SEPIA – A STUDY at CHRC

Last modified on September 8th, 2012

shetye sepia july image

A deep look at Sepia based on the provings, so as to understand it beyond the usual Sepia picture.

 

Sepia in Nature

It is the function of creative man to perceive and to connect the seemingly unconnected1

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This special study is our effort to connect the seemingly unconnected aspects of Sepia. It is a study, which encompasses its study in nature, its in-depth analytical study of proving notes in homoeopathic literature, their correlation to each other and then utilizing that understanding for the benefit of curing patients. So in a way, that is the lineage in which you should read this study to benefit most from this presentation.

Through this special study it is our endeavor to illustrate a true and fascinating method of studying proving, so that an otherwise dull and dry reading gets converted into an adventure, into knowing what is the essential of Sepia as a remedy, and then you can emulate the same when you study other remedies. It is very rare that students are exposed to this kind of a study, especially in this manner. It is usual to find students of homoeopathy mugging up the keynotes of Sepia from probably the third or fourth generation homoeopaths and in that process form a picture of the remedy. The pitfall is that out of hundred Sepia patients that destiny throws at you, you are able to recognize only one, i.e. the picture that you have formed. The other presentations will simply fly out of the butterfly net of your senses. But if you study the provings in this meaningful way, then the portrait of the remedy comes forth. You understand its essentials. In a way, you understand the remedy Sepia, but you do not have any picture of it.

It is our humble suggestion that you read this study from the beginning to its conclusion. Do not start reading from anywhere in the middle for it will not lead you anywhere. The purpose of sharing with you is to make you think, but thinking is the hardest work there is, which is probably why so few people engage in it. 2

But think you must, for the loss that you will incur having those fixed remedy pictures in your mind is immense! For that you need to change, for ‘things do not change; we change3

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Sepia in nature …

When is a fish not a fish? Em! Okay, er! Em! It’s not a funny joke, actually it’s just a fact… cuttlefish are not fish!

One of the most mystifying creatures of the deep, the cuttlefish has abilities and even senses that are alien to us humans. This versatile animal can change its appearance at will, mimicking floating vegetation or rocks on the seafloor. Yet when danger looms, the animal can jet away at great speeds, shooting out a smoke screen of ink or using its ink to create decoys of itself. How does the cuttlefish accomplish all this? Below, take a look at select parts of this octopus relative and learn more about how this master of deception and disguise functions. — Rima Chaddha

Cuttlefish are much more closely related to garden slugs and snails than they are to fish. They belong to the same group of animals as the octopuses, squid and nautilus and like a snail they are all molluscs. Cuttlefish are unique within this group, in that they have a gas filled bone within their bodies, which allows them to be buoyant. You may have seen cuttlebones before, sticking out from the bars on a budgie’s cage? The bone is within the body part of the animal called the mantle and attached to the mantle is a head with eight arms and two feeding tentacles. The cuttlefish is an ambush predator and a master of disguise. Its skin is covered with special cells called chromatophores, iridophores and leucophores that reflect light in many different colours enabling the cuttlefish to blend into its background almost perfectly. Some say it’s like a chameleon but it is far superior in its ability to change colour and even the texture of its skin! A cuttlefish will steadily, using its camouflage, sneak up on its prey. Their preferred diet is crabs or fish, and when it is close enough it opens apart its eight arms and out shoot two deceptively long feeding tentacles. On the end of each is a pad covered with suckers that grasp hold of the prey and quickly pull it close to the cuttlefish’s mouth that looks like a parrot’s beak. The scientific name for a cuttlefish is Sepia. In years gone by sepia ink, which is derived from cuttlefish, was used by artists for their paintings. For the cuttlefish this ink is a decoy, a means of escape from predators. If a large fish were to attack a cuttlefish it would eject a cloud of dark brown, almost black ink towards its attacker! The predator would get a mouthful of ink that tastes nasty and coats its nostrils. Meanwhile the cuttlefish is hidden from view and propels itself away backwards by using its own jet propulsion system, its siphon. The eggs of cuttlefish are laid in clumps together and are often coated in ink from the mother; this serves as camouflage for the eggs. They hatch at a much further developed stage than an octopus does and immediately start feeding on suitably small shrimp.

Anatomy of a Cuttlefish

 

Arms and Tentacles:

 Both the arm (top) and the tentacle (bottom) are lined with suckers.

Unlike the octopus’s arms, which that animal often uses to move and carry objects, the cuttlefish’s eight arms are specialized for grasping prey after the cuttlefish captures it with its two elongated tentacles. When potential food sources such as fish or shrimp swim near, the cuttlefish can alter the color of its skin while waving its arms in a mesmerizing display. This lures potential prey to within reach of the cuttlefish’s tentacles, which can then shoot rapidly from a pocket at the base of the arms to grab the prey. The arms are also important for a defensive display in which the cuttlefish sucks water into its mantle cavity and spreads its arms in order to appear larger to its potential opponent.

Beak:

The dark area seen here is part of the cuttlefish’s strong, sharp beak, the rest of which lies behind the buccal (cheek) mass.

The cuttlefish’s beak looks much like a parrot’s beak, but it is hard to see because it lies buried at the base of the animal’s eight arms. The cuttlefish can use its beak to help subdue prey and to defend itself against predators and rivals by biting. Like cuttlebones, beaks differ among species, and their remains enable scientists to identify which cuttlefish species have lived and died in certain areas.

Brain:

 Unlike in mammals, the cuttlefish’s optic lobes are located outside of its cartilage brain casing. Above is a transverse cross-section of the cuttlefish brain.

The cuttlefish has one of the largest brain-to-body size ratios of any invertebrate, perhaps even larger than that of the octopus. The cuttlefish brain can handle input from a variety of senses, including sight, smell, and even “sound” (in the form of pressure waves). According to some scientists studying cephalopod learning, the cuttlefish can use visual clues to solve mazes, making it as intelligent as the octopus or land animals like the pigeon.

Cuttlebone:

The rigid cuttlebone allows the cuttlefish to keep a constant internal volume, unlike a fish’s swim bladder, which expands and contracts with depth.

A defining characteristic of the cuttlefish, is an internal structure called the cuttlebone, which is composed of calcium carbonate and is porous, to provide the cuttlefish with buoyancy making it functionally similar to swim bladders in fish. Cuttlebones have both gas-filled forward chambers and water-filled rear chambers. Changing the gas-to-liquid ratio in the chambered cuttlebone can regulate buoyancy. Each species has a distinct shape, size, and pattern of ridges or texture on the bone. Although it can take hours for the cuttlefish to change its density through its cuttlebone alone, the animal can control its positioning in the water with the aid of its specialized fins and mantle. Cuttlebones are traditionally used by jewelers and silversmiths as moulds for casting small objects. They are probably better known today as the tough material given to parakeets and other cage birds as a source of nutritional and dietary calcium supplement. The cuttlebone is unique to cuttlefish, one of the features contrasting them with their squid relatives.

Eye:

 A cuttlefish looks on through its large eye. Note the smoothly curving W shape of its pupil.

Although color-blind, the cuttlefish has two of the most highly developed eyes in the animal kingdom. The organogenesis of cephalopod eyes differs fundamentally from that of vertebrates like humans. Superficial similarities between cephalopod and vertebrate eyes are examples of convergent evolution. It can see well in low light and can also detect polarized light, enhancing its perception of contrast. They have two spots of concentrated sensor cells on their retina (known as fovea), one to look more forward, and one to look more backwards. The lenses, instead of being reshaped as they are in humans, are instead pulled around by reshaping the entire eye in order to change focus. Also, the cuttlefish’s eyes are very large in proportion to its body and may increase image magnification upon the retina, while the distinct “W”-shaped pupil helps control the intensity of light entering the eye.

Fin:

The cuttlefish’s undulating fins can move more freely than fish fins because they lack both bony and cartilaginous supports.

While the cuttlefish uses its mantle cavity for jet propulsion, it relies on its specialized fins for basic mobility and maintaining consistent speeds. Resembling a short, flouncy skirt, the muscular fin can maneuver the cuttlefish in nearly any direction: backward, forward, even in circles, with such movement being more energetically efficient than jetting. The movement and positioning of the fins also come into play when smaller males in certain species mimic the opposite sex in order to swim past larger males and gain access to females.

Gills, Hearts, and Blood:

 The cuttlefish’s pair of orange gills (one appears above) filter oxygen from seawater and deliver it to the bloodstream.

The cuttlefish has three hearts, with two pumping blood to its large gills and one circulating the oxygenated blood to the rest of its body. The blood itself is blue-green in color because it possesses hemocyanin, a copper-containing protein typical in cephalopods—cuttlefish, octopuses, and squids—that transports oxygen throughout their bodies. (Mammals’ red blood uses the iron-rich protein hemoglobin to do the same thing.)

Ink Sac:

The dark ink sac can be seen clearly in this image of part of the mantle cavity.

Like its close relatives, the squid and octopus, the cuttlefish is equipped with an ink sac that can help it make a last-ditch escape from predators that hunt by sight. The cuttlefish can eject its ink in two ways. One way creates a smoke screen behind which the animal can escape perceived danger. In the other, the released ink takes the form of “pseudomorphs,” or bubbles of ink surrounded by mucus that are roughly the size of the cuttlefish and can act as decoys. The ink, which contains dopamine and L-DOPA, a precursor to dopamine, may also temporarily paralyze the sense of smell in predators that hunt by scent.

This ink was formerly an important dye, called sepia. Today artificial dyes have replaced natural sepia. However, there is a modern resurgence of Jewish people using the ink for the techelet dye on their Tallit strings.

Lateral Lines:

 In this scanning electron microscope image, “L1” and “L2” mark the lateral lines, while “A” indicates the cuttlefish’s arms.

Although the cuttlefish can’t hear, it can detect sound in the form of pressure waves using its lateral epidermal lines. Seen here via a scanning electron microscope, these lines consist of thousands of hair cells. The cells seem to be especially sensitive to sounds ranging between 75 and 100 Hz, with 100 Hz being similar in frequency to a typical automobile engine running at maximum speed. One physiological study showed that in total darkness, healthy cuttlefish could capture about 50 percent of available prey, whereas cuttlefish with compromised epidermal lines could capture only about 30 percent. The hair cells can also be used in defense, allowing cuttlefish to detect the movement of possible predators.

Mantle:

In this view of the inside of an adult cuttlefish’s mantle, the orange gills and dark ink sac are clearly visible.

The multifunctional mantle cavity is important for cuttlefish locomotion, giving the animal its characteristic jet propulsion ability. To jet away from a predator, the cuttlefish sucks water into the cavity and then uses its strong mantle muscles to expel the liquid with great force, driving the cuttlefish in the opposite direction. Water exits through a movable part called the funnel, which controls the angle of the spray. The mantle cavity also aids in respiration by bringing water to the animal’s gills, which in turn filters oxygen into its bloodstream.

Reproductive Organs:

 Males and females face each other and embrace while mating.

During mating, the male uses a modified arm to transfer his genetic material into the female’s buccal area. This is the part of the female’s mouth that stores the male’s spermatophores (sperm packaged in special containers) until she is ready to use them to fertilize her eggs. Because the female often accepts more than one mate, the male sometimes sprays water through his mantle funnel into the female’s buccal area to wash out other males’ spermatophores. When she is ready to deposit her eggs in safe locations such as under rocks or in discarded shells, the female uses her arms to wipe the stored spermatophores onto each egg.

Skin:

Stripes ripple across a cuttlefish’s skin.

An infant cuttlefish protects itself with camouflage. Cuttlefish are sometimes called the chameleon of the sea because of their remarkable ability to rapidly alter their skin colour at will. When it comes to changing one’s skin color, the cuttlefish outshines even the chameleon, in both degree and kind. Its skin possesses up to 200 chromatophores (pigment cells) per square millimeter, allowing the animal to pattern itself with a variety of colors. Their skin flashes a fast-changing pattern as communication to other cuttlefish and to camouflage them from predators. When vying for a mate, for example, some male cuttlefish will showcase “intense zebra displays”. This color-changing function is produced by groups of red, yellow, brown, and black pigmented chromatophores above a layer of reflective iridophores and leucophores, with up to 200 of these specialized pigment cells per square millimeter. The pigmented chromatophores have a sac of pigment and a large membrane that is folded when retracted. There are 6-20 small muscle cells on the sides, which can contract to squash the elastic sac into a disc against the skin. Yellow chromatophores (xanthophores) are closest to the surface of the skin, red and orange are below (erythrophores), and brown or black are just above the iridophore layer (melanophores). The iridophores reflect blue and green light. Iridophores are plates of chitin or protein, which can reflect the environment around a cuttlefish. They are responsible for the metallic blues, greens, golds, and silvers often seen on cuttlefish. All of these cells can be used in combinations. For example, orange is produced by red and yellow chromatophores, while purple can be created by a red chromatophore and an iridophore. The cuttlefish can also use an iridophore and a yellow chromatophore to produce a brighter green. As well as being able to influence the color of the light that reflects off their skin, cuttlefish can also affect the light’s polarization, which can be used to signal to other marine animals, many of which can also sense polarization. The cuttlefish can also use muscles in its dermis to change its skin texture from smooth to rough, enabling it to hide easily among rocks on the seafloor, for instance.

Blood: The blood of a cuttlefish is an unusual shade of green-blue because it uses the copper-containing protein hemocyanin to carry oxygen instead of the red iron-containing protein hemoglobin that is found in mammals. The blood is pumped by three separate hearts, two of which are used for pumping blood to the cuttlefish’s pair of gills (one heart for each gill), and the third for pumping blood around the rest of the body. A cuttlefish’s heart must pump a higher blood flow than most other animals because hemocyanin is substantially less capable of carrying oxygen than hemoglobin.

Toxicity: Recently it has been discovered that the Pfeffer’s Flamboyant Cuttlefish’s muscles contain a highly toxic compound that is yet to be identified. Research by Mark Norman with the Museum Victoria in Queensland, Australia has shown the toxin to be as lethal as that of a fellow cephalopod, the Blue-ringed octopus.

Cuttlefish as food: Cuttlefish are caught for food in the Mediterranean and East Asia. Although squid is more popular as a restaurant dish all over the world, in East Asia dried cuttlefish is a highly popular snack food.

Summary:

As you have gone through the above notes pay attention to the section on eyesight, movement, and the survival characteristics of Sepia; of course not to over look the ink sac, as it is this ink that was used in the proving. We leave it to you to draw your own conclusions. If you understand it, well you will see the correlation coming through in the proving and this also illustrates the principle that in a part is hidden the essence of the whole.

 

Sepia – Essentials emerging through homoeopathic Proving

Learning is not attained by chance; it must be sought for with ardor and attended to with diligence.” … Abigail Adams

Sepia – a study from source books …

We have studied Sepia in nature now let us study from the source books the simple language of expression of this remedy. When we say the source books we mean The Chronic Diseases10, Materia Medica Pura8, Dr. Hering’s Guiding Symptomsand Dr. Allen’s Encyclopedia10.

Studying the sensation and function and understanding the verb takes one deeper in understanding the essentials of a remedy. It is only the study of the source that will take you to the understanding of the very essential of which the remedy is made, and it is this very essential that a physician narrows down to when he views, listens to and remarks by his other senses in silence when receiving a case.

That which is characteristic about the remedy in a proving, will, as when receiving a case, come in a more striking, singular, uncommon and peculiar (characteristic) way to the physician studying the proving. It is only through the study of a proving that one gets to the essential of the remedy and thereafter correlates the same after case receiving.

Let us go through the different headings and see the essentials coming through. We will like you to especially pay attention to the italic bold which we have made to illustrate our point of view. (Italic bold ours)

Mind:

Extreme loathing of life; he felt as if he could not any longer bear this miserable existence, and as if he would pine away unless he made away with himself’ …10

Vexatious occurrences from the past times keeps recurring to themselves, which makes him so irritable that he gets quite besides himself, and cannot contain himself’ …10

She is filled with concern about her health; thinks she will have consumption and soon die’ …10

Received news of slight illness of a friend, which caused great mental depression (at other time it would not have made the slightest impression), the condition grew on me until I became so nervous that I felt that, unless I held onto something, I should scream’…10

He felt oppressed in sultry weather, but becomes more cheerful when it thunders and lightens’ … 10

I feel very cross, and only lack a reasonable cause to vent my ill humor’…10

When spoken to, every idea flies from me, …’10

Head:

Pressure, twitches and pecking, with heat in the head, as if everything was pressing out of the forehead and the eyes,’ …10

Headache, as if pressing form within outwards’. 10

Headache as if eyes would fall out’. 10

Violent headache as if head would burst. 1

Constrictive headaches’. 10

Pressive contractive pain in the upper part of the head’. 1

‘… shooting above the left orbit outwardly with contraction of the eye’. 1

Pain in the occiput, mostly at night, and worst when lying upon it, as if hollow, and as if festering underneath, externally and internally, relieved by pressing upon it with the hand.’… 1

Violent shooting above the left orbit outwardly, with total contraction of the eyes…10

Headache every Saturday for several years; boring pain from within outward, accompanied by nausea and vomiting; > binding head up tightly and after a good sleep. …9

Eye:

The eyelids are painful on awaking as if too heavy, and as if he could not hold them open. 10

Pressure above the eyes, when he goes about in bright daylight. 10

The candle-light troubles the eyes, when reading and writing, through a contractive sensation. 1

Ear:

Drawing shooting pain in the internal ear, proceeding outwardly. 1

Pressing outwardly in the ear, when pressing during a stool. 10

Face:

Tension and contraction of the skin of the face, especially of the forehead. 1

Pain in the submaxillary glands per se, as if they were being squeezed; …10

Urinary Organs:

Pressure upon the bladder, in the morning, and urging to urinate, but urine only comes after several minutes. 1

Constant urging to urinate, with painful forcing in the pelvis in the morning. 10

He has to urinate two or three times an hour; there is a bearing down on the bladder, …10

Feeling as if bladder were full and contents would fall out over pubes, with constant desire to push them back.9

Pressure on bladder; …9

Frequent and strong urging to urinate, with painful bearing down in pelvis, in morning; sensation referred to neck of bladder; must rise frequently at night. 3

Constant pressure on bladder with urgent inclination to pass water; sensation as if bladder and urinary organs would be pressed out, > by standing or sitting with legs crossed or by lying down; if desire to pass water is not immediately complied with, urine passes involuntarily; …9

sensation of enlargement of bladder (subjective) which seems to fall from side to side; menses appear regularly but very painful, with bearing down; discharge is profuse, blood light-red without clots; pains resemble labor pains, is obliged to brace her feet; this condition lasts two days, after which soreness reappears in left side mostly;…9

Respiratory organs and chest:

Intense pressure on the chest, in the evening in bed. 1

Much expectoration of pus, with severe coughing, with great oppression of the chest and rattling; the least movement takes away her breath and she feels all gone10

Oppression of chest.9

Sensation of emptiness in chest.9

Contraction and oppression of the chest, with stitches therein on deep breathing,… 3

Heart:

All the time I had violent palpitation of the heart, as though it would force its way through the thoracic wall; …10

Throat:

Pressure in the throat, even when the neck is covered in the loosest manner.10

Pressure in the throat, in the region of the tonsils, as if the cravat was tied too tightly. 1

Constrictive pressive throat-ache, close above and on the larynx. 10

Painful contraction and pressure in the throat. 1

G I T:

Sensation of emptiness in the stomach. 1

Pressure in the stomach after eating and when touching it. 1

Pressure in the pit of the stomach going off through a fermenting movement downward10

Sensation of fullness in the hepatic region. 1

Violent squeezing in the hepatic region, diminished by eructation and the emission of flatus. 10

Pressure in the abdomen, going off after an evacuation. 1

Undulating pressure pain in the right inguinal region, from within outward. 1

Pain in the abdomen, in the morning, quite down in the pelvis, pressing outwardly, winding and contracting. 1

Sensation of emptiness in the abdomen. 1

Rectum:

Sore pain in the rectum, chiefly between stools; it feels like a pressing out of the same 10

In the rectum, contractive pain, extending into the vagina10

Contractive pain in the rectum, extending from there into the perineum and into the vagina. 1

Frequent painful contraction in the anus.10

Sensation of squeezing in the anus, going off after fermentation in the abdomen.10

Protrusion of the rectum 10

Prolapse of the rectum. 10

Bearing down on the anus in the afternoon, soon after 10

Nausea as if viscera were turning inside out; inclination to vomit in morning when rinsing mouth.9

Peculiar faint, sinking emptiness or goneness at pit of stomach. 3

Painful sensation of emptiness in stomach and abdomen. 3

In abdomen: sensation of emptiness; … drawing tensive pressure; bearing down with menses; feeling of crowding and pressing downward; pressure as if everything would issue through vulva; …9

Feeling of bearing down of all pelvic organs. 3

Bearing down in pelvic region, with dragging pain from sacrum; pain extending into loins and down thighs. 9

Spasmodic contractions in abdomen, with terrible bearing down. 3

Constrictive pain in rectum extending to perineum and into vagina; pain in rectum on going to stool, persists a long time after sitting down, and finally an imperfect stool is voided, with sore, smarting pain, weight in anus, like a constant drag. 3

Distress in the pelvis, with the sick feeling, at 9 A.M., increasing during the forenoon; waked from a nap, at 4 P.M., with the distress aggravated and feeling somewhat gloomy, but battling against it; after supper, at 6 P.M., all my bad feelings left me; at 9 P.M., the bearing down feeling in the abdomen returned. At 9 A.M., the dragging and pressing sensation in the abdomen returned; pressure as though the contents would issue through the genital organs; pressing outwards in the hypogastric region, as if the bladder would fall out over the os pubis, partially relieved by hard pressurePressure downwards, as if the uterus would issue through the vulva; … at 9 A.M suddenly ill, with the bearing-down feeling greatly increased in the abdomen… Bearing down sensation, with the menses. Feeling of crowding and pressing downwards. Downward pressure in abdomen; the only way in which I could fall asleep was by assuming the knee-elbow position for a time, causing slight eructation, relief, and sleep. In the afternoon pressure in the uterus, as if everything would issue through the vulva10

Griping in the bowels, with sensation as if they would turn inside out, 4

Sensation of emptiness in the abdomen, 4

Emptiness and lax feeling in the abdomen, after stool, 4

Severe pelvic pain, commencing in the sacrum, passing forward and down to the right knee, at 7.30 A.M.; the only relief I found was pressing against something hard, which relieved all the pain, but by crossing my limbs the pelvic pain was relieved, but the pain in the knee was much aggravated. 4

About the author

Prasad Shetye & Falguni Khariwala

Prasad Shetye & Falguni Khariwala

Dr. Prasad Shetye has been a consulting Classical Homoeopath for 14 years. His ability to dream resulted in the birth of the “Classical Homoeopathic Research Centre©” (CHRC) and that of Nyanga©” the ‘educational trust to disseminate and propagate advanced studies in Classical Homoeopathy’.  He teaches in Bombay, Pune, Goa and Nasik. At CHRC with sister Dr. Falguni, he is intensely involved in teaching a training program designed for doctors and interns in India and abroad. He and Dr. Falguni edit ’Homoeopathy First’ the newsletter of Classical Homoeopathic Research Centre© (CHRC). He is dedicated to ‘Classical Homoeopathy’ and is very vocal against speculative homoeopathy. He is an avid admirer of Dr. Hahnemann and the way he illustrates Organon makes Organon come alive.

Dr. Falguni Khariwala has been a consulting Classical Homoeopath in practice for the last 16 years. Along with her brother Dr. Prasad Shetye, she has been invited abroad to give Seminars and under their trust ‘Nyanga’ they regularly conduct Seminars in Bombay. She was instrumental in sowing the seed of the Training Program in Classical Homoeopathy. Together with her brother, she edits ’Homoeopathy First’ the newsletter of Classical Homoeopathic Research Centre. They have written a series of seven articles that were published in Homoeopathic Links-International Journal for Classical Homoeopathy. She is very experienced also in the treatment of infants and children.  Dr. Khariwala is a Classical Hahnemannian in her thought, word and deed as far as homoeopathy and life is concerned.

9 Comments

  • Excellent article with eloborate view on SEPIA. Here i am using the word eloborate means not the question full discussion of symptoms etc. but , because the BOLD letters mentioned gives totality of SEPIA – doesnot need a second symptoms while prescribing the remedy. Many used Sepia successfully, how many knows the true succcess of this. Let us all understand by this article. Thanks to Prasad Shetye & Falguni Khariwala and HPATHY for publoishing this .

  • excellent!! Study of anatomy relating with all mentals and physiques of cuttle fish, I am realy Impressre with

  • Article is very informative and by reading this one can come out of the boundaries (if any) to know how homeopathy emerges and also its concept.

  • This is a great way to study a remedy. It forms a comprehensive picture which is understandable, simple, and clinically useful.

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