The document describes an anatomical image gallery from Stedman's Electronic Medical Dictionary. It contains a list of 27 images of the skeleton, muscles, arteries, and internal organs. Clicking on the titles allows the user to view enlarged thumbnail images of different parts of the anatomical systems.
I wanna share this to all dental students and colleagues. This is a simplified and concise description of the anatomical structure of a Permanent Maxillary Central Incisor.
Describe the normal fetal circulation and mention the changes that occur in it is placental stage and after birth. Fetal circulation is composed of placenta, umbilical cord, heart and systemic blood vessels.
A major difference between the fetal circulation and postnatal circulation is that the lungs are not used during the fetal stage resulting in the presence of shunts to move oxygenated blood and nutrients from the placenta to the fetal tissue.
At birth, the start of breathing and the severance of the umbilical cord prompt various changes that quickly transform fetal circulation into postnatal circulation.
When the embryo develops into the fetus, it creates a functional cardiovascular system that cooperates with the mother's system.
During birth, there are functional physiological changes that transform the shared system into an individual one for the fetus.
In the fetus main filtration site for plasma nutrients and wastes in the placenta, which is outside of the body cavity.
In adults, the circulation occurs entirely inside the body.
The blood that flow to through the fetus is actually more complicated than after the baby is born (normal heart).
This is because the mother (the placenta) is doing the work that the baby's lungs will do after birth.
The placenta accepts the blood without oxygen from the fetus through blood vessels that leave the fetus through the umbilical cord (Umbilical arteries , there are two of them).
When blood goes through the placenta it pick up oxygwn.
The oxygen rich blood then returns to the fetus via the third vessels in the umbilical cord (Umbilical vein).
The oxygen rich blood that enters the fetus passes through the fetal liver and enters the right side of the heart.
The oxygen rich blood goes through one of the two extra connections in the fetal heart that will close after the baby is born.
The hole between the top two heart chmbers (right and left atrium) is called "Patent Foramen Ovale (PFO).
This hole allows the oxygen rich blood to go form the right atrium to left atrium and then to the left ventricle and out the aorta.
As a result the blood with the most oxygen gets to the brain.
Blood coming back from the fetus's body also enters the right atrium, but the fetus is able to send this oxygen poor blood from the right atrium to the right ventricle (the chamber that normally pumps blood to the lungs).
most of the blood that leaves the right ventricle in the fetus bypass the lungs through the second of the extra fetal connections known as the ductus arteriosus.
The ductus arteriosus sends the oxygen poor blood to the organs in the lower half of the fetal body. This also allows for the oxygen poor blood to leave the fetus through the umbilical arteries and get back to the placenta to pick up oxygen.
Since the patent foramen ovale and ductus arteriosus are normal findings in the fetus, it is impossible to predict whether or not these connections will close normally after birth in a normal fetal heart.
anatomy of hard palate an soft palate. boundaries of hard and soft palate, blood supply, nerve supply .
osteology of hard palate, muscles of soft palate. origin, insertion of muscles of soft palate, action of muscles of soft palate, pasavants ridge
osteology of head and neck is explained in complete detail.
It has two part. plz read both parts to get an complete overview about the osteology of head and neck region.
I wanna share this to all dental students and colleagues. This is a simplified and concise description of the anatomical structure of a Permanent Maxillary Central Incisor.
Describe the normal fetal circulation and mention the changes that occur in it is placental stage and after birth. Fetal circulation is composed of placenta, umbilical cord, heart and systemic blood vessels.
A major difference between the fetal circulation and postnatal circulation is that the lungs are not used during the fetal stage resulting in the presence of shunts to move oxygenated blood and nutrients from the placenta to the fetal tissue.
At birth, the start of breathing and the severance of the umbilical cord prompt various changes that quickly transform fetal circulation into postnatal circulation.
When the embryo develops into the fetus, it creates a functional cardiovascular system that cooperates with the mother's system.
During birth, there are functional physiological changes that transform the shared system into an individual one for the fetus.
In the fetus main filtration site for plasma nutrients and wastes in the placenta, which is outside of the body cavity.
In adults, the circulation occurs entirely inside the body.
The blood that flow to through the fetus is actually more complicated than after the baby is born (normal heart).
This is because the mother (the placenta) is doing the work that the baby's lungs will do after birth.
The placenta accepts the blood without oxygen from the fetus through blood vessels that leave the fetus through the umbilical cord (Umbilical arteries , there are two of them).
When blood goes through the placenta it pick up oxygwn.
The oxygen rich blood then returns to the fetus via the third vessels in the umbilical cord (Umbilical vein).
The oxygen rich blood that enters the fetus passes through the fetal liver and enters the right side of the heart.
The oxygen rich blood goes through one of the two extra connections in the fetal heart that will close after the baby is born.
The hole between the top two heart chmbers (right and left atrium) is called "Patent Foramen Ovale (PFO).
This hole allows the oxygen rich blood to go form the right atrium to left atrium and then to the left ventricle and out the aorta.
As a result the blood with the most oxygen gets to the brain.
Blood coming back from the fetus's body also enters the right atrium, but the fetus is able to send this oxygen poor blood from the right atrium to the right ventricle (the chamber that normally pumps blood to the lungs).
most of the blood that leaves the right ventricle in the fetus bypass the lungs through the second of the extra fetal connections known as the ductus arteriosus.
The ductus arteriosus sends the oxygen poor blood to the organs in the lower half of the fetal body. This also allows for the oxygen poor blood to leave the fetus through the umbilical arteries and get back to the placenta to pick up oxygen.
Since the patent foramen ovale and ductus arteriosus are normal findings in the fetus, it is impossible to predict whether or not these connections will close normally after birth in a normal fetal heart.
anatomy of hard palate an soft palate. boundaries of hard and soft palate, blood supply, nerve supply .
osteology of hard palate, muscles of soft palate. origin, insertion of muscles of soft palate, action of muscles of soft palate, pasavants ridge
osteology of head and neck is explained in complete detail.
It has two part. plz read both parts to get an complete overview about the osteology of head and neck region.
1.picture of tongue
2. Cadaveric picture of tongue
3. Introduction of tongue
4. function of tongue
5. presenting parts
6. parts of tongue
7. diagram of tongue
8. Base of tongue
9. Dorsal surface of tongue
10. Papillae
11. Histology of papillae
12. Ventral surface of tongue
13 ventral surface
14. lateral margin of tongue
15. root of tongue
16. Muscles of tongue
17.Muscles diagram
18. Genioglossus
19.Hyoglossus
20. Superficial relation of hyoglossus
21. Deep relation of hyoglossus
22.Styloglossus
23.Palatoglossus
24.Intrinsic muscles of tongue
25.Muscles altering the shape of the tongue
26.Nerve supply of tongue
27.Sensory nerve supply of tongue
28.motor supply- diagram
29. sensory supply- diagram
30. Taste sensation part
31. Lymphatic Drainage
32.Pecularities of lymphatic drainage
33. Applied Anatomy
34. Tongue Tie
35.Bifid tongue
36. Lingual thyroid & Thyroglossal cyst
37.glossitis
38.Carcinoma of the tongue
39. Identify the structures
40. Thank you
anterior and posterior triangles of the neck. the boundaries and contents of anterior and posterior triangle. divisions of anterior triangle as carotid triangle, muscular triangle, submental triangle, digastric triangle. division of posterior triangle as occipital triangle, subclavian triangle
Definition
Classification Of Salivary Glands
Anatomy of salivary glands
Development of salivary glands
Structure Of Salivary Glands
Histology of major and minor salivary glands
1.picture of tongue
2. Cadaveric picture of tongue
3. Introduction of tongue
4. function of tongue
5. presenting parts
6. parts of tongue
7. diagram of tongue
8. Base of tongue
9. Dorsal surface of tongue
10. Papillae
11. Histology of papillae
12. Ventral surface of tongue
13 ventral surface
14. lateral margin of tongue
15. root of tongue
16. Muscles of tongue
17.Muscles diagram
18. Genioglossus
19.Hyoglossus
20. Superficial relation of hyoglossus
21. Deep relation of hyoglossus
22.Styloglossus
23.Palatoglossus
24.Intrinsic muscles of tongue
25.Muscles altering the shape of the tongue
26.Nerve supply of tongue
27.Sensory nerve supply of tongue
28.motor supply- diagram
29. sensory supply- diagram
30. Taste sensation part
31. Lymphatic Drainage
32.Pecularities of lymphatic drainage
33. Applied Anatomy
34. Tongue Tie
35.Bifid tongue
36. Lingual thyroid & Thyroglossal cyst
37.glossitis
38.Carcinoma of the tongue
39. Identify the structures
40. Thank you
anterior and posterior triangles of the neck. the boundaries and contents of anterior and posterior triangle. divisions of anterior triangle as carotid triangle, muscular triangle, submental triangle, digastric triangle. division of posterior triangle as occipital triangle, subclavian triangle
Definition
Classification Of Salivary Glands
Anatomy of salivary glands
Development of salivary glands
Structure Of Salivary Glands
Histology of major and minor salivary glands
Дидье Гранжорж. Острые заболевания и гомеопатияVubuntu Vera
Лечение гомеопатией Ангины Отиты Синуситы Гаймориты Ларингиты Бронхиты – Астма Гастроэнтериты, боли в животе Запоры Недержание кала.
Внимание! Гомеопатия не является заменой конвенциональной медицины. Во всех случаях любых недомоганий рекомендуется обращаться в соответствующие медицинские субстанции.
Прафулл Виджейкар. Прогнозирующая гомеопатия. Часть 1 Теория подавленияVubuntu Vera
На основе данных эмбриологии, излагается новый взгляд на закон излечения Геринга, а также разбираются вопросы миазматической принадлежности гомеопатических конституций.
В данной таблице собраны результаты исследований тонких или ментально-эмоциональных причин различных заболеваний, проведенные независимо исследователями: Луизой Хей, Владимиром Жикаренцевым.
Интеративный парадокс потенциированных лекарств.
Общая Теория Интераций демонстрирует физическую основу потенцирования и объясняет, каким образом возможен эффект при отсутствии вещества и почему потенциированные лекарства 1. становятся более сильными несмотря на разведение 2. не выполняют закона действия массы 3. не зависят от числа Авогадро
Anatomy of brachial plexus explained in detail along with nerve supply of all the muscles of upper limb and various paralysis caused by brachial plexus injury
Temporalis: Located on the side of the head, it helps in closing the jaw.
Masseter: Located at the angle of the jaw, it also aids in closing the jaw.
Frontalis: Covers the forehead and raises the eyebrows.
Orbicularis Oculi: Surrounds the eye and closes the eyelids.
Orbicularis Oris: Encircles the mouth and aids in closing and puckering the lips.
Buccinator: Located in the cheek area, it compresses the cheeks during actions like blowing.
Platysma: Thin, sheet-like muscle covering parts of the neck and jaw, it helps in facial expressions and neck movements.
Sternocleidomastoid: Neck muscle that aids in turning the head and flexing the neck.
Temporalis:
Location: Temporal region of the skull.
Action: Elevates and retracts the mandible (jaw), assisting in closing the jaw during chewing.
Masseter:
Location: Runs from the zygomatic arch to the mandible.
Action: Primary muscle for closing the jaw (elevation), especially during biting and chewing.
Frontalis:
Location: Covers the forehead.
Action: Raises the eyebrows and wrinkles the forehead horizontally.
Orbicularis Oculi:
Location: Surrounds the eye.
Action: Closes the eyelids, protects the eye from light and foreign objects.
Orbicularis Oris:
Location: Encircles the mouth.
Action: Closes and purses the lips, helps in speech and facial expressions, and maintains oral competence (sealing the mouth).
Buccinator:
Location: Located in the cheek area, between the maxilla and mandible.
Action: Compresses the cheeks against the teeth, aids in sucking, blowing, and chewing movements.
Platysma:
Location: Thin, broad muscle covering parts of the neck and jaw.
Action: Depresses the lower jaw and lip, tenses the skin of the neck (e.g., during expressions of tension or fear).
Sternocleidomastoid:
Location: Runs from the sternum and clavicle to the mastoid process of the temporal bone.
Action: Flexes and laterally rotates the head, and flexes the neck. It also acts as an accessory muscle for breathing when the neck is fixed.
Неизвестная гомеопатия акупунктура и электродиагностика - клинические прило...Vubuntu Vera
Гомеопатия и акупунктура признают важность энергетических полей в живых организмах. Электродиагностика, впервые проведенная доктором Фолем более 30 лет назад, служит мостиком, который соединяет эти две важные школы в новой медицинской парадигме - биоэнергетической медицине, нарождающейся в настоящее время в Западном полушарии. Современные исследования в квантовой механике раскрыли совершенно иной взгляд на жизнь при рассмотрении ее на субатомарном уровне. В статье сделан краткий обзор истории квантовой физики. Некоторые мысли о том, как и почему работает гомеопатия, акупунктура и электродиагностика представлены практическим врачом аллопатом, который успешно лечил возможные заболевания с использованием биоэнергетических модальностей. Включены некоторые истории, болезней.
Areas covered in this project: electricity and magnetism _ electromagnetism. “Whenever an electric charge moves it is always accompanied by a surrounding magnetic field.” “Consider that almost everything in the body (the brain, nerve signals, biochemical processes and so on) has an electrical basis, and we even generate our own electrical field.”
The effects of particular frequencies on the human brain and body. - Historically the choice for some electrical mains frequencies appears to have been unfortunate.
The effects of higher frequencies – microwaves, TV, computers, communications transmitters, radar and ionising radiations x-ray, cosmic radiation, gamma rays, CT scans and MRI.
In between: all radio frequencies. Specific problems with certain precise frequencies eg Tetra frequency, power levels and
waveforms all have an effect. Precise therapeutic uses of ‘sawtooth’ wave forms; also adverse effects of the same wave form when used at the ‘wrong’ frequency or strength.
Examples of this from recent orthopaedic work; electromagnetic treatments to strengthen the calcium matrix, in order to accelerate the repair of difficult bone fractures.
Exposure levels: “Continued - exposure to a steady wave form is more likely to have a negative effect, whereas intermittent exposure to a pattern of changing frequency and wave forms is considerably more friendly to us.”
The effects of increasing exposure over the last 50 years to adio, TV and all domestic and other electrical appliances, also higher frequency devices such as computers, mobile phones etc are discussed: the fog of electro-magnetic field (EMF) pollution.
“With the rise in EMF pollution, which can effect all micro-organisms even at a DNA level, it is hardly surprising that new diseases arise.”
New Diseases
Electromagnetic Hypersensitivity – onset from exposure to new computers or moving house close to a high electromagnetic source, or other novel source of EMF.
Chronic Fatigue Syndrome/ME – suspect sensitivity to EMF. Neurological and immune system problems.
Aids and the HIV virus – mutation occurring in viruses in the late 70’s and early 80’s from over saturation of EMF?
CHAPTER 1 SEMESTER V - ROLE OF PEADIATRIC NURSE.pdfSachin Sharma
Pediatric nurses play a vital role in the health and well-being of children. Their responsibilities are wide-ranging, and their objectives can be categorized into several key areas:
1. Direct Patient Care:
Objective: Provide comprehensive and compassionate care to infants, children, and adolescents in various healthcare settings (hospitals, clinics, etc.).
This includes tasks like:
Monitoring vital signs and physical condition.
Administering medications and treatments.
Performing procedures as directed by doctors.
Assisting with daily living activities (bathing, feeding).
Providing emotional support and pain management.
2. Health Promotion and Education:
Objective: Promote healthy behaviors and educate children, families, and communities about preventive healthcare.
This includes tasks like:
Administering vaccinations.
Providing education on nutrition, hygiene, and development.
Offering breastfeeding and childbirth support.
Counseling families on safety and injury prevention.
3. Collaboration and Advocacy:
Objective: Collaborate effectively with doctors, social workers, therapists, and other healthcare professionals to ensure coordinated care for children.
Objective: Advocate for the rights and best interests of their patients, especially when children cannot speak for themselves.
This includes tasks like:
Communicating effectively with healthcare teams.
Identifying and addressing potential risks to child welfare.
Educating families about their child's condition and treatment options.
4. Professional Development and Research:
Objective: Stay up-to-date on the latest advancements in pediatric healthcare through continuing education and research.
Objective: Contribute to improving the quality of care for children by participating in research initiatives.
This includes tasks like:
Attending workshops and conferences on pediatric nursing.
Participating in clinical trials related to child health.
Implementing evidence-based practices into their daily routines.
By fulfilling these objectives, pediatric nurses play a crucial role in ensuring the optimal health and well-being of children throughout all stages of their development.
One of the most developed cities of India, the city of Chennai is the capital of Tamilnadu and many people from different parts of India come here to earn their bread and butter. Being a metropolitan, the city is filled with towering building and beaches but the sad part as with almost every Indian city
Global launch of the Healthy Ageing and Prevention Index 2nd wave – alongside...ILC- UK
The Healthy Ageing and Prevention Index is an online tool created by ILC that ranks countries on six metrics including, life span, health span, work span, income, environmental performance, and happiness. The Index helps us understand how well countries have adapted to longevity and inform decision makers on what must be done to maximise the economic benefits that comes with living well for longer.
Alongside the 77th World Health Assembly in Geneva on 28 May 2024, we launched the second version of our Index, allowing us to track progress and give new insights into what needs to be done to keep populations healthier for longer.
The speakers included:
Professor Orazio Schillaci, Minister of Health, Italy
Dr Hans Groth, Chairman of the Board, World Demographic & Ageing Forum
Professor Ilona Kickbusch, Founder and Chair, Global Health Centre, Geneva Graduate Institute and co-chair, World Health Summit Council
Dr Natasha Azzopardi Muscat, Director, Country Health Policies and Systems Division, World Health Organisation EURO
Dr Marta Lomazzi, Executive Manager, World Federation of Public Health Associations
Dr Shyam Bishen, Head, Centre for Health and Healthcare and Member of the Executive Committee, World Economic Forum
Dr Karin Tegmark Wisell, Director General, Public Health Agency of Sweden
Leading the Way in Nephrology: Dr. David Greene's Work with Stem Cells for Ki...Dr. David Greene Arizona
As we watch Dr. Greene's continued efforts and research in Arizona, it's clear that stem cell therapy holds a promising key to unlocking new doors in the treatment of kidney disease. With each study and trial, we step closer to a world where kidney disease is no longer a life sentence but a treatable condition, thanks to pioneers like Dr. David Greene.
We understand the unique challenges pickleball players face and are committed to helping you stay healthy and active. In this presentation, we’ll explore the three most common pickleball injuries and provide strategies for prevention and treatment.
Medical Technology Tackles New Health Care Demand - Research Report - March 2...pchutichetpong
M Capital Group (“MCG”) predicts that with, against, despite, and even without the global pandemic, the medical technology (MedTech) industry shows signs of continuous healthy growth, driven by smaller, faster, and cheaper devices, growing demand for home-based applications, technological innovation, strategic acquisitions, investments, and SPAC listings. MCG predicts that this should reflects itself in annual growth of over 6%, well beyond 2028.
According to Chris Mouchabhani, Managing Partner at M Capital Group, “Despite all economic scenarios that one may consider, beyond overall economic shocks, medical technology should remain one of the most promising and robust sectors over the short to medium term and well beyond 2028.”
There is a movement towards home-based care for the elderly, next generation scanning and MRI devices, wearable technology, artificial intelligence incorporation, and online connectivity. Experts also see a focus on predictive, preventive, personalized, participatory, and precision medicine, with rising levels of integration of home care and technological innovation.
The average cost of treatment has been rising across the board, creating additional financial burdens to governments, healthcare providers and insurance companies. According to MCG, cost-per-inpatient-stay in the United States alone rose on average annually by over 13% between 2014 to 2021, leading MedTech to focus research efforts on optimized medical equipment at lower price points, whilst emphasizing portability and ease of use. Namely, 46% of the 1,008 medical technology companies in the 2021 MedTech Innovator (“MTI”) database are focusing on prevention, wellness, detection, or diagnosis, signaling a clear push for preventive care to also tackle costs.
In addition, there has also been a lasting impact on consumer and medical demand for home care, supported by the pandemic. Lockdowns, closure of care facilities, and healthcare systems subjected to capacity pressure, accelerated demand away from traditional inpatient care. Now, outpatient care solutions are driving industry production, with nearly 70% of recent diagnostics start-up companies producing products in areas such as ambulatory clinics, at-home care, and self-administered diagnostics.
Telehealth Psychology Building Trust with Clients.pptxThe Harvest Clinic
Telehealth psychology is a digital approach that offers psychological services and mental health care to clients remotely, using technologies like video conferencing, phone calls, text messaging, and mobile apps for communication.
CHAPTER 1 SEMESTER V PREVENTIVE-PEDIATRICS.pdfSachin Sharma
This content provides an overview of preventive pediatrics. It defines preventive pediatrics as preventing disease and promoting children's physical, mental, and social well-being to achieve positive health. It discusses antenatal, postnatal, and social preventive pediatrics. It also covers various child health programs like immunization, breastfeeding, ICDS, and the roles of organizations like WHO, UNICEF, and nurses in preventive pediatrics.
CRISPR-Cas9, a revolutionary gene-editing tool, holds immense potential to reshape medicine, agriculture, and our understanding of life. But like any powerful tool, it comes with ethical considerations.
Unveiling CRISPR: This naturally occurring bacterial defense system (crRNA & Cas9 protein) fights viruses. Scientists repurposed it for precise gene editing (correction, deletion, insertion) by targeting specific DNA sequences.
The Promise: CRISPR offers exciting possibilities:
Gene Therapy: Correcting genetic diseases like cystic fibrosis.
Agriculture: Engineering crops resistant to pests and harsh environments.
Research: Studying gene function to unlock new knowledge.
The Peril: Ethical concerns demand attention:
Off-target Effects: Unintended DNA edits can have unforeseen consequences.
Eugenics: Misusing CRISPR for designer babies raises social and ethical questions.
Equity: High costs could limit access to this potentially life-saving technology.
The Path Forward: Responsible development is crucial:
International Collaboration: Clear guidelines are needed for research and human trials.
Public Education: Open discussions ensure informed decisions about CRISPR.
Prioritize Safety and Ethics: Safety and ethical principles must be paramount.
CRISPR offers a powerful tool for a better future, but responsible development and addressing ethical concerns are essential. By prioritizing safety, fostering open dialogue, and ensuring equitable access, we can harness CRISPR's power for the benefit of all. (2998 characters)
2. Gallery of Images
ARTERIES OF HEAD AND
NECK, LATERAL VIEW
MUSCULATURE OF HEAD AND
NECK, LATERAL VIEW
SKELETON OF HEAD AND
NECK, LATERAL VIEW
Click on thumbnail to view image
SUPERFICIAL ANATOMY OF
HEAD AND NECK, LATERAL
VIEW
ANATOMY OF HEAD AND
NECK, MIDSAGITTAL VIEW
BRAIN, LATERAL VIEW SKELETON, LATERAL VIEW SKELETON, ANTERIOR VIEW ARTERIES OF THORAX AND
ABDOMEN, ANTERIOR VIEW
AUSCULTATION POINTS
MUSCULATURE OF THORAX
AND ABDOMEN, ANTERIOR
VIEW
ARTERIES OF LOWER LIMB,
ANTERIOR AND POSTERIOR
VIEWS
SKELETON, POSTERIOR VIEW
NERVES OF LOWER LIMB,
ANTERIOR AND POSTERIOR
VIEWS
MUSCULATURE OF BACK,
POSTERIOR VIEW
MUSCULATURE OF LOWER
LIMB, LATERAL AND MEDIAL
VIEWS
SKELETON OF UPPER LIMB,
ANTERIOR VIEW
RESPIRATORY SYSTEM,
ANTERIOR VIEW
ARTERIES OF UPPER LIMB,
ANTERIOR VIEW
DIGESTIVE SYSTEM,
ANTERIOR VIEW
NERVES OF UPPER LIMB,
ANTERIOR VIEW
LYMPHATICS SYSTEM,
ANTERIOR VIEW
MUSCULATURE OF THORAX
AND UPPER LIMB, LATERAL
VIEW
MALE AND FEMALE
UROGENITAL SYSTEMS,
MIDSAGITTAL VIEW
SKELETON OF LOWER LIMB,
ANTERIOR VIEW
ANTERIOR VIEW OF HEART
WITH OPENED RIGHT
VENTRICLE
SKULL, ANTERIOR VIEW
3. List of Images Click on image
title to view image
01. SKULL, ANTERIOR VIEW
02. SKELETON OF HEAD AND NECK, LATERAL VIEW
03. MUSCULATURE OF HEAD AND NECK, LATERAL VIEW
04. ARTERIES OF HEAD AND NECK, LATERAL VIEW
05. SUPERFICIAL ANATOMY OF HEAD AND NECK, LATERAL VIEW
06. ANATOMY OF HEAD AND NECK, MIDSAGITTAL VIEW
07. BRAIN, LATERAL VIEW
08. SKELETON, LATERAL VIEW
09. SKELETON, ANTERIOR VIEW
10. ARTERIES OF THORAX AND ABDOMEN, ANTERIOR VIEW
11. AUSCULTATION POINTS
12. MUSCULATURE OF THORAX AND ABDOMEN, ANTERIOR VIEW
13. SKELETON, POSTERIOR VIEW
14. MUSCULATURE OF BACK, POSTERIOR VIEW
15. SKELETON OF UPPER LIMB, ANTERIOR VIEW
16. ARTERIES OF UPPER LIMB, ANTERIOR VIEW
17. NERVES OF UPPER LIMB, ANTERIOR VIEW
18. MUSCULATURE OF THORAX AND UPPER LIMB, LATERAL VIEW
19. SKELETON OF LOWER LIMB, ANTERIOR VIEW
20. ARTERIES OF LOWER LIMB, ANTERIOR AND POSTERIOR VIEWS
21. NERVES OF LOWER LIMB, ANTERIOR AND POSTERIOR VIEWS
22. MUSCULATURE OF LOWER LIMB, LATERAL AND MEDIAL VIEWS
23. RESPIRATORY SYSTEM, ANTERIOR VIEW
24. DIGESTIVE SYSTEM, ANTERIOR VIEW
25. LYMPHATICS SYSTEM, ANTERIOR VIEW
26. MALE AND FEMALE UROGENITAL SYSTEMS, MIDSAGITTAL VIEW
27. ANTERIOR VIEW OF HEART WITH OPENED RIGHT VENTRICLE
4. Plate 1: SKULL, ANTERIOR VIEW
mental protuberance
mental symphysis
body of mandible
intermaxillary suture
ramus of mandible
maxilla (body)
inferior and middle
nasal conchae
infraorbital foramen
nasomaxillary suture
mental tubercle
angle of mandible
mental foramen
sphenozygomatic
suturegreater wing of sphenoid
(orbital surface) bone
lacrimal bone
frontozygomatic
suture
sphenoparietal
suture
supra-orbital foramen
frontomaxillary suture
frontonasal suture
squamous part of frontal bone
internasal suture
nasal bone
frontal process of maxilla
frontolacrimal suture
sphenofrontal suture supra-orbital margin
temporal bone
parietal bone
optic canal
inferior border of mandible
anterior nasal spine of maxilla
nasal septum
alveolar part of mandible
zygomatico-maxillary suture
infraorbital margin
zygomatic bone
zygomatic process of
frontal bone
greater wing of sphenoid
bone (temporal surface)
coronal suture
orbital part
of frontal bone
glabella
To enlarge, click on image.
Click on image again to return to original size.
Return to:
Image Gallery
Image List
5. occipital bone
parietal bone
lambdoid suture
external occipital
protuberance
temporal bone
external acoustic meatus
temporomandibular joint
C7 [vertebra prominens]
mastoid process
C1 [atlas]
C2 [axis]
frontal bone
coronal suture
bregma
greater wing of sphenoid
bone
glabella
nasal bone
zygomatic arch
ramus of mandible
anterior
nasal spine
zygomatic
bone
maxilla
mental protuberance
body of mandible
angle of mandible
carotid tubercle of C6
1st rib
Plate 2: SKELETON OF HEAD AND NECK, LATERAL VIEW
Return to:
Image Gallery
Image List
To enlarge, click on image.
Click on image again to return to original size.
6. epicranial aponeurosis
temporalis m. (covered
by deep fascia)
occipital belly of
epicranius m.
auricularis
superior m.
trapezius m.
splenius capitis m.
levator scapulae m.
anterior scalene m.
levator labii
superioris m.
zygomaticus
minor m.
temporoparietalis m.
frontal belly of
epicranius m.
orbicularis
oris m.masseter m.
depressor anguli
oris m.
nasalis m.
risorius m.
depressor labii
inferioris m.
deltoid m.
platysma m.
pectoralis major m.
mentalis m.
sternocleidomastoid m.
auricularis posterior m.
palpebral part of
orbicularis oculi m.
zygomaticus
major m.
auricularis
anterior m.
orbital part of orbicularis
oculi m.
Plate 3: MUSCULATURE OF HEAD AND NECK, LATERAL VIEW
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7. Plate 4: ARTERIES OF HEAD AND NECK, LATERAL VIEW
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deep cervical a.
superficial cervical a. internal alveolar a.
posterior
auricular a.
superficial temporal a.
zygomatico-orbital a.
sternocleidomastoid br. of
occipital a.
facial a.
transverse cervical a.
lingual a.
occipital a.
costocervical
trunk
dorsal scapular a.
highest intercostal a.
1st post. intercostal a. suprascapular a. axillary a.
buccal a.
maxillary a.
ophthalmic a.
frontal br. of superficial
temporal a.
parietal br. of superficial
temporal a.
supratrochlear a.
transverse facial a.
superior labial
a.
infraorbital a.
supraorbital a.
mental a.
facial a.
inferior labial a.
external carotid a.
internal carotid a.
ascending cervical a.
superior thyroid a.
common carotid a.
inferior thyroid a.
vertebral a.
thyrocervical trunk
right subclavian a.
inferior thoracic a.
brachiocephalic a.
8. Plate 5: SUPERFICIAL ANATOMY OF HEAD AND NECK, LATERAL VIEW
occipital a.
ext. acoustic meatus
greater
occipital n.
superficial
temporal a.
and v.
epicranial aponeurosis
zygomatic br. of facial n.
posterior auricular a.
auriculo-
temporal n.
great auricular n.
lesser occipital n.
spinal accessory n.
parotid gland
posterior
supraclavicular n.
external jugular v.
infratrochlear n.
temporal br. of facial n.
zygomatico-orbital a. and v.
supratrochlear n.
buccal br. of facial n.
supraorbital n.
infraorbital a.
and n.
transverse facial a.
parotid duct
facial v.
mandibular br. of facial n.
mental n.
submandibular gland
retromandibular v.
transverse cervical n.
cervical br. of facial n.
medial supraclavicular n.intermediate
supraclavicular n.
sternocleidomastoid m.
third occipital n.
parietal br. of
superficial
temporal a.
frontal br. of superficial frontal a.
supraorbital a.
and v.
zygomatico-
facial n.
external nasal
br.of infraorbital
n.
anterior jugular v.
posterior auricular v.
trapezius m.
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9. medial surface of frontal
lobe
pharyngeal recess
inferior nasal
concha
soft palate
frontal sinus
lamina terminalis
fornix
3rd ventricle
superior sagittal sinus
septum pellucidum
optic chiasma
sphenoid sinus
pituitary gland
corpus callosum
genioglossus m.
pharyngeal orifice of
auditory tube
middle nasal
concha
spheno-ethmoidal recess
superior nasal
concha
incisive fossa
salpingopalatine fold
torus tubarius
vocal fold
vestibular (false vocal) fold
salpingopharyngeal fold
mandible
geniohyoid m.
uvula
trachea
thyroid cartilage
mylohyoid m.
dura mater
subcutaneous
connective tissue
thalamus
calvaria
choroid plexus of 3rd ventricle
medial surface of parietal lobe
skin
epicranial aponeurosis
periosteum
mamillary body
midbrain
pineal body
scalp
quadrigeminal
lamina
cerebellum
medial surface
of occipital lobe
straight sinus
confluence of
sinuses
4th ventricle
occipital sinus
pons
medulla oblongata
cisterna magna
pharyngeal tonsil
atlas
spinal cord
axis
ligamentum nuchae
region of oropharynx
pharyngeal constrictor mm.
epiglottis
larynx
dura mater
posterior longitudinal lig.
body of C6
cricoid cartilage
Plate 6: ANATOMY OF HEAD AND NECK, MIDSAGITTAL VIEW
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10. superior parietal lobule
postcentral sulcus
postcentral gyrus
superior frontal gyrus
precentral gyrus
precentral sulcus
superior frontal sulcus
middle frontal gyrus
supramarginal gyrus
inferior frontal
sulcus
central sulcus
lateral sulcus
inferior frontal gyrus
frontal
pole
temporal pole
superior temporal gyrus
superior temporal sulcus
middle temporal gyrus
inferior temporal sulcus
inferior temporal gyrus
lunate
sulcus
angular gyrus
inferior parietal lobule
parieto-occipital
sulcus
intraparietal sulcus
ponspreoccipital notch
occipital pole
trigeminal n.
[CNV]
calcarine
sulcus
FRONTAL LOBE
medulla oblongata
inferior olive
spinal cord
cerebellum
TEMPORAL LOBE
PARIETAL LOBE
OCCIPITAL LOBE
Plate 7: BRAIN, LATERAL VIEW
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11. C3
C4
C5
C6
C7
2
3
4
5
6
7
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
L1
L2
L3
8
9
10
1
spinous process of T3
C7 [vertebra prominens]
C2 [axis]
C1 [atlas]
spinous process of L5
transverse process of T10
coccyx
posterior sacral foramen
sacrum
S5
spinous process of S1
body of sternum
manubrium
carotid tubercle of C6
sternal angle
transverse process of C5
anterior superior iliac spine
iliac crest
body of L3
anterior inferior iliac spine
costal margin
Plate 8: SKELETON, LATERAL VIEW
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12. promontory of sacrum
12th rib
costal margin
Intertubercular
sulcus
C7
jugular notch
inferior angle of scapula
10th costal cartilage
ilial tubercle
11th rib
sternal angle
coccyx
pubic crest
pubic tubercle
xiphoid process
medial border of scapula
greater tubercle
clavicle
1st rib
coracoid process
lesser
tubercle
body of sternum
manubrium of sternum
acromion
iliac crest
anterior superior iliac
spine
inguinal ligament
pubic symphysis
T1
C6
T11
T12
L1
L2
L3
L4
L5
11
2
3
4
5
6
7
8
9
10
Plate 9: SKELETON, ANTERIOR VIEW
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13. costocervical trunk
thyrocervical trunk
suprascapular artery
right common carotid artery
axillary artery
thoraco-acromial
trunk
9th posterior
intercostal artery
transverse cervical artery
dorsal scapular artery
superior epigastric artery
ascending aorta
musculophrenic artery
subscapular
artery
iliolumbar artery
subcostal artery
left testicular artery
inferior mesenteric artery
left renal artery
deep circumflex iliac artery
inferior epigastric artery
middle sacral artery
left subclavian artery
vertebral artery
inferior thyroid artery
transverse cervical artery
ascending cervical artery
aortic arch
sternal angle
brachiocephalic artery
celiac trunk
perforating branch of internal
thoracic artery
thoracic aorta
inferior thoracic artery
common iliac artery
2nd lumbar artery
abdominal aorta
superior mesenteric artery
femoral artery
external iliac artery
internal iliac artery
3
4
5
6
7
8
9
10
11
12
7th anterior
intercostal artery
right renal artery
Plate 10: ARTERIES OF THORAX AND ABDOMEN, ANTERIOR VIEW
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15. basilic vein
deep fascia
platysma muscle
axillary tail of breast
superficial cervical veins
linea alba
ampulla of lactiferous duct
nipple
thoraco-epigastric vein
suspensory ligaments
falciform edge of
saphenous hiatus
superficial epigastric
vein and artery
superficial circumflex
iliac vein and artery
superficial inguinal ring
lateral cutaneous branch of
intercostal nerve
great saphenous vein
lateral femoral
cutaneous nerve
acromion
sternocleidomastoid muscle
anterior jugular vein
trapezius muscle
external jugular vein
manubrium of sternum
deltoid muscle
hiatus of
deltopectoral
triangle
pectoralis major
muscle
clavicle
rectus sheath–
anterior layer
serratus anterior
muscle
body of sternum
costal margin
perforating branches of
internal thoracic artery
and anterior cutaneous
branch of intercostal
nerve
inguinal ligament
umbilicus
external oblique
abdominal muscle
anterior superior
iliac spine
anterior cutaneous
branch of intercostal
nerve
spermatic cord
suspensory ligament
of penis
femoral nerve
femoral vein
intercrural fibers of
external oblique
abdominal muscle
aponeurosis
femoral artery
external spermatic
fascia
sartorius muscle
deep fascia
of penis
cephalic vein
Plate 12: MUSCULATURE OF THORAX AND ABDOMEN, ANTERIOR VIEW
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16. phalanges
thoracic vertebrae
1st rib
scapula
skull
clavicle
humerus
radius
metatarsal bones
ulna
cervical vertebrae
carpal bones
sacrum
hip bone
coccyx
calcaneus
metatarsal bones
phalanges
lumbar
vertebrae
femur
iIium
ischium
pubis
tibia
fibula
tarsal bones
Plate 13: SKELETON, POSTERIOR VIEW
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17. medial cutaneous branches of
dorsal rami of C4–C8, spinal nerves
lesser occipital nerve (C2,C3)
dorsal ramus of greater occipital nerve (C2)
greater auricular nerve (C2,C3)
3rd occipital nerve
lateral cutaneous branch of
iliohypogastric nerve (L1)
lateral cutaneous
branches of T4–T11,
ventral rami of spinal
nerves
triangle of auscultation
lateral cutaneous branch of
subcostal nerve (T12)
lateral
supraclavicular
nerve (C3,C4)
lateral femoral cutaneous
nerve (L2, L3)
superior clunial nerves (dorsal
rami of L1–L3)
acromion
splenius capitis muscle
sternocleidomastoid muscle
levator scapulae muscle
semispinalis capitis muscle
triceps brachii
muscle–long head
teres minor muscle
infraspinatus muscle
teres major muscle
deltoid muscle
trapezius muscle
medial cutaneous branches of
dorsal rami of T1–T6 spinal nerves
lateral cutaneous
branches of dorsal rami
of T7–T12 spinal nerves
latissimus dorsi muscle
lumbar triangle
exterior abdominal oblique
muscle
iliac crest
thoracolumbar
fascia–posterior layer
middle clunial nerves
(dorsal rami of S1–S3)
gluteus maximus muscle
iliotibial tract
Plate 14: MUSCULATURE OF BACK, POSTERIOR VIEW
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18. Plate 15: SKELETON OF UPPER LIMB, ANTERIOR VIEW
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elbow joint
manubrium
sternoclavicular joint
coracoid process of scapula
clavicle
acromioclavicular joint
intertubercular groove
greater tubercle
sternum
lesser tubercle
1st rib
lateral epicondyle
humerus
trochlea
radius
capitulum
medial epicondyle
scapula
coronoid fossa
humeroradial joint
proximal radioulnar joint
ulna
of humerus
shoulder joint
humeroulnar joint
radiocarpal joint
carpometacarpal joint of thumb
distal radioulnar joint
carpometacarpal joints
carpal bones
metacarpal bones
metacarpo-
phalangeal joints
proximal phalanx
proximal interphalangeal joints
distal phalanx
distal
phalanx
middle
phalanx
proximal phalanx
19. posterior ulnar recurrent artery
inferior ulnar collateral artery
anterior ulnar recurrent artery
superior thoracic artery
subclavian artery
axillary artery
lateral thoracic artery
ulnar artery
posterior circumflex humeral
superior ulnar collateral
artery
subscapula artery
ascending branch of profunda brachii artery
brachial artery
radial collateral artery
middle collateral artery
radial recurrent artery
common interosseus artery
radial artery
posterior interosseus artery anterior interosseus artery
palmar carpal branch of radial artery
superficial palmar
branch of radial artery
deep palmar arch
palmar metacarpal arteries
radialis indicis artery
palmar carpal branch of ulnar artery
deep branch of ulnar artery
superficial palmar arch
common palmar digital arteries
proper palmar digital arteries
anterior circumflex humeral
profunda brachii artery
Plate 16: ARTERIES OF UPPER LIMB, ANTERIOR VIEW
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20. Plate 17: NERVES OF UPPER LIMB, ANTERIOR VIEW
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ulna
median nerve
musculocutaneous nerve
brachial plexus (C-5–T-1 roots)
superior trunk
middle trunk
inferior trunk
posterior cord
ulnar nerve
medial cord
lateral pectoral nerve
lateral cord
brachial plexus
axillary nerve
radial nerve
humerus
deep radial nerve
superficial radial nerve
lateral antebrachial cutaneous nerve
radius
superficial radial nerve
common palmar digital
nerves of median nerve
medial pectoral nerve
clavicle
anterior interosseus nerve
ulnar nerve
median nerve
common palmar digital nerve of
ulnar nerve
proper palmar digital nerves
radial nerve
21. serratus anterior muscle
clavicle
external jugular vein
pectoralis major muscle
sternocleidomastoid muscle
lateral epicondyle of humerus
external abdominal oblique muscle
brachialis muscle
lateral antebrachial cutaneous nerve
long head of biceps brachii
muscle
anatomic snuff box
abductor pollicis longus muscle
extensor carpi radialis longus muscle
extensor pollicis brevis muscle
brachioradialis muscle
radial artery
adductor pollicis muscle
trapezius muscle
teres minor muscle
deltoid muscle
spine of scapula
Infraspinatus muscle
acromial part of scapula
latissimus dorsi muscle
lateral intermuscular septum
lateral head of triceps brachii
muscle
teres major muscle
olecranon
anconeus muscle
extensor carpi ulnaris muscle
extensor digitorum muscle
extensor pollicis longus muscle
extensor retinaculum
1st dorsal interosseus muscle
extensor carpi radialis brevis muscle
Plate 18: MUSCULATURE OF THORAX AND UPPER LIMB, LATERAL VIEW
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22. Plate 19: SKELETON OF LOWER LIMB, ANTERIOR VIEW
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superior pubic ramus
sacrum
hip bone
anterior superior iliac spine
iliac crest
iliac fossa
anterior inferior iliac spine
greater trochanter
hip jointhead of femur
sacroiliac joint
lateral condyle
neck of femur
femur
knee joint
head of fibula
proximal tibiofibular joint
fibula
distal tibiofibular joint
patella
lesser trochanter ischium
medial condyle
body of pubis
tibial tuberosity
tibia
medial malleolus
lateral malleolus
calcaneocuboid
joint
cuboid
lateral
metatarsal
bones (1-5)
interphalangeal
joints
middle phalanx
ankle
joint
talus
navicular
medial
cuneiform
inter-
mediate
cuneiform
tarsometatarsal
joints
proximal
phalanx
distal phalanx
calcaneus
23. superior lateral
genicular artery
perforating
arteries (1 3)
profunda femoris
artery
lateral malleolar artery
external iliac artery
deep circumflex iliac
artery
dorsalis pedis artery
deep plantar branch
descending branch of
lateral circumflex
femoral artery
abdominal
aorta
lateral circumflex
femoral artery
common iliac artery
internal iliac
artery
inferior epigastric
artery
medial circumflex
femoral artery
articular vascular
network of knee
medial malleolar artery
arcuate artery
1st dorsal metatarsal artery
superior gluteal
artery
inferior gluteal
artery
femoral artery
descending genicular
artery
superior medial
genicular artery
popliteal artery
inferior medial
genicular artery
posterior tibial artery
medial plantar artery
deep plantar branch of
dorsalis pedis artery
lateral plantar artery
peroneal artery
anterior tibial
artery
inferior lateral
genicular artery
plantar arch
plantar metatarsal
arteries
plantar digital
arteries
anterior tibial
artery
lateral femoral
circumflex artery
descending branch
of lateral femoral
circumflex artery
perforating
arteries (1 3)
Plate 20: ARTERIES OF LOWER LIMB, ANTERIOR AND POSTERIOR VIEWS
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24. common peroneal nerve
inferior gluteal nerve
branches
of spinal
nerves
subcostal nerve
L-1
lateral femoral cutaneous
nerve
femoral nerve
lateral sural nerve
anterior cutaneous
branches of femoral nerve
superior gluteal nerve
ilio-hypogastric nerve
ilio-inguinal nerve
superficial peroneal nerve
sural nerve
lumbar plexus
sacral plexus
obturator nerve
sciatic nerve
saphenous nerve
deep peroneal nerve
medial sural nerve
tibial nerve
perineal branch of
the posterior
femoral
cutaneous nerve
medial plantar nerve
posterior femoral
cutaneous nerve
sural nerve
lateral plantar nerve
lumbosacral trunk
Plate 21: NERVES OF LOWER LIMB, ANTERIOR AND POSTERIOR VIEWS
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25. common fibular nerve
lateral sural superficial nerve
obturator
artery and vein
external
iliac artery
iliac crest
umbilical artery
common iliac artery
vastus medialis
muscle
rectus
femoris
muscle
adductor longus
muscle
sartorius
muscle
pubic
symphysis
inferior medial
genicular a. and v.
patella
synovial capsule of
knee joint
medial patellar
retinaculum
superior medial
genicular a. and v.
gracilis m. tendon
sartorius m. tendon
semitendinosus m.
tendon
pes
anserinus
piriformis muscle
lateral sacral a. and v.
internal iliac artery
semitendinosus muscle
semimembranosus muscle
adductor magnus muscle
gracilis muscle
obturator internus muscle
medial head of
gastrocnemius muscle
saphenous nerve
sacrospinous ligament
gluteus maximus
muscle
long head of biceps
femoris muscle
iliac crest
internal oblique
abdominal muscle
latissimus dorsi muscle
lateral head of
gastrocnemius muscle
short head of biceps
femoris muscle
rectus
femoris
muscle
external oblique
abdominal muscle
sartorius
muscle
gluteus medius muscle
(covered by fascia)
quadriceps
femoris muscle
tendon
vastus
lateralis
muscle
patella
iliotibial tract
lateral patellar
retinaculum
patellar ligament
fibularis [peroneus]
longus muscle
tibialis anterior muscle
tensor fasciae latae muscle
Plate 22: MUSCULATURE OF LOWER LIMB, LATERAL AND MEDIAL VIEWS
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26. laryngopharynx
nasopharynx
torus tubarius
frontal sinus
sphenoid sinus
superior nasal conchae
middle nasal conchae
nasal cavity
oropharynx
vestibule of nasal cavity
brain
choana
inferior nasal conchae
hard palate
pharyngeal opening of
auditory tube
soft palate
thyroid cartilage
superior lobe of
right lung
trachea
right main
bronchus
horizontal fissure of
right lung
middle lobe of right
lung
diaphragm
oblique fissure of right
lung
inferior lobe of right
lung
cricoid cartilage
larynx
vocal fold
apex left main bronchus
carina of trachea
inferior lobe of left
lung
superior lobe of left
lung
oblique fissure of left
lung
central tendon of
diaphragm
pharynx
Plate 23: RESPIRATORY SYSTEM, ANTERIOR VIEW
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27. esophagus
soft palate
hard palate
vestibule of oral cavity
nasal cavity
oral cavity
tongue
larynx
laryngopharynx
right lobe of liver
brain
falciform ligament of liver
descending colon
cecum
gallbladder
transverse colon
ascending colon
oropharynx
lesser omentum
left lobe of liver
stomach
diaphragm
pancreas
duodenum
jejunum
spleen
ileum
small
intestine
sigmoid colon
rectum
large
intestine
nasopharynx
Plate 24: DIGESTIVE SYSTEM, ANTERIOR VIEW
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28. left brachiocephalic vein
right lymphatic trunk
right brachiocephalic vein
superior vena cava
jugular trunk
left internal jugular vein
cervical part of thoracic duct
left venous angle
left subclavian vein
left subclavian trunk
left broncho-
mediastinal trunk
thoracic part of
thoracic duct
abdominal part of
thoracic duct
para-aortic
lymph nodes
internal iliac
lymph nodes
external iliac
lymph nodes
cisterna chyli
common iliac
lymph nodes
sacral lymph
nodes
deep inguinal
lymph nodes
inferior vena cava
Plate 25: LYMPHATICS SYSTEM, ANTERIOR VIEW
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29. levator ani
muscle
seminal
vesicle
ductus deferens
external anal sphincter
ureter
ureteric orifice
apex of bladder
median umbilical ligament
rectum
muscles of anterior
abdominal wall
sacrum
urinary bladder
suspensory ligament
of the penis
pubic symphysis
ejaculatory duct
corpus spongiosum penis
urogenital diaphragm
anus
bulbospongiosus muscle
anal canal
prostate gland
corpus cavernosum
penis
urethra
glans penis
navicular fossa
testis scrotum
spermatic cord
epididymis
levator ani muscle
posterior fornix
of vagina
fundus
external anal sphincter
ureter
ureteric orifice
apex of bladder
median umbilical
ligament
rectum
muscles of anterior
abdominal wall
sacrum
urinary bladder
clitoris
pubic symphysis
labium majus
urogenital diaphragm
anus
cervix
anal canal
vestibule of vagina
urethra
body uterus
vaginal orifice
vagina
labium minus
anterior fornix
of vagina
Plate 26: MALE AND FEMALE UROGENITAL SYSTEMS, MIDSAGITTAL VIEW
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30. Septal (medial)
papillary m.
Brachiocephalic trunk
Right brachiocephalic v.
Transverse pericardial sinus
Branches of right
pulmonary a.
Superior vena cava
Right auricle
Right coronary a. in
coronary sulcus
Supraventricular crest
Right atrium
Septal (medial) cusp
Posterior cusp
Anterior cusp
Inferior vena cava
Anterior papillary m.
Septomarginal
(moderator) band
Chordae tendineae
Post papillary m.
Septal band
Conus arteriosus
Left semilunar cusp
Right semilunar cusp
Anterior semilunar cusp
Pulmonary trunk
Transverse pericardial sinus
Left pulmonary a.
Ligamentum arteriosum
Arch of aorta
Left brachiocephalic v.
Left subclavian a.
Left common carotid a.
Pulmonic valve:
Right atrioventricular
(tricuspid) valve:
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Plate 27: ANTERIOR VIEW OF HEART WITH OPENED RIGHT VENTRICLE
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