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Pharmacological Rescue of Nonsense Mutations in Rett SyndromePopescu, Andreea 17 February 2010 (has links)
Rett syndrome is a neurological condition that affects primarily girls. Approximately 40% of Rett syndrome cases arise from nonsense mutations. Several studies have shown that certain aminoglycosides can suppress some types of nonsense mutations in a context dependent manner, and allow the generation of a full length protein. It remains mostly unclear whether different nonsense mutations of MECP2 will be responsive to aminoglycoside treatment. In this study I tested whether some nonsense mutations of MECP2 seen clinically in Rett syndrome girls can be partially suppressed by aminoglycoside administration. My results show that aminoglycosides allow different mutant forms of MECP2 to be overcome in transiently transfected HEK-293 cells, but with differing levels of efficiency. Furthermore, I also show that aminoglycosides increased the prevalence of full length MeCP2 protein in a lymphocyte cell line derived from a Rett girl with R255X mutation. This study establishes the “proof of principle” that some nonsense mutations causing Rett syndrome can be suppressed by drμg treatment.
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La gentamicine sous la forme liposomale : aspects technologique et microbiologiqueMugabe, Clement, Omri, Abdelwahab January 2005 (has links)
No description available.
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EVALUATION OF LIPOSOMAL BISMUTH-ETHANEDITHIOL-TOBRAMYCIN FOR TREATMENT OF CYSTIC FIBROSIS PULMONARY PSEUDOMONAS AERUGINOSA INFECTIONAlhariri, Moayad Abdulaziz I. 08 October 2013 (has links)
The effectiveness of liposomes incorporating bismuth-ethanedithiol and loaded with tobramycin (LipoBiEDT-TOB) at sub-inhibitory concentrations to inhibit the production of quorum sensing signaling molecules and virulence factors induced by P. aeruginosa was evaluated in vitro. In addition, we evaluated the efficacy and safety of free and encapsulated tobramycin in liposomal formulations administered intratracheally to rats chronically infected with P. aeruginosa. LipoBiEDT-TOB significantly reduced the production of quorum sensing signaling molecules and virulence factor secretion compared to free tobramycin. The LipoBiEDT-TOB formulation significantly reduced the bacterial count in lungs, modulated the IL-8 level in blood and minimized the nephrotoxicity that is associated with aminoglycoside treatment. These results support the hypothesis that aerosolization of liposomal aminoglycosides may enhance the management of chronic lung infections caused by resistant P. aeruginosa in patients with cystic fibrosis.
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Characterization of AAC(6')-APH(2''), a bifunctional aminoglycoside modifying enzyme /Daigle, Denis M. Wright, Gerard D. January 1900 (has links)
Thesis (Ph.D.)--McMaster University, 2003. / Advisor: Gerard D. Wright. Also available via World Wide Web.
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Characterization of the chromosomal aminoglycoside 6'-N-acetyltransferase from Enterococcus faecium /Draker, Kari-Ann. Wright, Gerard D. January 1900 (has links)
Thesis (Ph.D.)--McMaster University, 2004. / Advisor: G.D. Wright. Includes bibliographical references. Also available via World Wide Web.
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Evaluation of Physicians’ Dosing Procedures for Obese Pediatric Populations and Pharmacokinetics of Aminoglycosides in these PatientsMcKee, Megan, McLeod, Melanie, Wicks, Laura January 2008 (has links)
Class of 2008 Abstract / Objectives: This was a retrospective chart review and survey of pediatric residents. This study aimed to examine standards for aminoglycosides in obese pediatrics; increase awareness of drug monitoring in obese populations; and reduce medication errors.
Methods: 101 patients aged three to seventeen that received aminoglycoside treatment were included. Subjects were divided into three groups based on weight and height percentiles as defined by growth charts. Collecting retrospective data provided measured concentrations of aminoglycosides in order to evaluate pharmacokinetics. Data collected included: dose and frequency; time dose was given; length of infusion; two measured concentrations (peak and trough); and time concentration was measured. ANOVA allowed comparisons between aminoglycoside volumes of distribution to weight (based on specific weight groups). Tukey’s post hoc analysis further tested the significance of the pair-wise comparisons (p<0.05). Secondly, a questionnaire was administered to 26 pediatric medical residents at University Medical Center to assess current treatment protocols and attitudes towards medication dosing in obese pediatric patients.
Results: The volume of distribution was not significantly different between normal weight and overweight patients (p=0.927); normal weight and obese patients (p=0.174); or overweight and obese patients (p=0.211). Most (81.8%) study participants have some difficulty finding references on dosing in overweight and obese patients.
Conclusions: The positive correlation between volume of distribution and total body weight was not statistically significant. Pediatric residents agree that there is a lack of resources regarding obese pediatric medication dosing. Further research is warranted to ensure the reliability and validity of aminoglycoside dosing in obese children.
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An examination of the mechanisms of aminoglycoside resistance in mycobacteria. / CUHK electronic theses & dissertations collectionJanuary 2001 (has links)
by Ho Iok Ieng Yolanda. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references (p. 116-132). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.
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Pharmaceutical analysis of polyamines and aminoglycosidesBuranaphalin, Sawanya January 2009 (has links)
Methods for polyamine derivatization with a panel of extrinsic fluorophores followed by HPLC with fluorescence and UV absorption detection have been developed. Four fluorophores were examined using polyamines and aminoglycosides. o-Phthalaldehyde (OPA) and fluorescamine are selective fluorophores that only react with primary amines; 9- fluorenylmethyl chloroformate (FMOC Cl) and dansyl chloride react with both primary and secondary amines. Reaction and HPLC conditions were optimized with each of the above fluorophores using a series of model mono- and diamines and then applied to natural and semi-synthetic polyamines. The amines that have been investigated are natural di- and polyamines: putrescine, cadaverine, spermidine, spermine, thermospermine, aminoglycosides: kanamycin, paramomycin, neomycin, and synthetic polyamine conjugates e.g. N⁴,N⁹-dioleoylspermine, N¹-cholesteryl spermine carbamate. The resultant derivatives were confirmed by off-line high resolution electrospray ionization mass spectrometry (HR ESI MS). The results show that the synthesis of polyamine derivatives in quantitative yield depends on the time of reaction, the temperature and the ratio of fluorophore reagent. Linearity of derivatization was calculated and regression coefficients ranged from 0.968 to 0.999 with good reproducibility. HR ESI MS analysis of the reaction products demonstrated complete derivatization of both primary and secondary amino groups with dansyl and FMOC fluorescence derivatives and of primary amine groups for OPA and fluorescamine derivatives. Under the ionization conditions used the dansyl derivatives showed, in addition to monovalent ions [M+H]⁺, divalent cations [M+2H]²⁺ because this chromophore contains a basic amine that can be easily protonated. FMOC derivatives gave prominent [M+Na]⁺ ions. The OPA derivatization reaction is rapid, but the products have poor stability. The derivatization with fluorescamine gave multiple products with glucosamine due to the presence of a chiral centre in the fluorophore. The relative quantum yields of the polyaminefluorophore derivatives were examined to determine the effect of intramolecular fluorescence quenching. Dansylation is the fluorescent derivatization method of choice.
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Clinical pharmacology of aminoglycosides in neonatesSherwin, Catherine M. T, n/a January 2009 (has links)
The aims of this Thesis were to investigate early markers of neonatal sepsis and patient-factors affecting the pharmacokinetics and pharmacodynamics (PKPD) of aminoglycosides in the treatment of neonatal sepsis.
A prospective cohort study of neonates commenced on gentamicin for suspected sepsis was performed between 1 July 2002 and 28 February 2007. Receiver operator characteristics (ROC) plots were used to assess potential markers of sepsis against culture positive sepsis. When sepsis was first suspected, the most promising tests were interleukin (IL) IL-12(p70) with an area under the curve (95% CI) for the ROC of 0.74 (0.63-0.86), and which (with a cut-off at 75 pg/mL) had a sensitivity (95% CI) of 28% (20-36%) and a specificity of 98% (96-100%). IL-10 had a sensitivity of 17% (10-23%) and a specificity of 99% (97-100%).
Retrospective studies of neonates treated with gentamicin, amikacin and netilmicin for suspected sepsis were used to identify patient characteristics that affected aminoglycoside PKPD properties. Population PK modelling used NONMEM� v.5 to determine aminoglycoside clearance (CL) and volume of distribution (V). Logistic regression was used to examine the treatment outcome measures (serum peak and trough concentrations and ototoxicity). Simulations of new dosing regimens were undertaken for netilmicin and amikacin using MATLAB�
The final gentamicin PK covariate model gave CL = 0.097 x (current weight/2)[1.3] x (postnatal age/7)[0.29] and V = 1.07 x (current weight/2)[0.8]+ (confirmed sepsis) x 0.13. A 10% increase in gentamicin V in neonates with sepsis was estimated. For amikacin, 17 (35%) of 49 episodes of confirmed sepsis met the treatment failure criteria from 12 (15%) individual patients. The final amikacin PK covariate model was CL = 0.23 x (current weight/2)[0.691] x (postmenstrual age/40)[3.23] and V = 0.957 x (current weight/2)[0.89]. PD analysis determined risk factors linked to hearing impairment in neonates treated with amikacin included: co-medication with vancomycin, high C-reactive protein concentration and low gestational age. Simulation of a new amikacin dosing regimen recommended: 15 mg/kg 36 hourly, 14 mg/kg 24 hourly, and 15 mg/kg 24 hourly, for neonates [less than or equal to] 28 weeks, 29 to 36 weeks, and [greater than or equal to] 37 postmenstrual age, respectively.
For netilmicin, the final PK covariate model was CL = 0.192 x (current weight/2)[1.35] x (postmenstrual age/40)[1.03], V = 1.5 x (current weight/2)[0.3]. Simulation of a new optimal dosing regimen for netilmicin was: 5 mg/kg 36 hourly, 5 mg/kg 24 hourly, 6 mg/kg 24 hourly, and 7 mg/kg 24 hourly, for neonates [less than or equal to] 27, 28 to 30, 31 to 33, and [greater than or equal to] 34 weeks postmenstrual age, respectively.
IV infusions representing gentamicin administration to neonates of 2.5 kg and 0.5 kg in the NICU setting (30 minutes gentamicin infusion then a 30 minute saline flush) showed the larger neonates received 80% of the drug within 60 minutes. This increased to 90-95% by 75 minutes. However, in extremely low birth weight neonates (0.5 kg), only 60% of the intended gentamicin dose was delivered by 60 minutes (70% by 75 minutes).
In conclusion: IL-12(p70) and IL-10 were identified as promising diagnostic tests to confirm sepsis in neonates. Confirmed sepsis caused a 10% increase in V of gentamicin in neonates, suggesting larger initial dosages (mg/kg) are required for effective treatment of neonates with sepsis. Aminoglycoside clearance in neonates is predominantly affected by current weight, postmenstrual age or postnatal age. Adjusting netilmicin and amikacin doses based on current weight, and dosing interval based on both postmenstrual age and current weight improves drug efficacy. Identification of co-medication with vancomycin, low gestational age, and high C-reactive protein during treatment with amikacin increases risk of hearing impairment. The delivery of gentamicin administrated by IV infusion is substantially extended in extremely low birth weight neonates.
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Clinical pharmacology of aminoglycosides in neonatesSherwin, Catherine M. T, n/a January 2009 (has links)
The aims of this Thesis were to investigate early markers of neonatal sepsis and patient-factors affecting the pharmacokinetics and pharmacodynamics (PKPD) of aminoglycosides in the treatment of neonatal sepsis.
A prospective cohort study of neonates commenced on gentamicin for suspected sepsis was performed between 1 July 2002 and 28 February 2007. Receiver operator characteristics (ROC) plots were used to assess potential markers of sepsis against culture positive sepsis. When sepsis was first suspected, the most promising tests were interleukin (IL) IL-12(p70) with an area under the curve (95% CI) for the ROC of 0.74 (0.63-0.86), and which (with a cut-off at 75 pg/mL) had a sensitivity (95% CI) of 28% (20-36%) and a specificity of 98% (96-100%). IL-10 had a sensitivity of 17% (10-23%) and a specificity of 99% (97-100%).
Retrospective studies of neonates treated with gentamicin, amikacin and netilmicin for suspected sepsis were used to identify patient characteristics that affected aminoglycoside PKPD properties. Population PK modelling used NONMEM� v.5 to determine aminoglycoside clearance (CL) and volume of distribution (V). Logistic regression was used to examine the treatment outcome measures (serum peak and trough concentrations and ototoxicity). Simulations of new dosing regimens were undertaken for netilmicin and amikacin using MATLAB�
The final gentamicin PK covariate model gave CL = 0.097 x (current weight/2)[1.3] x (postnatal age/7)[0.29] and V = 1.07 x (current weight/2)[0.8]+ (confirmed sepsis) x 0.13. A 10% increase in gentamicin V in neonates with sepsis was estimated. For amikacin, 17 (35%) of 49 episodes of confirmed sepsis met the treatment failure criteria from 12 (15%) individual patients. The final amikacin PK covariate model was CL = 0.23 x (current weight/2)[0.691] x (postmenstrual age/40)[3.23] and V = 0.957 x (current weight/2)[0.89]. PD analysis determined risk factors linked to hearing impairment in neonates treated with amikacin included: co-medication with vancomycin, high C-reactive protein concentration and low gestational age. Simulation of a new amikacin dosing regimen recommended: 15 mg/kg 36 hourly, 14 mg/kg 24 hourly, and 15 mg/kg 24 hourly, for neonates [less than or equal to] 28 weeks, 29 to 36 weeks, and [greater than or equal to] 37 postmenstrual age, respectively.
For netilmicin, the final PK covariate model was CL = 0.192 x (current weight/2)[1.35] x (postmenstrual age/40)[1.03], V = 1.5 x (current weight/2)[0.3]. Simulation of a new optimal dosing regimen for netilmicin was: 5 mg/kg 36 hourly, 5 mg/kg 24 hourly, 6 mg/kg 24 hourly, and 7 mg/kg 24 hourly, for neonates [less than or equal to] 27, 28 to 30, 31 to 33, and [greater than or equal to] 34 weeks postmenstrual age, respectively.
IV infusions representing gentamicin administration to neonates of 2.5 kg and 0.5 kg in the NICU setting (30 minutes gentamicin infusion then a 30 minute saline flush) showed the larger neonates received 80% of the drug within 60 minutes. This increased to 90-95% by 75 minutes. However, in extremely low birth weight neonates (0.5 kg), only 60% of the intended gentamicin dose was delivered by 60 minutes (70% by 75 minutes).
In conclusion: IL-12(p70) and IL-10 were identified as promising diagnostic tests to confirm sepsis in neonates. Confirmed sepsis caused a 10% increase in V of gentamicin in neonates, suggesting larger initial dosages (mg/kg) are required for effective treatment of neonates with sepsis. Aminoglycoside clearance in neonates is predominantly affected by current weight, postmenstrual age or postnatal age. Adjusting netilmicin and amikacin doses based on current weight, and dosing interval based on both postmenstrual age and current weight improves drug efficacy. Identification of co-medication with vancomycin, low gestational age, and high C-reactive protein during treatment with amikacin increases risk of hearing impairment. The delivery of gentamicin administrated by IV infusion is substantially extended in extremely low birth weight neonates.
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