Peritonitis in PD Patients (ppt) 9mb
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Transcript of Peritonitis in PD Patients (ppt) 9mb
Peritonitis in peritoneal dialysis patients
Dr Cherelle Fitzclarence
Renal GP
July 2009
Overview
Peritoneal Dialysis - principles Anatomy Physiology Pathology Presentations Management Key points
www.health.com/
Chronic Kidney Disease
Diagnosis
End Stage Kidney Disease
Diagnosis
DIALYSIS
HAEMODIALYSIS
PERITONEAL DIALYSIS
TRANSPLANTATION
PALLIATIVE CARESTAGE 1 & 2 Proteinuria plus
eGFR 60+
(to determine eGFR over 60, hand
calculate GFR using Cockcroft-Gault
formula)
STAGE 3
eGFR 30-59
ml/min
MODERATE
KIDNEY
DAMAGE
ProteinuriaCare plan
STAGE 5
eGFR <15
ml/min
FAILURE
STAGE 4
eGFR 15-29
ml/min
SEVERE
KIDNEY
DAMAGE
CKDCare plan
ESKDCare plan
GFR = (140 - Age) x wt (kg)
se creat (mmol/Lt)
Males = GFR x 1.23
Kidney Failure
SUPPORTIVE CARE APPROACH
Peritoneal Dialysis
A form of renal replacement therapy for patients with end stage kidney disease
Endeavours to replace some of the functions of the kidney such as
Removing waste products Removing excess fluid Correcting acid/base imbalances Correcting electrolyte imbalances High maintenance form of therapy
requiring meticulous compliance and effort on part of patient
www.agingdiscodiva.com
IDEAL BODY WEIGHTIBW
Normotensive (Good BP) 120/70 No signs and symptoms of overload or
dehydration Set by:
Home Training Staff Royal Perth Hospital Renal Doctor Dialysis Staff KSDC
FLUID ASSESSMENT Blood pressure Weight Chest, SaO2, SOB Oedema
Ankles BackFacial
JVP Skin tugor Symptoms Nausea,
vomiting Diarrhoea Dizziness
FLUID RESTRICTION
800 – 1000 mls per day Weigh patient (will be required daily
– SAME SCALES and document which ones)
In hospital, remove jug
Peritoneal Dialysis
Involves the passage of solutes and water across a membrane that separates two fluid containing compartments-blood and dialysate
During dialysis 3 transport processes occur simultaneously Diffusion Ultrafiltration Absorption
http://www.dialyse-45.net/int/info/techniques.htm
Peritoneal Dialysis
2 types
CAPD – continuous ambulatory peritoneal dialysis
Involves on average 4 dwells per day of 4-8 hours of 2 – 2.5L each
APD – automated peritoneal dialysis Involves 3-10 exchanges overnight of varying
amounts Usually but not always a daytime dwell
Peritoneal Dialysis
Anatomy Serosal membrane lining the gut Thought to be the same as the body surface
area – usually 1-2 m2 in adult 2 parts – visceral peritoneum lining the organs
(80% or the peritoneal surface area and the parietal peritoneum lining the walls of the abdominal cavity)
Peritoneal blood flow can’t be measured but indirectly estimated to be between 50-100mls/min
Peritoneal Dialysis
Horizontal disposition of the peritoneum in the lower part of the abdomen.
www.theodora.com/anatomy/the_abdomen.html
Peritoneal Dialysis
Visceral peritoneum blood supply is from the superior mesenteric with venous drainage from the portal system
Parietal peritoneum blood supply is from the lumbar, intercostal and epigastric arteries while the venous drainage is via the IVC
Main lymphatic drainage is via stomata in the diaphragmatic peritoneum which drain into the right lymphatic duct
Three pore model
Peritoneal capillary is the critical barrier to peritoneal transport
Movement of solute and water movement across the capillary is mediated by pores of three different sizes Large pores 20-40 nm – protein transport Small pores 4-6nm – small solutes eg urea,
creatinine, sodium, potassium, water Ultrapores (aquaporins) <0.8nm – transport of
water
Three pore model of peritoneal transport
Kidney International ISSN: 0085-2538
EISSN: 1523-1755 © 2009 International Society of Nephrology
Peritoneal Transport - Diffusion
Diffusion – uraemic solutes and potassium diffuse from peritoneal capillary blood into the dialysate. Glucose, lactate, bicarbonate and calcium diffuse in the opposite direction.
Diffusion depends on concentration gradient (maximal at the start), effective peritoneal surface area, intrinsic peritoneal membrane resistance, molecular weight of the solute (eg small molecules like urea, diffuse more rapidly than larger molecules such as creatinine)
Diffusion
www.indiana.edu/.../lecture/lecnotes/diff.html
Peritoneal Transport - Ultrafiltration
Occurs as a consequence of the osmotic gradient between the hypertonic dialysate and the relatively hypotonic peritoneal capillary blood
Driven by high concentration of glucose in dialysate Depends on;
concentration gradient of the osmotic agent (glucose) peritoneal surface area hydraulic conductance of the peritoneal membrane reflection coefficient for the osmotic agent (how effectively
the osmotic agent diffuses out of the dialysate into the peritoneal capillaries (0-1 is normal – the lower the value the faster the osmotic gradient is lost. Gluc is 0.3 as opposed to icodextrin which is close to 1)).
Hydrostatic pressure gradient – cap press around 20mm versus intraperitoneal pressure around 7mm Hg which favours ultrafiltration
Ultrafiltration
http://www.dialysistips.com/principles.html
Peritoneal Transport – Ultrafiltration 2
Depends on; Oncotic pressure gradient which acts to keep fluid in
blood, opposing ultrafiltration (low in hypoalbuminaemic patients so ultrafiltration tends to be high)
Sieving – occurs when solute moves along with water across a semipermeable membrane by convection but some of the solute is held back – sieved. The solute concentration in the ultrafiltrate that has passed through the membrane is lower than the source solution. Different solutes sieve differently ranging from 0 (complete sieving) to 1 (no sieving)
Other osmotic agents such as icodextrin with a large reflection coefficient so ultrafiltration is sustained
Ultrafiltration
http://www.advancedrenaleducation.com/PeritonealDialysis/Ultrafiltration/HowtoAchieveAdequatePDUF/tabid/229/Default.aspx
Peritoneal Transport – Fluid Absorption Occurs via the lymphatics at constant rate Typical values for peritoneal fluid absorption
are 1-2 mls/minute Affected by intraperitoneal hydrostatic
pressure Effectiveness of lymphatics
http://www.fmc-ag.com/gb_2006/en/05/glossar.html
Peritonitis
Peritoneal Dialysis is a great form of renal replacement therapy
Peritonitis is a significant complication Incidence peritonitis episodes varies from 1/9
patient-months to 1/53 patient-months (Grunberg 2005; Kawaguchi 1999)
Our figures pending but are likely to be on the lower end of the scale
Peritonitis in PD pts
Risk Factors Diabetes Non caucasian Obesity Temperate climate Depression Possibly the peritoneal dialysis
modality but not proven (Huang 2001; Oo 2005).
http://www.diabetesandrelatedhealthissues.com/
Peritonitis in PD pts
Significant morbidity Some mortality - It is estimated that PD-
associated peritonitis results in death in 6% of affected patients (Troidle 2006).
gymsoap.com
Peritonitis in PD pts
Catheter removal may become necessary if pt is not responding to antibiotics or if infection is fungal. May be temporary or permanent
Ultrafiltration failure can occur both acutely due to increases in capillary permeability (Ates 2000; Smit 2004) and in the longer term resulting in technique failure (Coles 2000; Davies 1996).
Pathogenesis
1. Potential routes of infection Intraluminal – improper technique; access to
bacteria via the catheter lumen Periluminal – bacteria present on skin surface
enter the peritoneal cavity via the catheter tract
Transmural – bacteria of intestinal origin migrate through the bowel wall
Haematogenous – peritoneum seeded via the blood stream
Transvaginal - ??
Pathogenesis
2. Bacteria laden plaque – the intraperitoneal portion of the catheter is covered with a bacteria laden plaque - ? Role in pathogenesis of peritonitis
3. Host defences – peritoneal leucocytes critical in combating bacteria that have entered the peritoneum. Affected by A. dialysis solution and ph – hypertonic solution
inhibits activity B. Calcium levels – low calcium in dialysate inhibits
activity Peritoneal IgG levels – low levels inhibit activity HIV – little known effect
Aetiology
Staph aureus Coag neg staph (S.Epidermidis) E coli Pseudomonas Sternotropomonas Candida Atypical TB
Diagnosis
2 of the following 3 conditions Symptoms and signs of peritoneal
inflammation (pain, tenderness, guarding, rebound)
Cloudy peritoneal fluid with increased white cell count (specifically neutrophils)
Demonstration of bacteria on gram stain or culture
Diagnosis – symptoms and signs
Abdo pain most common but in a PD pt suspect peritonitis if general malaise, nausea, vomiting or diarrhoea Don’t be blinded by the PD These pts get other pathology EG. Strangulated hernia, withdrawal from
steroids (if they stop taking meds suddenly and they happen to be on steroids), ruptured viscus, ulcers, perforations etc
EXAMINE THE PATIENT
Diagnosis – symptoms and signs
PercentageSymptoms
Abdo pain 95
Nausea and vomiting 30
Fever 30
Chills 20
Constipation or diarrhoea 15
Signs
Cloudy peritoneal fluid 99
Abdo tenderness 80
Rebound tenderness 10-50
Increased temperature 33
Blood leucocytosis 25
CRP 100 but can be delayed
Daugirdas JT et al 2007 p 419
Diagnosis – peritoneal fluid
Cloudiness – when cell count greater than 100 x 106
Normal is around 10x106 but always less than 50x106
Mostly cloudiness means peritonitis but be aware of other causes such as fibrin, blood, malignancy, chyle
Don’t write peritonitis off as a diagnosis if everything else fits but the fluid is relatively clear – the changes can lag
Must get a WCC (peritoneal fluid) with specific neutrophil count. Neutrophils required as the total number of white cells can vary according to whether patient dry or wet etc. Normally predominant cells are mononuclears and neutrophils are usually less than 15% of total white cell count
Be aware of mimickers such as PID, ovulation, recent pelvic examination which may affect the cell counts in the peritoneal fluid
Peritoneal fluid culture
Send the whole bag Label it (preferable with texta – label can sweat off) Let the lab know it is coming Ask for urgent gram stain and cell count and ask this
to be telephoned to you. Be aware that the gram stain may be negative in 50% of cases of subsequent culture proven peritonitis
Also ask for M/C/S and fungal cultures Follow up the culture Do a full septic workup each time – including blood
cultures
Peritonitis
Common things occur commonly and peritonitis is unfortunately common in our population of PD patients
BUT Don’t lose sight of the bigger picture and
these patients can suffer from any other pathology – always keep an open mind
Peritonitis Management
Broad spectrum coverage Vancomycin (2.5g if more than 60kg / 2 g if 60kg or
less) Gentamicin (200mg if more than 60kg / 140mg if 60kg
or less) IP is better than IV (confirmed on large Cochrane
review April 2009) Await culture. If gram positive, then repeat the vanc
dose in 1 week. If gram negative then usually ceftriaxone 1g intraperitoneally daily for 14 days Things to note; if pseudomonas tube is very often lost.
May need to consider adding a second antibiotic such as daily ciprofloxacin
Initial symptoms may include; diarrhoea, vomiting, nausea,
abdominal pain, mental confusion or feeling unwell
PERITONITIS MANAGEMENT
COLLECT DRAINED BAG *See additional resources (pink section) for drainage instructions
* Send entire bag for urgent MC&S (including WCC differential) and Fungal elements. **** Must ‘cc’ KRSS ****
Intraperitoneal (IP) Antibiotics (see Procedures)
Give BOTH Gentamycin – 160mgs if 60kgs or less(gram –ve organisms) 200mg if > 60kgsAND Vancomycin - 2gms if 60kgs or less(gram +ve organisms) 2.5grams if > 60kgs
Give both in a 2L 2.3% bagDwell in the abdomen for minimum 6 hours(Consult microbiologist if Vanc or Gent allergy)
must be able to read newspaper print through the bag
LOOK FOR OTHER CAUSESCall PD Coordinator or Renal GP
ATTENTION: Vanc and Gent provide some coverage while awaiting sensitivities. ****Further antibiotics WILL be required ****If Staph/gram +ve, give IP Vancomicin again on Day 7If gram negative, refer to sensitivities, but usually 14 days of IP Ceftriaxone 1gm
YOU MUST follow up the MC & S 48 hours after initial IP treatment. A WCC > 100 confirms peritonitis.If the patient is not improving within 24 hrs, or any other concerns, contact PD coordinator
CLEAR BAG CLOUDY BAG
Peritonitis Mx
CAPD/APD Drain abdomen and send bag off with path
request as above Change the transfer set completely following
usual aseptic techniques Load 2.3% 2 litre dialysate bag (use 1.5% bag
if patient hypotensive) with Vancomycin and Gentamicin as per above guideline
Infuse bag into peritoneum 6 hour dwell
Peritonitis – fungal infection
If fungal organisms are seen on gram stain, or cultured, it is unlikely you will be able to save the tube
Once the tube is colonized, the only cure is removal of tube, peritoneal rest (pt on Haemodialysis for a few months) and then start from scratch
Peritonitis
If you think that the patient has peritonitis but you think they have life threatening sepsis eg hypotension, tachycardia, fever (or no fever as may not be able to mount an immune response), altered conscious state etc, your patient is likely to require IV broad spectrum antibiotics. Ring the microbiologist on call. Don’t wait to get IP regime in. That can go in while you are making calls and obtaining results.
Antibiotics must be given within 1 hour of presentation – it is an emergency.
I usually ring SCGH as they maintain a 24 hour consultant micro roster 93463333 but remember all our patients who require transfer must go to Royal Perth Hospital as they are under the RPH consultant
Peritonitis
Patients can have dual pathology Eg it is not uncommon for patients to have
peritonitis, delay treatment, splint their abdomen and get pneumonia. This needs to be treated as per the normal guidelines for pneumonia
Peritonitis
Additives to bags Vancomycin, aminoglycosides and
cephalosporins are safe to mix in the same bag
Aminoglycosides are incompatible with penicillins
Vancomycin is stable for 28 days in dialysate (normal room temp)
Cefazolin is stable for 8 days Gentamicin is stable for 14 days Heparin added decreases duration of stability
Peritonitis
Often get formation of fibrin clots which increases risk of catheter block
May need to add 500units of heparin to 1 or 2 bags a day until fibrin clots decrease
Constipation is common – you may need to stop the calcium based phosphate binders temporarily but better off using aperients early and preventing the need to alter routine meds
Peritonitis
Fluid regimes Depends whether patient is overloaded or
underloaded Can usually continue normal regime but tailor to
patient If BP low, use 1.5% bags x 4 a day If BP high use 2.3% bags, minimum of 4 a day Aim for BP 120/ APD pts can continue on APD or if needed can
convert temporarily to CAPD – in Broome with resources this should not be necessary
Peritonitis
Can get changes in the permeability of the peritoneal membrane Permeability to water, glucose and proteins is
increased Rapid glucose absorption from the dialysis solution
reduces amount of ultrafiltration and can result in fluid overload
May need high glucose concentration dialysate with shorter dwells
Hyperglycaemia is common Protein loss is increased in peritonitis so patients will
need high protein supplements
Peritonitis
Don’t forget secondary causes of peritonitis Perforated gastric or duodenal ulcer Pancreatitis Appendicitis Diverticulitis PID
Talk to the surgeon if you are not sure
Peritonitis
You don’t necessarily have to admit the patient
Admission dictated by symptoms and distress and often social circumstances up here
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Peritonitis - bugs
Staph – Vancomycin and repeat in 1 week Patients should have nasal carriage treated with
mupirocin bd for 5 days and then once a week of bd for 5 days once a month
Gram Negs – IP Ceftriaxone for 2 weeks and consider repeating the dose of gentamicin after a week or adding oral ciprofloxacin to the regime Pseudomonas difficult to treat Sternotrophomonas – usually requires 2 antibiotics
and usually for 4 weeks Campylobacter not that common – responds to
gentamicin
Peritonitis
Multiple organisms Have a high index of suspicion for secondary
peritonitis If not secondary peritonitis have 60% chance of curing
with appropriate antibiotics If one of the organisms is clostridium or bacteroides –
likely intra-abdominal abscess or perforated abdominal viscus but exclude appendicitis, perforated ulcer, pancreatitis and any other cause of secondary peritonitis
Occurrence of abdominal catastrophe in PD patient has a high mortality
Talk to the surgeon Add metronidazole Ship south
Peritonitis
Culture negative disease If cell count less than 50 x 106…unlikely to
peritonitis If higher white cell count, then repeat empiric
therapy Make sure lab is doing cultures for AFB’s and
fungus If not improving consider legionella,
campylobacter, ureaplama, mycoplasma, enteroviruses, fungus, histoplasma capsulatum
Peritonitis
Fungal peritonitis Predisposing factors
Prior antibiotic use especially if not full treatment Immunosuppressive therapy HIV Malnutrition Low albumin Diabetes
Peritonitis
Fungal peritonitis We tend to try and save the tube by giving
antifungals but guidelines recommend prompt removal of catheter, conversion to haemodialysis for a few weeks and then start from scratch
Penetration of antifungals to peritoneum other than with IP administration, is poor
Peritonitis
Refractory disease Defined as disease that is treated with
appropriate antibiotics for 5 days without improvement
Catheter removal necessary to reduce morbidity and preserve peritoneum
Increased with gram neg bugs
Peritonitis
Relapsing disease Peritonitis with the same organism within 4 weeks of stopping
therapy Usually Staph epidermidis or a gram negative organism If pseudomonas or gram negatives, remove the catheter If staph, may be able to rescue with repeat vancomycin weekly
for a month or may be able to remove the tube and simultaneously insert a new tube (as opposed to any other organism where a 2 month peritoneal rest is required)
Sometimes can use urokinase to strip the biofilm (bacteria entrapped in fibrin in the peritoneal membrane) in relapsing disease – last resort but worth a go
Peritonitis
20% of episodes temporally associated with exit site and tunnel infections (Piraino et al 2005)
Treat exit site infections if red and purulent Swab it Start Flucloxacillin empirically and change or
add ciprofloxacin if gram neg Exit sites are another whole topic
Peritonitis
Prevention Good technique Hygiene Mupirocin Exit site care Anchor tape
Cochrane Review 2009 Implications for practice•
At the present time broad spectrum antibiotics should be initiated at the time a diagnosis of peritonitis is made. When choosing antibiotics the side-effect profile, local drug resistance patterns and previous antibiotic use and infection history in the individual concerned should be considered. In cases of recurrent peritonitis dialysis catheters should be removed rather than using intraperitoneal urokinase.•
Currently available evidence from RCTs is inadequate in many areas of clinical practice important in the management of PD-associated peritonitis. This is a limiting factor in the provision of definitive treatment guidelines.
Cochrane Review 2009 Implications for research•
Further studies are required to establish the most effective treatment for peritoneal dialysis-associated peritonitis. An essential feature of such studies is inclusion of enough patients to ensure adequate power to assess meaningful long and short term outcomes. Short term outcomes should extend beyond whether cure is achieved without catheter removal, for example duration of systemic inflammation. Study of long-term outcomes should include permanent transfer to haemodialysis, development of ultrafiltration failure patient death and late recurrent episodes of peritonitis beyond four weeks from the original episode.• Specific interventions that would be of value include early versus late catheter removal. Studies designed to study infections due to specific organisms would also be valuable. An example is a study of glycopeptide versus cephalosporin therapy in peritonitis due to coagulase negative Staphylococcal species. The majority of studies have included patients on CAPD rather than APD hence studies designed to test the efficacy of antibiotics in APD are required. This is particularly applicable to studies of intermittent versus continuous dosing when cycler dwell times may well influence pharmacokinetics.• Future research should be conducted using standard definitions, with inclusion of information about factors that may influence the response to therapy such as prophylaxis regimens and dialysis solutions used. Current ISPD guidelines provide a comprehensive list of requirements for future studies that should be referred to when designing studies.
Take home points
•Have a high index of suspicion
•Use the remote area manual
•Always let KRSS know of episode
•Copy all results to KRSS
•Don’t hesitate to ask if you are not sure – KRSS team, KRSS GP, Renal GP, Nephrologist
www.learningradiology.com
Acknowledgements
Thanks to Daugirdas et al 2007 – Handbook of dialysis
http://mrw.interscience.wiley.com/cochrane/clsysrev/articles/CD005284/frame.html