Dialysis

Question 1

What is dialysis used for? (2)

Answer 1

• Removing toxins from the blood which build up in end stage kidney disease (ESKD) (blood to dialysate)
• Allowing the infusion of bicarbonate into the blood (dialysate to blood)

Question 2

Dialysis is considered to be a ‘stop-gap’ until transplantation. T/F?

Answer 2

True

for patients who are suitable for transplant

Question 3

By what 3 mechanisms are molecules exchanged between the blood and the dialysate?

Answer 3

Diffusion
Convection
Adsorption

Question 4

Describe how diffusion works when referring to dialysis

Answer 4

Molecules move from the solution with their higher concentration to the solution with their lower concentration gradient across the semi-permeable membrane of filaments within the dialyser

Question 5

What 3 factors affect solute diffusion between the blood and the dialysate?

Answer 5

• Solute concentration gradient
• Molecular weight of solute
• Permeability of the membrane of the filaments in the dialysate

Question 6

Ultrafiltration is important for convection. What is ultrafiltration?

Answer 6

Ultrafiltration is the movement of water from the blood to the dialysate by setting up a pressure gradient for water i.e., water pressure is -ve in the dialysate so that water moves into it from the blood

Question 7

Describe how convection works when referring to dialysis, making reference to ultrafiltration

Answer 7

Water is removed from the blood by ultrafiltration, taking it across the semi-permeable membrane and into the dialysate

Convection refers to the removal of solutes (e.g., urea, K+, Na+) dissolved in the water as it moves out in the ultrafiltrate along the pressure gradient of water

Question 8

What 3 factors affect solute movement between the blood and the dialysate by convection?

Answer 8

• Water volume and flow rate
• Water pressure gradient (hydrostatic pressure)
• Permeability of the filament membranes
• Molecular size, shape, and charge of the solute
• Viscosity of the fluid within the membrane pores

Question 9

Describe how adsorption works when referring to dialysis

Answer 9

Plasma proteins, and any solutes that are bound to them, can bind to specific polymers in the membrane of the dialysis filaments

Therefore, membrane binding removes these protein-bound solutes from the bloodstream

Question 10

What is meant by a ‘high-flux membrane’?

Answer 10

A synthetic dialysis membrane which has a high ultrafiltration coefficient

Question 11

Are protein-bound solutes adsorbed better by high or low-flux membranes?

Answer 11

High-flux membranes

Question 12

What are the 3 main types of dialysis?

Answer 12

Haemodialysis (HD)
Haemodiafiltration (HDF)
Peritoneal dialysis (PD)

Question 13

Which of the following mechanisms does haemodialysis rely most heavily on?
Diffusion
Convection
Adsorption

Answer 13

Diffusion

Question 14

In haemodialysis, what substances travel from…
-The patient’s blood to the dialysate
-The dialysate to the patient’s blood
?

Answer 14

Patient’s blood to the dialysate:

• Urea
• Creatinine
• Na+
• K+
• Other toxins

Dialysate to the patient’s blood:

• HCO3-
• Glucose

Question 15

What is the standard flow rate of dialysate in haemodialysis?
Therefore, how much dialysate is required in a 4 hr treatment cycle?

Answer 15

500ml/min

120L in a 4 hr treatment

Question 16

Different dialysate concentrations are available. They differ mainly in their concentration of…? Why?

Answer 16

K+ ions

Depending on patients K+ levels and risk of hyperkalaemia

Question 17

Which of the following mechanisms does haemodiafiltration rely most heavily on?
Diffusion
Convection
Adsorption

Answer 17

Convection

Question 18

What is the main difference between haemodialysis and haemodiafiltration?

Answer 18

In haemodialysis, solutes are removed from the patients blood by diffusion, down the concentration gradient of the solute

In haemodifiltration, solutes and water are removed from the patients blood by convection, down the pressure gradient of water created by the ultrafiltrate

Question 19

Haemodiafiltration requires the delivery of ‘re-infusate’ into the patient’s bloodstream. What is re-infusate and why is it required?

Answer 19

Re-infusate = a replacement fluid which is delivered directly back into the circulation of a patient on haemodiafiltration

It is required because a large volume of water is removed from the patient’s bloodstream to drive ultrafiltration (convective water-solute drag)

Question 20

High volume haemodiafiltration is defined as HDF requiring a re-infusate volume of ? litres per HDF session

Answer 20

> 21

this means that >21 litres of body fluid have been removed from the patient and replaced by infusate

Question 21

What are the advantages of using haemodiafiltration over haemodialysis? (5)

Answer 21

• The solute drag which comes with ultrafiltration allows more solute to be removed from the blood, as the pressure gradient can pull larger solute molecules from the bloodstream into the dialysate
• Patients experience less symptoms with treatment than when on HD
• Recovery time is quicker
• Chance of survival is improved
• Benefits are achieved at a similar cost to HD

Question 22

What is the ‘basic’/’minimum’ prescription for haemodialysis/haemodiafiltration treatment?

Answer 22

4 hour session 3x per week

Question 23

Give a pro and a con for increasing dialysis treatment regime to > 4 hours 3x per week?

Answer 23

Pro: Treatment is more efficient (as real kidneys function 24/7) and therefore survival may be improved

Con: Quality of life is negatively impacted

Question 24

For every 30 minutes less than the 4 hr minimum treatment recommendation for dialysis, by what % does risk of death increase?

Answer 24

1% for every 30 minutes less

Question 25

List 4 restrictions that dialysis puts on the patient, due to the fact that they have non-functioning kidneys for the majority of the time?

Answer 25

Restrict fluid intake to ~1L per day (including food-based fluid e.g., fruit and veg are 100% water)

Restrict salt intake to <2.3g daily to reduce thirst and help with fluid balance

Restrict K+ intake to prevent hyperkalaemia (K+ found in bananas, chocolate, potato, avocado), can also reduce K+ concentration in dialysate

Restrict phosphate intake, phosphate binders can be taken with meals if phosphate remains high

Question 26

Why does vascular access for HD/HDF need to be from a large vessel?

Answer 26

Because a blood flow rate of ~300-350 mls/min is required and this cannot be achieved by entering small vessels

Question 27

What are the 4 main methods of vascular access for HD/HDF?

Answer 27

Arteriovenous Fistula (AVF)

Arteriovenous Graft (AVG)

Tunnelled Central Venous Catheter (TCVC)

Temporary Venous Catheter (VasCath)

Question 28

What is the gold-standard method for dialysis vascular access?

Answer 28

Arteriovenous fistula (AVF)

Question 29

What is an arteriovenous fistula?

Answer 29

An artery and vein are surgically connected, the venous part then develops to create an enlarged, thick-walled vessel called an AVF

Question 30

What are the 3 most common sites for an AVF?

Answer 30

Radio-cephalic fistula at the wrist (radial artery + cephalic vein)

Brachio-cephalic fistula at the elbow (brachial artery + cephalic vein)

Brachio-basilic transposition fistula at the elbow (brachial artery + basilic vein)

Question 31

What are the pros of AVF? (2)

Answer 31

• Allows for good blood flow

- Less likely to cause infection as no foreign bodies are inserted

Question 32

What are the cons of AVF? (5)

Answer 32

• Surgery is required to establish the fistula
• Needs to be established 6-12 weeks before dialysis started to allow for maturation time
• Risk of limiting blood flow to the distal arm - ‘steal syndrome’
• Risk of thrombosis or stenosis
• Risk of pseudoaneurysm formation or fistula rupture

Question 33

What is an arteriovenous graft?

When is it used?

Answer 33

The use of synthetic graft material to connect an artery and a vein - it is this graft material that is needled for dialysis

It is less common than AVF and is used if AVF is not an option

Question 34

What is a HeRO graft? (haemodialysis reliable outflow graft)

Answer 34

A haemodialysis graft which involves connecting an artery to a vein which drains directly into the SVC via a titanium graft

Question 35

When may a HeRO graft be used?

Answer 35

To avoid thrombosed or stenosed veins which are obstructing blood flow back to the heart

Question 36

What is a Tunnelled Central Venous Catheter (TCVC)?

Answer 36

A catheter which is inserted directly into a large vein, most commonly the internal jugular vein
(femoral veins or IVC less commonly)

Question 37

What are the pros of using a tunnelled central venous catheter (TCVC)? (2)

Answer 37

• Easy to insert (usually)

- Can be used immediately so good if required urgently e.g., in AKI

Question 38

What are the cons of using a tunnelled central venous catheter (TCVC)? (3)

Answer 38

• High risk of infection
• Can become blocked
• Can damage central veins, making future line insertion difficult e.g., thrombosis, stenosis

Question 39

What are the most common infections caused by TCVCs?

Answer 39

• Staph aureus bacterial infection
• Endocarditis if septic emboli occur
• Discitis (IV discs) if septic emboli occur

Question 40

What is the treatment for a TCVC infection?

Answer 40

Vancomycin + gentamicin (for gram +ve and gram -ve cover)

Line removal or exchange

Question 41

List 5 complications of dialysis and briefly describe them

Answer 41

• Hypotension / ‘myocardial stunning’ (greatly reduced CO) due to removal of large volumes of H2O without adequate replacement
• Haemorrhage due to rupture of an AVF
• Loss of vascular access due to thrombosis, stenosis, or infection
• Arrhythmia due to electrolyte imbalance/myocardial ischaemia
• Cardiac arrest if the treatment is just too aggressive for the body to take

Question 42

What is peritoneal dialysis?

Answer 42

Solute exchange between the blood and dialysate by diffusion of solutes across the peritoneal membrane

Question 43

Describe how peritoneal dialysis is carried out

Answer 43

• A catheter is inserted into the abdomen just below the umbilicus
• Sterile dialysate is infused into the peritoneal cavity
• Substances are exchanged between the blood capillaries and the dialysate across the semi-permeable peritoneal membrane
• The waste fluid is then removed from the peritoneal cavity

Question 44

Why do you need to be cautious with peritoneal dialysis in diabetics?

Answer 44

A small amount of glucose enters the bloodstream from the dialysate down its concentration gradient

Question 45

What are the 2 types of peritoneal dialysis?

Answer 45

Continuous ambulatory PD (CAPD)

Automated PD (APD)

Question 46

What are the differences between continuous ambulatory PD (CAPD) and automated PD (APD)?

Answer 46

CAPD:

• Dialysis carried out at regular intervals throughout the day
• 4x 2L bag exchanges per day, each for 20-30 minutes

APD:

• Dialysis carried out overnight by an automated machine
• Typically for 9-10 hours per night
• 1 bag of fluid stays in all day - the ‘day dwell’

Question 47

What determines whether a patient receives continuous ambulatory PD (CAPD) or automated PD (APD)?

Answer 47

Patient choice

Peritoneal characteristics

Question 48

What are the possible complications of peritoneal dialysis? (3)
Briefly describe them

Answer 48

• Infection (peritonitis or exit site infection), most commonly staph or strep infection or gut bacteria translocation e.g., E.coli
• Peritoneal membrane failure due to inability to handle fluid overload or uraemia
• Hernias due to increased intra-abdominal pressure from inflowing treatment, hernia must be repaired before treatment re-commenced

Question 49

What are the indications for starting dialysis? Give 4 blood test indications and symptom indications

Answer 49

Blood tests:

• Resistant hyperkalaemia, esp. if >6 mmol/L
• eGFR <7 ml/min
• Urea >40 mmol/L
• Unresponsive metabolic acidosis

Symptoms of uraemia e.g., nausea, loss of appetite, vomiting, profound fatigue, itch, fluid overload unresponsive to diuretics

Question 50

How is a patient gradually brought onto haemodialysis treatment?

Answer 50

• 1st session is ~1.5-2 hrs

- Subsequent sessions build up to 4 hours after 3-4 sessions

Question 51

What is disequilibrium syndrome?

Answer 51

Where too-rapid reduction in uraemic toxin levels leads to cerebral oedema, confusion, seizures, and occassionally death

Question 52

How is a patient gradually brought onto peritoneal dialysis treatment?

Answer 52

• Patient is trained how to use PD in the 3-6 weeks of healing following insertion of their catheter
• Gradually build fill volumes up to 2-2.5L

Question 53

Dialysis patients report a similar QoL as the general population. T/F?

Answer 53

False

Dialysis patients report a lower QoL than the general population and generally suffer a heavy burden of symptoms

Question 54

What symptoms are often experienced by patients on dialysis?

Answer 54

Pain
Itch (due to uraemia)
Depression
Loss of appetite

Question 55

In what circumstance may a patient with ESRD choose not to receive dialysis?

Answer 55

Patients >75 with multiple co-morbidities are expected to have a similar number of hospital free days regardless of whether they start HD or not

Therefore, the patient should make an informed choice about the quality vs quantity of life they want to live (i.e., HD may not give them any longer to live but will significantly impact their quality of life)

Question 56

What help is available for the ~20% of ESRD patients who choose not to receive dialysis?

Answer 56

A separate supportive clinic is available in the community

Question 57

Home HD is less common than in-centre HD. When might a patient get home HD and what are the benefits of it?

Answer 57

May be preferred in patients who are young, physically fitter, and have a carer to help at home

Benefits: offers the patient more freedom as shorter sessions can be carried out for more times per week

Question 58

Give 5 reasons why a patient, their treating team, and their family may decide to withdraw dialysis treatment?

Answer 58

• Haemodynamic instability
• Progressive dementia making treatment distressing
• CV event
• Terminal cancer
• Increasing frailty and inability to cope at home

Question 59

Why are palliative care involved in withdrawal from dialysis?

Answer 59

Life expectancy is days - weeks once dialysis stopped