Electrolytes. Chloride Major Extracellular anion Maintains hydration, osmotic pressure, ionic balance Changes parallel changes in Na ISE Silver Chloride/silver.

Slides:

Advertisements

Similar presentations

INTERACTIVE CASE DISCUSSION Acid-Base Disorders (Part I)

Advertisements

DEFINITIONS acidemia/alkalemia acidosis/alkalosis an abnormal pH

Water, Electrolyte, and Acid–Base Balance

ACIDOSIS & ALKALOSIS BY Dr. Naglaa Ibrahim Azab Assistant professor of medical biochemistry.

Joe Pistack MS/ED.  Intracellular-water located in all the cells of the body.  About 63% of the water is located in the intracellular compartments.

Bio& 242: Unit 2 / Lecture 3.

Water, Electrolytes, and

Fluids & Electrolytes, and Metabolism Nestor T. Hilvano, M.D., M.P.H. (Illustrations Copyright by Frederic H. Martini, Pearson Publication Inc., and The.

 2009 Cengage-Wadsworth Chapter 14 Body Fluid & Electrolyte Balance.

Elsevier items and derived items © 2007, 2003, 2000 by Saunders, an imprint of Elsevier Inc. Slide 1 Chapter 25 Water, Electrolyte, and Acid-Base Balance.

Biochemical basis of acidosis and alkalosis: evaluating acid base disorders Eric Niederhoffer, Ph.D. SIU-SOM.

Acid-Base Balance Nestor T. Hilvano, M.D., M.P.H..

A&E(VINAYAKA) Blood Gas Analysis Dr. Prakash Mohanasundaram Department of Emergency & Critical Care medicine Vinayaka Missions University.

Metabolic Acidosis Bonnie Cramer December 11, 2008.

Lactic Acidosis Dr. Usman Ghani 1 Lecture Cardiovascular Block.

Evaluation and Analysis of Acid-Base Disorders

Arterial Blood Gas Assessments

Waleed Talal Alotaibi MBBS. objectives Definitions How to approach? Differential diagnosis Anion gap VS. non-anion gap metabolic acidosis Treatment of.

CASE HISTORY #19: ELECTROLYTES Sodium: 139 mmol/L Potassium: 4.1 mmo1/L Chloride:118 mmol/L CO2: 20 mmol/L BUN:19 mg/dL Creatinine: 0.9 mg/dL Glucose:

Acid-base disorders  Acid-base disorders are divided into two broad categories:  Those that affect respiration and cause changes in CO 2 concentration.

Chapter 27 Lecture Outline*

Fluids and Electrolytes Water is the largest single component of the body. Water comprises 95% of the body’s fluids.

Water, Electrolyte, and pH Balance

Water, Electrolytes, and Acid-Base Balance $100 $200 $300 $400 $500 $100$100$100 $200 $300 $400 $500 Body Fluids FINAL ROUND ElectrolytesAcid-BaseClinical.

Prof. M. Tatár Dept. of Pathophysiology JLF UK

Diabetes Clinical cases CID please… Chemical Pathology: Y5 Karim Meeran.

ABG - ANALYSIS Dr Jake Turner Anaesthetic CT2. Objectives 1. pH, Acids and Bases 2. Arterial sampling 3. ABG machine and measured values 4. Acidosis vs.

Electrolytes Clinical Pathology. Electrolytes Electrolytes and acid-base disorders may result from many different diseases. Correction of fluid, electrolytes,

Renal Acid-Base Balance. Acid An acid is when hydrogen ions accumulate in a solution. It becomes more acidic [H+] increases = more acidity CO 2 is an.

Electrolytes. Electrolytes are anions or cations Functions of the electrolytes Maintenance of osmotic pressure and water distribution Maintenance of the.

Measured by pH pH is a mathematical value representing the negative logarithm of the hydrogen ion (H + ) concentration. More H + = more acidic = lower.

Acid-Base balance Prof. Jan Hanacek. pH and Hydrogen ion concentration pH [H+] nanomol/l

Water, Electrolytes, and

Renal Physiology 1 PART THREE Renal Acid-Base Balance.

Acidosis & Alkalosis Presented By Dr. Shuzan Ali Mohammed Ali.

The Basics of Blood Gas and Acid-base Kristen Hibbetts, DVM, DACVIM, DACVECC.

Interpretation of arterial blood gases Meera Ladwa.

Presented by: Samah Al Khawashki Medical Student December 20, 2008.

Acid-Base Balance. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Objectives Explain how the pH of the blood.

Fluids and Acid Base Physiology Dr. Meg-angela Christi Amores.

Acid-Base Basics Chemistry of Life

Electrolytes. Chloride Major Extracellular anion (~103 mEq/L) Maintains hydration, osmotic pressure, ionic balance Changes parallel changes in Na ISE.

Acid-Base Balance Disturbances. Acids are produced continuously during normal metabolism. (provide H+ to blood) H + ion concentration of blood varies.

ABG INTERPRETATION. BE = from – 2.5 to mmol/L BE (base excess) is defined as the amount of acid that would be added to blood to titrate it to.

Acidosis and Alkalosis. The Henderson-Hasselbach Equation….. The lungs control the volume of CO 2 The kidneys control the volume of BCO 3 -

第 10 組：郭震亞許瑜真許程凱梁華昌. CaseNa + Cl - CO 2 pHpCO 2 pO 2 Normal J Glucose normal Lactate (-) Ketones.

Physiology of Acid-base balance-2 Dr. Eman El Eter.

Acid-base Regulation in human body

Electrolytes.  Electrolytes are electrically charged minerals  that help move nutrients into and wastes out of the body’s cells.  maintain a healthy.

The Clinical Approach to Acid- Base Disorders Mazen Kherallah, MD, FCCP Internal Medicine, Infectious Diseases and Critical Care Medicine.

Water, sodium and potassium

Acid-Base Balance Prof. Omer Abdel Aziz. Objectives Definition Regulation Disturbances.

CLINICAL BIOCHEMISTRY Lecture No 1

Acid-Base Imbalance.

© 2018 Pearson Education, Inc..

Acid-Base Imbalance.

Relationship of pH to hydrogen ion concentration

ABG INTERPRETATION.

ACID – BASE DISORDERS M. Tatár.

Ion-Selective Electrode (I.S.E.)

ACID-BASE BALANCE pH is a measure of H + pH = - log [H +] Importance:

Acid-Base Balance.

Blood Gas Analysis Teguh Triyono Bagian Patologi Klinik

Anion Gap (AG) It is a measure of anions other than HCO3 and Chloride Biochemical Basis: Always: CATIONS = ANIONS 11/18/2018 5:41 PM.

Acid-Base Balance.

Acid Base Disorders.

ANIONIC GAP Defination and types of anionic gap.

Blood Gases, pH and Buffer system

Lactic Acidosis Cardiovascular Block.

Arterial blood gas Dr. Basu MD.

Presentation transcript:

Electrolytes

Chloride Major Extracellular anion Maintains hydration, osmotic pressure, ionic balance Changes parallel changes in Na ISE Silver Chloride/silver sulfide sensing element Also colorimetric and coulometric- amperometric Sweat Chloride Cystic Fibrosis

Chloride Clinical Significance Normal Range ( mmol/L) Increased Hyperparathyroidism, renal tubular disease, diarrhea, dehydration Decreased Salt losing renal disease, overhydration, prolonged vomiting, burns

Sweat Chloride 17 th Century Saying “Woe to that child who when kissed on the forehead taste salty. He/She is bewitched and soon must die” Pilocarpine nitrate A stimulant which causes localized sweating so that sweat may be collected and analyzed

Sweat Chloride Cystic Fibrosis

CO 2 Primarily bicarbonate Keep sample capped to prevent loss of CO 2

CO 2 Clinical Significance Normal Range (23-30 mmol/L) Increased Metabolic Alkalosis, Compensated respiratory acidosis, Emphysema Decreased Metabolic Acidosis, Compensated respiratory alkalosis, Hyperventilation

Anion GAP (Na + K) – (Cl+ CO 2) (10 -20) Or Na – (Cl +CO 2) (8-16) Difference between unmeasured anions and unmeasured cations Increased Renal failure, diabetic acidosis, lactic acidosis, drugs or toxins or lab error Decreased QC Check Can’t be a negative number Analytical error, such as false elevated Cl or low Na Lipemia

Critical Value