19506155
Beschreibung
Mindmap von Elaina Pham, aktualisiert more than 1 year ago
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Erstellt von Elaina Pham
vor fast 5 Jahre
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Mindmap: Diabetic
Ketoacidosis (DKA) - Elaina
Pham and Charity Kate de Leon
- Pathophysiology (Copstead-Kirkhorn & Banasik, 2014)
- Hypokalemia
- Ketonuria
- Metabolic Acidosis
- Hyperglycemia
- Hyperosmolality
- Decrease supply of circulating insulin
- Glucose cannot be used for energy
- body breaks down fat as secondary source of energy
- ketones are created as a by-product, altering PH, in excess it
leads to metabolic acidosis
- ketones are created as a by-product, altering PH, in excess it
leads to metabolic acidosis
- body breaks down fat as secondary source of energy
- Glucose cannot be used for energy
- Clinical Manifestations (MacArthur &
Phillips, 2015)
- Dehydration
- Tachycardia
- Poor skin turgor
- Dry mucous
membranes
- Hypotension
- Tachycardia
- Hyperosmolality
- Polyuria
- Polydypsia
- Altered
LOA
- Polyuria
- Metabolic Acidosis
- Kussmaul's respirations (laboured breathing)
- Abdominal
pain
- Nausea &
vomiting
- Kussmaul's respirations (laboured breathing)
- Ketosis
- Sweet, fruity
breath
- Sweet, fruity
breath
- Dehydration
- Hypokalemia
- Assessment (Jarvis, 2016)/(Lewis
et al, 2014)
- Subjective
- Physical examination
- Past medical
history
- Family
history
- Physical examination
- Objective
- Blood
studies
- Hyperglycemia (Blood glucose >14 mmol/L)
- Positive for
ketones
- CBC (increase in
WBC)
- Hyperglycemia (Blood glucose >14 mmol/L)
- Urinalysis
- Ketones
(ketonuria)
- Glucose
(glucosuria)
- pH
- Specific
gravity
- Ketones
(ketonuria)
- Arterial Blood
Gases
- CO2 level 10-20
mmHg
- Arterial blood pH
<7.3
- Serum bicarbonate <20
mmol/L
- CO2 level 10-20
mmHg
- Blood
studies
- Subjective
- Treatment/Interventions (Lewis et al,
2014)
- NUrsing Management (Lewis et al, 2014)
- Monitor ECG --> cardiac functioning is affected
by movement of K+
- Monitor vital signs for fever, hypovolemic shock,
tachycardia, and Kussmaul's breathing
- Monitor blood glucose & urine output
for ketones
- Monitor signs of potassium imbalance
(because of osmotic diuresis)
- Monitor level of
consciousness
- Assess cardiac and respiratory
status
- Monitor ECG --> cardiac functioning is affected
by movement of K+
- Insulin infusion - 0.1 U/kg/hr (treatment of ketoacidosis)
- administer oxygen according to
doctor's orders
- ensure patent
airway
- IV sodium bicarbonate to treat severe acidosis (pH <7)
- Resore fluid and electrolyte balance (IV NS) (Lewis et al, 2014)
- D5W infusion --> prevention of hypoglycemia
- administration of IV fluids --> corrects dehydration
- IV administration of rapid or short-acting insulin --> corrects
hyperglycemia & hyperketonemia
- administer K + IV --> corrects hypokalemia
- D5W infusion --> prevention of hypoglycemia
- NUrsing Management (Lewis et al, 2014)
- Etiology (Lewis et al, 2014)
- DIABETES MELLITIS (DM)
- Acidosis
- Dehydration
- Hyperglycemia
- Ketonuria
- Acidosis
- Common causes (Lewis et al, 2014)
- 40% --> Underlying or concomitant infection
- 20% --> Various causes
- 20% --> Missed insulin
- 15% Newly diagnosed, unknown
- Pregnancy
- Placental hormones cause insulin resistance --> increase
insulin requirements
- Ketones harmful to feus
- Ketones harmful to feus
- Placental hormones cause insulin resistance --> increase
insulin requirements
- Stress, infection or illness, surgery, trauma
- Pancreas unable to meet insulin demands
- Pancreas unable to meet insulin demands
- Pregnancy
- 40% --> Underlying or concomitant infection
- DIABETES MELLITIS (DM)
- Special Considerations
- Children with Type 1 Diabetes
- Presenting factor for diabetic ketoacidosis
(McFarlane, 2011)
- Cerebral edema occurs in <1% of all
paediactric DKA cases (Long & Koyfman,
2017)
- Children <3 years old and come from areas with low prevalence of
diabetes are at risk for moderate to severe DKA (Diabetes Canada Clinical
Practice Guidelines Expert Committee, 2018)
- Cerebral edema occurs in <1% of all
paediactric DKA cases (Long & Koyfman,
2017)
- Presenting factor for diabetic ketoacidosis
(McFarlane, 2011)
- Management of DKA for children
- Mannitol or hyperonic saline used
for treatment of cerebral edema
- Fluid resuscitation is the primary goal
- Fluid bolus of 10-20 mL/kg is likely safe for children
(Long & Koyfman, 2017)
- It is critical to weigh the child before fluid resuscitation because
rapid rehydration can occur and leads to cerebral edema
(McFarlane, 2011)
- Fluid bolus of 10-20 mL/kg is likely safe for children
(Long & Koyfman, 2017)
- Potassium replacement therapy and insulin
therapy (McFarlane, 2011)
- Mannitol or hyperonic saline used
for treatment of cerebral edema
- Risk factors for children that increase the likelihood of DKA:
(Diabetes Canada Clinical Practice Guidelines Expert
Commitee, 2018; Oettingen, Rhodes, & Wolfsdorf, 2018;
MacArthur & Phillips 2015)
- Low socioecominc status
- Adolescent females
- High family conflict
- Ethnic minorities
- Children with psychiatric disorders
- Previous episodes of DKA
- Poor metabolic control
- Limited access to health care
- Low socioecominc status
- Children with Type 1 Diabetes
- Complications (Lewis et al, 2014)
- Rapid administration of IV fluids + insulin --> cerebral edema
- Untreated hyperglycemia
- Decreased levels of sodium, potassium, chloride,
magnesium, and phosphate
- Decreased levels of sodium, potassium, chloride,
magnesium, and phosphate
- Overcorrection of fluid losses
- Fluid overload and pulmonary edema
- Fluid overload and pulmonary edema
- Renal failure caused by hypovolemic shock
- Retention of ketones and glucose
- Progressive metabolic acidosis
- Comatose due to dehydration, electrolyte
imbalance, and acidosis
- Comatose due to dehydration, electrolyte
imbalance, and acidosis
- Progressive metabolic acidosis
- Retention of ketones and glucose
- Treating hyperglycemia causes K+ to move
rapidly into cells
- affects cardiac functioning
- affects cardiac functioning
- Rapid administration of IV fluids + insulin --> cerebral edema
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