1. FARMAKOTERAPI SISTEM PERNAPASAN, GINJAL, DAN DARAH Oleh: Dr. Edy Suwarso, Apt. Prof. Dr. Urip Harahap, Apt, Drs. Saiful Bahri, M. Si., Apt Dr. Rosidah, M. Si., Apt. FAKULTAS FARMASI UNIVERSITAS SUMATERA UTARA MEDAN Konsentrasi: Farmasi Klinis dan Komunitas Semester : VI Kode MK: CKC 346 (2 SKS)

2. Garis Besar Materi Kuliah  FARMAKOTERAPI SISTEM PERNAPASAN (Edi S)  FARMAKOTERAPI GINJAL (Urip H)  FARMAKOTERAPI DARAH (Saiful dan Rosidah)

3. FARMAKOTERAPI GINJAL URIP HARAHAP Pokok Bahasan: 1.Dasar Anatomi dan Fisiologi Ginjal 2.Filtrasi Glomerulus, Fungsi Tubulus, Sekresi Tubulus, dan Ekskresi Air 3.Pengasaman Urin dan Ekskresi Bikarbonat 4.Diuretika dan Antidiuretika

4. DASAR ANATOMI DAN FISIOLOGI GINJAL Rujukan: 1.Fredric H Martini : Fundamental of Anatomy and Physiology Sixth Edition 2.http://www.powerpoint-search.com/physiology-of-kidney-ppt.htmlhttp://www.powerpoint-search.com/physiology-of-kidney-ppt.html 3.Romana Šlamberová : 3.Romana Šlamberová : Department of Normal, Pathological and Clinical Physiology 4.Dr Derek Scott : d.scott@abdn.ac.ukd.scott@abdn.ac.uk 5.Dr Andrew Potter Registrar Department of Radiation Oncology Royal Adelaide Hospital: Anatomy, physiology and pathology of the kidney

5. KIDNEY ANIMATION\KIDNEY.swf KIDNEY ANIMATION\KIDNEY1.swf

6. Excretion – The removal of organic waste products from body fluids Elimination – The discharge of waste products into the environment Homeostatic regulation of blood plasma – Regulating blood volume and pressure – Regulating plasma ion concentrations – Stabilizing blood pH – Conserving nutrients Functions of the urinary system

7. An introduction to the Urinary System

8. The Position of the Kidneys

9. The Urinary System in Gross Dissection

10. Superficial outer cortex and inner medulla – The medulla consists of 6-18 renal pyramids – The cortex is composed of roughly 1.25 million nephrons Major and minor calyces along with the pelvis drain urine to the ureters Sectional anatomy of the kidneys

11. The Structure of the Kidney

12. Renal anatomy The renal cortex is the outer, granular-appearing region of the kidney. All nephrons originate in the costex The renal mdulla is an inner region of striated –appearing triangles called : the renal pyramid The renal pelvis is a central cavity where urine formed in renal the cortex and medulla collects The renal ureter is a smooth muscle-walled duct that carries urine from the kidney to urinary bladder KIDNEY ANIMATION\renal_anatomy.html

13. The Blood Supply to the Kidneys Figure 26.5a, b

14. The Blood Supply to the Kidneys Figure 26.5c, d

15. A Representative Nephron

16. Single nephron

17. Vascular component

19. Tubular Component

22. Vascular/tubular component

23. Anatomy of Urinary System

24. Structure-right Kidney

25. Specialized Unit The Nephrone

28. KIDNEY ANIMATION\anatomy_urinary.asp.htm

29. Production of filtrate Reabsorption of organic nutrients Reabsorption of water and ions Secretion of waste products into tubular fluid Nephron functions include: KIDNEY ANIMATION\KIDNEY.swf

30. Cortical nephrons – ~85% of all nephrons – Located in the cortex Juxtamedullary nephrons – Closer to renal medulla – Loops of Henle extend deep into renal pyramids Two types of nephron

31. Cortical and Juxtamedullary Nephrons

33. The Renal Corpuscle

34. Figure 26.8c, d

35. Proximal convoluted tubule (PCT) – Actively reabsorbs nutrients, plasma proteins and ions from filtrate – Released into peritubular fluid Loop of Henle – Descending limb – Ascending limb – Each limb has a thick and thin section Functional anatomy of the nephron Animation: Urinary System Anatomy PLAY

36. Distal convoluted tubule (DCT) – Actively secretes ions, toxins, drugs – Reabsorbs sodium ions from tubular fluid Functional anatomy of the nephron Animation: Urinary System Dissection and Flythrough PLAY

37. Principles of Renal Physiology PHYSIOLOGY OF RENAL SYSTEM.ppt

38. Regulating blood volume and composition Excreting waste products – Urea – Creatinine – Uric acid Urine production maintains homeostasis

39. Filtration – Blood pressure – Water and solutes across glomerular capillaries Reabsorption – The removal of water and solutes from the filtrate Secretion – Transport of solutes from the peritubular fluid into the tubular fluid Basic processes of urine formation

40. Filtration in the kidneys modified by carrier mediated transport – Facilitated diffusion – Active transport – Cotransport – Countertransport Carrier proteins have a transport maximum (T m ) – Determines renal threshold Carrier Mediated Transport

41. Accomplished via diffusion, osmosis, and carrier- mediated transport T m determines renal threshold for reabsorption of substances in tubular fluid Reabsorption and secretion

42. An Overview of Urine Formation

43. Glomerular Filtration

45. Amount of filtrate produced in the kidneys each minute Factors that alter filtration pressure change GFR Glomerular filtration rate (GFR)

46. A drop in filtration pressure stimulates Juxtaglomerular apparatus (JGA) – Releases renin and erythropoietin Factors controlling the GFR

47. The Response to a Reduction in the GFR

49. Produces powerful vasoconstriction of afferent arterioles – Decreases GFR and slows production of filtrate Changes the regional pattern of blood flow – Alters GFR Stimulates release of renin by JGA Sympathetic activation

50. Glomerular filtration produces fluid similar to plasma without proteins The PCT reabsorbs 60-70% of the filtrate produced – Reabsorption of most organic nutrients – Active and passive reabsorption of sodium and other ions – Reabsorption of water Secretion also occurs in the PCT Reabsorption and secretion at the PCT Animation: Early Filtrate Processing PLAY Animation: Glomerular filtration PLAY PCT: proximal Covoluted Tubule

51. Transport Activities at the PCT Animation: Proximal Convoluted Tubule PLAY

52. The loop of Henle and countercurrent multiplication Countercurrent multiplication – Between ascending and descending limbs of loop – Creates osmotic gradient in medulla – Facilitates reabsorption of water and solutes before the DCT – Permits passive reabsorption of water from tubular fluid

53. Countercurrent Multiplication and Concentration of Urine

56. DCT performs final adjustment of urine – Active secretion or absorption Absorption – Tubular cells actively resorb Na + and Cl - – In exchange for potassium or hydrogen ions (secreted) Reabsorption and secretion at the DCT

57. Tubular Secretion and Solute Reabsorption at the DCT Animation: Distal Convoluted Tubule PLAY

58. Figure 26.14 Tubular Secretion and Solute Reabsorption at the DCT

59. Reabsorption and secretion along the collecting system Water and solute loss is regulated by aldosterone and ADH Reabsorption – Sodium ion, bicarbonate, and urea are resorbed Secretion – pH is controlled by secretion of hydrogen or bicarbonate ions

60. Control of urine volume and osmotic concentration Urine volume and osmotic concentration are regulated by controlling water reabsorption – Precise control allowed via facultative water reabsorption

61. The Effects of ADH on the DCT and Collecting Ducts

63. Removes solutes and water – Balances solute reabsorption and osmosis in the medulla Function of the vasa recta

64. A Summary of Renal Function