The Common Vein copyright 2009
Squaring the Circle
https://youtu.be/2IxV4btsrvg
da Vinci and the Vitruvian Man and Robert Edward Grant
In some art historical traditions, it has been common to depict men as squares and women as circles or ovals, but this is not a universal rule or a fixed symbol. The use of shapes in art and symbolism is complex and context-dependent, and different cultures and historical periods have employed a variety of shapes to represent different concepts and ideas.
For example, in some ancient cultures, the circle was associated with the feminine and the cyclical rhythms of nature, while the square was associated with the masculine and stability. In Islamic art, geometric patterns featuring circles, squares, and other shapes were used to represent the infinite and divine order of the universe, without any gender-specific connotations.
In modern art, artists have challenged and subverted traditional gender stereotypes and symbols, and have used a wide range of shapes, colors, and forms to explore the complexities of gender identity and representation.
Overall, while there may be some historical precedents for representing men as squares and women as circles, it is important to approach art and symbolism with an open and critical mind, and to avoid reducing complex human experiences and identities to simplistic shapes or symbols.
Introduction
Shape is not at all a difficult concept to understand and appreciate. After all, shape is at the epicenter in the description of form. Intuitively shape is understood from our own physical experiences, from the beauty of the body, which we adorn and lust for, sometimes purely based on its shape. Shape lends innate beauty in nature, functional value in physiology, molecular biology and chemistry, as providing relevance in geometry, and architecture. Abstract concepts like “shaping an idea” for example carry intellectual, scholalrly, literary and philosophical implications.
Georgia O Keefe an American photographer and painter is quoted as having said that “I found I could say things with color and shapes that I couldn’t say any other way – things I had no words for.”
Lewis Carroll said “When you are describing a shape, or sound, or tint; Don’t state the matter plainly, but put it in a hint; And learn to look at all things with a sort of mental squint”. This quote has a sense of creativity, while the quote ‘The devil hath power to assume a pleasing shape” by Shakespeare has a more ominous message.
At an anatomical level, we are not unlike the ancient anatomists who struggled with the descriptors of shape and could only describe the form of anatomical structures by comparing them to known shapes in their environment. Famous reference shapes were the moon and stars, foods, animals, plants, musical instruments, tools, weapons of war, boats, and letters of the alphabet. Hooks are common: the hook of the hamate, uncinate process of the pancreas, or the falciform ligament all describe a characteristic curve. The tibia is supposed to look like a trumpet, the navicular like a ship, the sella turcica like a Turkish saddle, and the deltoid muscle like the Greek letter delta. Anatomists and clinicians have employed terms from nature’s bounty such as pear (or pyriform shape) for the uterus and gallbladder, almond shape for the ovary, tonsil and amygdala, and pea shape for the pisiform bone of the hand. While some of these names are quite helpful and have been retained in our modern medical minds, others have been forgotten. Most doctors and laymen alike would be surprised to learn the origin of the word muscle – from the Latin word “musculus” which means little mouse reminding the ancients of little mice under the skin.
At a biochemical level shape of molecules is also highly important and relevant. There is the linear shape of hydrogen, HCl, and CO2, the triagonal planar shape of BCl3 and AlCl3, the tetrahedral shape of CH4 and SiF4, the bent shape of H20, and the octahedral shape of SF6. All have molecular consequence
“Our goal is to control the shapes of new materials with the same level of precision that we exercise when controlling the stereo chemical relationships in a natural products synthesis.” said Joseph M Fox Assistant Professor of Organic Chemistry University of Delaware
Shape is difficult to quantify, and judgment is often invoked when calling it normal or not. Despite our difficulty with defining the shape of structure, objectively it is of supreme importance in the diagnosis of structural disease since a minor deformity could be the earliest sign of disease. If the diagnosis is made in the early stages then treatment can be more timely and more effective.
In clinical medicine there are instances where identifying abnormal shapes will lead to a diagnosis or a differential diagnosis.
As the patient walks into the office or is visited in a hospital room, the task of the astute clinician begins. We are focusing on the shapes of health and disease, but of course the practiced expert is able to take in all the components needed for accurate evaluation. The global shape of the patient is the first observation that begins the interaction, before a word has been spoken. It may tell the whole story. . The obese patient, asthenic patient, muscle wasting and muscle bound patient all have distinct shapes that are relatively easy to identify. The presence of a kyphosis is easy to spot. Thoughts of osteoporosis and compression fractures start to become checks on the list relevant conditions in the elderly. Scoliosis in the young will bring a whole differential of birth defects, muscular dystrophy, cerebral palsy, or Marfan’s disease. The patient doubled over in pain may have life threatening peritonitis, appendicitis, or an ectopic pregnancy. Sometimes leaning forward like in pericarditis provides some relief of the pain. The demeanor and body form in the depressed patient is in sharp distinction to the perky upright bright patient.
As the patient is greeted with eye to eye contact the astute physician takes in the shape of the face. In Cushing’s syndrome the facies are described as “moon like” because of a rotund appearance caused by subcutaneous deposition of fat. Acromegaly and gigantism are characterized by a protuberant jaw and thick features. A droop of muscles and unusual premature aging of the skin may speak to an excessive exposure to sun, excessive exposure to nicotine, or an excess of stress. The triangular face with sunken cheeks, sunken eyes (enopthalmos) is the shape of severe dehydration originally described by Hippocrates 2,000 years ago in patients who were in the late stages disease and were close to death. The bulging eyes of exopthalmos on the other hand should activate a quick look to the neck at the thyroid gland as a diagnosis of thyrotoxicosis is entertained.
As the patient is greeted with a handshake, the shape of the hands may also be a clue to a variety of diagnoses. The large, strong, broad, thick spade like hand is characteristic of acromegaly. Short stubby fingers of almost equal length are seen in achondroplasia, a cartilagenous disorder, while clinodactyly, a curved shape to the fifth finger may be a benign normal variant but is also seen in patients with Down’s syndrome and other unusual genetic syndromes. Clubbing of the fingers is an entity that was known to Hippocrates. It is characterized by increased curvature of the nails and a bulbous appearance to the distal phalanx that has been called a “drumstick” deformity. This sign is seen in chronic suppurative conditions of the lung such as cystic fibrosis and cancer of the lung, and cyanotic heart disease. The barrel shaped chest is seen in emphysema, the diamond shaped murmur in aortic stenosis, and the water bottle shaped heart is seen in pericardial effusion. The shapes of deformity and illness go on and on and make the study of form and function in health and disease so interesting and important in clinical medicine.
The pathologist has also used the shape of structure to describe disease as seen macroscopically as well as under the microscope. The word cancer derives from the Greek word “kanker” which means crab. The Roman physician Galen, is purported to have coined the term since he noted that the disease had a central rounded appearance reminiscent of the crabs body from which emanated irregular “veins” reminiscent of the crab’s legs.
The Basics
Round
In the Round | Sharp Angles | Horizontals and Verticals | |
Shapes in Geometry | |||
sphere | sharp angles | rectangle | |
Day to Day Shapes Around US | |||
dials | rooftops | apartments | |
In the Playground | |||
stepping “stones” | rooftops | climbing net | |
Shapes of Flowers | |||
thistle | Strelitsia | chicory | |
Shapes of Water | |||
Water in the Round | Sharp Angled Icicle | Water in a Pool | |
Shapes in Nature | |||
Fruit in the Round | Sharp Angled Branches | Squared off Flower | |
Shape of People | |||
Round | Sharp Angles | Rectangle | |
Shapes of External Parts of People | |||
Rounding of the Breasts and the Abdomen | Sharp angles | Rectangle of the Chest | |
Shape of Organs | |||
Organ in the Round – The Uterus | Sharp Angled Heart | Squared off Vertebra | |
Shapes Under the Microscope | |||
alveoli of the lung | macrophage | ||
Architecture | |||
St Paul’s Vatican | |||
Spheriodal, Tubular, and Ovoid shapes in the Chest |
02032p Courtesy Ashley Davidoff MD. Davidoff art Copyright 2012 |
The Elements of Structure |
The Common Vein Courtesy Christa Wellman (drawing of human) Courtesy Ashley Davidoff Copyright 2012 |
The body of the crab is always the nodule or the mass, and the legs may be caused by tumor extending into the surrounding tissue, lymphatics or veins. On the other hand one every shape on imaging that is crab like is not definitely a cancerous growth. The suspicion is raised and the patient then requires a biopsy to confirm the diagnosis. Two examples below with the characteristic crab like shape both proved to be cancer. Radiologists have preferred the adjective “spiculated” or “stellate” to describe this shape rather than the adjective “crab like”. The reasons for this avoidance are uncertain, but possibly because the visual pattern is not absolutely pathognomonic for the diagnosis of cancer or simply because “spiculated” or “stellate” lesion is a more accurate description.
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Spiculated Mass in the Right Breast |
Courtesy Priscilla Slanetz MD MPH 42977 |
Cancer does not always look like a crab. The morphology of a particular disease process depends not only on the disease process itself, but also on the tissue and organ from which it arises, the restrictions or freedom with which it is allowed to occupy space, and the pattern of growth that is innate to the biology of a particular malignancy. A more common manifestation of colon cancer, for example, is growth and spreading within in the layer below the inner lining called the submucosa. The initial space occupation occurs in a circumferential manner creating a broad band or belt around the bowel. Progressive tightening and advances to obstruction. When barium is instilled into the colon, the shape created by the band of this cancer in the colon has been termed “applecore” deformity. Based on the shape of the sigmoid colon there is almost no other differential diagnosis for this radiological finding but adenocarcinoma of the colon. Narrowed lumen and irregular mucosa with heaped up edges on either end are characteristic of a malignancy.
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barium 00878 00877 colon large bowel sigmoid colon fx apple core apple-core lesion fx circumferential mass fx stricture constriction narrowing stenosis dx carcinoma malignant primary malignancy cancer tumor BE barium enema Courtesy Ashley Davidoff MD 5star aka applecore |
Pathological Specimen of an Apple Core Deformity |
colon large bowel fx apple core fx constriction fx narrowing fx wall thickening fx mass dx carcinoma malignant stricture gross pathology Courtesy Barbara Banner MD aka applecore 12313 |
The importance of shape in health and disease continues down to the cellular level. Receptors in a cell membrane and the molecules that act upon them are highly dependent upon specific conformations. Enzymes fit into their receptors and activate them just as a key fits into a lock.A lock and key morphology is the parallel drawn to our human experience. They first have to fit, and then they can interact and be effective. If the shape fits the reactions follow If the shapes do not fit, there is no go. This is a “key” concept at many levels, in the world of biochemical interactions.
Shape of course plays an important role in cosmetic surgery. The patient whose appears below had had a mastectomy for breast carcinoma . Reconstruction mammoplasty was performed by bringing a skin and adipose tissue flap from her abdominal wall to her chest wall. The intent was to retain her image as a woman with significant implications of psychological wellbeing. The aim of the surgeon was to create a breast that was similar in shape, size and character to her remaining healthy breast.
Reconstructing the Shape of the Breast – TRAM operation Left Breast |
16127 Courtesy Ashley Davidoff MD code breast TRAM imaging radiology CTscan post mammoplasty |
28 year old Fell on Elbow |
41882b01 Courtesy Ashley Davidoff MD medical students code head elbow hemarthroses radia radius sail sign fracture |
Subtle Fracture Minor Shape Deformity |
41882c05b.8s Courtesy Ashley Davidoff MD medical students code head elbow hemarthroses radia radius sail sign fracture |
Thus shape plays a very important role in the assessment of structure in the preclinical disciplines as well as in the clinical disciplines from the level of the cell to the body, not only in health but also in disease. It is not uncommon that a minor shape deformity may be the only clue and the only abnormal finding that will be the determinant of a diagnosis, and therefore treatment. Shape holds tremendous implications at all levels of biology and medicine, from the small malignant bump on the pancreas, to the shape of a new drug that will fit appropriately into a cellular receptor.
Structures Named Based on Shape |
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Body Part |
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|
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head |
skull |
bowl |
The skull was named after the anglo saxon word “skulle” which means a bowl because of its rounded nature and capacious form. |
neck |
thyroid |
shield |
The thyroid consists of elongated right and left lobes which are connected by a band of tissue called the isthmus. Its shape is reminiscent of a shield and it was named from the Greek word “thyreos” which means a shield, and “eidos” meaning resemblance. |
chest |
coronary arteries of the heart |
crown |
The word coronary is derived from the Latin word “coronarius” which means garland or crown and from the Greek word “korone” which also means crown. At the base of the heart the coronary arteries form a ring, similar to the base of a crown, from which the arteries emanate like the crests of the crown. This derivation is used quite frequently in naming other structures in the body including the corona of the penis and the corona radiata of the brain. |
ventricles of the heart | belly | “Venter” means belly in Latin and the the ventricles were presumably named due to their belly -like bulbous appearance. | |
|
carina of the tracheobronchial tree of the lungs |
keel |
The carina is the first branch point of the trachea as it divides into a right and left main stem bronchus. This branch point is called the carina which derives from the the Latin word “carina” which means keel of a boat that has the same shape. |
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xiphoid process |
sword |
The xiphoid is the pointed lower end of the sternum that derives from the Greek word “xiphos” which means sword, and “eidos” meaning resemble. |
back |
cauda equina of the spinal cord |
horse’s tail | The cauda equina is the last part of the spinal cord with all the last nerves conglomerating at the distal end of the spinal anal reminiscent of the long hairs on the end of a horses tail. Cauda equina “tail of a horse” in Latin |
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rhomboid muscle |
rhomboid |
The rhomboid muscle is attached to the scapula and is named after its rhomboid shape from the Greek word rhombus really means a lozenge like structure. Rhomboid denotes a parallelogram with oblique angles and unequal sides. |
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quadratus lumborum |
square |
The quadratus lumborum muscle are square in shape and are attached posteriorly on the bottom of the 12th rib and extend to the iliac crest. They derive their name from the Latin term quadratus which means square in shape. |
|
serratus anterior |
saw |
The serratus muscle inserts into the lateral ribs by a series of finger like slips on tho the ribs. It is named based on the shape of the muscles and muscular slips that have a saw tooth like appearance. Serratus in Latin means notched, and derives from the from the word “serra” which means a saw. |
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abdomen |
uncinate process of the pancreas |
hook |
The uncinate process of the pancreas is a hook shaped medial extension off the head of the pancreas. The name derives from the Latin word “uncus” which means hook. |
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antrum of the stomach |
cave |
The antrum is the distal chamber of the stamach that is open on the one end to the body of the stomach and almost closed on the other end but for the small opening of the pylorus. This configuration suggested to early anatomists a cave like structure deriving from the Greek word “antron” which means cave. |
pelvis |
pelvis |
basin |
The shape of the bony pelvis with its wide superior end and funnel like exit has a basin like form and hence it was named using the Latin term for basin which is pelvis. |
cornu of the uterus | horn | The cornu of the uterus is the region where the uterus transitions to the gracile fallopian tubes. The change in diamtere creates a shape that resembles two horns , and hence the name of this region of the uterus. “Cornu” in Latin means horn. | |
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vagina |
sheath |
The sheath like shape of the vagina in the basal collapsed state, composed of a relatively long transverse dimension and shert anteroposterior dimension was named after the LAtin term “vagina” which means sheath. |
sigmoid colon | “s” shaped | The sigmoid colon is named after its characteristic sigmoid shape. | |
upper limbs |
clavicle |
key |
The clavicle is also known as the collar bone. The name clavicle is derived from the Latin word “clavis” which means a key and the addition of “ula” reflects the diminutive form. The shape of the clavicle therefore supposedly reflects the shape of a small key. This shape is difficult to recognize but presumably more akin to the shape of ancient keys. |
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radius |
ray |
The radius is a long bone of the forearm. Radius in Latin means a ray or a radius spoke of a wheel. This description has been found in the writings of Galen |
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olecranon |
helmet |
The olecranon is the the most proximal portion of the ulna bone and it wraps around the condyles of the humerus. Its name derives fromm the Greek word olenokranon, the first part of which is “olene” meaning elbow, and the second part “kranos” means helmet. The helmet shape to the olecranon is the source of the use of this word. |
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scaphoid |
hollow |
The scaphoid is one of the small bones of the wrist. Scaphoid derives form the Greek word skaphe which means a skiff or anything similarly hollowed out. The distal surface of the scaphoid bone is hollowed or concave and hence its name. Scaphoid is also given to the hollowed out shape of the abdomen in extremely emaciated individuals. |
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navicular |
ship |
The navicular is also one of the small bones of the wrist which is shaped like a boat, deriving from the Latin word “navis ” (boat) and “cula” which means small, hence “small boat”. The navicular also is a bone in the foot positioned in the |
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pisiform |
pea |
The pisiform is another small boen of the proximal carpal row in the wrist. It is a sesamoid bone. Sesamoid means that it located within a tendon, and the word sesame means that it is shaped like a sesame seed. The pisiform is more pea shaped and is named accordingly since “pisum” is the Latin word for pea. |
lower limbs |
gracilis muscle |
gracile |
The gracilis muscle is a thin muscle on the medial aspect of the thighattached above to the pubic symphisis and below to the medial surface of the tibia. Its name derives from the LAtin term “gracilis” which means delicate and graceful. |
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tibia |
flute |
The tibia is the shin bone which is widened at the knee joint. “Tibia” is the Latin word for flute. |
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cuboids |
cube |
The cuboid bone is one of the larger tarsal bones which is cuboid in shape. It articulates with the calcaneus proximally and 4th and 5th metatarsals distally. Its name derives from the Greek word “kybos” which means a cube, and “eidos” which means resemble. It thus resembles a cube or square. |
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cuneiform |
wedge |
The three wedge shaped cuneiform bones of the foot form part of the distal tarsal row, articulating with the navicular proximally and the first, second, and third metatarsals distally. Their name derives from the French word cunéiforme, and from the Latin word “cuneus” meaning a wedge. Cuneiform was an ancient wedge shaped script that was used in Mesopotamia and Persia. |
tissues | alveolus of the lung | cavity | The alveolus is the biologic unit that allows for gas exchange in the lung. Its name derives from the Latin word “alveolus” which means a little trough or a little cavity. Alveoli are also found in the jaw and are sockets or cavities in which the roots of the teeth reside. |
acinus – gland | grape |
An acinus is the berry shaped structure of an exocrine gland that consists of a rosette of cells surrounding a duct. The shape is reminiscent of a grape and is appropriately named since “acinus” means grape in Latin. |
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cells | astrocytes | star |
Astrocytes are multifunctional cells found in the brain and spinal cord. The Greek word “astron” means star is used to reflect this characyteristic shape. |
columnar cells | column rectangle | Cells that are taller than they are wide are known as columnar cells since they look like columns or upright rectangles. The word column derives from the Latin word “columna”. These cells are found in many epithelia including the respiratory tract and the gastrointestinal tract. | |
cuboidal cells | cube | Cuboidal cells are cubes, with their height being about the same length as depth and width. Examples of cuboidal epithelia are found in the ovaries, renal tubules and the thyroid. The Greek for cube is “kybos” and since the cells are not exactly square “eidos” meaning resembling is added as a suffix “oidal” ie cuboidal. | |
squamous cells | fish scale |
Squamous cells are flat and broad and have a fissh scale appearance. Squamous epithelia are found on the skin, and in the esophagus. The Latin term “squama” means fish scale. |
More recent adjectives describing structure have focused on describing the shapes found in disease, clinical medicine and in imaging. Interesting terms such as sago spleen, nummular sputum, peau d’orange, spider naevi, arachnodactyly, leonine facies, tree in bud, apple core, double bubble, stack of coins, are established and evolving descriptors of changing shapes characteristic of certain diseases.
Below we have listed some of the anatomical structures that have been named according to their shape. There are many more that could be added. The extensive use of defining a structure by its shape reflects the importance applying shape to characterize structure.
Shapes of Major Structures |
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body part | |||
head | brain | oval | |
skull | skull AS. skulle = a bowl. | ||
spinal cord | tapering tube with cauda equina at the end of the spinal cord reminiscent of a horses tail | ||
neck | thyroid | thyroid Gr. thyreos = a shield, and eidos = resemblance | |
chest | heart | overall spheroidal with right ventricle being triangular and left ventricle oval | |
coronary arteries | L. coronarius = garland = crown Gr. korone = crown | ||
lungs | funnel, conical, to pyramidal. The inverted chest appears like a wine glass, or sometimes bell shaped | ||
tracheobronchial tree | asymmetric arborisng pattern, irregular dichotomous branching pattern | ||
xiphoid process | xiphoid Gr. xiphos = sword, and eidos = resemblance | ||
rhomboid muscle | rhomboid Gr. rhombus = a lozenge, and eidos = resemblance. Rhomboid denotes a parallelogram with oblique angles and unequal sides. | ||
quadratus lumborum | quadratus L. quadratus = a square in shape. | ||
serratus anterior | serratus L. serratus = notched, from serra = a saw. | ||
abdomen | liver | pyramidal | |
biliary tree | asymmetric arborisng pattern, irregular dichotomous branching pattern | ||
gallbladder | pyriform L. pirum = a pear, and forma = shape or form. | ||
pancreas | uncinate process – uncus L. uncus = a hook | ||
spleen | spheroidal | ||
esophagus | tube like | ||
stomach | antrum Gr. antron = a cave. | ||
duodenum | C shaped | ||
small bowel | tube like | ||
colon | tube like | ||
kidney | reniform shape, or bean shaped | ||
pelvis | pelvis | pelvis L. pelvis = basin. The pelvis is a basin-like structure. | |
urinary bladder | round to ovoid depending on volume of urine | ||
uterus | pyriform L. pirum = a pear, and forma = shape or form. | ||
ovary | almond shaped | ||
vagina | vagina L vagina = a sheath. | ||
spine | gentle sigmoid curve Gr. sigma = the Greek letter S, and eidos = resemblance. | ||
upper limbs | clavicle | clavicle L. clavicula, diminutive of clavis = a key. | |
radius | radius L. radius = spoke of a wheel. Found in the writings of Galen | ||
olecranon | olecranon Gr. olenokranon, from olene = elbow, and kranos = helmet. | ||
scaphoid | scaphoid Gr. skaphe = a skiff or anything similarly hollowed out, and eidos = resemblance. | ||
navicular | navicular L. navis = boat, and the diminutive suffix -cula | ||
pisiform | pisiform L. pisum = a pea shaped | ||
lower limbs | gracilis | Latin “gracilis” delicate, graceful | |
tibia | tibia L. tibia = a flute; | ||
cuboids | cuboid Gr. kybos = a cube, and eidos = resemblance. square bone | ||
cuneiform | “wedge shaped,” from Fr. cunéiforme, from L. cuneus “a wedge,” | ||
tissues | |||
liver cords | cells lined up in cords like spokes of a wheel | ||
liver lobule | hexagon | ||
secondary lobule of the lung | polyhedral | ||
alveolus | Latin for a trough or a cavity | ||
acinus – gland | rosette of cells centered around a duct and resembling a grape shaped structure | ||
crypts of Lieberkuhn colon | test tube | ||
cells | |||
astrocytes | star shaped | ||
columnar cells | rectangular | ||
cuboidal cells | cube like – almost square | ||
squamous cells | squama is Latin for fish scale | ||
liver cells | polyhedral | ||
red cells | biconcave discs | ||
smooth muscle cells | spindle shaped | ||
fibroblasts | spindle shaped | ||
Sphericals in the Round
13440b liver hepatic nucleus cytoplasm polygonal shape hepatocytes Kuppfer cells TCV concepts histology cytology Courtesy Barbara Banner MD |
Small Cell Carcinoma of the lung Pleural fluid cytology preparation showing group of dark blue cells with scant cytoplasm consistent with small cell carcinoma. Courtesy Armando Fraire MD. 32825 code lung pulmonary pleura neoplasm malignant malignancy primary lung small cell carcinoma cytopathology |
Units to unity – a blastocyst is formed
13275b01i01e01b03 Davidoff oneness |
47006 testis testes epididymis epididymal cysts through transmission backwall enhancement parts anatomy USscan Davidoff MD |
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72458 splenic vein spleen pancreas shape sperm shape color flow doppler force flow direction normal blood flow SMV superior mesenteric vein confluens normal anatomy USscan Davidoff MD |
47735 elderly man with left testicular pain testis hydrocele under pressure fx spherical round reduced blood flow shape USscan Davidoff MD |
49671c01 abdomen fat adipose tissue storage rotund belly umbilicus belly button surface rendering CTscan Davidoff MD |
Educational Exercise – Approach to the Diagnosis of Lung Nodules
Half a Round
16127 Courtesy Ashley Davidoff MD code breast TRAM imaging radiology CTscan post mammoplasty |
46569c02 spleen shape normal anatomy Davidoff art Davidoff MD |
16045 kidney renal nephrolithiasis fx calcifications calcified fluid fluid level dx milk of calcium urine CTscan Davidoff MD 16046b01 16046 |
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Almost Round
Ovals
Almond Shape
72120c01 brain cerebrum cerebral normal amygdala amygdaloid emotion shape almond normal anatomy Davidoff MD |
71689 ovary follicles normal anatomy function physiology TCV Applied Biology Cycle time USscan Davidoff MD |
42707b03b45b05 breast mammary gland ducts ductules extralobular terminal duct intralobular terminal duct terminal ductule acini acinus alveoli alveolus surface epithelium luminal cell myoepithelial cell lobule terminal ductal lobular unit TDLU drawing anatomy histology normal Courtesy Ashley Davidoff MD |
47002c01 testis testes normal size blood flow normal anatomy USscan Davidoff MD |
Fig. 1 Fig. 2 Smooth Margins Well Circumscribed Benign Mass |
A mammogram on the left shows an ovoid mass which is hypoechoic with smooth margins. These findings are characteristic of a benign lesion and could represent a cyst or fibroadenoma as the most likely causes. The US on the right shows a well circumscribed solid mass characteristic of an adenoma. Courtesy Priscilla Slanetz MD MPH 42913 42914 |
Flask Shapes
47668c01 uterus hyperemic endometrium soft tissue in vagina patient during menstruation menses normal physiology shape fornix flask shaped cycles time CTscan Davidoff MD |
Tear Drop and Pear
02504pb03 water droplets window glass teardrop shape Davidoff photography water |
17084 gallbladder + fx distended + wall edema dx distal common bile duct stone imaging radiology MRI |
85370pb01.8s pear fruit food gallbladder shape Davidoff photography Davidoff art Copyright 2008 |
46749 hx young female presentingwith vaginal bleeding for 2 weeks, hematocrit of 25, left lower quadrant pain, and LLQ mass HCG 7000 fx uterus endometrial stripe ovary fx no intrauterine pregnancy Davidoff MD |
38481c01 brain caudate nucleus caudate body basal ganglion basal ganglia normal anatomy applied biology CTscan Davidoff MD 38484c01 |
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46317 uterus endometrium shape size normal anatomy USscan Davidoff MD |
60644 elderly female shape pear shaped body normal abdomen chest anatomy applied biology TCV the common vein surface rendering CTscan Davidoff MD |
Waterbottle
22265 chest heart cardiac pericardium enlarged fx waterbottle shape dx pericardial effusion left atrial enlargement CXR plain film Davidoff MD |
47677c03 candy cane shape aorta aortic valve sinotubular junction ascending aorta aortic arch descending aorta normal |
Bean Shape
Bean
47021 kidney size character echogenicity fat shape normal anatomy USscan Davidoff MD |
Sigmoid Curve
46834 bone lumbar spine sacrum shape sigmoid s-shape normal anatomy Davidoff Art Davidoff MD |
Tubular Shapes
76764c.81s elderly female gallbladder elongated sausage shape zuchini shape transverse dimension 4.5 cms longitudinal dimension 12.5cms aging gallbladder vs enlarged? food in the body CTscan Courtesy Ashley DAvidoff MD Davidoff art Davidoff photography copyright 2008 |
01714c03 Courtesy Ashley Davidoff MD |
Serpiginous
83076.800 eels biology serpiginous snake like shape anatomy the common vein applied biology zoology applied anatomy Courtesy Ashley Davidoff MD |
22014b spleen + fx irregular scar wedge defect calcification + dx chronic splenic infarction + imaging radiology CTscan splenic artery calcified calcification serpigenous atherosclerosis abdomen aorta AAA |
04953 Courtesy Ashley Davidoff MD pancreas blood supply splenic artery hepatic artery capillary phase normal anatomy angiogram spleen liver hepatic artery angiogram |
39829 Courtesy Ashley Davidoff MD code pancreas 39k pancreatic artery blood supply dorsal pancreatic artery pancreatica magna transverse pancreatic artery splenic artery imaging radiology angiography |
49708 66 F Russian uterus endometrial stripe shadowing with regularity fibroid calcified shadowing device dx IUD Lippy’s loop comprehension perception shape USscan radiologists and detectives diagnosis Davidoff MD 49711 49711c01 |
49711.800 49708 66 F Russian uterus endometrial stripe serpiginous structure devices dx IUD Lippy’s loop comprehension perception shape MRI radiologists and detectives diagnosis Davidoff MD |
49711c01 49711 49708 66 F Russian uterus endometrial stripe serpiginous structure devices dx IUD Lippy’s loop comprehension perception shape MRI T1 fat suppression USscan radiologists and detectives diagnosis Davidoff MD Courtesy Rolina Levin MD |
Tubular
46713b02 bone foot feet metatarsals normal anatomy tubular shape applied biology X-ray plain film Davidoff MD |
Linear Shapes
47029 muscle normal gastrocnemius linear fibers normal anatomy USscan Davidof f MD |
The straight line and the hyperemia are characteristis features radiation induced change
22975 Courtesy Ashley Davidoff MD |
49477 cervical spine bone C5 fx bony defect shape straight iatrogenic dx anterior decompression of disc herniation CTscan Davidoff MD |
Branching
13513 breast lobule terminal duct gland normal histology DB |
Snow covered red berries – the contrats between the cherry red and the snow white make them look delicious. Davidoff . 02160p |
Tortuous
46786c01 heart cardiac pulmonary arteries arteries fx enlarged fx corkscrew interstitial edema LAE left atrial enlargement dx cardiac failure cardiac congestion CTscan Davidoff MD |
Triangular
46713b01b bone foot feet phalanges interphalangeal joints metatarsophalangeal joints normal anatomy applied biology X-ray plain film Davidoff MD |
Bat Wing – Two Triangles
49451c01 heart cardiac batwing distribution afx interstitial and alveolar edema air bronchogram shape pacemaker dx acute congestive cardiac failure CHF bilateral effusions CTscan Davidoff MD 49448 49451 49451c01 |
Star shape
83062.800 starfish shape stellate structure the common vein anatomy applied biology Courtsey Ashley Davidoff MD |
46361 lung fx spiculated nodule dx carcinoma CTscan Courtesy Ashley Davidoff MD |
Stellate Mass in the Right Breast – Carcinoma |
This is an MRI of the right breast of a 78 year old patient with a remote history of invasive lobular carcinoma. The finding on the MRI is characterized by an enhancing spiculated mass. Recurrent carcinoma was present at pathology. Courtesy Priscilla Slanetz MD MPH 42977 |
46772c01.800 spleen splenic fx wedge shaped defects dx emboli dx systemic embolization dx splenic infarcts CTscan Davidoff MD |
47368c01 spine bone thoracic spine osteopenia osteoporosis fx wedge compression fractures shape mechanical forces kyphosis CXR plain film X-ray Davidoff MD |
Rectangles
The Columnar Mucosa |
The mucosa consists of a simple columnar epithelium which means it is a single layer of epithelial cells that are each shaped like a column – similar to a tall rectangular block of apartments.
Courtesy Ashley Davidoff MD 32347 |
An artistic rendition of columnar epithelium |
An artistic rendition of a simple columnar epithelium (left) is compared to the columnar appearance of a block of apartments. The photograph taken from theKennedy Museum in Boston frames the columnar shaped apartments. (right)
Courtesy Ashley Davidoff MD
32347b10 02549p01 |
46713c02.800 bone foot feet tarsals tarsal bones cuneiform cuboid talus navicular calcaneus tibia fibula X-ray plain film Davidoff MD |
46616 bone hand carpals wrist triquetral lunate scaphoid hamate capitate trapezoid trapezium radius ulna normal anatomy normal CTscan Davidoff MD
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46613 bone hand carpals wrist triquetral lunate scaphoid hamate capitate trapezoid trapezium radius ulna normal anatomy normal CTscan Davidoff MD |
46613c01.800 bone hand carpals wrist hook of hamate shape anatomy normal CTscan Davidoff MD |
39861c06 pancreas 12 year old female uncinate process head neck body tail CTscan normal anatomy applied biology Davidoff MD |
46472c01.800 shape stomach gastric folds tree trunk surface area anatom physiology Davidoff MD |
28643c01.800 rectum colon mucosal folds normal tree MRI T2 weighted nomal anatomy Davidoff |
12860 Normal Colon Mucosa. This is a low power photo micrograph of normal colon mucosa illustrating extremely orderly, rigid, “test tube”-like arrangement of the straight tubular glands which comprise the colonic crypts. colon large bowel mucosa submucosa crypts histology Courtesy Barbara Banner MD 5star |
44953c04.800 colon large bowel chyme feces stool mucus normal function physiology water absorbtion electrolyte mucus secretion mucus drawing Davidoff art Courtesy Ashley Davidoff MD |
Pectinate – Comb |
Davidoff photography
46361 lung fx spiculated nodule dx carcinoma CTscan Courtesy Ashley Davidoff MD |
46361b01 lung fx spiculated nodule dx carcinoma CTscan Courtesy Ashley Davidoff MD |
Spiculated Mass in the Right Breast |
This is an MRI of the right breast of a 78 year old patient with a remote history of invasive lobular carcinoma. The finding on the MRI is characterized by an enhancing spiculated mass. Recurrent carcinoma was present at pathology. Courtesy Priscilla Slanetz MD MPH 42977 |
Jagged
41882b01 Courtesy Ashley Davidoff MD medical students code head elbow hemarthroses radia radius sail sign fracture |
41882co5b.8s Courtesy Ashley Davidoff MD medical students code head elbow hemarthroses radia radius sail sign fracture |
46304b04 bone skull suture shape CTscan Davidoff art |
46663c01.800 46663c01 lung chest thymus baby adult mediastinum normal anatomy applied biology CXR chest X-ray plain film time Davidoff MD |
46592c01 uterus OB pregnancy fetal demise spontaneous abortion shape size position heart rate USscan Davidoff MD death |
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GUT
70371c03 kidney calyces fx ureteric stricture fx blunting of the calyces calyceal blunting forniceal angle acute vs obtuse loss of the forniceal angle fornix hydronephrosis retrograde contrast injection normal anatomy IVP Davidoff MD 70371c01 |
73656.800 pelvis lymph nodes popcorn calcification right total hip replacement X-ray plain film of the pelvis Courtesy Ashley Davidoff MD |
75805c01.800 15 year old with chest pain spine scoliosis Harrington rods bone shape thoracic spine CXR plain film Courtesy Ashley Davidoff MD |