Acid Base Balance B260 Fundamentals of Nursing. What is pH? pH is the concentration of hydrogen (H+) ions The pH of blood indicates the net result of.

Slides:



Advertisements
Similar presentations
Blood Gas Interpretation Review for Pandemic. 2 Blood Gases Important diagnostic tool Reveals: 1. acid-base balance 2. oxygenation status **arterial gases.
Advertisements

Water, Electrolytes, and
See Marieb & Hoehn 9th ed., Chapter 26
Acid-Base Balance Nestor T. Hilvano, M.D., M.P.H..
1 Acid and Base Balance and Imbalance. 2 pH Review pH = - log [H + ] H + is really a proton Range is from If [H + ] is high, the solution is acidic;

Acid-Base Disturbances
Interpretation: Compensated and Uncompensated Blood Gas Analysis
Arterial Blood Gases Made Easy Arterial Blood Gases.
A CID -B ASES /G ASES IN BLOOD Under the supervision of : Dr. Malek Al – Qub.
Blood buffering system
Understanding Acid/Base Balance Marilyn F. Brown Broad Concepts: Body pH tolerated in very narrow range 7.35 – 7.45 pH is defined as H+ ion concentration.
Carbonic Acid-Bicarbonate Buffering System CO 2 + H 2 O  H 2 CO 3  H + + HCO 3 – Respiratory regulation Respiratory regulation Renal regulation Renal.
NUR 101 M. Gardner Copyright2/4/2013.  In order to meet homeostasis, the body fluids must maintain a stable chemical balance of hydrogen ions in body.
Acid-Base Balance and Imbalance James Barnett, RN, MSN Clinical Educator – Neuroscience PCC Vanderbilt University Medical Center May 2007.
Measured by pH pH is a mathematical value representing the negative logarithm of the hydrogen ion (H + ) concentration. More H + = more acidic = lower.
Introduction to Acid-Base Balance N132. Acid_Base Chemistry  Acids E.g carbonic acid (H 2 CO 3 ) *Most Common  Bases E.g bicarbonate (HCO3-) *Most.
Arterial blood gas By Maha Subih.
Acid-Base Imbalances. pH< 7.35 acidosis pH > 7.45 alkalosis The body response to acid-base imbalance is called compensation May be complete if brought.
F ARIS A LI N ASSER I NVESTIGATION : The primary tests used to identify, evaluate, and monitor acid-base imbalances are: 1- Blood gases (ABG)
Acid-Base Imbalance NRS What is pH? pH is the concentration of hydrogen (H+) ions The pH of blood indicates the net result of normal acid-base.
1 Acid –Base Imbalance Dr. Eman EL Eter. Acid-Base Imbalances 2 pH< 7.35 acidosis pH > 7.45 alkalosis PCO2= mmHg HCO3- = mEq/L The body response.
Getting an arterial blood gas sample
Getting an arterial blood gas sample
Focus on Acid-Base Balance and Arterial Blood Gases
Arterial Blood Gas - Compensation
Mosby items and derived items © 2007, 2003 by Mosby, Inc.Slide 1 Chapter 30 Acid-Base Balance.
Acid-Base Balance KNH 413. Acid-Base Balance Acids- rise in pH Donate or give up H+ ions Nonvolatile acids or fixed acids Inorganic acids that occur through.
Acid-Base Imbalances. pH< 7.35 acidosis pH > 7.45 alkalosis The body response to acid-base imbalance is called compensation If underlying problem is metabolic,
Acid-Base Balance Disturbances. Acids are produced continuously during normal metabolism. (provide H+ to blood) H + ion concentration of blood varies.
Fluid and Electrolyte Imbalance
Acid-Base Basics Chemistry of Life
RESPIRATORY MODULE. FAWAD AHMAD RANDHAWA MBBS ( King Edward Medical College) M.C.P.S; F.C.P.S. ( Medicine) F.C.P.S. ( Endocrinology) Assistant Professor.
Acid-Base Balance KNH 413. Acid-Base Balance Acids Donate or give up H+ ions Rise in pH as a result! Nonvolatile acids or fixed acids CO2 indirect measure.
Acid-Base Balance Disturbances
Regulation of Acid-Base Balance Review
Practice Problems Acid-Base Imbalances interpretation of Arterial Blood Gases (ABG) RESP.
Acid-Base Balance Disturbances. Acids are produced continuously during normal metabolism. (provide H+ to blood) H + ion concentration of blood varies.
Outlines Introduction Body acidity has to be kept at a fairly constant level. Normal pH range within body fluids Normal pH is constantly.
Buffer systems. RESPONSES TO: ACIDOSIS AND ALKALOSIS Mechanisms which protect the body against life-threatening changes in hydrogen ion concentration:
Physiology of Acid-base balance-2 Dr. Eman El Eter.
Dr. Rida Shabbir DPT –IPMR (KMU). Acid Base Balance Acid: is any chemical that releases H ion in solution. Strong acid: Ionizes freely, gives up most.
Acid-base Regulation in human body
DR..ALI A. ALLAWI CONSULTANT INTERNIST&NEPHROLOGIST COLLEGE OF MEDICINE BAGHDAD UNIVERSITY.
Acid Base Balance Marion Technical College NUR 1021 Spring 2016.
Renal Control of Acid-Base Balance The kidneys control acid-base balance by excreting either acidic or basic urine Excreting acidic urine reduces the amount.
Acid-Base Imbalance.
© 2018 Pearson Education, Inc..
Department of Biochemistry
Acid-Base Imbalance.
INTERNIST&NEPHROLOGIST
1 Nursing: A Concept-Based Approach to Learning Acid–Base Balance
Acid-Base Imbalance.
pH PC02 Condition Decreased Increased Respiratory acidosis
Acid-Base Imbalance.
Blood Gas Analysis Teguh Triyono Bagian Patologi Klinik
ACID BASE BALANCE Too many H + make more acid. The body works with a very narrow range. Small pH changes alter biological process Hydrogen is the.
Acid-Base Balance.
Acid base balance.
Acid base balance.
Acid-Base Balance KNH 413.
Acid-Base Balance KNH 413.
See Marieb & Hoehn 9th ed., Chapter 26
Acid-Base Balance.
Acid-Base Balance KNH 413.
Acid-Base Balance KNH 413.
Acid-Base Balance KNH 413.
Arterial blood gas Dr. Basu MD.
Department of Biochemistry
Acid-Base Balance KNH 413.
Presentation transcript:

Acid Base Balance B260 Fundamentals of Nursing

What is pH? pH is the concentration of hydrogen (H+) ions The pH of blood indicates the net result of normal acid-base regulation, any acid-base imbalance, and the body’s compensatory mechanisms The human body must maintain a very narrow pH range

What is pH? In terms of the human body: acidosis alkalosis Carbon dioxide is the “acid” (CO2) Normal: mmHg Bicarbonate is the “base” (HCO3) Normal: mEq/L

How does the body maintain pH? Kidneys Regulate bicarbonate in the ECF The kidneys will retain or excrete H+ ions or HCO3 ions as needed Normally acidic urine Lungs Control CO2 Adjust rate and depth of ventilation in response to amount of CO2 in the blood A rise in arterial blood CO2 stimulates respiration Oxygen content of arterial blood will also stimulate respiration

Acidosis and Alkalosis Metabolic acidosis Decreased HCO3 or increase in other acids Metabolic alkalosis Increased HCO3 and excess loss of acids Respiratory acidosis Increased PaCO2 due to hypoventilation Respiratory alkalosis Decreased PaC02 due to hyperventilation

Imbalances Imbalances in PaCO2 are influenced by respiratory causes Imbalances in HCO3 are influenced by metabolic processes

Acidosis

Alkalosis

Metabolic Acidosis Low pH (<7.35) Low HCO3 (<22 mEq/L) Primary feature is decrease in serum HCO3 Body may attempt to compensate by increasing respirations to decrease CO2 Hyperkalemia may also occur due to shift of potassium out of the cells Hypokalemia may occur once the acidosis is corrected Treatment is aimed at correcting the metabolic defect IV bicarbonate Potassium management Dialysis

Metabolic Acidosis

Metabolic Alkalosis High pH (>7.45) High serum HCO3 (>26) Body may attempt to compensate by decreasing respirations to increase CO2 Treatment is aimed at treating the underlying disorder Chloride supplementation Restore normal fluid volume Maintain potassium Carbonic anhydrase inhibitor if unable to tolerate volume resuscitation

Metabolic Alkalosis

Respiratory Acidosis Low pH (<7.35) High serum CO2 (>42) Body may attempt to compensate through renal retention of HCO3 (does not happen quickly - hours to days) Chronic respiratory acidosis occurs with chronic pulmonary disease (eg, emphysema, OSA) Pt. will often be asymptomatic, as the body has time to compensate Acute respiratory acidosis may be severe and will produce symptoms

Respiratory Acidosis Treatment is directed at improving ventilation --> treat the underlying cause Pulmonary hygiene to clear respiratory tract Adequate hydration to help clear secretions Supplemental oxygen Adjustment of mechanical ventilation as appropriate

Respiratory Acidosis

Respiratory Alkalosis High pH (>7.45) Low PaCO2 (<35) Always due to hyperventilation Body may compensate through increased kidney excretion of bicarbonate (does not happen quickly - hours to days) Treatment is aimed at correcting the cause of hyperventilation If anxiety-related, may breathe into a closed system (rebreathe CO2)

Respiratory Alkalosis

Interpreting Arterial Blood Gases pH ( ) PaO2 ( mmHg on room air) O2 saturation (95-100%) PaCO2 (35-45 mmHg) HCO3 (22-26 mEq/L) Acid Base Made Easy

Interpreting Arterial Blood Gases AcidNormalBase ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase HCO3 pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase HCO3 pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.55 PaCO2: 20 HCO3: 19 Respiratory Alkalosis

Interpreting Arterial Blood Gases AcidNormalBase ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH HCO3 CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19

Interpreting Arterial Blood Gases AcidNormalBase pH HCO3 CO2 ACID (Acidosis) 7.40 BASE (Alkalosis) pH PaCO245—35 (Respiratory) HCO (Metabolic) pH: 7.25 PaCO2: 32 HCO3: 19 Metabolic Acidosis

Practice pH: 7.25pH: 7.54 PaCO2: 55PaCO2: 24 HCO3: 26HCO3: 25 pH: 7.55pH: 7.48 PaCO2: 20PaCO2: 38 HCO3: 19HCO3: 28 pH: 7.4pH: 7.1 PaCO2: 42PaCO2: 35 HCO3: 25HCO3:18 pH: 7.15pH: 7.7 PaCO2: 46PaCO2: 28 HCO3: 34HCO3: 23 pH: 7.5pH: 7.2PaCO2: 48 HCO3: 28HCO3: 24 pH: 7.17pH: 7.26 PaCO2: 35PaCO2: 36 HCO3: 12HCO3: 16

Practice pH: 7.25pH: 7.54 PaCO2: 55PaCO2: 24 HCO3: 26HCO3: 25 pH: 7.55pH: 7.48 PaCO2: 20PaCO2: 38 HCO3: 19HCO3: 28 pH: 7.4pH: 7.1 PaCO2: 42PaCO2: 35 HCO3: 25HCO3:18 pH: 7.15pH: 7.7 PaCO2: 46PaCO2: 28 HCO3: 34HCO3: 23 pH: 7.5pH: 7.2PaCO2: 48 HCO3: 28HCO3: 24 pH: 7.17pH: 7.26 PaCO2: 35PaCO2: 36 HCO3: 12HCO3: 16 Resp. Acidosis Resp. Alkalosis Normal Metabolic. Alkalosis Met. Alkalosis Metabolic. Acidosis Met.. Acidosis

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.