RRT and Renal Transplant

Question 1

When should RRT planning begin in CKD?

Answer 1

When the risk of renal failure is 10-20% within a year.

Referral to nephrology less than 1 year before RRT is required is considered a late referral.

All suitable patients should be listed for a deceased donor transplantation 6 months before the anticipated start of RRT.

All suitable patients should also be informed about the advantages of a pre-emptive living kidney transplant and efftorts made to find a donor.

Question 2

When should RRT be started?

Answer 2

When it is necessary to manage one or more symptoms of renal failure including:

Inability to control volume status, including pulmonary oedema.

Inability to control blood pressure

Serositis

Acid-base or electrolyte abnormalities

Pruritus

Nausea, vomiting, deterioration in nutritional status

Cognitive impairment

Question 3

What are the two types of dialyses?

Answer 3

Haemodialysis (HD)

Peritoneal dialysis (PD)

Question 4

Explain PD.

Answer 4

Uses the peritoneum of the patient as a semi-permeable membrane.

A catheter is inserted into the peritoneal cavity and fluid is infused.

Ultrafiltration is achieved by adding osmotic agents such as glucose to the dialysate fluid. This makes solutes such as electrolytes, urea and creatinine to move from the patient’s blood into the dialysate fluid as well as water.

Question 5

Advantages of PD.

Answer 5

It can be performed at home!

Quality of life might be greater

It’s a good first choice for patients with some native renal function left.

The PD regimes are largely individualised to the patient’s own needs.

Not as heavy on dietary restrictions as HD

Question 6

Disadvantages of PD.

Answer 6

Patients need to be able to manage technical aspects of dialysis themselves.

It is unsuitable for patients with stoma or previous surgery

Question 7

Complications of PD.

Answer 7

Drainage problems

Risk of infection (peritonitis)

Catheter exit infection

Malposition

Leaks

Herniae

Hydrothorax

Constipation may impair flow of dialysate

Sclerosing peritonitis is a potentially fatal complication

Question 8

What are the different types of PD?

Answer 8

Continuous ambulatory peritoneal dialysis (CAPD)

Automated peritoneal dialysis

Assisted Automated PD

Question 9

Explain automated PD.

Answer 9

Also called nightly intermittent peritoneal dialysis.

It is carried out with an automated cycle machine performed at night.

10-12L usually exchanged over 8-10 hours.

This leaves daytime free.

Question 10

Explain CAPD.

Answer 10

4-5 dialysis exchanges per day, usually 2 litres each.

They are performed at regular intervals throughout the day with a long overnight dwell.

Question 11

What is haemodialysis?

Answer 11

Can be used as temporary dialysis or permanent.

The dialysis machine pumps blood from the patient through a disposable tubing, through a dialyser or artificial kidney and then back into the patient again.

Waste solute, salt and excess fluid is removed from the blood.

Question 12

What is the (IV) access of haemodialysis?

Answer 12

Usually an arteriovenous fistula is surgically formed between radial/brachial artery and cephalic vein or a Tunnelled cuffed catheter.

Synthetic arteriovenous grafts can be used as an alternative.

If AVF is not appropriate or if the patient is in an acute setting a semi-permanent dual-lumen venous catheter (Tunnelled cuffed catheter) can be inserted under a skin tunnel into the jugular, subclavian or femoral vein.

For urgent dialysis or temporary an untunnelled large-bore double-lumen dialysis catheter can be inserted into a central vein.

Question 13

Advantages of HD.

Answer 13

Efficient form of dialysis

Unit based with plenty support from staff

Removes the need for the patient to manage the dialysis themselves.

Question 14

Disadvantages of HD.

Answer 14

Dialysis access needs to be secure.

Need access to hospital

Need to be close to hospital

Need to be able to travel to hospital

Question 15

Complications of haemodialysis.

Answer 15

Infection/bacteraemia, septic arthritis, vertibritis, endocarditis

Haemodynamic instability

Haematomas and risk of bleed

Muscle cramps

Anaemia due to clotted lines/haemolysis

AVF steal syndrome

SVCO from central line

Malfunction, thrombosis or bleeding from access.

Cerebral oedema and fitting due to rapid urea removal

Question 16

Give examples of types of haemodialysis.

Answer 16

Home HD

Nocturnal HD

CRRT (continuous renal replacement therapy) - mainly used in an acute setting.

Question 17

Explain haemofiltration.

Answer 17

Water is cleared by +ve pressure, dragging solutes into the waste by convection.

The ultrafiltrate is replaced with a clean fluid.

This might be preferred in an acute setting where haemodynamic instability is common.

It is not used long term RRT unless in combination with HD (haemodiafiltration).

Question 18

Complications of RRT.

Answer 18

Cardiovascular disease (BP up, calcium/phosphate dysregulation, vascular stiffness, inflammation)

Protein-calorie malnutrition.

Renal bone disease - High bone turnover, renal osteodystrophy, osteitis fibrosa

Infection - uraemia causes granulocyte and T cell dysfunction

Question 19

When should renal transplant be considered?

Answer 19

Every patient with, or progressing towards stage G5 kidney disease.

It is the treatment of choice for kidney failure provided benefits outweigh the risk.

Question 20

Advantages of transplantation.

Answer 20

Near normal lifestyle

Better mortality/morbidity

No need for dialysis

Question 21

Disadvantages of renal transplant.

Answer 21

Criteria to meet suitability to safely undergo operation

Compliance with lifelong medication

Risk of rejection

Long waiting times for cadaveric organ.

Question 22

Contraindications of renal transplant.

Answer 22

> 80 yo

WHO performance score of 3 or more

Cancer with metastases

Active infection, HIV with viral replication, unstable CVD (all temporary, not absolute)

Congestive heart failure

CVD

Severe lung disease

Reversible renal disease

Uncontrolled substance abuse or psychiatric illness

Short life expectancy

Question 23

Types of graft.

Answer 23

Living donor (preferred)

Deceased donor

Question 24

Types of living donor.

Answer 24

Living related donor

Living unrelated donor

Question 25

Explain living related donor.

Answer 25

Best possible transplant.

An elective procedure with a selected donor that might have good compatibility.

Time to transplantation usually within months.

Question 26

Explain living unrelated donor.

Answer 26

4 types:

Live-donor paired exchange

Live-donor/deceased-donor exchange

Live-donor chain

Altruistic donation

Usually comparable outcomes to live-related

Time to transplantation usually within months

Question 27

Types of deceased donor.

Answer 27

Donor after brain death also called heart-beating donor

Expanded criteria donor

Donor after cardiac death

Question 28

Explain expanded criteria donor.

Answer 28

From an older kidney or from a patient with a history of CVA, BP, or CKD.

This impacst on the long-term prognosis of the transplant, however offers a better outcome than remaining on dialysis.

Question 29

Risks of donor after cardiac death.

Answer 29

Delayed graft function

Question 30

Why is it important to keep transplant protocols up to date in deceased donor transplantation?

Answer 30

Because patients who will receive this type of transplantation usually have little time to prepare because of availability.

Question 31

Time to transplantation in deceased donor.

Answer 31

Years

Question 32

What is best, living or deceased donor?

Answer 32

Living gives a much better prognosis.

Even if the living-donor is completely unrelated in both blood group and HLA the prognosis can still be better than deceased donor.

Question 33

Which patients are more difficult to cross-match for transplant?

Answer 33

Patients who have been on episodes of immunisation such as blood transfusion, pregnancies and prior transplants.

Question 34

Induction treatment for the transplant.

Answer 34

Immunosupp are used to create tolerance of the graft.

Methylprednisolone in combination with;

Basiliximab and thymoglobulin.

Sometimes alentuzumab and rituximab is used.

This is to prevent acute rejection and graft loss.

Question 35

Treatment will be needed long term as well to prevent acute or chronic rejection of the graft.

What medications are used as maintenance treatment?

Answer 35

Prednisolone

Calcineurin inhibitors such as tacrolimus, ciclosporine and voclosporin

Antimetabolites - mycophenolate acid and azathioprine

Rapamycin inhibitors - sirolimus, everolimus

T-cell regulation - belatacept and belimumab

Question 36

Long term care of transplant patient.

Answer 36

Follow up several times a month, after 6 months it’s less.

Monitor GFR, CNI levels, proteinuria, calcium, phosphate, PTH, lipis and glucose.

Vaccinate

Monitor and control CVS disease, bone and mineral metabolism disease

Screen for malignancies - annual skin check e.g.

Contraception is obligatory first year

Question 37

Complications of renal transplant.

Answer 37

Infection

Surgical

Delayed graft function

Rejection

New-onset diabetes after transplant

Malignancy

CVD

Question 38

Explain infection-related complications in renal transplant in terms of time frame.

Answer 38

< 4 weeks = nosocomial infections or related to donor

1-12 months = activation of latent infections, relapse, residual, opportunistic infections or community.

> 12 months = community acquired.

Question 39

Important pathogens to consider in renal transplant infection.

Answer 39

CMV

Hep B

HSV

VZ

EBV

BK (polyomavirus infection)

Aspergillus

P. jirovecii

Listeria

M. tuberculosis

Toxoplasma gondii

Question 40

Why might NODAT (diabetes) happen?

Answer 40

Because you give them a new gluconeogenic kidney.

Question 41

There is a risk of malignancy, due to the transplant but mainly due to immunosuppression.

What are important to screen for?

Answer 41

Skin

Cervix

Breast

Prostate

Renal

Urothelial

Liver

Colorectal

Lymphoproliferative disease (EBV)

Question 42

Explain rejection of kidney.

Answer 42

Can be acute or chronic.

Acute can be antibody mediated or cellular (most common).

Treatment for acute is high dose steroids and immunosuppression.

Question 43

Acute tubular necrosis in graft.

Answer 43

Delayed graft function can result from ATN.

Hypotension or loss of cardiac output will have an impact.

Prolonged “cold ischaemia time” also leads to delayed graft function due to ATN. Cold ischaemia time means the period during which the retrieved organ is cooled on ice in transit and awaits implantation.

Question 44

Prognosis of renal transplant.

Answer 44

Acute rejection < 15%

1 year graft survival > 90%

The most common outcome is death with a functioning transplant meaning that the transplant outlives the patient.

Question 45

Give examples of simultaneous kidney transplantations.

Answer 45

Liver-kidney

Pancreas-kidney

Kidney on kidney. Patients who goes into ESRF again can have a kidney re-transplanted.

Question 46

Examination of an AV fistula

Answer 46

Skin integrity

Aneurysm

Palpable thrill

Machinery murmur on auscultation

Question 47

Explain STEAL syndrome in AV fistula

Answer 47

STEAL syndrome is where there is inadequate blood flow to the limb distal to the AV fistula.

The AV fistula “steals” blood from the distal limb. The blood is diverted away from where is was supposed to supply and flows straight into the venous system. This causes distal ischaemia.

Question 48

Why might high output heart failure happen in RRT with an AV fistula?

Answer 48

Where there is an A-V fistula blood is flowing very quickly from the arterial to the venous system through the fistula.

This means there is rapid return of blood to the heart. This increases the pre-load in the heart (how full the heart is before it pumps). This leads to hypertrophy of the heart muscle and heart failure.