Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byGerald Stevenson Modified over 8 years ago

Similar presentations

Presentation on theme: "Diabetes Clinical cases CID please… Chemical Pathology: Y5 Karim Meeran."— Presentation transcript:

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

2 H + HCO 3 = CO 2 + H 2 O respiratory acidosis respiratory alkalosis Metabolic acidosis Metabolic alkalosis + - pCO2 pH [H +] 6.92 7.0 7.1 7.22 7.40 7.52 7.70 7.80 Draw this on your IPAD

3 Case 1: 16 year old unconscious. Acutely unwell a few days. Vomiting Breathless.

4 Case 1: data pH 6.85 PCO 2 = 2.3 kPa (N 4-5) PO 2 = 15 kPa

5 What is the acid/base abnormality? A. Respiratory acidosis B. Metabolic acidosis C. Respiratory alkalosis D. Metabolic alkalosis pH 6.85 PCO2 = 2.3 kPa (N 4-5) PO2 = 15 kPa

6 What is the acid/base abnormality? Low pH = acidosis ie: excess H + ions HCO 3 - + H + = CO 2 + H 2 0 Low CO2 = low bicarbonate

7 What is the acid/base abnormality? Draw the following graph, which will always tell you the answer:

8 H + HCO 3 = CO 2 + H 2 O respiratory acidosis respiratory alkalosis Metabolic acidosis Metabolic alkalosis + - pCO2 pH [H +] 6.92 7.0 7.1 7.22 7.40 7.52 7.70 7.80 Type in your CID now

9 What is the acid/base abnormality? Low pH = acidosis Low CO2 = low bicarbonate Metabolic acidosis

10 Case 1: more data. Na: 145, K: 5.0, U 10, pH 6.85, Glucose 25. Why is he unconscious ? What is the osmolality ?

11 Case 1: more data. Na: 145, K: 5.0, U 10, pH 6.85, Glucose 25. Why is he unconscious ? Because brain enzymes cannot function at a very acid pH What is the osmolality ?

12 Case 1: osmolality : derivation* Na: 145, K: 5.0, U 10, pH 6.85, Glucose 25. Osmolality = charged molecules + uncharged =cations + anions + urea + glucose (Na, K) (Cl, HCO3) Since cations = anions, this can be reduced to: Osmolality = 2(Na+K) + U + G Also PO4, SO4, etc

13 Case 1: osmolality : derivation* Na: 145, K: 5.0, U 10, pH 6.85, Glucose 25. Osmolality = charged molecules + uncharged =cations + anions + urea + glucose (Na, K) (Cl, HCO3) Since cations = anions, this can be reduced to: Osmolality = 2(Na+K) + U + G What is the osmolality? Also PO4, SO4, etc

14 Case 1: osmolality Na: 145, K: 5.0, U 10, Glucose 25.

15 Case 1: anion gap* Cations (Na/K) = Anions (Cl, Bicarb, others) “Others” known as “anion gap”. Anion gap = Na + K – Cl – bicarb

16 Case 1: anion gap* Cations (Na/K) = Anions (Cl, Bicarb, others) “Others” known as “anion gap”. Anion gap = Na + K – Cl – bicarb

17 Case 1: anion gap* Cations (Na/K) = Anions (Cl, Bicarb, others) “Others” known as “anion gap”. Anion gap = Na + K – Cl – bicarb Normal AG =140+4.0 – 102 – 24 = 18 mM

18 Case 1: anion gap* Anion gap = Na + K – Cl – bicarb Normal AG =140+4.0 – 102 – 24 = 18 mM In this patient:

19 Case 1: anion gap* Anion gap = Na + K – Cl – bicarb Normal AG =140+4.0 – 102 – 24 = 18 mM In this patient calculate the anion gap now: 145 + 5.0 – 96 – 4.0

20 Case 1: anion gap* Anion gap = Na + K – Cl – bicarb Normal AG =140+4.0 – 102 – 24 = 18 mM In this patient: 145 + 5.0 – 96 - 4 = (high) Suggests extra anions (Ketones)

21 Case 2: A 19 year old known to have type 1 diabetes for several years presents unconscious. Results: pH 7.65 PCO2 = 2.8 kPa Bicarb = 24 mM (normal) PO2 = 15 kPa What is the acid-base abnormality ?

22 Case 2: What is the acid/base abnormality? A. Respiratory acidosis B. Metabolic acidosis C. Respiratory alkalosis D. Metabolic alkalosis pH 7.65 PCO2 = 2.8 kPa Bicarb = 24 mM (normal) PO2 = 15 kPa

23 What is the acid/base abnormality? High pH = alkalosis Low CO2 = respiratory

24 H + HCO 3 = CO 2 + H 2 O respiratory acidosis respiratory alkalosis Metabolic acidosis Metabolic alkalosis + - pCO2 pH [H +] 6.92 7.0 7.1 7.22 7.40 7.52 7.70 7.80 Primary hyperventilation Slows down spontaneously

25 What is the acid/base abnormality? High pH = alkalosis Respiratory alkalosis

26 Further results: Na = 140, K=4.0, bicarb=24, Cl=100 Glucose 1.3 mM What is the anion gap? What is the diagnosis ?

27 Further results: Na = 140, K=4.0, bicarb=24, Cl=100 Glucose 1.3 mM What is the anion gap? (normal) What is the diagnosis ?

28 Further results: Na = 140, K=4.0, bicarb=24, Cl=100 Glucose 1.3 mM What is the anion gap? (normal) What is the diagnosis ? Anxiety caused by hypoglycaemia.

29 Case 3. 60 year old man presents unconscious to casualty, with a history of polyuria and polydipsia. Investigations reveal: Na: 160, K: 6.0, U 50, pH 7.30, Glucose 60. What is the osmolality ? Why is he unconscious ?

30 Case 3. 60 year old man presents unconscious to casualty, with a history of polyuria and polydipsia. Investigations reveal: Na: 160, K: 6.0, U 50, pH 7.30, Glucose 60. What is the osmolality : mosm/kg Why is he unconscious ?

31 Case 3. 60 year old man presents unconscious to casualty, with a history of polyuria and polydipsia. Investigations reveal: Na: 160, K: 6.0, U 50, pH 7.30, Glucose 60. What is the osmolality : mosm/kg Why is he unconscious : because the brain is VERY dehydrated.

32 Case 4. 59 year old man known to have type 2 diabetes, on a good diet and metformin presents to casualty unconscious: Urine is negative for ketones. Na: 140, K: 4.0, U 4.0, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM What is the osmolality : What is the anion gap: What is the acid-base disturbance Why is he unconscious :

33 Case 4. 59 year old man known to have type 2 diabetes, on a good diet and metformin presents to casualty unconscious: Urine is negative for ketones. Na: 140, K: 4.0, U 4.0, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM What is the osmolality : What is the anion gap: What is the acid-base disturbance Why is he unconscious :

34 Case 4. What is the osmolality : Na: 140, K: 4.0, U 4.0, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM Osmo=2(Na+K) + U + G

35 Case 4. What is the anion gap: Na: 140, K: 4.0, U 4, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM Urine is negative for ketones. Anion Gap = (Na+K) - bic - chloride

36 Case 4. What is the anion gap: Na: 140, K: 4.0, U 4, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM Urine is negative for ketones. Anion Gap = (Na+K) - bic - chloride

37 Case 4. What is the anion gap: Na: 140, K: 4.0, U 4, pH 7.10, Glucose 4.0 PCO 2 =1.3 kPa. Cl = 90. Bicarb = 4.0 mM Urine is negative for ketones. Anion Gap = (Na+K) - bic - chloride ie: there are an excess of anions

38 What is the acid/base abnormality? A. Respiratory acidosis B. Metabolic acidosis C. Respiratory alkalosis D. Metabolic alkalosis pH 7.10 PCO2 = 1.3 kPa (N 4-5) PO2 = 15 kPa

39 Case 4. What is the acid-base disturbance? pH 7.10 (acidosis) pCO 2 = 1.3 kPa (very low)

40 Case 4. What is the acid-base disturbance? pH 7.10 (acidosis) pCO 2 = 1.3 kPa (very low) Metabolic acidosis

41 Case 4. ie: there are an excess of anions Not ketones What else ? Methanol, ethanol, lactate Metformin in overdose can cause a lactic acidosis Lactate = 10 mM (N<2.0)

42 The Cori cycle: Glucose (muscle)Lactate GlucoseLactate circulation liver Inhibited by metformin

43 Case 4. Why is he unconscious? pH 7.10 (acidosis) The brain cannot function in such an acidic pH.

44 Definition (type 2 diabetes) Fasting glucose > 7.0 mM Glucose tolerance test (75 grams glucose given at time 0) Plasma glucose > 11.1 mM at 2 hours (2h value 7.8 – 11.1 = impaired glucose tolerance).

45 Acid base graph: CID

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

Similar presentations

DEFINITIONS acidemia/alkalemia acidosis/alkalosis an abnormal pH

DEFINITIONS acidemia/alkalemia acidosis/alkalosis an abnormal pH
Acid – Base Disorders Viyeka Sethi PGY 4 Med-Peds.

Acid – Base Disorders Viyeka Sethi PGY 4 Med-Peds.
Acid-Base Disturbances

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

A&E(VINAYAKA) Blood Gas Analysis Dr. Prakash Mohanasundaram Department of Emergency & Critical Care medicine Vinayaka Missions University.
Lactic Acidosis Dr. Usman Ghani 1 Lecture Cardiovascular Block.

Lactic Acidosis Dr. Usman Ghani 1 Lecture Cardiovascular Block.
Evaluation and Analysis of Acid-Base Disorders

Evaluation and Analysis of Acid-Base Disorders
Chairman Rounds Medicine I Jesse Lester, Kannan Samy, Matt Skomorowski, Dan Verrill.

Chairman Rounds Medicine I Jesse Lester, Kannan Samy, Matt Skomorowski, Dan Verrill.
Arterial Blood Gas Assessments

Arterial Blood Gas Assessments
Acid Base Disturbances Ian Chan MS4 Eliza Long R2 Dr. Abdul-Monim Batiha.

Acid Base Disturbances Ian Chan MS4 Eliza Long R2 Dr. Abdul-Monim Batiha.
Waleed Talal Alotaibi MBBS. objectives Definitions How to approach? Differential diagnosis Anion gap VS. non-anion gap metabolic acidosis Treatment of.

Waleed Talal Alotaibi MBBS. objectives Definitions How to approach? Differential diagnosis Anion gap VS. non-anion gap metabolic acidosis Treatment of.
Acid-base Disturbances Mohammed saeed abdullah al-mogobaa 432800224 Mohammed saeed abdullah al-mogobaa 432800224.

Acid-base Disturbances Mohammed saeed abdullah al-mogobaa Mohammed saeed abdullah al-mogobaa
Ibrahim alzahrani R1 Quiz of the week. 18 years old male who presented with sever cough, greenish sputum and high grade fever (39.5). He developed sever.

Ibrahim alzahrani R1 Quiz of the week. 18 years old male who presented with sever cough, greenish sputum and high grade fever (39.5). He developed sever.
Approach to Acid Base Disorder

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

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

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.
Acid Base Sophie & Mimi Any questions – S.A.Greenhalgh@warwick.ac.uk.

Acid Base Sophie & Mimi Any questions –
 Unexpected deterioration of sick patient  Hypoxaemia on sats monitoring  Reduced conscious level  Exacerbation of COPD  Monitoring of ventilated.

 Unexpected deterioration of sick patient  Hypoxaemia on sats monitoring  Reduced conscious level  Exacerbation of COPD  Monitoring of ventilated.
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.

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

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 6.0 1000 7.0 100 8.0 10 9.0 1.

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

Similar presentations

Ads by Google