CL Critical care Flashcards
What equation governs acid-base balance?
Henderson-Hasselbach equation
H20 + CO2 H2CO3 HCO3- + H+
Mediated by carbonic anhydrase
How does CO2 travel in blood?
1) dissolved in solution
2) buffered with water as carbonic acid
3) bound to proteins (e.g. haemoglobin)
What is the chloride shift?
Exchange of bicarbonate and chloride across red blood cell membranes.
What is a buffer?
They limit the change in pH by binding or releasing H+.
Bicarbonate & Hb are most important
Causes of metabolic acidosis?
Normal anion gap: renal tubular acidosis, tubular damage, diarrhoea, ileostomy, hyperparathyroidism, hypoaldosteronism.
Increased anion gap: sepsis, cardiac arrest, hypotension, methanol, uraemia, diabetes (insulin deficiency), metformin, starvation, salicylates.
Causes of metabolic alkalosis?
Vomiting, renal loss of H+, low chloride states, diuretics, excess antacid,
Causes of respiratory acidosis?
Neurological: myasthenia gravis, Guillain-Barre, polio, head trauma, opiates
Lung: Pneumonia, pulmonary oedema, airway obstruction, ARDS, flail segment, lung contusion
Causes of respiratory alkalosis?
Hyperventilation- Anxiety, pain, altitude, excess mechanical ventilation, salicylate overdose, PE, asthma
What is acute respiratory distress syndrome?
A clinical syndrome comprising acute respiratory failure and non-cardiogenic pulmonary oedema. This leads to hypoxaemia and a decreased lung compliance that is refractory to oxygen therapy
What are the key characteristics of ARDS?
- Diffuse bilateral pulmonary infiltrates on chest radiograph
- Normal pulmonary artery wedge pressure (PAWP < 18mmHg)
- PaO2/FiO2 ratio of < 26.6kPa
Potential causes of ARDS?
Primary lung causes: Trauma Pneumonia Aspiration Fat embolism Smoke inhalation
Others: Multiple trauma Generalised sepsis Massive transfusion DIC Cardio-pulmonary bypass
Management of ARDS?
Supportive
Treat the underlying cause
Other potentials:
NIV and PEEP to keep alveoli open
Increase ratio of inspiration to expiration
Prone ventilation to reduce V/Q mismatch
How and why do patients lose heat intraoperatively?
Convection- moving air in surroundings cools body surface
Conduction- direct contact
Evaporation- water, mucosal surfaces
Radiation- surroundings
Define hypothermia
Core body temperature lowering to <35°C (rectal temp)
What is the body’s response to hypothermia?
Sympathetic response, inducing piloerection, shivering and peripheral vasoconstriction.
Risk factors for intraoperative and postoperative hypothermia?
ASA grade A preop temp less than 36 degrees Combined general and regional anaesthetic Major surgery Exposed surgery
Complications of hypothermia:
Increase in morbidity.
Intraoperatively: A reduction in cardiac output and an increase in Hb oxygen affinity ->decreased tissue oxygen delivery-> myocardial ischaemia -> arrhythmias, cerebral ischaemia.
Decreased drug metabolism ->prolonged duration of action.
Coagulopathy, as the enzymes involved in the clotting cascade are affected. Platelet function is temperature dependent, promoting intra- and postoperative haemorrhage.
Shivering increases oxygen consumption and myocardial work.
Metabolism falls-> wound breakdown & infection.
May develop limb or bowel ischaemia, pancreatitis, renal failure
How to avoid hypothermia?
Bair hugger, theatre temp 21 degrees, warm fluids, patient exposed only as needed.
Patient should not leave recovery unless core temperature >36 degrees.
Causes of CKD
Diabetes Hypertension & arteriopathic disease Glomerulonephritis Infective/obstructive/reflux nephropathy Systemic disease with kidney involvement e.g. SLE, amyloid Family history e.g. polycystic kidneys Drugs e.g. NSAIDs Malignancy
When do you consider renal replacement therapy?
Acidaemia Electrolyte imbalance Intoxication- drug overdose Oedema, oliguria/anuria Uraemia (pericarditis, encephalopathy)
What are they types of transplant rejection?
Hyperacute (minutes to hours)
Preformed antibody against tissue
Lymphocytotoxic cross matching minimizes risk
Acute (weeks)
T cell mediated
HLA typing minimizes risk
Chronic (months to years)
Unknown aetiology or possibly due to recurrent acute episodes
Which diseases are blood transfusions screened for in UK?
Hepatitis B Hepatitis C HIV HTLV Syphilis
How long and at what temperature can RBC/platelets/fresh frozen plasma & cryoprecipitate be stored?
RBC / 35 days / 2-6C
Platelets / 5 days / 20-24C
FFP/cryoprecipitate / 1yr / -30C
Constituents of FFP & cryoprecipitate
FFP = albumin, all clotting factors, complement, fibrinogen, vWF Cryoprecipitate = Factor VIII, Factor XIII, fibrinogen, vWF
Types of blood transfusion reaction?
Acute
Acute haemolytic reaction
TRALI (transfusion related acute lung injury)
Bacterial contamination
Allergic (includes febrile non-haemolytic transfusion reaction and anaphylaxis
Fluid overload
Coagulopathy & DIC
Hyperkalaemia
Hypocalcaemia (due to citrate binding calcium)
Delayed
Delayed haemolytic transfusion reaction (>24 hours)
Graft versus host
Post transfusion purpura
Infection
Layers for lumbar puncture
Skin Subcutaneous fat Superficial fascia Supraspinous ligament Interspinous ligament Ligamentum flavum Epidural space containing internal vertebral venous plexus Dura mater Arachnoid mater CSF
