Showing posts with label Embryology. Show all posts
Showing posts with label Embryology. Show all posts

23 April 2012

Human Embryology



Reproductive Embryology
Catherine Keegan, M.D., Ph.D.
ReproductiveEmbryology.ppt

GI Sequence Oral Cavity and Salivary glands
oralcavity.ppt

Medical Human Embryology and Gross Anatomy
Dr. Francis Neuffer, MD
Medical Human Embryology and Gross Anatomy.ppt

Development of the Human Embryo
Development of the Human Embryo.ppt

Tongue Anatomy and Glossectomy
Leo Martinez, M.D.
Tongue Anatomy and Glossectomy.ppt

Branchial Formation Arch
Branchial Formation Arch.ppt

Biliary Tract and Gallbladder: Anatomy, Development, and Physiology
Eric Orman, MD
Biliary Tract and Gallbladder.ppt

Tooth Development
Man-Kyo Chung, DMD, PhD
Tooth Development-I.ppt
Tooth Development-II_final.ppt

Diversity of Life - Early Beliefs
Diversity of Life - Early Beliefs.ppt
Details of 33 published human embryology articles

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12 July 2009

Males Embriology Presentations - Part-2



Males Embriology Powerpoint Presentations from ksums.net


Development of respiratory system

Pharyngeal Arches Pouches and Clefts Part-2

Tongue Thyroid.ppt

Face,nose, palate dev.ppt

Body cavities.ppt

Digestive system.ppt Part-2

Dev. Urinary System.ppt

Appendicular Skeleton.ppt

Male Genital System.ppt

Deve. of axial skeleton system.ppt

Devel. of genital system

Dev. of Digestive system

Dev. of female genital system

Male Genital system

Axial skeleton.ppt

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Males Embriology Presentations - Part-1



Males Embriology Powerpoint Presentations from ksums.net

Gametogenesis.ppt

Ovarian & Uterine Cycles.ppt

Fertilization.ppt

Implantation.ppt

Bilaminar & Trilaminar Discs.ppt

Ectoderm Derivatives.ppt

Ectoderm Derivatives.pdf


Folding_of Embryo.ppt

Placenta.ppt

Fetal Membranes.ppt

Heart Tube & Pericardium.ppt

Development of Heart.ppt

Aortic Arches.ppt

Viens associated with heart.ppt

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Female Embriology Presentations - Part-2



Female Embriology Powerpoint Presentations from ksums.net


Pharyngeal arches.ppt


Development of face.ppt

Body cavities Primitive Mesenteries and Diaphragm.ppt

Foregut Derivatives.ppt


Midgut & Hindgut Embryo.ppt

Urinary Embrio.ppt

Male genital system.ppt

Female genital system.ppt

External genitalia.ppt

Skull & mandible.ppt

Vertebral column.ppt

Appendocular limb.ppt

Skin Embryo.ppt

Appendicular & limb.ppt

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Female Embriology Presentations - Part-1



Female Embriology Powerpoint Presentations from ksums.net

Gametogenesis.ppt

Ovarian and Uterine Cycles.ppt

Fertilization.ppt

Implantation.ppt

Bilaminar & Trilaminar Embryonic Disc.ppt

Ectodermal Derivitives.ppt



Mesodermal derivatives.ppt

Fetal Membranes.ppt

Placenta.ppt

Development of Heart.ppt

Aortic Arches.ppt


Development of viens

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10 July 2009

Neonatal Surgery



Neonatal Surgery
By:Juan E Gonzalez, CRNA, MS, ARNP
Based on prior lecture by
John P. McDonough, CRNA, Ed.D., ARNP
Professor & Director
Anesthesiology Nursing

Anatomical Differences
Pedi vs. Adult Airway
More Vertical
Less vertical
R mainstem bronchus
V-shaped
U-shaped
Shape of Epiglottis
Glottis
Cricoid
Narrowest Point
C3-C6
C2-C4
Laryngeal location

Head Position
Visual Alignment of Oral/Pharyngeal/Laryngeal axes
Attempt to achieve “sniffing” position will OBSTRUCT pt
Intubation
To intubate or not to intubate…
Is that a question??
Choice of Intubating Technique
Choice of Intubating Technique
(patient factors)
Blood Pressure Control
Emergence
Surgeries in the First Week of Life
* Congenital Diaphragmatic Hernia (CDH)
* Omphalocele & Gastroschisis
* Tracheoesophageal Fistula (TEF) (hrs-days to diagnose)
* Intestinal Obstruction (hr-days to diagnose)
* Meningomyelocele
Confounding Factors
* Prematurity
* Associated Congenital Anomalies
Maternal Cocaine Use in Pregnancy
Congenital Diaphragmatic Hernia
Embriologic features of CDH
CDH scenarios
CDH Clinical Presentations
Surgery & CDH
Anesthesia & CDH
Omphalocele
Gastroschisis
Delivery Room Management of Gastroschisis
Gastroschisis Periop Concerns
Postop Care of Gastroschisis & Omphalocele
Tracheoesophageal Fistula (TEF)
TEF Clinical Presentation
TEF Anesthetic Considerations
Tracheoesophogeal Fistula
“VATER” syndrome
Vertebral defects
Anal atresia
TEF
Esophageal atresia
Renal dysplasia
Intestinal Obstruction (Upper GI obstruction)
Intestinal Obstruction (Lower GI obstruction)
Lower GI obstruction
Meningomyelocele
Meningomyelocele
Hydrocephalus
Hydrocephalus Anesthetic Approach
Surgical Procedures in the First Month of Life
Inguinal Hernia Repair (IHR)
Inguinal Hernia Repair Anesthetic Techniques
Inguinal Hernia Repair Post Op Apnea in Premies
Ligation of PDA
Placement of Central Venous Catheter
References

Neonatal Surgery.ppt

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Abdominal Wall Defects: Omphalocele vs. Gastroschisis



Abdominal Wall Defects: Omphalocele vs. Gastroschisis
By:Joanna Thomson,
Surgery Clerkship

Embryology Review
* The Midgut gives rise to:
o Duodenum distal to the bile duct
o Jejunum
o Ileum
o Cecum
o Appendix
o Ascending colon
o Hepatic flexure of the colon
o Proximal two-thirds of transverse colon.

Physiological Umbilical Herniation
* As a result of rapid growth and expansion of the liver, the abdominal cavity temporarily becomes too small to contain all the intestinal loops.
* The intestinal loops enter the extraembyronic cavity within the umbilical cord during the sixth week of development.
* As herniation occurs, the loop undergoes a 90 degree counterclockwise rotation around the superior mesenteric artery.

Return to Abdominal Cavity
* During 10th week of development, herniated intestinal loops begin to return to the abdominal cavity.
* Undergoes additional 180 degree counterclockwise rotation about the superior mesenteric artery.
* Factors responsible for this return are not precisely known... It is thought that regression of the mesonephros (kidney), reduced growth of the liver, and expansion of the abdominal cavity all play roles.

Omphalocele
* Herniation of abdominal viscera through an enlarged umbilical ring.
o Failure of the bowel to return to the body cavity following physiological umbilical herniation. Defective mesodermal growth causes incomplete central fusion and persistent herniation of the midgut.
* Extruded viscera may include LIVER, small and large intestines, stomach, spleen, or bladder.
* Covered by amnion and peritoneum

Gastroschisis
* Herniation of intestinal loops through the anterior abdominal wall.
* Defect lateral to the umbilicus (right>left)
o Abnormal involution of the right umbilical vein or vascular accident involving the omphalomesenteric artery causes localized abdominal wall weakness.
* No sac covers the extruded viscera.

Prenatal Diagnosis
* Elevated maternal serum alpha fetoprotein
* Ultrasound
Omphalocele Gastroschisis

Epidemiology
* Prevalence:
o Omphalocele: 1/5,000 births
o Gastroschisis: 1/10,000 births
+ Increasing in frequency, especially in young women.
* Mortality:
o Omphalocele: 25%
+ Related directly to presence of chromosomal and other abnormalities
o Gastroschisis: <5%

Omphalocele Associated Anomalies
* Chromosomal abnormalities (50%)
* Neural tube defects (40%)
* Beckwith-Wiedemann syndrome
* Pentalogy of Cantrell

Gastroschisis Associated Anomalies
* Additional gastrointestinal problems
Initial Management
* Acute management aimed at maintaining circulation to bowel and preventing infection while stabilizing infant (temperature/fluids) :
o Cover the defect with sterile dressing soaked in warm saline to prevent fluid loss
o Nasogastric decompression
o IV fluids with glucose
o Antibiotics

Surgical Treatment
* Surgery performed to return the viscera to the abdominal cavity and close the defect.
o Primary Surgical Closure: Success dependent on size of the defect and size of the abdominal and thoracic cavities.

o Staged Closure: Gradual reduction of the contents into the abdominal cavity using an extra-abdominal extension of the peritoneal cavity (termed a silo) and using gentle pressure. Usually requires 1-3 weeks, after which the defect is then primarily closed.

Abdominal Wall Defects.ppt

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18 April 2009

Physiology of Pregnancy & Reproduction Embryology



Physiology of Pregnancy & Reproduction Embryology
Presentation by: Dr.Anna Mae Smith, MPAS, PA-C
Lock Haven University of Pennsylvania

Stage 1

* Fertilization
* 1 Oocyte
* 300 Million Sperm
* 24 Hours
* 0.1 - 0.15 mm
* 1 day post-ovulation

Fertilization

* SPERM + EGG(OOCYTE) = ZYGOTE
* The fertilization process takes about 24 hours.
* Sperm life = 48 hours
o It takes about ten hours to navigate the female productive track, moving up the vaginal canal, through the cervix, and into the fallopian tube where fertilization begins.

Mr.SPERM
+
Mrs. EGG
Fertilization

* 300 million sperm enter the the vagina... only 1%, 3 million, enter the uterus
* The next step is the penetration of the zona pellucida, a tough membrane surrounding the oocyte.
* Penetration of the zona pellucida takes about twenty minutes.

Fertilization

* Within 11 hours following fertilization, the oocyte has extruded a polar body with its excess chromosomes. The fusion of the oocyte and sperm nuclei marks the creation of the zygote and the end of fertilization.

Stage 2
Cleavage
* First Cell Division, Blastomeres,
* Mitotic division
* 0.1 - 0.2 mm
* 1.5 - 3 days post-ovulation
* The zygote now begins to cleave, with each division occurring into two cells called blastomeres
* The zygote's first cell division begins a series of divisions, with each division occurring approximately every twenty hours
* When cell division ungenerated about sixteen cells, the zygote becomes a morula (mulberry shaped)
* It leaves the fallopian tube and enters the uterine cavity three to four days after fertilization.

Stage 3
Early Blastocyst
* 0.1 - 0.2 mm
* 4 days post-ovulation
* Blastocyst formation
* Two cell types are forming:
o embryoblast (inner cell mass on the inside of the blastocele)
o trophoblast (the cells on the outside of the blastocele).
Stage 4
Implantation Begins
* HCG Levels Rise
* 0.1 - 0.2 mm
* 5 - 6 days post-ovulation
* The trophoblast cells secretes an enzyme which erodes the epithelial uterine lining and creates an implantation site for the blastocyst.
Implantation Begins

* ovary continues producing progesterone
* trophoblast cells continue releasing human chorionic gonadotropin (hCG)
* Endometrial glands in the uterus enlarge in response to the blastocyst and the implantation site becomes swollen with new capillaries. Circulation begins, a process needed for the continuation of pregnancy.

Stage 5
Implantation Complete
* Placental Circulation System Begins to form
* 0.1 - 0.2 mm
* 7 - 12 days post-ovulation
* Trophoblast cells engulf and destroy cells of the uterine lining creating blood pools, both stimulating new capillaries to grow and foretelling the growth of the placenta.
* The inner cell mass divides, rapidly forming a two-layered disc
* The top layer of cells...
o will become the embryo and amniotic cavity
o the lower cells will become the yolk sac.
* Ectopic pregnancies can occur at this time and sometimes continue for up to 16 weeks of pregnancy before being noticed

Stage 6
Gastrulation, Chorionic Villi Formation
* 0.2 mm
* 13 days post-ovulation
* The formation of blood and blood vessels of the embryo begins
* Yolk sac begins to produce hematopoietic or non-nucleated blood cells.
* Gastrulation three layers of the embryo: ectoderm, mesoderm and endoderm.
Stage 7

* Neurulation and Notochordal Process
* 0.4 mm
* 16 days post-ovulation
* Endoderm forms the lining of lungs, tongue, tonsils, urethra and associated glands, bladder and digestive tract.

Stage 7

* Mesoderm forms the muscles, bones, lymphatic tissue, spleen, blood cells, heart, lungs, and reproductive and excretory systems.
* Ectoderm forms the skin, nails, hair, lens of eye, lining of the internal and external ear, nose, sinuses, mouth, anus, tooth enamel, pituitary gland, mammary glands, and all parts of the nervous system

Stage 8

* Primitive Pit, Notochordal Canal and Neurenteric Canals
* 1.0 - 1.5 mm
* 17-19 days post-ovulation
* Neural plate with a neural groove
* The blood cells of the embryo are already developed and they begin to form channels along the epithelial cells which form consecutively with the blood cells.

Stage 9

* Appearance of Somites(condensations of mesoderm, appear on either side of the neural groove
* 1.5 - 2.5 mm
* 19 - 21 days post-ovulation
* Primitive streak
* Endocardial (muscle) cells begin to fuse and form into the early embryo's two heart tubes.

Stage 10

* Neural Folds Begin to Fuse, Heart Tube fuses
* 1.5 - 3.0 mm
* 21 - 23 days post-ovulation
* Cardiac muscle contraction begins
* Eye & ear cells are present
* Neural tube starts closing

Stage 11

* Thirteen to Twenty Somite Pairs, Rostral Neuropore Closes, Optic Vesicle Appears, Two Pharyngeal Arches Appear
* 2.5 - 3.0 mm
* 23 - 25 days post-ovulation
* A primitive S-shaped tubal heart is beating and peristalsis, the rhythmic flow propelling fluids throughout the body, begins.
* At this stage, the neural tube determines the form of the embryo
Stage 12


* Twenty-one to Twenty-nine Somite Pairs, Caudal Neuropore Closes, Three to Four Pharyngeal Arches Appear, Upper Limb Buds Appear
* 3.0 - 5.0 mm
* 25 - 27 days post-ovulation
* The brain and spinal cord together are the largest and most compact tissue of the embryo.

Stage 12

* Valve & septa appear in the heart
* The digestive epithelium layer begins to differentiate into the future locations of the liver, lung, stomach and pancreas.
* The beginning cells of the liver form before the rest of the digestive system.

Stage 13 (approximately 27-29 postovulatory days)

* Forebrain, midbrain and hindbrain.
* Forebrain senses, memory formation, thinking, reasoning, problem solving.
* Midbrain relay station, coordinating messages to their final destination
* Hindbrain regulates the heart, breathing and muscle movements

This presentation covered upto 40th week stage.
Physiology of Pregnancy & Reproduction Embryology.ppt

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Embryology of the Neck & Neck Masses



Embryology of the Neck & Neck Masses
Presentation by: Steven T. Wright, M.D.
Shawn Newlands, M.D., Ph.D, M.B.A
UTMB Dept of Otolaryngology


Neck Masses
Embryology and Anatomy
Branchial system
Thyroid Gland
Oral Cavity
Midline Neck Masses
Thyroid Nodules
Fine-Needle Aspiration Biopsy
Thyroglossal Duct Cyst
TGDC Carcinoma
Ectopic Thyroid
Lateral Nonmalignant Thyroid Tissue
Cervical Thymic Cysts
Plunging Ranula
Lateral Neck Masses
First Branchial Cleft Cysts
Laryngoceles
Dermoid and Teratoid Cysts
Dermoid Cysts
Teratoid Cysts and Teratomas
Sternomastoid Tumor of Infancy
Conclusions

* Neck masses are very common
* Approach with History and Physical exam will commonly lead to the correct diagnosis
* An understanding of cervical embryology is crucial in treatment of these masses

Embryology of the Neck & Neck Masses.ppt

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