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1.
Sci Rep ; 11(1): 6468, 2021 03 19.
Article in English | MEDLINE | ID: mdl-33742079

ABSTRACT

Immunocompromised status can result in indeterminate QuantiFERON-TB Gold In-Tube (QFT-GIT) results, but the association of indeterminate results with immunocompetent status in children is unknown. Therefore, we aimed to identify factors associated with indeterminate QFT-GIT results for immunocompetent children. We conducted a retrospective chart review of children (aged ≤ 18 years) who underwent QFT-GIT between September 2006 and July 2017 at the Severance Hospital, Seoul, South Korea. Of the 2037 QFT-GIT assays included in the present study, 7.7% yielded indeterminate QFT-GIT results. Multivariable logistic regression analysis identified younger age (OR 0.88; 95% CI 0.836-0.927; P < 0.001), elevated white blood cell (WBC) count (OR 1.066; 95% CI 1.020-1.115; P = 0.005), decreased albumin levels (OR 0.505; 95% CI 0.316-0.807; P = 0.004), and low-dose steroid therapy (< 1 mg/kg per day of prednisone or equivalent for < 2 weeks) (OR 76.146; 95% CI 8.940-648.569; P < 0.001) as significant factors influencing indeterminate results. Younger age, high WBC count, low albumin levels, and low-dose steroid therapy were associated with indeterminate QFT-GIT results. Low-dose steroid therapy had the highest OR for the indeterminate results compared to other significant risk factors. Our study suggests that screening for steroid doses is important prior to performing interferon-gamma release assays for immunocompetent children.


Subject(s)
Glucocorticoids/blood , Interferon-gamma Release Tests/standards , Latent Tuberculosis/diagnosis , Prednisone/blood , Adolescent , Child , Child, Preschool , Female , Glucocorticoids/administration & dosage , Humans , Infant , Latent Tuberculosis/blood , Male , Prednisone/administration & dosage
2.
J Pharmacol Exp Ther ; 375(2): 385-396, 2020 11.
Article in English | MEDLINE | ID: mdl-32883831

ABSTRACT

The pharmacokinetics (PK) of prednisolone (PNL) exhibit nonlinearity related to plasma protein binding, tissue binding, metabolic interconversion with prednisone (PN), and renal elimination. Blood and 11 tissues were collected from male Wistar rats after steady-state (SS) infusion and after subcutaneous boluses of 50 mg/kg of PNL. Concentrations of PNL and PN were measured by liquid chromatography-tandem mass spectrometry. Plasma and tissue profiles were described using a complex physiologically based pharmacokinetics (PBPK) model. Concentrations of PN and PNL were in rapid equilibrium in plasma and tissues. The tissue partition coefficients (K p ) of PNL calculated from most subcutaneously dosed tissue and plasma areas were similar to SS infusion and in silico values. The blood-to-plasma ratio of PNL was 0.71 with similar red blood cell and unbound-plasma concentrations. Plasma protein binding (60%-90%) was related to corticosteroid-binding globulin (CBG) saturation. Tissue distribution was nonlinear. The equilibrium dissociation constant (K d ) of PNL shared by all tissues was 3.01 ng/ml, with the highest binding in muscle, followed by liver, heart, intestine, and bone and the lowest binding in skin, spleen, fat, kidney, lung, and brain. Fat and bone distribution assumed access only to interstitial space. Brain PNL concentrations (K p = 0.05) were low owing to presumed P-glycoprotein-mediated efflux. Clearances of CBG-free PNL were 1789 from liver and 191.2 ml/h from kidney. The PN/PNL ratio was nonlinear for plasma, spleen, heart, intestine, bone, fat, and linear for the remaining tissues. Our PBPK model with multiple complexities well described the PK profiles of PNL and PN in blood, plasma, and diverse tissues. SIGNIFICANCE STATEMENT: Because steroids, such as prednisolone and prednisone, have similar and complex pharmacokinetics properties in various species, receptors in most tissues, and multiple therapeutic and adverse actions, this physiologically based pharmacokinetics (PBPK) model may provide greater insights into the pharmacodynamic complexities of corticosteroids. The complex properties of these compounds require innovative PBPK modeling approaches that may be instructive for other therapeutic agents.


Subject(s)
Models, Biological , Nonlinear Dynamics , Prednisolone/blood , Prednisolone/pharmacokinetics , Prednisone/blood , Prednisone/pharmacokinetics , Animals , Male , Rats , Rats, Wistar , Tissue Distribution
3.
Drug Test Anal ; 12(6): 704-710, 2020 Jun.
Article in English | MEDLINE | ID: mdl-32180361

ABSTRACT

Dried blood spots (DBS) have been considered as complementary matrix in sports drug testing for many years. Especially concerning substances prohibited in-competition only, the added value of DBS collected concomitantly with routine doping control urine samples has been debated, and an increasing potential of DBS has been discussed in the scientific literature. To which extent and under which prerequisites DBS can contribute to enhanced anti-doping efforts is currently evaluated. As a proof-of-principle, two analytical applications, one targeting cocaine/benzoyl ecgonine and the other prednisone/prednisolone, are presented in this perspective to indicate potential added value but also presently existing limitations of the DBS approach.


Subject(s)
Doping in Sports , Dried Blood Spot Testing/methods , Substance Abuse Detection/methods , Cocaine/analogs & derivatives , Cocaine/blood , Cocaine/urine , Humans , Performance-Enhancing Substances/blood , Pharmaceutical Preparations/blood , Pharmaceutical Preparations/urine , Pilot Projects , Prednisolone/blood , Prednisolone/urine , Prednisone/blood , Prednisone/urine , Reference Standards , Sports
4.
J Cardiovasc Pharmacol Ther ; 25(2): 174-186, 2020 03.
Article in English | MEDLINE | ID: mdl-31648564

ABSTRACT

BACKGROUND: Synthetic forms of glucocorticoids (GCs; eg, prednisone, prednisolone) are anti-inflammatory drugs that are widely used in clinical practice. The role of GCs in cardiovascular diseases, including atherosclerosis, is highly controversial, and their impact on macrophage foam cell formation is still unknown. We investigated the effects of prednisone and prednisolone on macrophage oxidative stress and lipid metabolism. METHODS AND RESULTS: C57BL/6 mice were intraperitoneally injected with prednisone or prednisolone (5 mg/kg) for 4 weeks, followed by lipid metabolism analyses in the aorta and peritoneal macrophages. We also analyzed the effect of serum samples obtained from 9 healthy human volunteers before and after oral administration of prednisone (20 mg for 5 days) on J774A.1 macrophage atherogenicity. Finally, J774A.1 macrophages, human monocyte-derived macrophages, and fibroblasts were incubated with increasing concentrations (0-200 ng/mL) of prednisone or prednisolone, followed by determination of cellular oxidative status, and triglyceride and cholesterol metabolism. Prednisone and prednisolone treatment resulted in a significant reduction in triglyceride and cholesterol accumulation in macrophages, as observed in vivo, ex vivo, and in vitro. These effects were associated with GCs' inhibitory effect on triglyceride- and cholesterol-biosynthesis rates, through downregulation of diacylglycerol acyltransferase 1 and HMG-CoA reductase expression. Glucocorticoid-induced reduction of cellular lipid accumulation was mediated by the GC receptors on the macrophages, because the GC-receptor antagonist (RU486) abolished these effects. In fibroblasts, unlike macrophages, GCs showed no effects. CONCLUSION: Prednisone and prednisolone exhibit antiatherogenic activity by protecting macrophages from lipid accumulation and foam cell formation.


Subject(s)
Cholesterol/metabolism , Foam Cells/drug effects , Glucocorticoids/administration & dosage , Lipid Metabolism/drug effects , Macrophages, Peritoneal/drug effects , Prednisolone/administration & dosage , Prednisone/administration & dosage , Triglycerides/metabolism , Administration, Oral , Adolescent , Adult , Animals , Cell Line , Cholesterol/blood , Foam Cells/metabolism , Glucocorticoids/blood , Humans , Macrophages, Peritoneal/metabolism , Male , Mice, Inbred C57BL , Oxidative Stress/drug effects , Prednisolone/blood , Prednisone/blood , Triglycerides/blood , Young Adult
5.
Bioelectrochemistry ; 126: 56-63, 2019 Apr.
Article in English | MEDLINE | ID: mdl-30502639

ABSTRACT

This paper reports the fabrication of an electrochemical DNA biosensor for the electrochemical determination of prednisone (PRD), which is a synthetic corticosteroid. For this purpose, silver nanoparticles (AgNPs) and a new polymer film poly(glyoxal-bis(2-hydroxyanil)) (P(GBHA)) were electrochemically deposited on a glassy carbon electrode (GCE), respectively. Then, an electrochemical DNA biosensor was prepared onto this electrode surface (GCE/AgNPs/P(GBHA)) by the immobilization of dsDNA using a chronoamperometry method. The proposed electrode was characterized by FESEM, XPS, and cyclic voltammetry (CV). The interaction between the PRD and dsDNA immobilized on the GCE/AgNPs/P(GBHA) electrode was investigated via a differential pulse voltammetry (DPV) method and UV-Vis spectrophotometry. The experimental factors affecting the interaction between the PRD concentration and dsDNA were optimized. The fabricated biosensor showed a wide linear response in a PRD concentration range of 1.0-50.0 µg mL-1 depending on both the adenine and guanine base signals. The detection limit based on the guanine and adenine signals was 0.3 µg mL-1 and 0.25 µg mL-1, respectively. The sensor exhibited excellent anti-interferential ability, good stability and reproducibility and was satisfactorily employed for the electrochemical assay of PRD in serum samples. The new DNA biosensor can be utilized for the sensitive, accurate and rapid analysis of PRD.


Subject(s)
Aminophenols/chemistry , Anti-Inflammatory Agents/blood , Biosensing Techniques/methods , Immobilized Nucleic Acids/chemistry , Metal Nanoparticles/chemistry , Polymers/chemistry , Prednisone/blood , Silver/chemistry , Carbon/chemistry , DNA/chemistry , Electrochemical Techniques/methods , Electrodes , Humans
6.
J Vet Pharmacol Ther ; 41(5): 638-643, 2018 Oct.
Article in English | MEDLINE | ID: mdl-29761906

ABSTRACT

The objective of this study was to describe the pharmacokinetics (PK) of cytarabine (CA) after subcutaneous (SC) administration to dogs with meningoencephalomyelitis of unknown etiology (MUE). Twelve dogs received a single SC dose of CA at 50 mg/m2 as part of treatment of MUE. A sparse sampling technique was used to collect four blood samples from each dog from 0 to 360 min after administration. All dogs were concurrently receiving prednisone (0.5-2 mg kg-1 day-1 ). Plasma CA concentrations were measured by HPLC, and pharmacokinetic parameters were estimated using nonlinear mixed-effects modeling (NLME). Plasma drug concentrations ranged from 0.05 to 2.8 µg/ml. The population estimate (CV%) for elimination half-life and Tmax of cytarabine in dogs was 1.09 (21.93) hr and 0.55 (51.03) hr, respectively. The volume of distribution per fraction absorbed was 976.31 (10.85%) ml/kg. Mean plasma concentration of CA for all dogs was above 1.0 µg/ml at the 30-, 60-, 90-, and 120-min time points. In this study, the pharmacokinetics of CA in dogs with MUE after a single 50 mg/m2 SC injection in dogs was similar to what has been previously reported in healthy beagles; there was moderate variability in the population estimates in this clinical population of dogs.


Subject(s)
Antimetabolites, Antineoplastic/pharmacokinetics , Cytarabine/pharmacokinetics , Dog Diseases/drug therapy , Encephalomyelitis/veterinary , Immunosuppressive Agents/pharmacokinetics , Meningoencephalitis/veterinary , Prednisone/pharmacokinetics , Animals , Antimetabolites, Antineoplastic/administration & dosage , Antimetabolites, Antineoplastic/blood , Antimetabolites, Antineoplastic/therapeutic use , Cytarabine/administration & dosage , Cytarabine/blood , Cytarabine/therapeutic use , Dogs , Drug Combinations , Encephalomyelitis/drug therapy , Female , Immunosuppressive Agents/administration & dosage , Immunosuppressive Agents/blood , Immunosuppressive Agents/therapeutic use , Injections, Subcutaneous , Male , Meningoencephalitis/drug therapy , Prednisone/administration & dosage , Prednisone/blood , Prednisone/therapeutic use
7.
J Clin Pharmacol ; 58(9): 1223-1232, 2018 09.
Article in English | MEDLINE | ID: mdl-29733485

ABSTRACT

To evaluate the steady-state pharmacokinetics of prednisone and its metabolite prednisolone in pregnant and lactating female subjects, 19 subjects received prednisone (4-40 mg/day orally) in early (n = 3), mid (n = 9), and late (n = 13) pregnancy as well as postpartum with (n = 2) and without (n = 5) lactation. Serial blood and urine samples were collected over 1 dosing interval. Prednisone and its metabolite, prednisolone, steady-state noncompartmental pharmacokinetic parameters were estimated. During pregnancy, prednisone apparent oral clearance increased with dose (35.1 ± 11.4 L/h with 5 mg, 52.6 ± 5.2 L/h with 10 mg, and 64.3 ± 6.9 L/h with 20 mg, P = .001). Similarly, unbound prednisone apparent oral clearance increased with dose. In addition, prednisolone renal clearance increased with dose (0.3 ± 0.3 L/h with 5 mg, 0.5 ± 0.4 L/h with 10 mg, and 1.3 ± 1.1 L/h with 20 mg, P = .002). Higher prednisone (r = 0.57, P ≤ .05) and prednisolone (r = 0.75, P ≤ .05) concentrations led to a higher percentage of unbound drug. Breast-milk/plasma area under the concentration-time curve ratios were 0.5-0.6 for prednisone and 0.02-0.03 for prednisolone. Relative infant doses were 0.35% to 0.53% and 0.09% to 0.18%, for prednisone and prednisolone, respectively. Prednisone and prednisolone exhibit dose- and concentration-dependent pharmacokinetics during pregnancy, and infant exposure to these agents via breast milk is minimal.


Subject(s)
Glucocorticoids/pharmacokinetics , Lactation , Prednisone/pharmacokinetics , Area Under Curve , Female , Glucocorticoids/administration & dosage , Glucocorticoids/blood , Half-Life , Humans , Postpartum Period , Prednisone/administration & dosage , Prednisone/blood , Pregnancy
8.
Br J Haematol ; 179(3): 410-420, 2017 11.
Article in English | MEDLINE | ID: mdl-28990173

ABSTRACT

Male sex is associated with unfavourable pharmacokinetics and prognosis in elderly patients with diffuse large B-cell lymphoma (DLBCL). We investigated higher rituximab doses for elderly male DLBCL patients. Elderly patients (61-80 years) received 6 cycles CHOP-14 (cyclophosphamide, doxorubicin, vincristine and prednisone at 14-day intervals) and were randomized to 8 cycles rituximab (males 500 mg/m2 , females 375 mg/m2 ) every 2 weeks or according to an upfront dose-dense schedule. In 268 (120 females, 148 males) no difference between the standard and the upfront dose-dense rituximab schedule was found (3-year PFS 72% vs. 74%; OS 74% vs. 77%; P = 0.651). The 500 mg/m2 dose of rituximab for male patients was associated with serum levels and exposure times slightly better than in females and a male/female hazard ratio of 0.9 for progression-free survival (PFS) and 0.8 for overall survival. For elderly males, 500 mg/m2 was not more toxic than 375 mg/m2 rituximab, but improved PFS by 32.5% (P = 0.039), with a trend for a (30%) better overall survival (P = 0.076) in a planned subgroup analysis adjusting for International Prognostic Index risk factors. We conclude that the higher rituximab dose for elderly male patients abrogated the adverse prognosis of male sex without increasing toxicity. In the era of personalized medicine, sex-specific pharmacokinetics and toxicities should be investigated for all drugs where these parameters impact on outcome.


Subject(s)
Antineoplastic Combined Chemotherapy Protocols/administration & dosage , Lymphoma, Large B-Cell, Diffuse/drug therapy , Rituximab/administration & dosage , Aged , Aged, 80 and over , Antineoplastic Combined Chemotherapy Protocols/adverse effects , Antineoplastic Combined Chemotherapy Protocols/blood , Antineoplastic Combined Chemotherapy Protocols/therapeutic use , Cyclophosphamide/administration & dosage , Cyclophosphamide/adverse effects , Cyclophosphamide/blood , Cyclophosphamide/therapeutic use , Dose-Response Relationship, Drug , Doxorubicin/administration & dosage , Doxorubicin/adverse effects , Doxorubicin/blood , Doxorubicin/therapeutic use , Drug Administration Schedule , Female , Humans , Lymphoma, Large B-Cell, Diffuse/blood , Lymphoma, Large B-Cell, Diffuse/pathology , Male , Medication Adherence , Middle Aged , Neoplasm Staging , Prednisone/administration & dosage , Prednisone/adverse effects , Prednisone/blood , Prednisone/therapeutic use , Prognosis , Rituximab/adverse effects , Rituximab/blood , Sex Factors , Survival Analysis , Treatment Outcome , Vincristine/administration & dosage , Vincristine/adverse effects , Vincristine/blood , Vincristine/therapeutic use
9.
Clin Cancer Res ; 23(16): 4592-4601, 2017 Aug 15.
Article in English | MEDLINE | ID: mdl-28389510

ABSTRACT

Purpose: Germline variation in solute carrier organic anion (SLCO) genes influences cellular steroid uptake and is associated with prostate cancer outcomes. We hypothesized that, due to its steroidal structure, the CYP17A inhibitor abiraterone may undergo transport by SLCO-encoded transporters and that SLCO gene variation may influence intracellular abiraterone levels and outcomes.Experimental Design: Steroid and abiraterone levels were measured in serum and tissue from 58 men with localized prostate cancer in a clinical trial of LHRH agonist plus abiraterone acetate plus prednisone for 24 weeks prior to prostatectomy. Germline DNA was genotyped for 13 SNPs in six SLCO genes.Results: Abiraterone levels spanned a broad range (serum median 28 ng/mL, 108 nmol/L; tissue median 77 ng/mL, 271 nmol/L) and were correlated (r = 0.355, P = 0.001). Levels correlated positively with steroids upstream of CYP17A (pregnenolone, progesterone), and inversely with steroids downstream of CYP17A (DHEA, AED, testosterone). Serum PSA and tumor volumes were higher in men with undetectable versus detectable tissue abiraterone at prostatectomy (median 0.10 vs. 0.03 ng/dL, P = 0.02; 1.28 vs. 0.44 cc, P = 0.09, respectively). SNPs in SLCO2B1 associated with significant differences in tissue abiraterone (rs1789693, P = 0.0008; rs12422149, P = 0.03) and higher rates of minimal residual disease (tumor volume < 0.5 cc; rs1789693, 67% vs. 27%, P = 0.009; rs1077858, 46% vs. 0%, P = 0.03). LNCaP cells expressing SLCO2B1 showed two- to fourfold higher abiraterone levels compared with vector controls (P < 0.05).Conclusions: Intraprostatic abiraterone levels and genetic variation in SLCO genes are associated with pathologic responses in high-risk localized prostate cancer. Variation in SLCO genes may serve as predictors of response to abiraterone treatment. Clin Cancer Res; 23(16); 4592-601. ©2017 AACR.


Subject(s)
Abiraterone Acetate/metabolism , Antineoplastic Combined Chemotherapy Protocols/therapeutic use , Organic Anion Transporters/metabolism , Prednisone/metabolism , Prostate/drug effects , Prostatic Neoplasms, Castration-Resistant/drug therapy , Abiraterone Acetate/administration & dosage , Abiraterone Acetate/blood , Genotype , Germ-Line Mutation , Gonadotropin-Releasing Hormone/agonists , Humans , Male , Organic Anion Transporters/genetics , Polymorphism, Single Nucleotide , Prednisone/administration & dosage , Prednisone/blood , Prostate/metabolism , Prostate/pathology , Prostate-Specific Antigen/blood , Prostatic Neoplasms, Castration-Resistant/genetics , Prostatic Neoplasms, Castration-Resistant/metabolism , Testosterone/blood , Treatment Outcome
10.
J Pharm Biomed Anal ; 120: 10-8, 2016 Feb 20.
Article in English | MEDLINE | ID: mdl-26686828

ABSTRACT

In this study a selective and high throughput liquid chromatography-mass spectrometry method was developed and validated for the simultaneous quantification of fingolimod (FLD), fampridine (FMP) and prednisone (PDN) in rat plasma using imipramine (IMP) as internal standard (ISTD). In this LC-MS method, following protein precipitation extraction (PPE), the analytes and ISTD were run on XBridge C18 column (150×4.6mm, 5µm) using gradient mobile phase consisting of 5mM ammonium formate in water (pH 9.0) and acetonitrile in a flow gradience program. The drug precursor and product ions were monitored on a triple quadrupole instrument that was operated in positive ionization mode. The method was validated over a concentration range of 0.1-100ng/mL for all the three analytes with relative recoveries ranging from 69 to 82%. The intra and inter batch precision (% CV) across four validation runs were less than 13.4%. The accuracy determined at four QC levels (LLOQ, LQC, MQC and HQC) were within ±6.5% of CV values. The method proved to be highly reproducible and sensitive that was successfully applied in a pharmacokinetic study after single dose oral administration to the rats and also in perfusion study sample analysis.


Subject(s)
4-Aminopyridine/blood , Fingolimod Hydrochloride/blood , Plasma/chemistry , Prednisone/blood , Animals , Chromatography, Liquid/methods , Perfusion/methods , Rats , Reproducibility of Results , Sensitivity and Specificity , Tandem Mass Spectrometry
11.
Drug Metab Dispos ; 43(4): 455-8, 2015 Apr.
Article in English | MEDLINE | ID: mdl-25587129

ABSTRACT

Tacrolimus requires close therapeutic drug monitoring because of its narrow therapeutic index and marked interindividual pharmacokinetic variation. In this study, we investigated the associations of polymorphisms in the gene encoding 11ß-hydroxysteroid dehydrogenase type 1 (HSD11B1) with tacrolimus concentrations in Chinese renal transplant recipients during the early posttransplantation stage. A total of 258 renal transplant recipients receiving tacrolimus with prednisone (30 mg) combined therapy were genotyped for HSD11B1 rs846908, rs846910, rs4844880, and CYP3A5*3 polymorphisms. Tacrolimus trough concentrations were determined on days 6-9 after transplantation, measured by a chemiluminescent microparticle immunoassay. Among the CYP3A5 expressers, the dose-adjusted trough concentration (C0/D) of tacrolimus in HSD11B1 rs846908 AA homozygous individuals was considerably lower than found in GG+GA carriers [56.2 (23.9-86.6) versus 76.7 (12.6-220.0) (ng/ml)/(mg/kg), P = 0.0204]; HSD11B1 rs846910 AA homozygotes had a lower tacrolimus C0/D compared with GG+GA carriers [51.2 (23.9-86.6) versus 76.3 (12.6-220.0) (ng/ml)/(mg/kg), P = 0.0367]; carriers with the HSD11B1 rs4844880 AA genotype had a significantly lower tacrolimus C0/D with respect to carriers of TT+TA genotypes [61.3 (23.9-97.5) versus 77.2 (12.6-220.0) (ng/ml)/(mg/kg), P = 0.0002]; the HSD11B1 AA-AA-AA haplotype carriers had a lower tacrolimus C0/D than noncarriers [51.2 (23.9-86.6) versus 76.3 (12.6-220.0) (ng/ml)/(mg/kg), P = 0.0367]. These findings illustrate that the HSD11B1 genotypes are closely correlated with tacrolimus trough concentrations, suggesting that these polymorphisms may be useful for safer dosing of tacrolimus.


Subject(s)
11-beta-Hydroxysteroid Dehydrogenase Type 1/genetics , Immunosuppressive Agents/pharmacokinetics , Kidney Transplantation , Polymorphism, Single Nucleotide , Prednisone/pharmacokinetics , Tacrolimus/pharmacokinetics , Adult , China , Cytochrome P-450 CYP3A/genetics , Drug Interactions , Drug Therapy, Combination , Female , Genotype , Graft Rejection/genetics , Graft Rejection/prevention & control , Humans , Immunosuppressive Agents/administration & dosage , Immunosuppressive Agents/blood , Immunosuppressive Agents/therapeutic use , Male , Prednisone/administration & dosage , Prednisone/blood , Prednisone/therapeutic use , Tacrolimus/administration & dosage , Tacrolimus/blood , Tacrolimus/therapeutic use
12.
Blood Purif ; 38(2): 154-7, 2014.
Article in English | MEDLINE | ID: mdl-25471548

ABSTRACT

The knowledge on PK behavior of steroid drugs such as prednisolone or prednisone has indeed been expanding but at a rather slow pace. First, convenient, rapid, and specific determination of plasma levels of these steroids was largely indebted to the breakthrough of high performance liquid chromatography (HPLC). Second, prednisolone is non-linearly protein-bound. Since unbound prednisolone is the biologically active compound, only the measurement of this free fraction in plasma is relevant. Third, the short half-life of prednisolone precludes to reach steady-state levels and requires determination of the area under the concentration-time curve. Fourth, prednisolone and prednisone are mutually convertible. Intravenous prednisolone, however, is administered as a pro-drug ester, which renders comparison and interpretation of reported PK data of both agents unreliable. A poignant lack of awareness and knowledge regarding catabolism, clearance mechanisms, and elimination route of steroids fuels the ongoing controversy that surrounds adjunctive corticosteroid therapy in patients with chronic or acute inflammatory disease. This particular patient population is also more prone to develop early and significant kidney dysfunction, necessitating extra-renal support. A better understanding of steroid PK/PD, preferentially guided by HPLC measurement of plasma steroid concentrations, likely will have direct clinical implications, for instance by adapting steroid doses in IHD or implementing higher dose regimens during CRRT.


Subject(s)
Acute Kidney Injury/blood , Dexamethasone/blood , Hydrocortisone/blood , Methylprednisolone/blood , Prednisone/blood , Renal Insufficiency, Chronic/blood , Acute Kidney Injury/physiopathology , Acute Kidney Injury/therapy , Blood Proteins/metabolism , Dexamethasone/pharmacokinetics , Dexamethasone/pharmacology , Drug Dosage Calculations , Humans , Hydrocortisone/pharmacokinetics , Hydrocortisone/pharmacology , Methylprednisolone/pharmacokinetics , Methylprednisolone/pharmacology , Prednisone/pharmacokinetics , Prednisone/pharmacology , Protein Binding , Renal Insufficiency, Chronic/physiopathology , Renal Insufficiency, Chronic/therapy , Renal Replacement Therapy
14.
Antimicrob Agents Chemother ; 57(9): 4394-7, 2013 Sep.
Article in English | MEDLINE | ID: mdl-23817375

ABSTRACT

Prednisone, a corticosteroid frequently used to treat common AIDS-related illnesses and comorbidities, has been shown to induce drug metabolism. This study was performed to determine whether prednisone coadministration affected the pharmacokinetics of dolutegravir (DTG). In this open-label, repeat-dose study, 12 healthy subjects were administered DTG at 50 mg daily alone for 5 days and then with concomitant prednisone for 10 days (prednisone at 60 mg daily for 5 days, followed by a 5-day taper). Serial blood sampling and safety assessments were performed during the trial. Pharmacokinetic parameters were determined using noncompartmental methods and geometric least-square mean ratios, and 90% confidence intervals were generated. Coadministration of DTG and 5-day high-dose prednisone with a 5-day taper had a modest effect on DTG exposure. The area under the DTG plasma concentration-time curve, maximum observed DTG concentration, and 24-hour postdose DTG concentration were increased by 11%, 6%, and 17%, respectively, on day 10 of the combination. Similar results were observed after 5 days of DTG and prednisone. Dolutegravir and prednisone coadministration was well tolerated. The changes in plasma exposures of DTG in healthy individuals as a result of prednisone dosing were not clinically significant. No dose adjustment is required for DTG coadministered with prednisone. (This study has been registered at ClinicalTrials.gov under registration no. NCT01425099.).


Subject(s)
HIV Integrase Inhibitors/pharmacokinetics , Heterocyclic Compounds, 3-Ring/pharmacokinetics , Prednisone/pharmacology , Adolescent , Adult , Aged , Area Under Curve , Drug Administration Schedule , Drug Interactions , Female , HIV Integrase Inhibitors/blood , Healthy Volunteers , Heterocyclic Compounds, 3-Ring/blood , Humans , Male , Middle Aged , Oxazines , Piperazines , Prednisone/blood , Pyridones
15.
Ther Drug Monit ; 35(4): 485-92, 2013 Aug.
Article in English | MEDLINE | ID: mdl-23783167

ABSTRACT

BACKGROUND: Prednisolone (PLN) is a widely used corticosteroid in a variety of immune-mediated diseases. Treatment regimes generally consist of empirically derived treatment doses, whereas therapeutic response among patients is highly variable. Drug monitoring of serum PLN levels might support a more rational approach to dose selection, yet is invasive and laborious. In analogy to cortisol, salivary PLN may offer a good alternative for serum PLN, being a representative approximation of free serum PLN. The aims of this study were to evaluate the correlation between free serum and salivary PLN levels and to quantify this relationship within a population pharmacokinetic model. METHODS: PLN and prednisone (PN) concentrations were measured in 396 samples from 19 healthy volunteers after oral ingestion of 80 mg PLN. Measurements in serum, ultrafiltrate, and saliva were performed with a recently validated liquid chromatography tandem mass spectrometry method. Population pharmacokinetic analysis was performed with nonlinear mixed effect modeling using NONMEM. RESULTS: Salivary PLN levels correlated well with free serum PLN levels (r = 0.931, P < 0.01). A weaker correlation was found for PN (r = 0.318, P < 0.01), which may be explained by the finding that salivary PN levels mainly seemed to consist of PLN enzymatically converted to PN. Total and free serum PLN concentrations decreased over time after drug administration and showed a nonlinear mutual relationship, consistent with concentration-dependent protein binding. Modeled PLN pharmacokinetics corresponded with previous reports. Low to moderate interindividual variability was found for V/F and CL/F (coefficients of variation were 13.8% and 14.6%, respectively). Free and salivary PLN showed a nonlinear relationship with total PLN. An equation predicting free serum levels from salivary levels was successfully derived from the data. CONCLUSIONS: This study is the first to describe the relationship between salivary and (free) serum PLN using a population pharmacokinetic model. Salivary PLN was found to be a reliable predictor of free and total serum PLN in healthy volunteers. The results of this study encourage further exploration of the use of saliva as a noninvasive and feasible method for drug monitoring of PLN.


Subject(s)
Prednisolone/pharmacokinetics , Prednisone/pharmacokinetics , Saliva/chemistry , Saliva/metabolism , Administration, Oral , Adult , Chromatography, Liquid/methods , Drug Monitoring/methods , Female , Healthy Volunteers , Humans , Male , Mass Spectrometry/methods , Middle Aged , Prednisolone/blood , Prednisone/blood , Young Adult
16.
Res Vet Sci ; 95(1): 225-30, 2013 Aug.
Article in English | MEDLINE | ID: mdl-23473553

ABSTRACT

Influence of body condition (over-conditioned vs. normal-conditioned) on plasma glucocorticoid concentrations after single dose oral prednisolone or prednisone in 11 cats (5 normal-conditioned and 6-over-conditioned) was investigated using a two-drug crossover trial (3-week washout interval). Body condition was determined using criterion-referenced bioelectrical impedance together with plasma drug concentrations (prednisolone [active drug] and prednisone [pro-drug]) measured by HPLC. Although interconversion of each drug to the other was confirmed, a single 2mg/kg body weight oral dose of prednisolone produced significantly higher plasma prednisolone concentration (∼4-fold higher AUC) compared to prednisone. Significantly higher plasma drug concentrations in over-conditioned cats (∼2-fold) compared to normal-conditioned cats might explain their perceived increased risk for glucocorticoid associated side effects (hepatic lipidosis, diabetes mellitus). Findings suggest low comparative bioavailability of oral prednisone compared to prednisolone in cats and consideration of lean body mass or ideal body weight for dosing practices.


Subject(s)
Glucocorticoids/blood , Prednisolone/blood , Prednisone/blood , Prodrugs/pharmacokinetics , Administration, Oral , Animals , Area Under Curve , Biological Availability , Body Weight/physiology , Cats/metabolism , Cross-Over Studies , Electric Impedance , Female , Glucocorticoids/administration & dosage , Glucocorticoids/pharmacokinetics , Half-Life , Linear Models , Prednisolone/administration & dosage , Prednisolone/pharmacokinetics , Prednisone/administration & dosage , Prednisone/pharmacokinetics , Prodrugs/administration & dosage , Prodrugs/analysis
17.
J Clin Pharmacol ; 53(3): 326-33, 2013 Mar.
Article in English | MEDLINE | ID: mdl-23444285

ABSTRACT

In rheumatoid arthritis (RA), nocturnal release of proinflammatory cytokines is not adequately counteracted by endogenous glucocorticoid and is associated with symptoms of morning stiffness and pain. Taking exogenous glucocorticoid during the night reduces morning stiffness significantly more than treatment at the conventional time in the morning, although waking to take tablets is unacceptable for patients. Modified-release prednisone tablets were developed to allow administration at bedtime for programmed delivery of glucocorticoid during the night. Single-center crossover studies were conducted, each in ≤24 healthy subjects, to compare the pharmacokinetics of a single 5-mg oral dose of modified-release prednisone and conventional prednisone, as well as the effect of food on bioavailability. There was no substantial difference in pharmacokinetic parameters of the formulations apart from the programmed delay in release of glucocorticoid from the modified-release tablets (C(max) 97%, AUC(0-∞) 101%, 90% confidence intervals within the requisite range for bioequivalence). Administration after a full or light meal did not affect pharmacokinetic characteristics, but bioavailability was reduced under fasted conditions. Pharmacokinetic evaluation in 9 patients with RA confirmed that modified-release prednisone tablets taken at bedtime (around 22:00 h) with or after an evening meal result in programmed release of glucocorticoid 4 to 6 hours after intake.


Subject(s)
Anti-Inflammatory Agents/pharmacokinetics , Arthritis, Rheumatoid/metabolism , Prednisone/pharmacokinetics , Adult , Anti-Inflammatory Agents/administration & dosage , Anti-Inflammatory Agents/blood , Arthritis, Rheumatoid/drug therapy , Cross-Over Studies , Delayed-Action Preparations/administration & dosage , Delayed-Action Preparations/pharmacokinetics , Female , Humans , Male , Middle Aged , Prednisone/administration & dosage , Prednisone/blood , Tablets , Therapeutic Equivalency
18.
Ther Drug Monit ; 34(4): 452-9, 2012 Aug.
Article in English | MEDLINE | ID: mdl-22777155

ABSTRACT

BACKGROUND: Glucocorticoids represent a cornerstone in the immunosuppressive therapy after solid organ transplantation. Interconversion between active and inactive states of glucocorticoids (ie, prednisolone and prednisone) is catalyzed by the enzymes 11ß-hydroxysteroid dehydrogenases 1 and 2. MATERIALS: This study investigated the pharmacokinetics of prednisolone and prednisone in 16 liver transplant recipients. Blood samples were collected in four 12-hour dosing intervals during the first 3 weeks posttransplant, including samples drawn at 13 time points. RESULTS: Area under the time-concentration curve of prednisolone was 3-13 µg·h·mL·mg·kg with maximum concentrations (Cmax) between 0.37 and 2.5 µg·mL·mg·kg and trough concentrations (C0) between 0.13 and 1.1 µg·mL·mg·kg. The elimination half-lives were 1.9-10.3 hours. Apparent volume of distribution (VD/F) and apparent clearance (Cl/F) were 23-159 L and 4.7-28.7 L/h, respectively. CONCLUSIONS: This study demonstrated large intraindividual and interindividual variabilities in glucocorticoid pharmacokinetics. The results suggest that current prednisolone dosing early after liver transplantation might be too high, in particular when coadministered with methylprednisolone. These findings indicate a potential for improvement by personalized dosing of glucocorticoids in organ transplantation.


Subject(s)
Immunosuppressive Agents/pharmacokinetics , Liver Transplantation , Liver/metabolism , Prednisolone/pharmacokinetics , Prednisone/pharmacokinetics , Adult , Aged , Area Under Curve , Female , Humans , Immunosuppressive Agents/blood , Male , Middle Aged , Prednisolone/blood , Prednisone/blood , Young Adult
19.
Biomed Chromatogr ; 26(7): 789-96, 2012 Jul.
Article in English | MEDLINE | ID: mdl-22020542

ABSTRACT

Prednisolone (PLN) and prednisone (PN) are widely used glucocorticoids. Drug monitoring of PLN and PN is not routinely done owing to the need for multiple blood sampling and challenging measurement of unbound PLN and PN in blood. Here we present a robust method for quantification of cortisol, PLN and PN in serum, ultrafiltrate and saliva by on-line solid-phase extraction LC-MS/MS. The method is linear for the three analytes over the range of 6-1400 nmol/L for serum and 2-450 nmol/L for ultrafiltrate and saliva. Within-run precision of all three analytes was <10% and total precision was <15%. This method was applied to create time-concentration profiles of cortisol, PLN and PN after an oral dose of prednisolone in a healthy volunteer. Salivary levels of PLN correlated well with ultrafiltrate levels (p < 0.01), while this correlation was only marginal for PN (p = 0.052). The PN/PLN ratio was significantly higher in saliva than in ultrafiltrate and serum (p < 0.01). Addition sums of both metabolites in saliva showed excellent correlation with those of ultrafiltrate (p < 0.01). These findings have not been presented before and may have important implications for future studies concerning drug monitoring of PLN and PN in saliva.


Subject(s)
Chromatography, Liquid/methods , Hydrocortisone/blood , Prednisolone/blood , Prednisone/blood , Saliva/chemistry , Solid Phase Extraction/methods , Drug Monitoring , Humans , Hydrocortisone/chemistry , Hydrocortisone/pharmacokinetics , Linear Models , Prednisolone/chemistry , Prednisolone/pharmacokinetics , Prednisone/chemistry , Prednisone/pharmacokinetics , Reproducibility of Results , Tandem Mass Spectrometry/methods , Transcortin/analysis , Ultrafiltration/methods
20.
J Chromatogr B Analyt Technol Biomed Life Sci ; 879(27): 2919-27, 2011 Oct 01.
Article in English | MEDLINE | ID: mdl-21907643

ABSTRACT

A liquid chromatography-full scan high resolution accurate mass spectrometry (LC-HRMS) method for quantifying prednisone and prednisolone in human plasma using a quadrupole time-of-flight mass spectrometer (Q-TOF) was developed. Plasma samples were extracted using a liquid-liquid extraction procedure. Full scan data were acquired in the TOF only mode and extracted ion chromatograms were generated post-acquisition with the exact masses of the analytes. The calibration range was 5-2500 ng/mL, with a Lower Limit of Quantitation (LLOQ) of 5 ng/mL. The assay accuracy was between 98.4% and 106.3%. The between-run (inter-day) and within-run (intra-day) precision were within 1.7% and 2.9%, respectively. The matrix effect was between 0.98 and 1.10 for the six different lots of human plasma evaluated. Pooled incurred samples were analyzed by the method and the results matched those obtained from an LC-MS/MS method. In addition, qualitative information on phospholipids, and other endogenous components were also extracted from the full-scan data acquired.


Subject(s)
Chromatography, Liquid/methods , Mass Spectrometry/methods , Prednisolone/blood , Prednisone/blood , Data Mining , Humans , Least-Squares Analysis , Reproducibility of Results , Sensitivity and Specificity
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