OMFS Lecture
... the palatoglossal folds and anterior to the palatopharyngeal folds; inferior to the soft palate and superior to the tongue; and medial to the superior constrictors, the styloglossus, and the ...
... the palatoglossal folds and anterior to the palatopharyngeal folds; inferior to the soft palate and superior to the tongue; and medial to the superior constrictors, the styloglossus, and the ...
MBBS first Prof. Syllabus, uploaded on 2014-05-17
... brachial plexus, lower four (IX,X,XI,XII) cranial nerves, BRAIN Reid’s base line, Cerebrum, Cerebellum. ...
... brachial plexus, lower four (IX,X,XI,XII) cranial nerves, BRAIN Reid’s base line, Cerebrum, Cerebellum. ...
Standing Back Pain: Working through the Dura Mater Erik Dalton
... slack by lightly pulling on the client's arm while maintaining constant pressure on the inferior sacral angle. • Anterior/superior palm pressure to the inferior lateral angle of the sacrum causes the left sacral base to move posteriorly into its proper position. The stuck facets at L5-S1 are encoura ...
... slack by lightly pulling on the client's arm while maintaining constant pressure on the inferior sacral angle. • Anterior/superior palm pressure to the inferior lateral angle of the sacrum causes the left sacral base to move posteriorly into its proper position. The stuck facets at L5-S1 are encoura ...
Reverse Total Shoulder Replacement
... function with the Total Shoulder Replacement. Without the rotator cuff musculature, the traditional procedure will not produce beneficial gains in pain relief and/or function level. However, there is an option for shoulder replacement surgery designed specifically for these cases. The technique is c ...
... function with the Total Shoulder Replacement. Without the rotator cuff musculature, the traditional procedure will not produce beneficial gains in pain relief and/or function level. However, there is an option for shoulder replacement surgery designed specifically for these cases. The technique is c ...
Surgical Anatomy of the FaceImplications for Modern Face
... is a clearly identifiable structure lateral to the zygomaticus major muscle, its presence and structure are not as well understood medial to this muscle. Hence, its role in deep-plane face-lift dissection has not been exactly defined. Some authors3 have described the SMAS as an investing layer that ...
... is a clearly identifiable structure lateral to the zygomaticus major muscle, its presence and structure are not as well understood medial to this muscle. Hence, its role in deep-plane face-lift dissection has not been exactly defined. Some authors3 have described the SMAS as an investing layer that ...
Surgical Anatomy of the Face Implications for Modern Face-lift Techniques
... is a clearly identifiable structure lateral to the zygomaticus major muscle, its presence and structure are not as well understood medial to this muscle. Hence, its role in deep-plane face-lift dissection has not been exactly defined. Some authors3 have described the SMAS as an investing layer that ...
... is a clearly identifiable structure lateral to the zygomaticus major muscle, its presence and structure are not as well understood medial to this muscle. Hence, its role in deep-plane face-lift dissection has not been exactly defined. Some authors3 have described the SMAS as an investing layer that ...
PAC01 Upper Limb
... triangle formed by the anterior deltoid and the pectoralis major muscle. On day one, we discussed the importance of fascia. In the upper limbs, the pectoral fascia is attached to the clavicle and sternum. The pectoral fascia leaves the lateral surface of the pectoralis muscle to become the axillary ...
... triangle formed by the anterior deltoid and the pectoralis major muscle. On day one, we discussed the importance of fascia. In the upper limbs, the pectoral fascia is attached to the clavicle and sternum. The pectoral fascia leaves the lateral surface of the pectoralis muscle to become the axillary ...
OBJECTIVES and EXPLANATIONS:
... (the proximal radial head) meets the humerus. This joint is complicated because the radius has to rotate to allow for pronation and supination. At the same time, it has to slide against the end of the humerus as the elbow bends and straightens. The joint is even more complex because the radius has t ...
... (the proximal radial head) meets the humerus. This joint is complicated because the radius has to rotate to allow for pronation and supination. At the same time, it has to slide against the end of the humerus as the elbow bends and straightens. The joint is even more complex because the radius has t ...
Splanchnology
... (六) Seminal vesicle 1 Location:behind the urinary bladder , lateral to the ampulla ductus deferentis 2 Function (七)Prostate 1 Location:between the urinary bladder and the urogenital diaphragm. 2 Division: base, body and apex 3 Structure:gland and muscles 4 Five lobes: anterior ,left and right lobes ...
... (六) Seminal vesicle 1 Location:behind the urinary bladder , lateral to the ampulla ductus deferentis 2 Function (七)Prostate 1 Location:between the urinary bladder and the urogenital diaphragm. 2 Division: base, body and apex 3 Structure:gland and muscles 4 Five lobes: anterior ,left and right lobes ...
Word - Geometrical Anatomy
... These measurements in millimeters translate into unit vectors originating from the center of the globe as follows. Normal Rectus Pulley Positions Relative to the Globe’s Center ...
... These measurements in millimeters translate into unit vectors originating from the center of the globe as follows. Normal Rectus Pulley Positions Relative to the Globe’s Center ...
Deep Cervical Nodes
... • The palatine tonsils are two masses of lymphoid tissue, each located in the depression on the lateral wall of the oral part of the pharynx between the palatoglossal and palatopharyngea arches. Each tonsil is covered by mucous membrane, and its free medial surface projects into the pharynx. The sur ...
... • The palatine tonsils are two masses of lymphoid tissue, each located in the depression on the lateral wall of the oral part of the pharynx between the palatoglossal and palatopharyngea arches. Each tonsil is covered by mucous membrane, and its free medial surface projects into the pharynx. The sur ...
Muscles of the Neck, Trunk and Tail in the Noisy Scrub
... This muscle consists of two portions - a larger superficial part and a smaller deep part. The superficial part originates from the lateral surface of the vertebral arch of the atlas, the lateral edge of the axis ventral to the dorsal process, semitendinous from the dorsal process of 3, from a promin ...
... This muscle consists of two portions - a larger superficial part and a smaller deep part. The superficial part originates from the lateral surface of the vertebral arch of the atlas, the lateral edge of the axis ventral to the dorsal process, semitendinous from the dorsal process of 3, from a promin ...
Period 2 Pectoral girdle and upper limb
... lines and tubules as muscle attachment sites Right clavicle in a superior view Acromial end ...
... lines and tubules as muscle attachment sites Right clavicle in a superior view Acromial end ...
THE PHARYNX
... Here, a submucosal layer is developed at this site because here, both side walls of pharynx are devoid of muscle. This limited submucosal layer of the pharynx is called pharyngobasilar fascia. ...
... Here, a submucosal layer is developed at this site because here, both side walls of pharynx are devoid of muscle. This limited submucosal layer of the pharynx is called pharyngobasilar fascia. ...
Development of tongue
... muscle develops before masticatory muscles and is completed by birth. Masticatory muscles :originate from loose masses of the mesoderm. These muscles develop late and are not complete even at birth. Masticatory muscles develop muscle fibers within the tongue. And these muscles go through the same de ...
... muscle develops before masticatory muscles and is completed by birth. Masticatory muscles :originate from loose masses of the mesoderm. These muscles develop late and are not complete even at birth. Masticatory muscles develop muscle fibers within the tongue. And these muscles go through the same de ...
A third head of the biceps brachii and coexisting fused higher origin
... brachii muscle was also observed unilaterally on the right arm of one adult male cadaver (6.2%). On the left arm of above mentioned cadavers no third head of biceps brachii muscle was observed. None of the rest 14 cadavers (n=28) had any variant third head of the biceps brachii muscle [6]. Brachiora ...
... brachii muscle was also observed unilaterally on the right arm of one adult male cadaver (6.2%). On the left arm of above mentioned cadavers no third head of biceps brachii muscle was observed. None of the rest 14 cadavers (n=28) had any variant third head of the biceps brachii muscle [6]. Brachiora ...
Clinico-anatomical considerations of unilateral bipartite abductor
... ADM were placed in two planes - superficial and deep. The lateral belly was superficial and lateral in comparison to the medial belly which was deep and more medially displaced. Additionally, the morphology of the two bellies varied with the lateral belly being musculotendinous while the medial bell ...
... ADM were placed in two planes - superficial and deep. The lateral belly was superficial and lateral in comparison to the medial belly which was deep and more medially displaced. Additionally, the morphology of the two bellies varied with the lateral belly being musculotendinous while the medial bell ...
Pharynx Larynx - Dr. Gudas
... has been made taut. The two muscles thus close off the nasopharynx so that food does not enter the nasal cavity during swallowing. In dissection, from a medial view, the levator palati appears as if it is being poured out of the tube. ...
... has been made taut. The two muscles thus close off the nasopharynx so that food does not enter the nasal cavity during swallowing. In dissection, from a medial view, the levator palati appears as if it is being poured out of the tube. ...
Muscle
Muscle is a soft tissue found in most animals. Muscle cells contain protein filaments of actin and myosin that slide past one another, producing a contraction that changes both the length and the shape of the cell. Muscles function to produce force and motion. They are primarily responsible for maintaining and changing posture, locomotion, as well as movement of internal organs, such as the contraction of the heart and the movement of food through the digestive system via peristalsis.Muscle tissues are derived from the mesodermal layer of embryonic germ cells in a process known as myogenesis. There are three types of muscle, skeletal or striated, cardiac, and smooth. Muscle action can be classified as being either voluntary or involuntary. Cardiac and smooth muscles contract without conscious thought and are termed involuntary, whereas the skeletal muscles contract upon command. Skeletal muscles in turn can be divided into fast and slow twitch fibers.Muscles are predominantly powered by the oxidation of fats and carbohydrates, but anaerobic chemical reactions are also used, particularly by fast twitch fibers. These chemical reactions produce adenosine triphosphate (ATP) molecules that are used to power the movement of the myosin heads.The term muscle is derived from the Latin musculus meaning ""little mouse"" perhaps because of the shape of certain muscles or because contracting muscles look like mice moving under the skin.