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Anatomical terms of location

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Standard anatomical terms of location are used to describe unambiguously the anatomy of animals, including humans. The terms, typically derived from Latin or Greek roots, describe something in its standard anatomical position. This position provides a definition of what is at the front ("anterior"), behind ("posterior") and so on. As part of defining and describing terms, the body is described through the use of anatomical planes and anatomical axes.

The meaning of terms that are used can change depending on whether an organism is bipedal or quadrupedal. Additionally, for some animals such as invertebrates, some terms may not have any meaning at all; for example, an animal that is radially symmetrical will have no anterior surface, but can still have a description that a part is close to the middle ("proximal") or further from the middle ("distal").

International organisations have determined vocabularies that are often used as standards for subdisciplines of anatomy. For example, Terminologia Anatomica for humans and Nomina Anatomica Veterinaria for animals. These allow parties that use anatomical terms, such as anatomists, veterinarians, and medical doctors, to have a standard set of terms to communicate clearly the position of a structure.

Introduction

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Because of differences in the way humans and other animals are structured, different terms are used according to the neuraxis and whether an animal is a vertebrate or invertebrate.

Standard anatomical and zoological terms of location have been developed, usually based on Latin and Greek words, to enable all biological and medical scientists, veterinarians, doctors and anatomists to precisely delineate and communicate information about animal bodies and their organs, even though the meaning of some of the terms often is context-sensitive.[1][2] Much of this information has been standardised in internationally agreed vocabularies for humans (Terminologia Anatomica)[2] and animals (Nomina Anatomica Veterinaria).[1]

Different terms are used for groups of creatures with different body layouts, such as bipeds (creatures that stand on two feet, such as humans) and quadrupeds.[1] The reasoning is that the neuraxis is different between the two groups, and so is what is considered the standard anatomical position, such as how humans tend to be standing upright and with their arms reaching forward.[2] Thus, the "top" of a human is the head, whereas the "top" of a dog would be the back, and the "top" of a flounder may be on either the left or right side. Unique terms are also used to describe invertebrates as well, because of their wider variety of shapes and symmetry.[3]

Standard anatomical position

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A male and female human in the standard anatomical position

Because animals can change orientation with respect to their environment, and because appendages like limbs and tentacles can change position with respect to the main body, terms to describe position need to refer to an animal when it is in its standard anatomical position.[1] This means descriptions as if the organism is in its standard anatomical position, even when the organism in question has appendages in another position. This helps avoid confusion in terminology when referring to the same organism in different postures.[1] In humans, this refers to the body in a standing position with arms at the side and palms facing forward, with thumbs out and to the sides.[2][1]

Combined terms

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Anatomical terms can be combined to be more specific. This is a dorsolateral view of the frog Mantophryne insignis.

Many anatomical terms can be combined, either to indicate a position in two axes simultaneously or to indicate the direction of a movement relative to the body. For example, "anterolateral" indicates a position that is both anterior and lateral to the body axis (such as the bulk of the pectoralis major muscle).

In radiology, an X-ray image may be said to be "anteroposterior", indicating that the beam of X-rays, known as its projection, passes from their source to patient's anterior body wall first, then through the body to exit through posterior body wall and into the detector/film to produce a radiograph. The opposite is true for the term "posteroanterior," while side-to-side projections are known as either "lateromedial" (from the outside of the left or right side of the body toward the inside) or "mediolateral"(from the inside of that side of the body toward the outside. The same logic is applied to all planes of the body and, thus top-to-bottom or bottom-to-top X-ray projections are known as "superoinferior" and "inferosuperior," respectively. However, within the diagnostic imaging industry, for this particular example, the terms "cranial" (towards the head) and "caudal" (towards the tail, or, downwards, away from the head) are known interchangeable alternatives to the previous two projection terms.[4] Combined terms were once generally hyphenated, but the modern tendency is to omit the hyphen.[5]

Planes

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Anatomical planes in a human

Anatomical terms describe structures with relation to four main anatomical planes:[2]

  1. The median plane, which divides the body into left and right.[2][6] This passes through the head, spinal cord, navel, and, in many animals, the tail.[6]
  2. The sagittal planes, which are parallel to the median plane.[1]
  3. The frontal plane, also called the coronal plane, which divides the body into front and back.[2]
  4. The horizontal plane, also known as the transverse plane, which is perpendicular to the other two planes.[2] In a human, this plane is parallel to the ground; in a quadruped, this divides the animal into anterior and posterior sections.[3]

Axes

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Organisms where the ends of the long axis are distinct (Paramecium caudatum, above, and Stentor roeselii, below)

The axes of the body are lines drawn about which an organism is roughly symmetrical.[7] To do this, distinct ends of an organism are chosen, and the axis is named according to those directions. An organism that is symmetrical on both sides has three main axes that intersect at right angles.[3] An organism that is round or not symmetrical may have different axes.[3] Example axes are:

  • The anteroposterior axis[8]
  • The cephalocaudal axis[9]
  • The dorsoventral axis[10]

Examples of axes in specific animals are shown below.

Modifiers

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Terms can be modified with prefixes and suffixes. In this image showing the jellyfish species Chrysaora, the prefix 'ab-', is used to indicate something that is 'away from' the mouth, for example the aboral. Other terms are combined to indicate axes, such as proximodistal axis.

Several terms are commonly seen and used as prefixes:

  • Sub- (from Latin sub 'preposition beneath, close to, nearly etc') is used to indicate something that is beneath, or something that is subordinate to or lesser than.[12] For example, subcutaneous means beneath the skin.
  • Hypo- (from Ancient Greek ὑπό 'under') is used to indicate something that is beneath.[13] For example, the hypoglossal nerve supplies the muscles beneath the tongue.
  • Infra- (from Latin infra 'under') is used to indicate something that is within or below.[14] For example, the infraorbital nerve runs within the orbit.
  • Inter- (from Latin inter 'between') is used to indicate something that is between.[15] For example, the intercostal muscles run between the ribs.
  • Super- or Supra- (from Latin super, supra 'above, on top of') is used to indicate something that is above something else.[16] For example, the supraorbital ridges are above the eyes.

Other terms are used as suffixes, added to the end of words:

  • -ad (from Latin ad 'towards') and -ab (from Latin ab) are used to indicate that something is towards (-ad) or away from (-ab) something else.[17][18] For example, "distad" means "in the distal direction", and "distad of the femur" means "beyond the femur in the distal direction". Further examples may include cephalad (towards the cephalic end), craniad, and proximad.[19]

Main terms

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Superior and inferior

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Superior (from Latin super 'above') describes what is above something[20] and inferior (from Latin inferus 'below') describes what is below it.[21] For example, in the anatomical position, the most superior part of the human body is the head and the most inferior is the feet. As a second example, in humans, the neck is superior to the chest but inferior to the head.

Anterior and posterior

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Anterior (from Latin ante 'before') describes what is in front,[22] and posterior (from Latin post 'after') describes what is to the back of something.[23] For example, for a dog the nose is anterior to the eyes and the tail is considered the most posterior part; for many fish the gill openings are posterior to the eyes but anterior to the tail.

Medial and lateral

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These terms describe how close something is to the midline, or the medial plane.[2] Lateral (from Latin lateralis 'to the side') describes something to the sides of an animal, as in "left lateral" and "right lateral". Medial (from Latin medius 'middle') describes structures close to the midline,[2] or closer to the midline than another structure. For example, in a human, the arms are lateral to the torso. The genitals are medial to the legs. Temporal has a similar meaning to lateral but is restricted to the head.

The terms "left" and "right" are sometimes used, or their Latin alternatives (Latin: dexter, lit.'right'; Latin: sinister, lit.'left'). However, it is preferred to use more precise terms where possible.

Terms derived from lateral include:

  • Contralateral (from Latin contra 'against'): on the side opposite to another structure.[24] For example, the right arm and leg are controlled by the left, contralateral, side of the brain.
  • Ipsilateral (from Latin ipse 'same'): on the same side as another structure.[25] For example, the left arm is ipsilateral to the left leg.
  • Bilateral (from Latin bis 'twice'): on both sides of the body.[26] For example, bilateral orchiectomy means removal of testes on both sides of the body.
  • Unilateral (from Latin unus 'one'): on one side of the body.[27] For example, a stroke can result in unilateral weakness, meaning weakness on one side of the body.

Varus (from Latin 'bow-legged') and valgus (from Latin 'knock-kneed' ) are terms used to describe a state in which a part further away is abnormally placed towards (varus) or away from (valgus) the midline.[28]

Proximal and distal

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Anatomical directional reference

The terms proximal (from Latin proximus 'nearest') and distal (from Latin distare 'to stand away from') are used to describe parts of a feature that are close to or distant from the main mass of the body, respectively.[29] Thus the upper arm in humans is proximal and the hand is distal.

"Proximal and distal" are frequently used when describing appendages, such as fins, tentacles, and limbs. Although the direction indicated by "proximal" and "distal" is always respectively towards or away from the point of attachment, a given structure can be either proximal or distal in relation to another point of reference. Thus the elbow is distal to a wound on the upper arm, but proximal to a wound on the lower arm.[30]

The terms are also applied to internal anatomy, such as to the reproductive tract of snails. Unfortunately, different authors use the terms in opposite senses. Some consider "distal" as further from a point of origin near the centre of the body and others as further from where the organ reaches the body's surface; or other points of origin may be envisaged.[31]

This terminology is also employed in molecular biology and therefore by extension is also used in chemistry, specifically referring to the atomic loci of molecules from the overall moiety of a given compound.[32]

Central and peripheral

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Central and peripheral refer to the distance towards and away from the centre of something.[33] That might be an organ, a region in the body, or an anatomical structure. For example, the central nervous system and the peripheral nervous systems.

Central (from Latin centralis) describes something close to the centre.[33] For example, the great vessels run centrally through the body; many smaller vessels branch from these.

Peripheral (from Latin peripheria, originally from Ancient Greek) describes something further away from the centre of something.[34] For example, the arm is peripheral to the body.

Superficial and deep

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These terms refer to the distance of a structure from the surface.[2]

Deep (from Old English) describes something further away from the surface of the organism.[35] For example, the external oblique muscle of the abdomen is deep to the skin. "Deep" is one of the few anatomical terms of location derived from Old English rather than Latin – the anglicised Latin term would have been "profound" (from Latin profundus 'due to depth').[1][36]

Superficial (from Latin superficies 'surface') describes something near the outer surface of the organism.[1][37] For example, in skin, the epidermis is superficial to the subcutis.

Dorsal and ventral

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These two terms, used in anatomy and embryology, describe something at the back (dorsal) or front/belly (ventral) of an organism.[2]

The dorsal (from Latin dorsum 'back') surface of an organism refers to the back, or upper side, of an organism. If talking about the skull, the dorsal side is the top.[38]

The ventral (from Latin venter 'belly') surface refers to the front, or lower side, of an organism.[38]

For example, in a fish, the pectoral fins are dorsal to the anal fin, but ventral to the dorsal fin.

The terms are used in other contexts; for example dorsal and ventral gun turrets on a bomber aircraft.

Rostral, cranial, and caudal

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In the human skull, the terms rostral and caudal are adapted to the curved neuraxis of Hominidae, rostrocaudal meaning the region on C shape connecting rostral and caudal regions.

Specific terms exist to describe how close or far something is to the head or tail of an animal. To describe how close to the head of an animal something is, three distinct terms are used:

  • Rostral (from Latin rostrum 'beak, nose') describes something situated toward the oral or nasal region, or in the case of the brain, toward the tip of the frontal lobe.[39]
  • Cranial (from Greek κρανίον 'skull') or cephalic (from Greek κεφαλή 'head') describes how close something is to the head of an organism.[40]
  • Caudal (from Latin cauda 'tail') describes how close something is to the trailing end of an organism.[41]

For example, in horses, the eyes are caudal to the nose and rostral to the back of the head.

These terms are generally preferred in veterinary medicine and not used as often in human medicine.[42][43][44] In humans, "cranial" and "cephalic" are used to refer to the skull, with "cranial" being used more commonly. The term "rostral" is rarely used in human anatomy, apart from embryology, and refers more to the front of the face than the superior aspect of the organism. Similarly, the term "caudal" is used more in embryology and only occasionally used in human anatomy.[2] This is because the brain is situated at the superior part of the head whereas the nose is situated in the anterior part. Thus, the "rostrocaudal axis" refers to a C shape (see image).

Other terms and special cases

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Anatomical landmarks

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The location of anatomical structures can also be described in relation to different anatomical landmarks. They are used in anatomy, surface anatomy, surgery, and radiology.[45]

Structures may be described as being at the level of a specific spinal vertebra, depending on the section of the vertebral column the structure is at.[45] The position is often abbreviated. For example, structures at the level of the fourth cervical vertebra may be abbreviated as "C4", at the level of the fourth thoracic vertebra "T4", and at the level of the third lumbar vertebra "L3". Because the sacrum and coccyx are fused, they are not often used to provide the location.

References may also take origin from superficial anatomy, made to landmarks that are on the skin or visible underneath.[45] For example, structures may be described relative to the anterior superior iliac spine, the medial malleolus or the medial epicondyle.

Anatomical lines are used to describe anatomical location. For example, the mid-clavicular line is used as part of the cardiac exam in medicine to feel the apex beat of the heart.

Mouth and teeth

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Special terms are used to describe the mouth and teeth.[2] Fields such as osteology, palaeontology and dentistry apply special terms of location to describe the mouth and teeth. This is because although teeth may be aligned with their main axes within the jaw, some different relationships require special terminology as well; for example, teeth also can be rotated, and in such contexts terms like "anterior" or "lateral" become ambiguous.[46][47] For example, the terms "distal" and "proximal" are also redefined to mean the distance away or close to the dental arch, and "medial" and "lateral" are used to refer to the closeness to the midline of the dental arch.[48] Terms used to describe structures include "buccal" (from Latin bucca 'cheek') and "palatal" (from Latin palatum 'palate') referring to structures close to the cheek and hard palate respectively.[48]

Hands and feet

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Anatomical terms used to describe a human hand

Several anatomical terms are particular to the hands and feet.[2]

Additional terms may be used to avoid confusion when describing the surfaces of the hand and what is the "anterior" or "posterior" surface. The term "anterior", while anatomically correct, can be confusing when describing the palm of the hand; Similarly is "posterior", used to describe the back of the hand and arm. This confusion can arise because the forearm can pronate and supinate and flip the location of the hand. For improved clarity, the directional term palmar (from Latin palma 'palm of the hand') is commonly used to describe the front of the hand, and dorsal is the back of the hand. For example, the top of a dog's paw is its dorsal surface; the underside, either the palmar (on the forelimb) or the plantar (on the hindlimb) surface. The palmar fascia is palmar to the tendons of muscles which flex the fingers, and the dorsal venous arch is so named because it is on the dorsal side of the foot.

In humans, volar can also be used synonymously with palmar to refer to the underside of the palm, but plantar is used exclusively to describe the sole. These terms describe location as palmar and plantar; For example, volar pads are those on the underside of hands or fingers; the plantar surface describes the sole of the heel, foot or toes.

Similarly, in the forearm, for clarity, the sides are named after the bones. Structures closer to the radius are radial, structures closer to the ulna are ulnar, and structures relating to both bones are referred to as radioulnar. Similarly, in the lower leg, structures near the tibia (shinbone) are tibial and structures near the fibula are fibular (or peroneal).

Rotational direction

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Image showing an anteverted uterus lying above the bladder (above), compared with a retroverted uterus undergoing bimanual examination facing towards the rectum (below)

Anteversion and retroversion are complementary terms describing an anatomical structure that is rotated forwards (towards the front of the body) or backwards (towards the back of the body), relative to some other position. They are particularly used to describe the curvature of the uterus.[49][50]

  • Anteversion (from Latin anteversus) describes an anatomical structure being tilted further forward than normal, whether pathologically or incidentally.[49] For example, a woman's uterus typically is anteverted, tilted slightly forward. A misaligned pelvis may be anteverted, that is to say tilted forward to some relevant degree.
  • Retroversion (from Latin retroversus) describes an anatomical structure tilted back away from something.[50] An example is a retroverted uterus.[50]

Other directional terms

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Several other terms are also used to describe location. These terms are not used to form the fixed axes. Terms include:

  • Axial (from Latin axis 'axle'): around the central axis of the organism or the extremity. Two related terms, "abaxial" and "adaxial", refer to locations away from and toward the central axis of an organism, respectively
  • Luminal (from Latin lumen 'light, opening'): on the—hollow—inside of an organ's lumen (body cavity or tubular structure);[51][52] adluminal is towards, abluminal is away from the lumen.[53] Opposite to outermost (the adventitia, serosa, or the cavity's wall).[54]
  • Parietal (from Latin paries 'wall'): pertaining to the outer wall of a body cavity.[55] For example, the parietal peritoneum is the lining on the inside of the abdominal cavity. Parietal can also refer specifically to the parietal bone of the skull or associated structures.
  • Terminal (from Latin terminus 'boundary or end') at the extremity of a usually projecting structure.[56] For example, "...an antenna with a terminal sensory hair".
  • Visceral and viscus (from Latin viscera 'internal organs'): associated with organs within the body's cavities and pertaining to the innermost layer.[57] For example, the stomach is covered with a lining called the visceral peritoneum, as opposed to the parietal peritoneum. Viscus can also be used to mean "organ".[57] For example, the stomach is a viscus within the abdominal cavity, and visceral pain refers to pain originating from internal organs.
  • Aboral (opposite to oral) is used to denote a location along the gastrointestinal tract that is relatively closer to the anus.[58]

Specific animals and other organisms

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Different terms are used because of different body plans in animals, whether animals stand on one or two legs, and whether an animal is symmetrical or not, as discussed above. For example, as humans are approximately bilaterally symmetrical organisms, anatomical descriptions usually use the same terms as those for other vertebrates.[59] However, humans stand upright on two legs, meaning their anterior/posterior and ventral/dorsal directions are the same, and the inferior/superior directions are necessary.[60] Humans do not have a beak, so a term such as "rostral" used to refer to the beak in some animals is instead used to refer to part of the brain;[61] humans do also not have a tail so a term such as "caudal" that refers to the tail end may also be used in humans and animals without tails to refer to the hind part of the body.[62]

In invertebrates, the large variety of body shapes presents a difficult problem when attempting to apply standard directional terms. Depending on the organism, some terms are taken by analogy from vertebrate anatomy, and appropriate novel terms are applied as needed. Some such borrowed terms are widely applicable in most invertebrates; for example proximal, meaning "near" refers to the part of an appendage nearest to where it joins the body, and distal, meaning "standing away from" is used for the part furthest from the point of attachment. In all cases, the usage of terms is dependent on the body plan of the organism.

Asymmetrical and spherical organisms

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Asymmetrical and spherical body shapes. (a) An organism with an asymmetrical, amoeboid body plan (Amoeba proteus – an amoeba). (b) An organism with a spherical body plan (Actinophrys sol – a heliozoan).

In organisms with a changeable shape, such as amoeboid organisms, most directional terms are meaningless, since the shape of the organism is not constant and no distinct axes are fixed. Similarly, in spherically symmetrical organisms, there is nothing to distinguish one line through the centre of the organism from any other. An indefinite number of triads of mutually perpendicular axes could be defined, but any such choice of axes would be useless, as nothing would distinguish a chosen triad from any others. In such organisms, only terms such as superficial and deep, or sometimes proximal and distal, are usefully descriptive.

Elongated organisms

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Four individuals of Phaeodactylum tricornutum, a diatom with a fixed elongated shape

In organisms that maintain a constant shape and have one dimension longer than the other, at least two directional terms can be used. The long or longitudinal axis is defined by points at the opposite ends of the organism. Similarly, a perpendicular transverse axis can be defined by points on opposite sides of the organism. There is typically no basis for the definition of a third axis. Usually such organisms are planktonic (free-swimming) protists, and are nearly always viewed on microscope slides, where they appear essentially two-dimensional. In some cases a third axis can be defined, particularly where a non-terminal cytostome or other unique structure is present.[44]

Some elongated protists have distinctive ends of the body. In such organisms, the end with a mouth (or equivalent structure, such as the cytostome in Paramecium or Stentor), or the end that usually points in the direction of the organism's locomotion (such as the end with the flagellum in Euglena), is normally designated as the anterior end. The opposite end then becomes the posterior end.[44] Properly, this terminology would apply only to an organism that is always planktonic (not normally attached to a surface), although the term can also be applied to one that is sessile (normally attached to a surface).[63]

A cluster of Euplectella aspergillum sponges (Venus flower baskets), showing the apical–basal axes

Organisms that are attached to a substrate, such as sponges, animal-like protists also have distinctive ends. The part of the organism attached to the substrate is usually referred to as the basal end (from Latin basis 'support/foundation'), whereas the end furthest from the attachment is referred to as the apical end (from Latin apex 'peak/tip').

Radially symmetrical organisms

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Radially symmetrical organisms include those in the group Radiata – primarily jellyfish, sea anemones and corals and the comb jellies.[42][44] Adult echinoderms, such as starfish, sea urchins, sea cucumbers and others are also included, since they are pentaradial, meaning they have five discrete rotational symmetry. Echinoderm larvae are not included, since they are bilaterally symmetrical.[42][44] Radially symmetrical organisms always have one distinctive axis.

Cnidarians (jellyfish, sea anemones and corals) have an incomplete digestive system, meaning that one end of the organism has a mouth, and the opposite end has no opening from the gut (coelenteron).[44] For this reason, the end of the organism with the mouth is referred to as the oral end (from Latin ōrālis 'of the mouth'),[64] and the opposite surface is the aboral end (from Latin ab- 'away from').[65]

Unlike vertebrates, cnidarians have only a single distinctive axis. "Lateral", "dorsal", and "ventral" have no meaning in such organisms, and all can be replaced by the generic term peripheral (from Ancient Greek περιφέρεια 'circumference'). Medial can be used, but in the case of radiates indicates the central point, rather than a central axis as in vertebrates. Thus, there are multiple possible radial axes and medio-peripheral (half-) axes. However, some biradially symmetrical comb jellies do have distinct "tentacular" and "pharyngeal" axes[66][67] and are thus anatomically equivalent to bilaterally symmetrical animals.

Spiders

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Special terms are used for spiders. Two specialized terms are useful in describing views of arachnid legs and pedipalps. Prolateral refers to the surface of a leg that is closest to the anterior end of an arachnid's body. Retrolateral refers to the surface of a leg that is closest to the posterior end of an arachnid's body.[68] Most spiders have eight eyes in four pairs. All the eyes are on the carapace of the prosoma, and their sizes, shapes and locations are characteristic of various spider families and other taxa.[69] Usually, the eyes are arranged in two roughly parallel, horizontal and symmetrical rows of eyes.[69] Eyes are labelled according to their position as anterior and posterior lateral eyes (ALE) and (PLE); and anterior and posterior median eyes (AME) and (PME).[69]

See also

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References

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Citations

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  2. ^ a b c d e f g h i j k l m n o Gray's Anatomy 2016, pp. xvi–xvii.
  3. ^ a b c d Kardong's 2019, p. 16.
  4. ^ Hofer, Matthias (2006). The Chest X-ray: A Systematic Teaching Atlas. Thieme. p. 24. ISBN 978-3-13-144211-6.
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  6. ^ a b Wake 1992, p. 6.
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  44. ^ a b c d e f Ruppert, EE; Fox, RS; Barnes, RD (2004). Invertebrate zoology : a functional evolutionary approach (7th ed.). Thomson, Belmont: Thomson-Brooks/Cole. ISBN 0-03-025982-7.
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General sources

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