Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tissue concentrations Protein binding

Published byMerry Holt Modified over 9 years ago

Similar presentations

Presentation on theme: "Tissue concentrations Protein binding"— Presentation transcript:

1 Tissue concentrations Protein binding
12th ISAP Educational Workshop, Copenhagen 2005 Tissue concentrations Protein binding Ursula Theuretzbacher Center for Anti-Infective Agents, Vienna

2 Tissue penetration - protein binding
Int J Clin Pharmacol Ther Jun;41(6): Pharmacokinetics and tissue penetration of pefloxacin plus metronidazole after administration as surgical prophylaxis in colorectal surgery. Gascon AR, Gutierrez-Aragon G, Hernandez RM, Errasti J, Pedraz JL. High tissue concentrations!?? J Antimicrob Chemother May;47(5):   Tissue penetration of a single dose of levofloxacin intravenously for antibiotic prophylaxis in lung surgery. von Baum H, Bottcher S, Hoffmann H, Sonntag HG. J Chemother Apr;15(2): Ceftriaxone (1 g intravenously) penetration into abdominal tissues when administered as antibiotic prophylaxis during nephrectomy. Leone M, Albanese J, Tod M, Savelli V, Ragni E, Rossi D, Martin C. Andrologia Oct;35(5):331-5. Antibiotic therapy--rationale and evidence for optimal drug concentrations in prostatic and seminal fluid and in prostatic tissue. Naber KG, Sorgel F. Helicobacter Aug;8(4):294-9. Gastric juice, gastric tissue and blood antibiotic concentrations following omeprazole, amoxicillin and clarithromycin triple therapy. Nakamura M, Spiller RC, Barrett DA, Wibawa JI, Kumagai N, Tsuchimoto K, Tanaka T. Int J Clin Pharmacol Ther Jun;41(6): Pharmacokinetics and tissue penetration of pefloxacin plus metronidazole after administration as surgical prophylaxis in colorectal surgery. Gascon AR, Gutierrez-Aragon G, Hernandez RM, Errasti J, Pedraz JL. J Chemother Apr;15(2): Ceftriaxone (1 g intravenously) penetration into abdominal tissues when administered as antibiotic prophylaxis during nephrectomy. Leone M, Albanese J, Tod M, Savelli V, Ragni E, Rossi D, Martin C.

3 Tissue penetration - protein binding
Where is the pathogen ? Where is the antibiotic ? Active concentration (protein binding!)

4 Where is the pathogen? pneumococci, enterobacteria
blood capillary extracellular fluid cells Legionella, mycobacteria Mycoplasma, Bordetella Chlamydia, Rickettsia, Ehrlichia Salmonella, Staph. aureus Shigella, Listeria Chlamydia, Legionella intracellular pneumococci, enterobacteria, Haemophilus

5 Where is the antibiotic?
Eng`s principle of medical procedures: „The easier it is to do, the harder it is to change.“ blood capillary interstitial fluid cells homogenates, biopsies intravascular extra-, intracellular Bound + free fraction 70-80% 20-30% macrolides fluorquinolones high concentrations ß-lactams aminoglycosides low concentrations

6 Site of Infection Pneumonia ELF, AM, blood Bronchitis
Barrier KU Medical Center Pneumonia ELF, AM, blood Bronchitis bronchial secretions Sinusitis sinus secretions Otitis media middle ear fluid

7 Tissue concentrations
Tissue specific brain, prostate, muscles, lung…. plasma muscle subcutan. t. healthy patients microdialysis I. Tegeder et al. Clin Pharmacol Ther (5):325 Imipenem Compartment specific extracellular intracellular intracellular compartments Patient specific  Activity

8 Tissue concentration: pulmonary
Telithromycin, pulmonary disposition Total concentrations (g/ml) 1 0,6 0,06 Muller-Serieys et al. AAC 2001, 45 (11)

9 Tissue concentration: pulmonary
g/ml Clarithromycin: 2x 500mg, 4 days Azithromycin: 1x 500mg /1x 250mg, 4 days 4 8 12 24 h K Rodvold et al. AAC, 1997, 41 (6)

10 Tissue concentration: middle ear
Acute otitis media, concentrations in middle ear fluid Ceftibuten: 9mg/kg Cefixime: 8mg/kg Azithromycin: 10mg/kg g/ml 14 cell-free 12 4 h 12 h 24 h Ceftibuten with cells 10 8 6 cell-free 4 Cefixime with cells Azithromycin with cells cell-free 2 F Scaglione et al. Br J Clin Pharmacol 1999, 47 (3)

11 Tissue concentration: middle ear
Haemophilus influenzae Concentration in middle ear (mean, g/ml) Bacteriologic eradication (after 4-5 days of therapy) 9,5 (amoxycillin 25 mg/kg dose, 3h) 87% (amoxycillin/clavulanic acid 45/6,4mg/kg/day) 5,1 (20mg/kg single dose, 2h) 48% 3,5 (10mg/kg day 1, 5mg/kg days 2-5) 47% (39%) MIC s s: NCCLS susceptible 0,5 2 amox/clav cefaclor Placebo! azithromycin R Dagan et al: AAC 2000, 44 (1) R Dagan et al: Pediatr Inf Dis J 2000, 19 (2) DM. Canafax et al: Pediatr Inf Dis J 1998, 17 (2) T Eden et al: Scand J Infect Dis 1983, Suppl, 39 JO Klein, CID 1994,19 (5)

12 Protein binding free drug bound serum interstitial fluid
non-specialized tissues specialized tissues diffusional barriers transport pump equilibrium small reservoirs large reservoirs

13 Protein binding affects distribution tissue penetration clearance
interactions S Tawara et al. AAC 1992, 36 (1) activity!

14 Protein binding: Effect on Penetration of ß-Lactams into Rabbit Peripheral Lymph
Correlation between protein binding and penetration 100 75 % Penetration of total drug (AUC lymph/AUC plasma 50 25 25 50 75 100 Plasma binding % G Woodnutt et al. AAC 1995, 39 (12)

15 Protein binding Telithromycin Ertapenem
Mean time-versus-concentration profiles of total and free telithromycin in plasma, muscle, and subcutis (800 mg p.o.) Relationships between EC50 and % human serum for E. cloacae (•) and S. aureus () R. Gattringer et al. AAC 2004 (48) 4650 DE Nix et al. AAC 2004 (48) 3419

16 Protein binding Azoles D. Andes: Infect Dis Clin N Am 2003 (17) 635

17 Protein Binding: Cefotaxime - Ceftriaxone
g/ml 35% 95% h F Scaglione et al. JAC 1990, 26, Suppl A

18 Protein binding >90% >70% >30% >10% <10%
Oxacillin, ceftriaxone, ertapenem, teicoplanin, daptomycin, televancin, fusidic acid, rifapentine >70% Cefazolin, rifampicin, oritavancin >30% Penicillin G, cefixime, cefotaxime, erythromycin, clarithromycin, azithromycin, telithromycin vancomycin, linezolid >10% Amoxicillin, piperacillin cefpodoxime, cefuroxime, ceftazidime, imipenem ciprofloxacin, levofloxacin, gatifloxacin, metronidazole <10% Meropenem, doripenem, aminoglycosides, fosfomycin

19 Summary: tissue concentration – protein binding
Tissue penetration: Precondition for activity Site of infection  location of antibiotic Don`t mix separated pharmacokinetic compartments (homogenates!), results may be misleading! Protein binding: Free drug is active Highly protein bound drugs have reduced antibacterial effect in vitro (with albumin) Don’t correlate MIC (measured in protein-free media) with total concentrations Protein binding influences tissue penetration Drugs with high protein binding are not generally less clinically active

20 Take home message: Consider free levels Distrust tissue homogenates
Whitehead`s rule: Seek simplicity, and distrust it. Take home message: Consider free levels Distrust tissue homogenates Enjoy the meeting

Download ppt "Tissue concentrations Protein binding"

Similar presentations

TREATMENT FOR SUPERIMPOSED PSEUDOMONAS AERUGINOSA INFECTION.

TREATMENT FOR SUPERIMPOSED PSEUDOMONAS AERUGINOSA INFECTION.
AFRT 8 nov 2002 A3-1 Why Another Antibiotic for Respiratory Tract Infections? C. Couturier.

AFRT 8 nov 2002 A3-1 Why Another Antibiotic for Respiratory Tract Infections? C. Couturier.
Dose Adjustments and Fighting the Emergence of Resistance in Pneumococci Donald E. Low, MD Canada.

Dose Adjustments and Fighting the Emergence of Resistance in Pneumococci Donald E. Low, MD Canada.
台灣肺炎治療準則 2000 Taiwan Pneumonia Antimicrobial Treatment Guideline 2000 中華民國感染症醫學會 台灣胸腔及重症加護醫學會.

台灣肺炎治療準則 2000 Taiwan Pneumonia Antimicrobial Treatment Guideline 2000 中華民國感染症醫學會 台灣胸腔及重症加護醫學會.
Pharmacodynamics of MASKO Compounds (Macrolides, Azalides, Streptogramins, Ketolides, and Oxazolidinones) William A. Craig, MD University of Wisconsin.

Pharmacodynamics of MASKO Compounds (Macrolides, Azalides, Streptogramins, Ketolides, and Oxazolidinones) William A. Craig, MD University of Wisconsin.
Animal Model PK/PD: A Tool for Drug Development

Animal Model PK/PD: A Tool for Drug Development
Pharmacodynamics and the Dosing of Antibacterials

Pharmacodynamics and the Dosing of Antibacterials
Background. An effective dosing regimen of  -lactam and macrolide antibiotics for otitis media involving S. pneumoniae (SP) requires that drug concentrations.

Background. An effective dosing regimen of  -lactam and macrolide antibiotics for otitis media involving S. pneumoniae (SP) requires that drug concentrations.
Community-acquired bacterial infections. The most frequent etiologic agents of bacterial tonsillitis and tonsillopharyngitis are Streptococcus pyogenes.

Community-acquired bacterial infections. The most frequent etiologic agents of bacterial tonsillitis and tonsillopharyngitis are Streptococcus pyogenes.
Tissue concentrations Protein binding Ursula Theuretzbacher Center for Anti-Infective Agents, Vienna 14th ISAP Educational Workshop, Nice 2006.

Tissue concentrations Protein binding Ursula Theuretzbacher Center for Anti-Infective Agents, Vienna 14th ISAP Educational Workshop, Nice 2006.
Improvement in Dose Selection Through Clinical Applications of PK/PD in Antimicrobial Drug Development Hartmut Derendorf, Ph.D. University of Florida.

Improvement in Dose Selection Through Clinical Applications of PK/PD in Antimicrobial Drug Development Hartmut Derendorf, Ph.D. University of Florida.
Lecture 3 Antimicrobials and Susceptibility tests Dr. Abdelraouf A. Elmanama Islamic University-Gaza Medical Technology Department.

Lecture 3 Antimicrobials and Susceptibility tests Dr. Abdelraouf A. Elmanama Islamic University-Gaza Medical Technology Department.
MACROLIDES Erythromycin Clarithromycin Azithromycin Mechanism of action Inhibit protein synthesis by binding to the 50 s subunit Antibacterial activity.

MACROLIDES Erythromycin Clarithromycin Azithromycin Mechanism of action Inhibit protein synthesis by binding to the 50 s subunit Antibacterial activity.
Cephalosporins B-Lactam antibiotics ( similar to penicillins) Broad spectrum Act by inhibition of cell wall synthesis Bactericidal Inactive against :

Cephalosporins B-Lactam antibiotics ( similar to penicillins) Broad spectrum Act by inhibition of cell wall synthesis Bactericidal Inactive against :
Sorting Out Antibiotics: A systematic approach to antibiotic selection Kenneth Alexander, M.D., Ph.D. Associate Professor of Pediatrics and Microbiology.

Sorting Out Antibiotics: A systematic approach to antibiotic selection Kenneth Alexander, M.D., Ph.D. Associate Professor of Pediatrics and Microbiology.
Michael R. Jacobs, MD, PhD Professor of Pathology and Medicine Case Western Reserve University Director of Clinical Microbiology University Hospitals of.

Michael R. Jacobs, MD, PhD Professor of Pathology and Medicine Case Western Reserve University Director of Clinical Microbiology University Hospitals of.
Cephalosporins.

Cephalosporins.
ANTIBIOTICS.

ANTIBIOTICS.
Overview of Use of PK-PD in Streamlining Drug Development William A. Craig Professor of Medicine University of Wisconsin.

Overview of Use of PK-PD in Streamlining Drug Development William A. Craig Professor of Medicine University of Wisconsin.
Pharmacodynamics of Antibiotics

Pharmacodynamics of Antibiotics

Similar presentations

Ads by Google