1. Department of Kinesiology and Applied Physiology WCR Human Anatomy and Physiology I: 2016F Lectures: Tue Thu, KRB 004, 8:00-9:15 (010), 9:30- 10:45 (011) Web site: www.udel.edu/sakaiwww.udel.edu/sakai Instructor: William Rose, rosewc@udel.edu, Rust Arena 148rosewc@udel.edu Office hours: Wed 1:30-3:30 and by appointment, HPL 148 Labs: Mon-Thu, Star 228, start Mon Sept 15. Run: Mondays 12:30, from CSB entrance, 2 miles relaxed pace.

2. Department of Kinesiology and Applied Physiology WCR Instructors for Human Anatomy and Physiology I, KAAP309-16F Dan WhitneyLabs 20, 21, 34 dwhitney@udel.edudwhitney@udel.eduStar 130A, Tue 3:30-4:30 and 6:30-7:30 Applied Physiology Program B.S., Exercise Science, minor in Nutrition Research interest: Lipid Metabolism Chuan ZhangLabs 31, 32 chuanz@udel.educhuanz@udel.eduStar 130A, Wed 8-10 am Applied Physiology Program B.S., Beijing Sport University M.A., Columbia University Research focus: Musculoskletal development in children with cerebral palsy Instructors will also meet at other times, by appointment.

3. Department of Kinesiology and Applied Physiology WCR Instructors for Human Anatomy and Physiology I, KAAP309-16F Kamila MigdalLabs 22, 23, 30 kmigdal@udel.edukmigdal@udel.eduStar 201, Thu 1-3 pm Applied Physiology: Cardiovascular Research Laboratory B.S, Biological Sciences, Rutgers University Research interests: Blood pressure regulation during exercise Joe WatsoLabs 24, 33 jwatso@udel.edujwatso@udel.eduStar 201, Wed 1-3 pm Applied Physiology program: Cardiovascular Physiology Laboratory B.S., Exercise Science, Salisbury Univ. Research focus: Neural control of blood pressure William Roserosewc@udel.eduWed 1:30-3:30, HPL 148rosewc@udel.edu Ph.D., Biomedical engineering, Johns Hopkins Medical School A.B., Physics, Harvard University Research interests: Cardiovascular regulation and fluid mechanics

4. Department of Kinesiology and Applied Physiology WCR Human Anatomy and Physiology I KAAP309-16F Grading – see syllabus. 75% Classroom 70%: Eleven tests (worst is dropped) 5%: Clicker 25% Laboratory 13% Group: Two group projects (2 x 3%), three lab reports (3 x 1%), peer grade (4%) 12% Individual: Four lab practical exams (4 x 3%)

5. Department of Kinesiology and Applied Physiology WCR Human Anatomy and Physiology I KAAP309-16F UD Capture: Recording of what is projected on screen and classroom audio. Use the link on the course home page. http://udcapture.udel.edu/2016f/kaap309-010/ http://udcapture.udel.edu/2016f/kaap309-010/ http://udcapture.udel.edu/2016f/kaap309-011/ Clickers: Register your clicker on Sakai. 1 point for answering, 1 more point if correct. Full credit if you get 75% or more of the points available. Reduced proportionally if not. No adjustments for forgotten or broken clickers, low batteries, etc. Using more than one clicker in class is a violation and may be referred to the Office of Student Conduct.

6. “The moment one gives close attention to anything, even a blade of grass, it becomes a mysterious, awesome, indescribably magnificent world in itself.” — Henry Miller

7. A single word embodies the entire foundation of Western medicine. Its three letters set the tone for a distinctive world- view of healing and for the science upon which it is based... That word is see. …The processes of both normal and diseased physiology must be visualizable in order to be understood in any realistic way. It is necessary, in other words, to foster a system of comprehension in which at least the mind’s eye but preferably the literal eye faithfully sees the body’s components as they are actually functioning. The Western doctor of today should be able to draw a picture of his patient’s organs, tissues, and even cells, depicting the events that are happening within them. The Mysteries Within. Sherwin Nuland, 2000. See …\reserve\nuland_on_seeing.doc for longer excerpt.

9. Department of Kinesiology and Applied Physiology8 A&P in the News N.Y. Times: “Weight index doesn’t tell the whole truth” How measure thinness/fatness? (1, 2)12 http://www.nytimes.com/2010/08/31/health/31br od.html?ref=health What is Mr Olympia’s BMI? A.<18.5 (underweight) B.18.5-24.9 (normal) C.25-29.9 (overweight) D.30-40 (obese) E.>40 (morbidly obese)

10. Department of Kinesiology and Applied Physiology9

11. 10 Levels of organization of living things

12. Department of Kinesiology and Applied Physiology 11 Illustration of the Human Body (by an engineer?)

13. Department of Kinesiology and Applied Physiology 12 Homeostasis and negative feedback

14. Department of Kinesiology and Applied Physiology 13 Engineering control system: negative feedback to control temperature

15. Department of Kinesiology and Applied Physiology 14 Physiological control system: a (rare) example of positive feedback

16. Frontal plane Transverse plane Sagittal plane The major sectional planes Figure 1.9 2

17. Figure 1.9 1 Cranial Posterior or dorsal Anterior or ventral Caudal The principal directional terms Superior Inferior Right Left Proximal Lateral Medial Proximal Distal

18. Frons or forehead (frontal) Auris or ear (otic) Bucca or cheek (buccal) Cervicis or neck (cervical) Palma or palm (palmar) Pollex or thumb Digits or phalanges or fingers (digital or phalangeal) Patella or kneecap (patellar) Crus or leg (crural) Tarsus or ankle (tarsal) Digits or phalanges or toes (digital or phalangeal) Hallux or great toe The anatomical position in anterior view Pes or foot (pedal) Femur or thigh (femoral) Pubis (pubic) Inguen or groin (inguinal) Manus or hand (manual) Pelvis (pelvic) Umbilicus or navel (umbilical) Abdomen (abdominal) Trunk Mamma or breast (mammary) Thoracis or thorax, chest (thoracic) Oris or mouth (oral) Facies or face (facial) Cranium or skull (cranial) Cephalon or head (cephalic) Oculus or eye (orbital or ocular) Nasus or nose (nasal) Acromion (acromial) Dorsum or back (dorsal) Olecranon or back of elbow (olecranal) Lumbus or loin (lumbar) Gluteus or buttock (gluteal) Popliteus or back of knee (popliteal) Sura or calf (sural) Calcaneus or heel of foot (calcaneal) Planta or sole of foot (plantar) The anatomical position in posterior view Lower limb Upper limb Cervicis or neck (cervical) Cephalon or head (cephalic) Mentum or chin (mental) Axilla or armpit (axillary) Brachium or arm (brachial) Antecubitis or front of elbow (antecubital) Antebrachium or forearm (antebrachial) Carpus or wrist (carpal) Palma or palm (palmar) Figure 1.8 1

19. The body cavities: the thoracic cavity and the abdominopelvic cavity BODY CAVITIES THORACIC CAVITY The diaphragm, a muscular sheet, separates the thoracic cavity from the abdominopelvic cavity. THORACIC CAVITY ABDOMINOPELVIC CAVITY A horizontal section through the thoracic cavity shows the relationship between the subdivisions of the ventral body cavity in this region. Each lung is enclosed within a pleural cavity, lined by a shiny, slippery serous membrane called the pleura (PLOO-ra). The pericardial cavity is embedded within the mediastinum, a mass of connective tissue that separates the two pleural cavities and stabilizes the positions of embedded organs and blood vessels. Note the orientation of the section. Unless otherwise noted, all cross sections are shown as if the viewer were standing at the feet of a supine person and looking toward the head. Heart in pericardial cavity Right lung in right pleural cavity Left lung in left pleural cavity During development, the portion of the original ventral body cavity extending into the abdominopelvic cavity remains intact as the peritoneal (per-i-tō-NĒ-al) cavity, a chamber lined by a serous membrane known as the peritoneum (per-i-tō-NĒ-um). A few organs, such as the kidneys and pancreas, lie between the peritoneal lining and the muscular wall of the abdominal cavity. Those organs are said to be retroperitoneal (re-trō- per-i-tō-NĒ-al; retro, behind). Diaphragm Peritoneum (red) showing the boundaries of the peritoneal cavity The abdominal cavity contains many digestive glands and organs Retroperitoneal area The pelvic cavity contains the urinary bladder, reproductive organs, and the last portion of the digestive tract; many of these structures lie posterior to, or inferior to, the peritoneal cavity. ABDOMINOPELVIC CAVITY

20. Department of Kinesiology and Applied Physiology 19 Serous membranes (serosa): line body cavities. Parietal & visceral.