Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image476926551.html
RF2JKWTK3–Sensorimotor loop: control of the brain to link sensations to motor reactions.
Pacinian corpuscles (or lamellar corpuscles). Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/pacinian-corpuscles-or-lamellar-corpuscles-illustration-of-the-19th-century-germany-white-background-image418945288.html
RF2F9GGYM–Pacinian corpuscles (or lamellar corpuscles). Illustration of the 19th century. Germany. White background.
Anatomy of the human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-anatomy-of-the-human-skin-57643441.html
RFD9NTP9–Anatomy of the human skin.
Cutaneous receptors. layers of the human skin with sensory receptors. Part of the somatosensory system found in the dermis or epidermis Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/cutaneous-receptors-layers-of-the-human-skin-with-sensory-receptors-part-of-the-somatosensory-system-found-in-the-dermis-or-epidermis-image389346547.html
RF2DHC7DR–Cutaneous receptors. layers of the human skin with sensory receptors. Part of the somatosensory system found in the dermis or epidermis
Conceptual image of a sensory neuron. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/conceptual-image-of-a-sensory-neuron-image350058660.html
RF2B9EFB0–Conceptual image of a sensory neuron.
Trigeminal nerve. Realistic transparent blue human head with brain and Trigeminal ganglion, Mandibular, Maxillary, and Ophthalmic nerves, on dark back Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/trigeminal-nerve-realistic-transparent-blue-human-head-with-brain-and-trigeminal-ganglion-mandibular-maxillary-and-ophthalmic-nerves-on-dark-back-image590913130.html
RF2W9ABMA–Trigeminal nerve. Realistic transparent blue human head with brain and Trigeminal ganglion, Mandibular, Maxillary, and Ophthalmic nerves, on dark back
Conceptual image of the layers of human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/conceptual-image-of-the-layers-of-human-skin-image64844711.html
RFDNDX2F–Conceptual image of the layers of human skin.
Anatomy of the human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-anatomy-of-the-human-skin-57643494.html
RFD9NTT6–Anatomy of the human skin.
CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Stag beetle, circa 1962 Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/czechoslovakia-circa-1962-stamp-printed-by-czechoslovakia-shows-stag-beetle-circa-1962-image579895670.html
RF2TKCERJ–CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Stag beetle, circa 1962
Conceptual image of the layers of human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/conceptual-image-of-the-layers-of-human-skin-image64844706.html
RFDNDX2A–Conceptual image of the layers of human skin.
Thermal regulation line icons collection. Thermoregulation, Homeostasis, Sweat, Shivering, Vasodilation, Vasoconstriction, Evaporation vector and Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/thermal-regulation-line-icons-collection-thermoregulation-homeostasis-sweat-shivering-vasodilation-vasoconstriction-evaporation-vector-and-image547014967.html
RF2PNXK4R–Thermal regulation line icons collection. Thermoregulation, Homeostasis, Sweat, Shivering, Vasodilation, Vasoconstriction, Evaporation vector and
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. CHEMORECEPTION IN CANCER 433 is demonstrated in Table 11 which summarizes the distribution of chenio- and mechanoreceptor activity in a number of randomly selected fascicles from the innervation of both dactylopodite and propodite. Obviously both limb segments are well supplied with chemoreceptor endings. No significance can be attached to the indication of a larger number of chemoreceptive units in the dactyl, since the experimental arrangement permitted exploration of little more than half the propodite surface, while near Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-chemoreception-in-cancer-433-is-demonstrated-in-table-11-which-summarizes-the-distribution-of-chenio-and-mechanoreceptor-activity-in-a-number-of-randomly-selected-fascicles-from-the-innervation-of-both-dactylopodite-and-propodite-obviously-both-limb-segments-are-well-supplied-with-chemoreceptor-endings-no-significance-can-be-attached-to-the-indication-of-a-larger-number-of-chemoreceptive-units-in-the-dactyl-since-the-experimental-arrangement-permitted-exploration-of-little-more-than-half-the-propodite-surface-while-near-image234621095.html
RMRHKWGR–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. CHEMORECEPTION IN CANCER 433 is demonstrated in Table 11 which summarizes the distribution of chenio- and mechanoreceptor activity in a number of randomly selected fascicles from the innervation of both dactylopodite and propodite. Obviously both limb segments are well supplied with chemoreceptor endings. No significance can be attached to the indication of a larger number of chemoreceptive units in the dactyl, since the experimental arrangement permitted exploration of little more than half the propodite surface, while near
Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/tactile-receptor-associated-with-a-hair-follicle-the-movement-of-the-hair-causes-the-opening-of-the-receptor-channel-image476926597.html
RF2JKWTMN–Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel.
Double papillae of the lips of human. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/double-papillae-of-the-lips-of-human-illustration-of-the-19th-century-germany-white-background-image417368069.html
RF2F70N6D–Double papillae of the lips of human. Illustration of the 19th century. Germany. White background.
CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Ground Beetle, circa 1962 Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/czechoslovakia-circa-1962-stamp-printed-by-czechoslovakia-shows-ground-beetle-circa-1962-image579888814.html
RF2TKC62P–CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Ground Beetle, circa 1962
Conceptual image of the layers of human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/conceptual-image-of-the-layers-of-human-skin-image64844707.html
RFDNDX2B–Conceptual image of the layers of human skin.
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 4.U JAMES CASE in Kigure 1C". produced by a single drop of glycine, save for mechanoreceptor responses. Conceivably, rapid response decav can be attributed to effects upon specific chemoexcitatory processes leading- to impulse generation. "ben. as in Figure 3, a small receptor population is excited electrically with an electrode pair placed nearby on tbe integument, all peripheral, electrically excitable elements of the impulse-generating sequence, except the specific chemosensory mechanism, are undoubtedly excit Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-4u-james-case-in-kigure-1cquot-produced-by-a-single-drop-of-glycine-save-for-mechanoreceptor-responses-conceivably-rapid-response-decav-can-be-attributed-to-effects-upon-specific-chemoexcitatory-processes-leading-to-impulse-generation-quotben-as-in-figure-3-a-small-receptor-population-is-excited-electrically-with-an-electrode-pair-placed-nearby-on-tbe-integument-all-peripheral-electrically-excitable-elements-of-the-impulse-generating-sequence-except-the-specific-chemosensory-mechanism-are-undoubtedly-excit-image234621057.html
RMRHKWFD–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 4.U JAMES CASE in Kigure 1C". produced by a single drop of glycine, save for mechanoreceptor responses. Conceivably, rapid response decav can be attributed to effects upon specific chemoexcitatory processes leading- to impulse generation. "ben. as in Figure 3, a small receptor population is excited electrically with an electrode pair placed nearby on tbe integument, all peripheral, electrically excitable elements of the impulse-generating sequence, except the specific chemosensory mechanism, are undoubtedly excit
Sensorimotor loop: control of the brain to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-motor-reactions-image476925258.html
RF2JKWR0X–Sensorimotor loop: control of the brain to motor reactions.
Tactile corpuscle. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/tactile-corpuscle-illustration-of-the-19th-century-germany-white-background-image417368074.html
RF2F70N6J–Tactile corpuscle. Illustration of the 19th century. Germany. White background.
Cross section of the skin thighs. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/cross-section-of-the-skin-thighs-illustration-of-the-19th-century-germany-white-background-image417368052.html
RF2F70N5T–Cross section of the skin thighs. Illustration of the 19th century. Germany. White background.
CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Cardinal beetle, circa 1962 Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/czechoslovakia-circa-1962-stamp-printed-by-czechoslovakia-shows-cardinal-beetle-circa-1962-image579884527.html
RF2TKC0HK–CZECHOSLOVAKIA - CIRCA 1962: stamp printed by Czechoslovakia, shows Cardinal beetle, circa 1962
Conceptual image of the layers of human skin. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/conceptual-image-of-the-layers-of-human-skin-image64844709.html
RFDNDX2D–Conceptual image of the layers of human skin.
Anatomy of skin and hair follicle on white background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-of-skin-and-hair-follicle-on-white-background-image224157969.html
RFR0K7NN–Anatomy of skin and hair follicle on white background.
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 364 C. D. DREWES AND C. R. FOURTNER REC. Figure 1. Test chamber for recording electrical and behavioral cor- relates of rapid escape in intact worms. The worm's tail protruded above the sediments and laid horizontally at the air-water interface. Recording electrodes (REC). submersed in the water and next to the tail, detected giant nerve fiber spikes while the video camera (VC) re- corded escape movements. The photocell (PH) detected changes in the intensity of lighting from above. candidate photoreceptor and mechanoreceptor Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-364-c-d-drewes-and-c-r-fourtner-rec-figure-1-test-chamber-for-recording-electrical-and-behavioral-cor-relates-of-rapid-escape-in-intact-worms-the-worms-tail-protruded-above-the-sediments-and-laid-horizontally-at-the-air-water-interface-recording-electrodes-rec-submersed-in-the-water-and-next-to-the-tail-detected-giant-nerve-fiber-spikes-while-the-video-camera-vc-re-corded-escape-movements-the-photocell-ph-detected-changes-in-the-intensity-of-lighting-from-above-candidate-photoreceptor-and-mechanoreceptor-image234644559.html
RMRHMYER–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. 364 C. D. DREWES AND C. R. FOURTNER REC. Figure 1. Test chamber for recording electrical and behavioral cor- relates of rapid escape in intact worms. The worm's tail protruded above the sediments and laid horizontally at the air-water interface. Recording electrodes (REC). submersed in the water and next to the tail, detected giant nerve fiber spikes while the video camera (VC) re- corded escape movements. The photocell (PH) detected changes in the intensity of lighting from above. candidate photoreceptor and mechanoreceptor
Sensorimotor loop: control of the brain to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-motor-reactions-image476925321.html
RF2JKWR35–Sensorimotor loop: control of the brain to motor reactions.
Cross section of the skin through sweat glands and four papillae. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/cross-section-of-the-skin-through-sweat-glands-and-four-papillae-illustration-of-the-19th-century-germany-white-background-image417368065.html
RF2F70N69–Cross section of the skin through sweat glands and four papillae. Illustration of the 19th century. Germany. White background.
Anatomy of skin, cross section on white background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-of-skin-cross-section-on-white-background-image224157965.html
RFR0K7NH–Anatomy of skin, cross section on white background.
. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. SQUID EMBRYO CILIATURE. FIGURE 17. The uniform-type ciliated cells beat in a metachronic wave that is syn- chronized along several aligned cells. The projection in the lower left (arrow) may be a mechanoreceptor. FIGURE 18. In this developing uniform-type ciliated cell, cilia of several lengths can be seen and the beat, although unidirectional, is only partially synchronous. These cilia are of uniform diameter and end in a blunt taper. By Stage 26 (Figs. 14-16), the pattern of cilia on the head of the Stage 23 embryo has cha Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/the-biological-bulletin-biology-zoology-biology-marine-biology-squid-embryo-ciliature-figure-17-the-uniform-type-ciliated-cells-beat-in-a-metachronic-wave-that-is-syn-chronized-along-several-aligned-cells-the-projection-in-the-lower-left-arrow-may-be-a-mechanoreceptor-figure-18-in-this-developing-uniform-type-ciliated-cell-cilia-of-several-lengths-can-be-seen-and-the-beat-although-unidirectional-is-only-partially-synchronous-these-cilia-are-of-uniform-diameter-and-end-in-a-blunt-taper-by-stage-26-figs-14-16-the-pattern-of-cilia-on-the-head-of-the-stage-23-embryo-has-cha-image234649615.html
RMRHN5YB–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. SQUID EMBRYO CILIATURE. FIGURE 17. The uniform-type ciliated cells beat in a metachronic wave that is syn- chronized along several aligned cells. The projection in the lower left (arrow) may be a mechanoreceptor. FIGURE 18. In this developing uniform-type ciliated cell, cilia of several lengths can be seen and the beat, although unidirectional, is only partially synchronous. These cilia are of uniform diameter and end in a blunt taper. By Stage 26 (Figs. 14-16), the pattern of cilia on the head of the Stage 23 embryo has cha
Neuromuscular spindle and proprioception: perception of the position of parts of the body. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/neuromuscular-spindle-and-proprioception-perception-of-the-position-of-parts-of-the-body-image476926567.html
RF2JKWTKK–Neuromuscular spindle and proprioception: perception of the position of parts of the body.
Groups of sensory papillae of the human skin. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/groups-of-sensory-papillae-of-the-human-skin-illustration-of-the-19th-century-germany-white-background-image417368026.html
RF2F70N4X–Groups of sensory papillae of the human skin. Illustration of the 19th century. Germany. White background.
Anatomy of human skin with labels. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/anatomy-of-human-skin-with-labels-image224157970.html
RFR0K7NP–Anatomy of human skin with labels.
Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image476926559.html
RF2JKWTKB–Sensorimotor loop: control of the brain to link sensations to motor reactions.
Vertical section through the skin of the fingertip. Illustration of the 19th century. Germany. White background. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/vertical-section-through-the-skin-of-the-fingertip-illustration-of-the-19th-century-germany-white-background-image417368032.html
RF2F70N54–Vertical section through the skin of the fingertip. Illustration of the 19th century. Germany. White background.
Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/tactile-receptor-associated-with-a-hair-follicle-the-movement-of-the-hair-causes-the-opening-of-the-receptor-channel-image476926602.html
RF2JKWTMX–Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel.
Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/tactile-receptor-associated-with-a-hair-follicle-the-movement-of-the-hair-causes-the-opening-of-the-receptor-channel-image476926558.html
RF2JKWTKA–Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel.
Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/tactile-receptor-associated-with-a-hair-follicle-the-movement-of-the-hair-causes-the-opening-of-the-receptor-channel-image476926577.html
RF2JKWTM1–Tactile receptor associated with a hair follicle: the movement of the hair causes the opening of the receptor-channel.
Adult skin structure, anatomy, appendages of the integumentary system. This illustration represents a 3D section view of 3/4 of the anatomy and struct Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/adult-skin-structure-anatomy-appendages-of-the-integumentary-system-this-illustration-represents-a-3d-section-view-of-34-of-the-anatomy-and-struct-image388135346.html
RF2DFD2GJ–Adult skin structure, anatomy, appendages of the integumentary system. This illustration represents a 3D section view of 3/4 of the anatomy and struct
Adult skin, integumentary system and its appendages. This illustration represents a 3D section view of 3/4 of the anatomy and structure of the skin wi Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/adult-skin-integumentary-system-and-its-appendages-this-illustration-represents-a-3d-section-view-of-34-of-the-anatomy-and-structure-of-the-skin-wi-image388135336.html
RF2DFD2G8–Adult skin, integumentary system and its appendages. This illustration represents a 3D section view of 3/4 of the anatomy and structure of the skin wi
Neuromuscular spindle and proprioception: perception of the position of parts of the body. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/neuromuscular-spindle-and-proprioception-perception-of-the-position-of-parts-of-the-body-image442065608.html
RF2GK5R5C–Neuromuscular spindle and proprioception: perception of the position of parts of the body.
Neuromuscular spindle and proprioception: perception of the position of parts of the body. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/neuromuscular-spindle-and-proprioception-perception-of-the-position-of-parts-of-the-body-image441937890.html
RF2GK0082–Neuromuscular spindle and proprioception: perception of the position of parts of the body.
Neuromuscular spindle and proprioception: perception of the position of parts of the body. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/neuromuscular-spindle-and-proprioception-perception-of-the-position-of-parts-of-the-body-image441937963.html
RF2GK00AK–Neuromuscular spindle and proprioception: perception of the position of parts of the body.
Neuromuscular spindle and proprioception: perception of the position of parts of the body. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/neuromuscular-spindle-and-proprioception-perception-of-the-position-of-parts-of-the-body-image442065594.html
RF2GK5R4X–Neuromuscular spindle and proprioception: perception of the position of parts of the body.
Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image441937889.html
RF2GK0081–Sensorimotor loop: control of the brain to link sensations to motor reactions.
Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image442065687.html
RF2GK5R87–Sensorimotor loop: control of the brain to link sensations to motor reactions.
Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image441937953.html
RF2GK00A9–Sensorimotor loop: control of the brain to link sensations to motor reactions.
Sensorimotor loop: control of the brain to link sensations to motor reactions. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/sensorimotor-loop-control-of-the-brain-to-link-sensations-to-motor-reactions-image442065667.html
RF2GK5R7F–Sensorimotor loop: control of the brain to link sensations to motor reactions.