Atomic-Scale Magnetometry of Dynamic Magnetization.

The spatial resolution of imaging magnetometers has benefited from scanning probe techniques. The requirement that the sample perturbs the scanning probe through a magnetic field external to its volume limits magnetometry to samples with pre-existing magnetization. We propose a magnetometer in which the perturbation is reversed: the probe's magnetic field generates a response of the sample, which acts back on the probe and changes its energy. For an NV^{-} spin center in diamond this perturbation changes the fine-structure splitting of the spin ground state. Sensitive measurement techniques using coherent detection schemes then permit detection of the magnetic response of paramagnetic and diamagnetic materials. This technique can measure the thickness of magnetically dead layers with better than 0.1 Å accuracy.

Spin-orbit-induced circulating currents in a semiconductor nanostructure.

Circulating orbital currents produced by the spin-orbit interaction for a single electron spin in a quantum dot are explicitly evaluated at zero magnetic field, along with their effect on the total magnetic moment (spin and orbital) of the electron spin. The currents are dominated by coherent superpositions of the conduction and valence envelope functions of the electronic state, are smoothly varying within the quantum dot, and are peaked roughly halfway between the dot center and edge. Thus the spatial structure of the spin contribution to the magnetic moment (which is peaked at the dot center) differs greatly from the spatial structure of the orbital contribution. Even when the spin and orbital magnetic moments cancel (for g=0) the spin can interact strongly with local magnetic fields, e.g., from other spins, which has implications for spin lifetimes and spin manipulation.

Physics of IED Blast Shock Tube Simulations for mTBI Research.

Shock tube experiments and simulations are conducted with a spherical gelatin filled skull-brain surrogate, in order to study the mechanisms leading to blast induced mild traumatic brain injury. A shock tube including sensor system is optimized to simulate realistic improvised explosive device blast profiles obtained from full scale field tests. The response of the skull-brain surrogate is monitored using pressure and strain measurements. Fluid-structure interaction is modeled using a combination of computational fluid dynamics (CFD) simulations for the air blast, and a finite element model for the structural response. The results help to understand the physics of wave propagation, from air blast into the skull-brain. The presence of openings on the skull and its orientation does have a strong effect on the internal pressure. A parameter study reveals that when there is an opening in the skull, the skull gives little protection and the internal pressure is fairly independent on the skull stiffness; the gelatin shear stiffness has little effect on the internal pressure. Simulations show that the presence of pressure sensors in the gelatin hardly disturbs the pressure field.

Sparse sampling for assessment of drug exposure in toxicological studies.

In support of animal toxicity testing of new drugs, toxicokinetics is designed to assess the systemic exposure of the animals to the drug across dose levels, genders, and periods of the study. In small rodents, repeated sampling may alter the health of the animals and jeopardize the toxicity evaluation. One conventional way to circumvent this limitation is to collect serial samples from satellite animals maintained as the main study animals but not monitored for toxicity. We evaluated, on a real example, whether the exposure could be assessed in the main animals from sparse samples. The only acceptable designs consisted of one single sample per animal repeated on two or three study days. In the rat 13-week oral toxicity study of a new chemical entity, both serial sampling in the satellite animals and sparse sampling in the main animals were applied. Similar measures of exposure and qualitative conclusions were derived from the two groups of animals. The very sparse design applied to the main group yielded adequate estimation of the animal exposure, even with a very simple non-compartmental approach. The population pharmacokinetics analysis of the sparse data with NONMEM provided additional information about drug disposition and the influence of the covariates.

Expression of HLA-DR in granulocytes of polytraumatized patients treated with recombinant human granulocyte macrophage-colony-stimulating factor.

MHC class II determinants are the restriction elements involved in antigen-specific activation of helper T lymphocytes and interaction with CD4 molecules. They are typically expressed on a limited number of cell types, mostly endowed with antigen-presenting capacity. Recently, expression of HLA-DR has been detected on granulocytes stimulated "in vitro" with GM-CSF. However, no evidence of "in vivo" expression in humans has been presented so far. We report here that class II determinant expression is detectable in vivo on peripheral blood granulocytes of polytraumatized patients upon intravenous administration of rhGM-CSF. Expression of these molecules appears to be an early effect of rhGM-CSF treatment, independent from endotoxemia or endogenous production of IL-6 or TNF-alpha, and rapidly declining upon discontinuation of therapy. Thus, this treatment might increase the number of cells potentially capable of presenting class-II-restricted antigens in these patients.

The effect of grapefruit juice on cyclosporine and prednisone metabolism in transplant patients.

OBJECTIVE: To estimate the effect of grapefruit juice on cyclosporine and prednisone metabolism. METHODS: This was an open, placebo-controlled, two-way crossover study performed in the academic departments of clinical pharmacology and nephrology. On two study occasions, 12 kidney transplant patients with stable cyclosporine trough levels received either grapefruit juice or water every 3 hours for a period of 30 hours. The main outcome measures were peak concentration and time to peak, area under the concentration-time curve, the ratio of the area under the curve of the metabolites/area under the curve of the parent drug, terminal half-life, and 24-hour trough levels of cyclosporine. RESULTS: Grapefruit juice increased the peak concentration of cyclosporine by 185 ng/ml (95% confidence interval, 60 to 310; p = 0.008). The ratio of the area under the curve of the metabolites of cyclosporine to the area under the curve of cyclosporine was reduced by 0.137 on the grapefruit day (95% confidence interval, -0.221 to -0.054; p = 0.004). After grapefruit juice, no significant changes were observed in the area under the curve and the time to peak of cyclosporine, prednisone, and prednisolone. Cyclosporine trough levels were unchanged by grapefruit juice. CONCLUSIONS: Grapefruit juice inhibits the metabolism of cyclosporine for a brief period after administration, which may be explained by the inhibition of cytochrome P450 enzymes in the gut wall and to a lesser extent by inhibition of these enzymes in the liver. Grapefruit juice can be one of the factors leading to intraindividual variability in the pharmacokinetics of cyclosporine. Grapefruit juice had no significant effect on the metabolism of prednisone or prednisolone.

Acute effect of cyclosporin on renal function following the initial changeover to a microemulsion formulation in stable kidney transplant patients.

Potential differences in the acute effect of cyclosporin on renal function when dosed orally as the current market formulation or following a milligram-to-milligram conversion to a new microemulsion formulation were investigated in 14 stable kidney transplant patients. The study consisted of three sequential periods of 2 weeks duration each. Patients entered (period I) and completed (period III) the investigation with the market formulation and received the microemulsion formulation in period II; individualized cyclosporin doses remained unchanged throughout the study. Over one steady-state dosing interval at the end of each study period, whole blood cyclosporin pharmacokinetic profiles were assessed in parallel with endogenous creatinine clearances over sequential 1- to 2-h intervals. The rate and extent of cyclosporin absorption were significantly greater (P < 0.01) from the microemulsion formulation with average increases of 73% in peak concentration and 44% in area under the curve compared to the market formulation. Sequential creatinine clearances exhibited a transient decrease with the nadir occurring on average between 4 and 6 h post dose followed by a rapid return to baseline. Specifically in period I on the market formulation, clearances decreased from a baseline of 71.7 +/- 20.6 to a minimum of 51.1 +/- 17.9 ml/min per 1.73 m2 (similar values in period III) and from 76.8 +/- 24.8 to 53.5 +/- 17.5 ml/min 1.73 m2 in period II on the microemulsion. Neither the baseline nor minimum clearances were significantly different among the study periods.(ABSTRACT TRUNCATED AT 250 WORDS)

Cyclosporine pharmacokinetics and variability from a microemulsion formulation--a multicenter investigation in kidney transplant patients.

The steady-state pharmacokinetics and tolerability of a microemulsion formulation of cyclosporine (Sandimmune Neoral) were compared with the commercial formulation (Sandimmune) in 55 clinically stable renal allograft recipients. In study period I (2 weeks' duration), patients entered the study on a stable, individualized twice-daily dosage regimen of the commercial formulation. In period II (2 weeks), they were changed over to the microemulsion formulation at the same dose as at study entry. In period III (2 weeks), dose titration was subsequently allowed if necessary to provide comparable steady-state trough concentrations as at study entry. The commercial formulation was reinstituted during period IV (2 weeks). Safety and tolerability were assessed at weekly clinic visits, and the steady-state pharmacokinetics of cyclosporine in whole blood were characterized at the end of each study period. A milligram-to-milligram dose conversion was adequate when making the initial change between formulations in order to maintain steady-state trough concentrations in the target therapeutic range. Concomitant with this conversion, the steady-state peak concentration and area under the curve increased on average by 59% and 30%, respectively, due to absorption-related differences between the formulations. These increases were not associated with an increase in adverse experiences or changes in blood pressure or clinical laboratory parameters over the first four weeks after the change-over. Trough concentrations were more stable and were more strongly correlated with systemic exposure (area under the curve) during treatment with the microemulsion formulation. Intraindividual coefficients of variation in steady-state peak concentration, time to attain the peak, area under the curve, and percent peak-trough fluctuation ranged from 18% to 74% from the commercial formulation. Variability from the microemulsion formulation was significantly less, ranging from 10% to 22%.

Within-day consistency in cyclosporine pharmacokinetics from a microemulsion formulation in renal transplant patients.

A new microemulsion formulation of cyclosporine (Sandimmune Neoral) was compared to the commercially available formulation (Sandimmune) in 11 stable renal transplant patients with regard to the consistency in cyclosporine pharmacokinetics between a daytime fasting, and a nighttime nonfasting administration. Daily cyclosporine doses were individualized and administered in equal, divided doses every 12 h as soft gelatin capsules; doses were kept constant throughout the study. Serial blood samples were obtained over a 24-h period (two consecutive dosing intervals) at steady-state for each formulation, and cyclosporine concentrations were determined in whole blood by a specific radioimmunoassay method. Within-formulation consistency in pharmacokinetic parameters between the daytime and nighttime administrations was assessed in terms of bioequivalence criteria. Following the mg-to-mg conversion from the commercial to the microemulsion formulation, area under the curve (AUC) was increased on average by 30% due to absorption-related pharmacokinetic differences, while trough concentrations remained in the therapeutic range. Within each formulation, AUC was bioequivalent when comparing the daytime fasting to the nighttime nonfasting administration. For the commercial formulation, however, there was considerable variation in absorption rate, dampening of peak-trough fluctuation, and elevation of trough concentration following the nighttime nonfasting dose. By contrast, the microemulsion exhibited a more stable concentration-time profile over the two dosing intervals, with bioequivalence in peak-trough fluctuation and trough concentrations. Hence, the steady-state pharmacokinetics of cyclosporine from the microemulsion formulation exhibit greater within-day consistency compared to the commercial formulation in stable renal allograft recipients.

IgG antibodies against an HLA antigen are associated with activated cytotoxic T cells against this antigen, IgM are not.

Pre-existing alloantibodies against the mismatched HLA-A and HLA-B antigens of the donor, when present in current sera, are believed to be detrimental to kidney graft survival. When these antibodies are present only in historical sera, their immunoglobulin class has reported to be important with respect to the expected graft survival, IgG antibodies being associated with poor graft prognosis and IgM with reasonable graft survival. In the present study, we have tested whether the immunoglobulin class of anti-HLA antibodies is reflected in the activation state of CTLs directed against these HLA antigens as measured by their in vitro resistance or sensitivity to CsA. The results indicate that the presence of IgG anti-HLA antibodies is associated with the presence of activated CTLs (CsA resistant), whereas in the case of IgM antibodies, mainly naive CTLs (CsA sensitive) are found. This observation may explain the different prognoses of historical positive crossmatches due to IgG versus IgM alloantibodies.

Pharmacokinetics and tolerability of a microemulsion formulation of cyclosporine in renal allograft recipients--a concentration-controlled comparison with the commercial formulation.

The steady-state pharmacokinetics and tolerability of a microemulsion formulation of cyclosporine (Sandimmune Neoral) were compared with Sandimmune in 18 clinically stable renal allograft recipients. In study period I (2 weeks duration), patients entered the study on a stable, individualized twice-daily dosage regimen of Sandimmune. Two approaches were assessed for changing patients over from Sandimmune to Sandimmune Neoral. In period II (2 weeks), doses were converted based on the area under the curve ratio derived from a relative bioavailability study comparing the two formulations in healthy volunteers. In period III (2 weeks), doses were titrated to provide comparable steady-state trough concentrations as at study entry. Sandimmune was reinstituted during period IV (2 weeks). Safety and tolerability were assessed at weekly clinic visits and the steady-state pharmacokinetics of cyclosporine in whole blood were characterized at the end of each study period. Dose conversion in period II based on the AUC ratio derived from healthy volunteers was inadequate for achieving comparable cyclosporine exposure as assessed by steady-state AUC and troughs. The concentration-controlled approach (period III) indicated that maintaining the same cyclosporine dose when changing between formulations yields comparable steady-state trough concentrations. Concomitant with this conversion, steady-state peak concentration and AUC increased on average by 39% and 15%, respectively, due to absorption-related differences between the formulations. These increases were not associated with adverse events or changes in blood pressure or clinical laboratory parameters. Furthermore, they were not detrimental to the transplanted kidney as monitored by ultrasound examination. The pharmacokinetic profiles from Sandimmune Neoral exhibited less variability and yielded a stronger correlation between trough concentration and systemic exposure (AUC) compared with Sandimmune.

Reduced inter- and intraindividual variability in cyclosporine pharmacokinetics from a microemulsion formulation.

The inter- and intraindividual variability of cyclosporine pharmacokinetics from a microemulsion formulation were compared with the currently marketed formulation in a sequential bioreplication study. Twenty-four healthy male volunteers were randomized to receive each formulation on two separate occasions; the reference treatment was a single oral dose of 300 mg of Sandimmune and the test treatment was a single oral dose of 180 mg of Sandimmune Neoral, both given as soft gelatin capsules. Serial venous blood samples were obtained over a period of 48 h after each administration, and cyclosporine concentrations were measured in whole blood by a specific monoclonal RIA method. Between- and within-subject variabilities were quantified from the appropriate sums of squares from analysis of variance and statistically compared between formulations. Both inter- and intraindividual variation for the peak concentration, time to reach the peak, area under the curve, and terminal half-life of the test formulation were significantly reduced (p < 0.05) with two exceptions. For area under the curve between subjects (p < 0.2) and peak concentration within subjects (p < 0.1), trends toward reduced variability for the test formulation were evident. These results were further reflected in the inter- and intraindividual coefficients of variation of the pharmacokinetic parameters that ranged from 3 to 22% for the test formulation compared with 19 to 41% for the reference formulation. In comparison with the currently marketed formulation, reduced variability in the pharmacokinetics of cyclosporine following oral administration of Sandimmune Neoral provides a more predictable and consistent concentration-time profile.

Improved dose linearity of cyclosporine pharmacokinetics from a microemulsion formulation.

The pharmacokinetic dose proportionality and relative bioavailability of cyclosporine from a microemulsion formulation (Sandimmune Neoral) were compared to those of the commercial formulation (Sandimmune) over the dosage range 200 to 800 mg. Single oral administrations were given as soft gelatin capsules in an open randomized study with 48 healthy volunteers. Whole-blood cyclosporine concentrations were determined by a specific monoclonal radioimmunoassay. In comparison to Sandimmune, the absorption rate (maximum concentration) and systemic availability (area under the curve) of cyclosporine were greater for Sandimmune Neoral at all dose levels investigated. The area under the curve for Sandimmune increased in a less than proportional manner with respect to dose, whereas that for Sandimmune Neoral was consistent with linear pharmacokinetics. Because of this difference, no global assessment of relative bioavailability could be performed. The relative bioavailability of cyclosporine from Sandimmune Neoral ranged from 174 to 239% compared to Sandimmune, depending on the dose level. The improvements in oral bioavailability and dose linearity of cyclosporine exposure after administration as Sandimmune Neoral should facilitate more accurate dosage titration in the clinical setting.

Safety and steady-state pharmacokinetics of a new oral formulation of cyclosporin A in renal transplant patients.

The steady-state pharmacokinetics of a new oral formulation of cyclosporin A (Sandimmun Neoral, NOF, a microemulsion) was compared with those of the market formulation (Sandimmun, SIM) in stable renal transplant patients. Both formulations were administered as soft gelatin capsules every 12 h with doses adjusted to provide comparable trough concentrations (CminSS). Whole blood samples were obtained over a steady-state dosing interval (tau), and the cyclosporin A level was determined by a specific monoclonal RIA. Both formulations were well tolerated. The mean doses were 139 +/- 27 mg (SIM) vs. 120 +/- 19 mg (NOF), indicating a milligram dose-conversion factor of approximately 1:1 to yield comparable troughs. NOF exhibited a stronger correlation between AUCtauSS and CminSS (r2 = 0.821) compared with SIM (r2 = 0.288), due in part to less variability in the NOF profiles. Average increases of 39% in CmaxSS and 15% in AUCtauSS during treatment with NOF were not associated with any safety concerns over the 4-week exposure to Sandimmun Neoral, as evidenced by the absence of changes in blood pressure, hematologic and biochemical parameters (including serum creatinine and blood urea nitrogen, BUN) and ultrasound of the transplanted kidney.

Influence of a fat-rich meal on the pharmacokinetics of a new oral formulation of cyclosporine in a crossover comparison with the market formulation.

The influence of a fat-rich meal on the pharmacokinetics of cyclosporine from a new oral formulation (Sandimmune Neoral) was compared in a randomized, four-way crossover study to the currently marketed formulation (Sandimmune) in 24 healthy male volunteers. Single oral doses of 300 mg Sandimmune and 180 mg Sandimmune Neoral were each administered once under fasting conditions and once 30 min after starting a high-fat meal. Serial blood samples were obtained over a 48-hr period after each administration, and whole-blood cyclosporine concentrations were determined by a specific monoclonal radioimmunoassay method. Food had a marked effect on cyclosporine absorption from Sandimmune manifested by a nearly doubled time to reach the peak concentration and a 37% increase in the area under the curve. This was associated with significant elevations in subsequent whole-blood cyclosporine concentrations compared to the fasting administration. For Sandimmune Neoral the influence was less pronounced. The maximum concentration was decreased by 26%, without a relevant change in the time to reach the peak; the area under the curve showed a slight reduction of 15%. The relatively minor influence of a fat-rich meal on the absorption of cyclosporine from Sandimmune Neoral is advantageous when individualizing a dosage regimen under clinical and outpatient administration conditions.

Drug transport across the blood-brain barrier. III. Mechanisms and methods to improve drug delivery to the central nervous system.

This is the third part of a review on the transport of drugs across the blood-brain barrier. In the first two parts, the anatomical and physiological aspects and the various techniques that can be used to study blood-brain transport have been discussed and reviewed. This third part focuses specifically on the mechanisms that are involved in drug transport across the blood-brain barrier. In addition, the opportunities to improve drug transport into the brain will be reviewed. Emphasis is on the transport of peptides.

Pharmacokinetic and pharmacodynamic data and models in clinical trials.

There is current emphasis for extended integration of pharmacokinetics (PK) and pharmacodynamics (PD) into all phases of new drug development, including large-scale clinical trials. In this paper, we focus on study design and data analysis issues for the investigation of pharmacokinetic/pharmacodynamic and blood level/effect relationships in patients. The application of descriptive and model-based regression statistical methodology for including sparse drug systemic concentration data in the analysis of efficacy and safety is illustrated by examples chosen from diverse therapeutic areas. The population approach, based on mixed-effects modelling, is one such methodology, which also provides new tools for analysis of response vs dose and response vs time data. The existence of a variety of statistical techniques for handling complex PK/PD time-varying data should increase the impact of such data analysis on future drug development.

Drug transport across the blood-brain barrier. II. Experimental techniques to study drug transport.

This is part II of a review on the transport of drugs across the blood-brain barrier. In this part, the emphasis is on the various experimental techniques that can be used to characterize the blood-brain barrier transport of drugs. Generally speaking, three approaches can be distinguished: in vitro techniques using isolated brain capillaries, cerebrovascular endothelial cells in primary culture or endothelium-derived cell lines; in vivo techniques (both single-passage and multi-passage techniques) and in situ perfusion techniques. Each of these techniques has specific advantages and disadvantages associated with it. Therefore, in many instances, a combination of different approaches is needed to study the fundamental aspects of drug transport across the blood-brain barrier.