DOCSLIB.ORG

Drawing the Human Face the Following Tutorials Are Intended to Be Guidelines for Drawing the Human Face

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Drawing the Human Face the Following Tutorials Are Intended to Be Guidelines for Drawing the Human Face Drawing the Human Face The following tutorials are intended to be guidelines for drawing the human face . Remember, no two faces are exactly the same and people have varying proportions . These tutorials will help you learn the basics of drawing the human face and correct proportions . Head Shape The human head comes in a variety of different shapes . Look at yourself in a mirror or a photo. What shape matches the closest? People who have heart shaped heads often have a “widow’s peak” which is when the hair grows in a “V” at the top of the forehead . If you still aren’t sure what shape of head you have, look at your chin . If your chin is square-ish in shape, you probably have a square shaped head. If your chin is more pointed, you probably have a heart or oblong shaped head . 1 . Practice drawing the shape of your head in the space below . You should draw the shape of your head at least 3 times before moving on to the next step . 1 Face Proportions Learning how to create the correct proportions for a portrait may seem really difficult at first, but there are a few tricks that can really help you out ! 1) Draw a line of symmetry down the middle of the head . This will help you draw the face symmetrically . 2) Draw a horizontal line in the middle of the head . This is called the eye line . When drawing the eyes, imagine there is another eye in between the two eyes . Most eyes are about an eye’s width apart . 3) Draw another horizontal line about half way between the eye line and the bottom of the chin . This is called the nose line. 4) Draw another horizontal line about 1/3 way between the nose and chin . This is called the mouth line . 5) When drawing the ears, the tops of the ears usually line up with the eye line . 6) When drawing hair, the hair line usually covers part of the forehead . Some people have a lot of hair or bangs, so their forehead is covered with hair . Some people have less hair, so their forehead is less covered . Make sure the hair line goes to at least the tops of the ears . Most people have some form of sideburns that go next to the ears . 2 Drawing Eyes Eyes are often called “the windows to the soul” . Eyes can tell us a lot about a person and how they are feeling . They are one of the best ways to communicate emotions . 1) Draw a circle . All eyes are spheres, but get partially covered up by the eyelids . 2) Draw the top and bottom part of the eyelids so that they cover the top and bottom part of the circle . Your eyes may be a different shape than the example below . 3) Draw curved lines parallel to the eyelids . Notice that these lines meet the top and bottom of the circle you already drew . These are the top and bottom parts of the eyelid . 4) Draw a smaller circle inside the larger circle . This is called the iris . The iris is usually partially covered by the top eyelid . 5) Draw an even smaller circle within the iris . This is called the pupil . Draw small lines in the iris to give it a realistic look . 6) Draw a very tiny circle in the pupil . This is called a highlight . You will leave this circle white to make the eye look like it is shining and more realistic . 7) Fill in the pupil to make it black . Leave that smaller circle inside the pupil white to create a highlight . Add other details like the eye muscles at the corners of the eye, eyelashes, and shading . 3 Remember, your eyes may look different from these examples . Eyes come in all shapes and sizes! In order to make it look like the eye is looking at something, draw the iris in the corner of the eye . Drawing the Eyebrows Eyebrows are another way to show how someone is feeling . Raised or overly arched eyebrows can express surprise or excitement . Downward eyebrows can express anger or frustration . Eyebrows are actually quite easy to draw . All you need to do is draw a single line for the shape of the eyebrow . This line may be very curved , slightly curved, or even straight . Then draw 4 smaller lines along the single line to make the little eyebrow hairs . Males often have thicker eyebrows than females . Drawing the Nose Noses also come in a variety of shapes and sizes . 1) Draw two small elliptical shapes and fill them in with your pencil . These are the nostrils . 2) Draw a “U” shape between the two nostrils . This is the bottom of the nose . 3) Draw 2 curves at either side of the nostrils . 4) Add shading above the curves and even under the bottom of the nose to make it look more realistic . Drawing the Mouth Mouths are arguably one of the most difficult parts of a face to draw realistically . However, once you practice enough drawing many different kinds of mouths, you will find it gets easier and easier. 1) Start by drawing a line for the opening of the mouth . If the mouth is meant to look sad, make sure the line moves downward on both sides. If the mouth is meant to look happy, make sure the line moves upward on both sides . 2) Draw another line parallel to the line already drawn to create a shape . This shape will look like a flying bird shape .This is the upper lip . 3) Shade in the upper lip lightly with your pencil . Draw a curved line below the upper lip . This is the lower lip . 4) Shade the lower lip with your pencil . Add a shadow just below the lower lip to create depth . You can add details like the small lines on the bottom lip . 5 Practice drawing different mouth shapes in order to feel more comfortable . You can practice drawing mouths open and closed, with teeth, or with different emotions . Practice drawing Eyes Draw 5 different eyes in the boxes below . Make sure to include details like eyelashes and shading . 6 Practice drawing Noses Draw 3 different noses in the boxes below . Make sure to include shading to make the noses look more realistic . Practice drawing Eyebrows Draw 3 pairs of eyebrows in the boxes below . Each pair should represent a different emotion like anger, sadness, curiosity, etc. Practice drawing Mouths Draw 5 different mouths in the boxes below. Make sure to include shading to make the mouths look more realistic . 7 Putting It All Together Draw the human head and features of the face using correct proportions . Draw the line of symmetry, eye line, nose line, and mouth line to help you draw the features in the correct places . Add a hairline and ears too! Feel free to add other details like jewelry, makeup, and additional shading . 8 .
Load more

Recommended publications
  • Global Human Mandibular Variation Reflects Differences in Agricultural
    Global human mandibular variation reflects differences in agricultural and hunter-gatherer subsistence strategies Noreen von Cramon-Taubadel1 Department of Anthropology, School of Anthropology and Conservation, University of Kent, Canterbury CT2 7NR, United Kingdom Edited by Timothy D. Weaver, University of California, Davis, CA, and accepted by the Editorial Board October 19, 2011 (received for review August 12, 2011) Variation in the masticatory behavior of hunter-gatherer and has been found (14, 15) that global patterns of mandibular var- agricultural populations is hypothesized to be one of the major iation do not follow a model of neutral evolution. forces affecting the form of the human mandible. However, this If the null model of evolutionary neutrality can be rejected for has yet to be analyzed at a global level. Here, the relationship global patterns of human mandibular variation, alternative non- between global mandibular shape variation and subsistence eco- neutral hypotheses must be considered. One of the most obvious nomy is tested, while controlling for the potentially confounding alternative models is that agricultural populations will experience effects of shared population history, geography, and climate. The different biomechanical or selective pressures on mandibular results demonstrate that the mandible, in contrast to the cranium, shape than hunter-gatherers, such that modifications have occurred significantly reflects subsistence strategy rather than neutral either via phenotypic plasticity or natural selection. Previous genetic patterns, with hunter-gatherers having consistently longer morphometric studies (23, 24) found some geographical patterning and narrower mandibles than agriculturalists. These results sup- in mandibular morphology, as well as a signal of climatic and/or port notions that a decrease in masticatory stress among agricul- masticatory plasticity.
    [Show full text]
  • Standard Human Facial Proportions
    Name:_____________________________________________ Date:__________________Period: __________________ Standard Human Facial Proportions: The standard proportions for the human head can help you place facial features and find their orientation. The list below gives an idea of ideal proportions. • The eyes are halfway between the top of the head and the chin. • The face is divided into 3 parts from the hairline to the eyebrow, from the eyebrow to the bottom of the nose, and from the nose to the chin. • The bottom of the nose is halfway between the eyes and the chin. • The mouth is one third of the distance between the nose and the chin. • The distance between the eyes is equal to the width of one eye. • The face is about the width of five eyes and about the height of about seven eyes. • The base of the nose is about the width of the eye. • The mouth at rest is about the width of an eye. • The corners of the mouth line up with the centers of the eye. Their width is the distance between the pupils of the eye. • The top of the ears line up slightly above the eyes in line with the outer tips of the eyebrows. • The bottom of the ears line up with the bottom of the nose. • The width of the shoulders is equal to two head lengths. • The width of the neck is about ½ a head. Facial Feature Examples.docx Page 1 of 13 Name:_____________________________________________ Date:__________________Period: __________________ PROFILE FACIAL PROPORTIONS Facial Feature Examples.docx Page 2 of 13 Name:_____________________________________________ Date:__________________Period:
    [Show full text]
  • The Complexity and Origins of the Human Eye: a Brief Study on the Anatomy, Physiology, and Origin of the Eye
    Running Head: THE COMPLEX HUMAN EYE 1 The Complexity and Origins of the Human Eye: A Brief Study on the Anatomy, Physiology, and Origin of the Eye Evan Sebastian A Senior Thesis submitted in partial fulfillment of the requirements for graduation in the Honors Program Liberty University Spring 2010 THE COMPLEX HUMAN EYE 2 Acceptance of Senior Honors Thesis This Senior Honors Thesis is accepted in partial fulfillment of the requirements for graduation from the Honors Program of Liberty University. ______________________________ David A. Titcomb, PT, DPT Thesis Chair ______________________________ David DeWitt, Ph.D. Committee Member ______________________________ Garth McGibbon, M.S. Committee Member ______________________________ Marilyn Gadomski, Ph.D. Assistant Honors Director ______________________________ Date THE COMPLEX HUMAN EYE 3 Abstract The human eye has been the cause of much controversy in regards to its complexity and how the human eye came to be. Through following and discussing the anatomical and physiological functions of the eye, a better understanding of the argument of origins can be seen. The anatomy of the human eye and its many functions are clearly seen, through its complexity. When observing the intricacy of vision and all of the different aspects and connections, it does seem that the human eye is a miracle, no matter its origins. Major biological functions and processes occurring in the retina show the intensity of the eye’s intricacy. After viewing the eye and reviewing its anatomical and physiological domain, arguments regarding its origins are more clearly seen and understood. Evolutionary theory, in terms of Darwin’s thoughts, theorized fossilization of animals, computer simulations of eye evolution, and new research on supposed prior genes occurring in lower life forms leading to human life.
    [Show full text]
  • The Development of a Whole-Head Human Finite- Element Model for Simulation of the Transmission of Bone-Conducted Sound
    The development of a whole-head human finite- element model for simulation of the transmission of bone-conducted sound You Chang, Namkeun Kim and Stefan Stenfelt Journal Article N.B.: When citing this work, cite the original article. Original Publication: You Chang, Namkeun Kim and Stefan Stenfelt, The development of a whole-head human finite-element model for simulation of the transmission of bone-conducted sound, Journal of the Acoustical Society of America, 2016. 140(3), pp.1635-1651. http://dx.doi.org/10.1121/1.4962443 Copyright: Acoustical Society of America / Nature Publishing Group http://acousticalsociety.org/ Postprint available at: Linköping University Electronic Press http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-133011 The development of a whole-head human finite-element model for simulation of the transmission of bone-conducted sound You Chang1), Namkeun Kim2), and Stefan Stenfelt1) 1) Department of Clinical and Experimental Medicine, Linköping University, Linköping, Sweden 2) Division of Mechanical System Engineering, Incheon National University, Incheon, Korea Running title: whole-head finite-element model for bone conduction 1 Abstract A whole head finite element model for simulation of bone conducted (BC) sound transmission was developed. The geometry and structures were identified from cryosectional images of a female human head and 8 different components were included in the model: cerebrospinal fluid, brain, three layers of bone, soft tissue, eye and cartilage. The skull bone was modeled as a sandwich structure with an inner and outer layer of cortical bone and soft spongy bone (diploë) in between. The behavior of the finite element model was validated against experimental data of mechanical point impedance, vibration of the cochlear promontories, and transcranial BC sound transmission.
    [Show full text]
  • Study Guide Medical Terminology by Thea Liza Batan About the Author
    Study Guide Medical Terminology By Thea Liza Batan About the Author Thea Liza Batan earned a Master of Science in Nursing Administration in 2007 from Xavier University in Cincinnati, Ohio. She has worked as a staff nurse, nurse instructor, and level department head. She currently works as a simulation coordinator and a free- lance writer specializing in nursing and healthcare. All terms mentioned in this text that are known to be trademarks or service marks have been appropriately capitalized. Use of a term in this text shouldn’t be regarded as affecting the validity of any trademark or service mark. Copyright © 2017 by Penn Foster, Inc. All rights reserved. No part of the material protected by this copyright may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, or by any information storage and retrieval system, without permission in writing from the copyright owner. Requests for permission to make copies of any part of the work should be mailed to Copyright Permissions, Penn Foster, 925 Oak Street, Scranton, Pennsylvania 18515. Printed in the United States of America CONTENTS INSTRUCTIONS 1 READING ASSIGNMENTS 3 LESSON 1: THE FUNDAMENTALS OF MEDICAL TERMINOLOGY 5 LESSON 2: DIAGNOSIS, INTERVENTION, AND HUMAN BODY TERMS 28 LESSON 3: MUSCULOSKELETAL, CIRCULATORY, AND RESPIRATORY SYSTEM TERMS 44 LESSON 4: DIGESTIVE, URINARY, AND REPRODUCTIVE SYSTEM TERMS 69 LESSON 5: INTEGUMENTARY, NERVOUS, AND ENDOCRINE S YSTEM TERMS 96 SELF-CHECK ANSWERS 134 © PENN FOSTER, INC. 2017 MEDICAL TERMINOLOGY PAGE III Contents INSTRUCTIONS INTRODUCTION Welcome to your course on medical terminology. You’re taking this course because you’re most likely interested in pursuing a health and science career, which entails ­proficiency­in­communicating­with­healthcare­professionals­such­as­physicians,­nurses,­ or dentists.
    [Show full text]
  • Comparison of Cadaveric Human Head Mass Properties: Mechanical Measurement Vs
    12 INJURY BIOMECHANICS RESEARCH Proceedings of the Thirty-First International Workshop Comparison of Cadaveric Human Head Mass Properties: Mechanical Measurement vs. Calculation from Medical Imaging C. Albery and J. J. Whitestone This paper has not been screened for accuracy nor refereed by any body of scientific peers and should not be referenced in the open literature. ABSTRACT In order to accurately simulate the dynamics of the head and neck in impact and acceleration environments, valid mass properties data for the human head must exist. The mechanical techniques used to measure the mass properties of segmented cadaveric and manikin heads cannot be used on live human subjects. Recent advancements in medical imaging allow for three-dimensional representation of all tissue components of the living and cadaveric human head that can be used to calculate mass properties. A comparison was conducted between the measured mass properties and those calculated from medical images for 15 human cadaveric heads in order to validate this new method. Specimens for this study included seven female and eight male, unembalmed human cadaveric heads (ages 16 to 97; mean = 59±22). Specimen weight, center of gravity (CG), and principal moments of inertia (MOI) were mechanically measured (Baughn et al., 1995, Self et al., 1992). These mass properties were also calculated from computerized tomography (CT) data. The CT scan data were segmented into three tissue types - brain, bone, and skin. Specific gravity was assigned to each tissue type based on values from the literature (Clauser et al., 1969). Through analysis of the binary volumetric data, the weight, CG, and MOIs were determined.
    [Show full text]
  • Adult Human Ocular Volume
    ogy: iol Cu ys r h re P n t & R y e s Anatomy & Physiology: Current m e o a t r a c n h Heymsfield et al., Anat Physiol 2016, 6:5 A Research ISSN: 2161-0940 DOI: 10.4172/2161-0940.1000239 Research Article Open Access Adult Human Ocular Volume: Scaling to Body Size and Composition Steven B Heymsfield1*, Cristina Gonzalez M2, Diana Thomas3, Kori Murray1, Guang Jia4, Erik Cattrysse5, Jan Pieter Clarys5,6 and Aldo Scafoglieri5 1Pennington Biomedical Research Center, Baton Rouge, LA, USA 2Post-Graduation Program in Health and Behavior, Catholic University of Pelotas, Brazil 3Department of Mathematical Sciences, Montclair State University, Montclair, NJ, USA 4Department of Medical Physics, Louisiana State University, Baton Rouge, USA 5Experimental Anatomy Research Department, Vrije Universiteit Brussel, Brussels, Belgium 6Radiology Department, University Hospital Brussels, Brussels, Belgium *Corresponding author: Steven B Heymsfield, Pennington Biomedical Research Center, 6400 Perkins Rd., Baton Rouge, LA 70808, USA, Tel: 225-763-2541; Fax: 225-763-0935; E-mail: [email protected] Received date: August 6, 2016; Accepted date: August 24, 2016; Published date: August 30, 2016 Copyright: © 2016 Heymsfield SB, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Abstract Objectives: Little is currently known on how human ocular volume (OV) relates to body size or composition across adult men and women. This gap was filled in an exploratory study on the path to developing anthropological and physiological models by measuring OV in young healthy adults and related brain, head, and body mass along with major body components.
    [Show full text]
  • Surgical Excision of Eyelid Lesions Reference Number: CP.VP.75 Coding Implications Last Review Date: 12/2020 Revision Log
    Clinical Policy: Surgical Excision of Eyelid Lesions Reference Number: CP.VP.75 Coding Implications Last Review Date: 12/2020 Revision Log See Important Reminder at the end of this policy for important regulatory and legal information. Description: The majority of eyelid lesions are benign, ranging from innocuous cysts and chalazion/hordeolum to nevi and papillomas. Key features that should prompt further investigation include gradual enlargement, central ulceration or induration, irregular borders, eyelid margin destruction or loss of lashes, and telangiectasia. This policy describes the medical necessity requirements for surgical excision of eyelid lesions. Policy/Criteria I. It is the policy of health plans affiliated with Centene Corporation® (Centene) that surgical excision and repair of eyelid or conjunctiva due to lesion or cyst or eyelid foreign body removal is medically necessary for any of the following indications: A. Lesion with one or more of the following characteristics: 1. Bleeding; 2. Persistent or intense itching; 3. Pain; 4. Inflammation; 5. Restricts vision or eyelid function; 6. Misdirects eyelashes or eyelid; 7. Displaces lacrimal puncta or interferes with tear flow; 8. Touches globe; 9. Unknown etiology with potential for malignancy; B. Lesions classified as one of the following: 1. Malignant; 2. Benign; 3. Cutaneous papilloma; 4. Cysts; 5. Embedded foreign bodies; C. Periocular warts associated with chronic conjunctivitis. Background The majority of eyelid lesions are benign, ranging from innocuous cysts and chalazion/hordeolum to nevi and papillomas. Key features that should prompt further investigation include gradual enlargement, central ulceration or induration, irregular borders, eyelid margin destruction or loss of lashes, and telangiectasia. Benign tumors, even though benign, often require removal and therefore must be examined carefully and the differential diagnosis of a malignant eyelid tumor considered and the method of removal planned.
    [Show full text]
  • Local Coverage Article: Billing and Coding: Removal of Benign Skin Lesions (A57044)
    Local Coverage Article: Billing and Coding: Removal of Benign Skin Lesions (A57044) Links in PDF documents are not guaranteed to work. To follow a web link, please use the MCD Website. Contractor Information CONTRACTOR NAME CONTRACT TYPE CONTRACT NUMBER JURISDICTION STATE(S) CGS Administrators, LLC MAC - Part A 15101 - MAC A J - 15 Kentucky CGS Administrators, LLC MAC - Part B 15102 - MAC B J - 15 Kentucky CGS Administrators, LLC MAC - Part A 15201 - MAC A J - 15 Ohio CGS Administrators, LLC MAC - Part B 15202 - MAC B J - 15 Ohio Article Information General Information Article ID Original Effective Date A57044 09/26/2019 Article Title Revision Effective Date Billing and Coding: Removal of Benign Skin Lesions 09/26/2019 Article Type Revision Ending Date Billing and Coding N/A AMA CPT / ADA CDT / AHA NUBC Copyright Retirement Date Statement N/A CPT codes, descriptions and other data only are copyright 2018 American Medical Association. All Rights Reserved. Applicable FARS/HHSARS apply. Current Dental Terminology © 2018 American Dental Association. All rights reserved. Copyright © 2019, the American Hospital Association, Chicago, Illinois. Reproduced with permission. No portion of the AHA copyrighted materials contained within this publication may be copied without the express written consent of the AHA. AHA copyrighted materials including the UB-04 codes and descriptions may not be removed, copied, or utilized within any software, product, service, solution or derivative work without the written consent of the AHA. If an entity Created on 11/07/2019. Page 1 of 18 wishes to utilize any AHA materials, please contact the AHA at 312-893-6816.
    [Show full text]
  • Physical and Geometric Constraints Shape the Labyrinth-Like Nasal Cavity
    Physical and geometric constraints shape the labyrinth-like nasal cavity David Zwickera,b,1, Rodolfo Ostilla-Monico´ a,b, Daniel E. Liebermanc, and Michael P. Brennera,b aJohn A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138; bKavli Institute for Bionano Science and Technology, Harvard University, Cambridge, MA 02138; and cDepartment of Human Evolutionary Biology, Harvard University, Cambridge, MA 02138 Edited by Leslie Greengard, New York University, New York, NY, and approved January 26, 2018 (received for review August 29, 2017) The nasal cavity is a vital component of the respiratory system take into account geometric constraints imposed by the shape that heats and humidifies inhaled air in all vertebrates. Despite of the head that determine the length of the nasal cavity, its this common function, the shapes of nasal cavities vary widely cross-sectional area, and, generally, the shape of the space that it across animals. To understand this variability, we here connect occupies. To tackle this complex problem, we first show that, nasal geometry to its function by theoretically studying the air- without geometric constraints, optimal shapes have slender flow and the associated scalar exchange that describes heating cross-sections. We then demonstrate that these shapes can be and humidification. We find that optimal geometries, which have compacted into the typical labyrinth-like shapes without much minimal resistance for a given exchange efficiency, have a con- loss in performance. stant gap width between their side walls, while their overall shape can adhere to the geometric constraints imposed by the Results head. Our theory explains the geometric variations of natural The Flow in the Nasal Cavity Is Laminar.
    [Show full text]
  • The Relationship Between Eyebrow Elevation and Height of The
    ORIGINAL http://dx.doi.org/10.14730/aaps.2014.20.1.20 aaps Arch Aesthetic Plast Surg 2014;20(1):20-25 Archives of ARTICLE pISSN: 2234-0831 Aesthetic Plastic Surgery The Relationship Between Eyebrow Elevation and Height of the Palpebral Fissure: Should Postoperative Brow Descent be Taken into Consideration When Determining the Amount of Blepharoptosis Correction? Edward Ilho Lee1, Nam Ho Kim2, Background Combining blepharoptosis correction with double eyelid blepharoplasty Ro Hyuk Park2, Jong Beum Park2, is common in East Asian countries where larger eyes are viewed as attractive. This Tae Joo Ahn2 trend has made understanding the relationship between brow position and height of the palpebral fissure all the more important in understanding post-operative re- 1 Division of Plastic Surgery, Baylor sults. In this study, authors attempt to quantify this relationship in order to assess College of Medicine, Houston, TX, USA; whether the expected postoperative brow descent should be taken into consider- 2Gyalumhan Plastic Surgery, Seoul, Korea ation when determining the amount of ptosis to correct. Methods Photographs of ten healthy female study participants were taken with brow at rest, with light elevation and with forceful elevation. These photographs were then viewed at 2×magnification on a computer monitor and caliper was used to measure the amount of pull on the eyebrow in relation to the actual increase in vertical fissure of the eye. Results There was a positive, linear correlation between amount of eyebrow eleva- tion and height of the palpebral fissure, which was statistically significant. Brow ele- vation increased vertical fissure, and thereby aperture of the eye, by 18%.
    [Show full text]
  • A Pictorial Anatomy of the Human Eye/Anophthalmic Socket: a Review for Ocularists
    A Pictorial Anatomy of the Human Eye/Anophthalmic Socket: A Review for Ocularists ABSTRACT: Knowledge of human eye anatomy is obviously impor- tant to ocularists. This paper describes, with pictorial emphasis, the anatomy of the eye that ocularists generally encounter: the anophthalmic eye/socket. The author continues the discussion from a previous article: Anatomy of the Anterior Eye for Ocularists, published in 2004 in the Journal of Ophthalmic Prosthetics.1 Michael O. Hughes INTRODUCTION AND RATIONALE B.C.O. Artificial Eye Clinic of Washington, D.C. Understanding the basic anatomy of the human eye is a requirement for all Vienna, Virginia health care providers, but it is even more significant to eye care practition- ers, including ocularists. The type of eye anatomy that ocularists know, how- ever, is more abstract, as the anatomy has been altered from its natural form. Although the companion eye in monocular patients is usually within the normal range of aesthetics and function, the affected side may be distorted. While ocularists rarely work on actual eyeballs (except to cover microph- thalmic and blind, phthisical eyes using scleral cover shells), this knowledge can assist the ocularist in obtaining a naturally appearing prosthesis, and it will be of greater benefit to the patient. An easier exchange among ocularists, surgeons, and patients will result from this knowledge.1, 2, 3 RELATIONSHIPS IN THE NORMAL EYE AND ORBIT The opening between the eyelids is called the palpebral fissure. In the nor- mal eye, characteristic relationships should be recognized by the ocularist to understand the elements to be evaluated in the fellow eye.
    [Show full text]