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AMS Basic Course ESCMID_TDM of antibiotics

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Slide 1: Tekstslide
GeneeskundeWOStudiejaar 6

In deze les zitten 42 slides, met interactieve quizzen en tekstslides.

time-iconLesduur is: 45 min

Onderdelen in deze les

Slide 1 - Tekstslide

Slide 2 - Tekstslide

For which antibiotics do you perform TDM?

Slide 3 - Open vraag

Dutch guideline on AMS (2016)
  • Strong recommendation to perform TDM in patients treated with aminoglycosides, glycopeptides, posaconazole or voriconazole
  • Yet, quality of evidence is low (TDM reduces length of hospital stay) to very low (TDM reduces mortality, therapy failure, (nephro)toxicity, costs)




https://swab.nl/exec/file/download/81

Slide 4 - Tekstslide

Patient (m, 79 kg, 1.78 m, eGFR 82 ml/min) starts with gentamicin 7 mg/kg once daily for treatment of sepsis. Which levels would you want to measure and when?
A
Peak and trough before 3rd dose
B
Trough before 3rd dose.
C
Peak and trough after 1st dose.
D
Trough after 1st dose

Slide 5 - Quizvraag

Slide 6 - Tekstslide

Why TDM of aminoglycosides: efficacy
  • Killing rate of aminoglycosides correlates in vitro with Cmax
  •  Concentration-dependent killing
  • PKPD target = Cmax/MIC 8-10
  • MIC of Gram - bacteria for genta/tobra: 0.1-2 mg/L
  • Time above MIC not of relevance



Moore et al JInfectDis1987;155:93, Moore et al AmJMed1984;4:657

Slide 7 - Tekstslide

What is your current practice: in which situations do you measure aminoglycoside peak levels?
A
All patients
B
Only ICU patients
C
Only in selected cases
D
Never

Slide 8 - Quizvraag

Slide 9 - Tekstslide

Slide 10 - Tekstslide

TDM is of added value when:
  • Interpatient variability in PK is high
  • Therapeutic window is narrow (small difference between lowest effective conc and lowest toxic conc)

Slide 11 - Tekstslide

TDM is of added value when:
  • Interpatient variability in PK is high
  • Therapeutic window is narrow (small difference between lowest effective conc and lowest toxic conc)

  • Interpatient variability in PK in ICU patients (much) higher than in non-ICU patients -> (likely) no added value of peak level monitoring in non-ICU patients

Slide 12 - Tekstslide

Slide 13 - Tekstslide

TDM is of added value when:
  • Interpatient variability in PK is high AND intrapatient variability in PK is low
  • Therapeutic window is narrow (small difference between lowest effective conc and lowest toxic conc)
  • Measurement of drug concentration is not (too) complex
  • Efficacy/toxicity of the drug can not be easily measured/predicted in another way

Slide 14 - Tekstslide

Patient (m, 79 kg, 1.78 m, eGFR 31 ml/min) starts with gentamicin 7 mg/kg once daily for treatment of sepsis. Which levels would you want to measure and when?
A
Peak and trough before 3rd dose
B
Trough before 3rd dose
C
Peak and trough after 1st dose
D
Trough after 1st dose

Slide 15 - Quizvraag

What do you notice about this question?
Patient (m, 79 kg, 1.78 m, eGFR 31 ml/min) starts with gentamicin 7 mg/kg once daily for treatment of sepsis. Which levels would you want to measure and when?

Slide 16 - Tekstslide

Why TDM of aminoglycosides: toxicity
  • The higher Cmin, the higher the risk for nephrotoxicity
  • Target Cmin = <0.5 mg/L (also reported <1 mg/L or <2 mg/L)
  • Long dosing intervals (24 h or longer)
  • Gentamicin may be more nephrotoxic than tobramycin
  • Measure Cmin before 3rd dose, unless eGFR<50 mL/min, than already after 1st dose


Nicolau AAC1995;3:650, Hodiamont ClinPharmacokinet2022 in press

Slide 17 - Tekstslide

Patient (m, 120 kg, 1.78 m, eGFR 82 ml/min) starts with gentamicin 7 mg/kg ABW once daily for treatment of sepsis. Which levels would you want to measure and when?
A
Peak and trough before 3rd dose
B
Trough before 3rd dose
C
Peak and trough after 1st dose
D
Trough after 1st dose

Slide 18 - Quizvraag

Why TDM of aminoglycosides: toxicity
  • The higher Cmin, the higher the risk for nephrotoxicity
  • Target Cmin = <0.5 mg/L (also reported <1 mg/L or <2 mg/L)
  • Long dosing intervals (24 h or longer)
  • Gentamicin may be more nephrotoxic than tobramycin
  • Measure Cmin before 3rd dose, unless eGFR<50 mL/min or when the patient is obese, than already after 1st dose 


Nicolau AAC1995;3:650, Hodiamont ClinPharmacokinet2022 in press

Slide 19 - Tekstslide

What is the availability regarding a TDM service for aminoglycosides and vancomycin at your institution?
A
<24h between sample collection and TDM result
B
>24h, but <72h between sample collection and result
C
No service available locally, samples go to nearby center
D
No TDM service available at all

Slide 20 - Quizvraag

Patient (m, 67 j, 73 kg, eGFR 72) starts with vancomycin 1000 mg twice daily at 12.00am and 12.00pm fo treatment of a line infection. Sample is drawn on day 2 at 8.30am: 11.1 mg/l. What's next?
A
Stay with 1000 mg twice daily
B
Increase dose to 1250 mg twice daily
C
Increase dose to 1500 mg twice daily
D
I'll ask my TDM consultant

Slide 21 - Quizvraag

Why TDM of vancomycin?
A
Optimal Cmin = optimal efficacy
B
Optimal AUC = optimal efficacy
C
Optimal Cmin = optimal efficacy + low risk toxicity
D
Optimal AUC = optimal efficacy + low risk toxicity

Slide 22 - Quizvraag

Slide 23 - Tekstslide

Why TDM of vancomycin: efficacy
Targets:
  • AUC0-24 / MIC > 400 (=AUC0-24 > 400 at MIC of 1 mg/l or smaller)
  • Cmin as surrogate for AUC0-24: 10 - 20 mg/l

Slide 24 - Tekstslide

What is your current practice: which vancomycin target is applied in your institution?
A
Cmin between 15 and 20 mg/l
B
Cmin between 10 and 15 mg/l
C
AUC > 400
D
Something else

Slide 25 - Quizvraag

Why TDM of vancomycin: efficacy
Targets:
  • AUC0-24 / MIC > 400 (= AUC0-24 > 400 at MIC of 1 mg/l or smaller)
  • Before 2020: Cmin as surrogate for AUC0-24: 10 - 20 mg/l
  • Since 2020: estimate AUC0-24 with 1 (Cmin) or 2 (Cmin+Cmax) samples and Bayesian estimation or 1st order PK equations


Rybak AmJHealthSystPharm2020;77:835
www.tdm-monografie.org/vancomycine

Slide 26 - Tekstslide

Why TDM of vancomycin: efficacy
Targets (Rybak, AmJHealthSystPharm2020;77:835):
  • AUC0-24 / MIC > 400 
  • Estimate AUC0-24 with 1 (Cmin) or 2 (Cmin+Cmax) samples and Bayesian estimation or 1st order PK equations
  • Samples to be collectes within 48 h after start of vancomycin; already after 1st dose when eGFR<50 ml/min
  • NB Target is based on evidence on MRSA bacteremia

Slide 27 - Tekstslide

Poll: when treating an infection with Staph. epidermidis with an MIC of 2 mg/l, the vancomycin dose should be increased to target an AUC of 800 (e.g. 2 gram twice daily) as the risk for nephrotoxicity is still acceptable at that AUC
A
True
B
False

Slide 28 - Quizvraag

Why TDM of vancomycin: toxicity
  • Lowest toxic concentration: 
        Cmin: >15 mg/L, >20mg/L, 
        AUC0-24: >600, >800, >1300 
        Css: >30 mg/L
  • Recent meta-analysis: dosing based on Bayesian estimation is associated with lower risk of nephrotoxicity
  • Guideline ASHP/IDSA: AUC0-24/MIC target = 400-600

Rybak AmJHealthSystPharm2020, He AnnPharmacother2019

Slide 29 - Tekstslide

Patient is discharged home with iv vancomycin (outpatient parenteral therapy). Based on TDM, the patient is dosed 750 mg once daily. At home this is switched to continuous infusion 750 mg/24h. The plasma level, 24 h after switching is 24 mg/l. Poll: this is an adequate level for this patient
A
True
B
False

Slide 30 - Quizvraag

Vancomycin: intermittent vs continuous dosing
  • Target during continuous iv: Css= 17 - 25 mg/l
    (Css=AUC / dosing interval -> 400 / 24 = 17 mg/l)

Slide 31 - Tekstslide

Vancomycin: intermittent vs continuous dosing
  • Target during continuous iv: Css= 17 - 25 mg/l
    (Css=AUC / dosing interval -> 400 / 24 = 17 mg/l)
  • Be aware that steady-state has been reached; otherwise estimate AUC with Baysian estimation
  • No difference regarding efficacy (continuous might be less  toxic)
  • Advantages of continuous iv dosing:
    - Target is attained faster 
    - Easier for outpatient parenteral therapy
    - Easier TDM (81% of Cmin with intermittent dosing is collected >1 h before new dose, 61% >2 h)[Neely AAC2014])

Slide 32 - Tekstslide

A patient is treated with ceftazidime 2 grams twice daily for a pneumonia caused by Pseudomonas aeruginosa, with an MIC of 8 mg/L. The patient has a eGFR of 55 ml/min. Would you recommend performing TDM in this case?
A
Yes, collect a Cmin after 4th dose
B
Yes, collect a sample 4h after 4th dose
C
No
D
Something else

Slide 33 - Quizvraag

Slide 34 - Tekstslide

Slide 35 - Tekstslide

A patient is treated with ceftazidime 2 grams twice daily for a pneumonia caused by Pseudomonas aeruginosa, with an MIC of 8 mg/L. The patient has a eGFR of 160 ml/min. Would you recommend performing TDM in this case?
A
Yes, collect a Cmin after 4th dose
B
Yes, collect a sample 4h after 4th dose
C
No
D
Something else

Slide 36 - Quizvraag

Slide 37 - Tekstslide

Slide 38 - Tekstslide

TDM of beta-lactams: efficacy?
  • Which T>MIC target to use: 50% or 100%; 1xMIC or 4xMIC? 
       (depending on target population)
  • Total or unbound concentration? fT>MIC
  • Which sample to collect then?  
        Cmid if 50%(f)T>(4x)MIC
        Cmin of 100%(f)T>(4x)MIC
        Css when continuous infusion
        Model based TDM?

Slide 39 - Tekstslide

Slide 40 - Tekstslide

Have you ever requested or measured a beta-lactam serum/plasma level for TDM?
Yes
No

Slide 41 - Poll

Slide 42 - Tekstslide

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