.
  • 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.
  • 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.
  • 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.
  • Hip Anatomy

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    • The largest joint in the body, the hip is composed of the large, round head of the femur which lies within the acetabulum or cup of the pelvis. Cartilage covers the articular surfaces, as in every other joint. There is a joint capsule and a number of muscles which cross and protect the joint and allow movement in a number of planes.
    • The blood supply to the hip is relatively meager and easily disrupted with trauma.
    • Since the entire weight of the body goes through this joint with every step, it is vulnerable to damage from use and is a common site for degenerative joint disease.
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