ABSTRACT
PURPOSE: In the frame of the Czech boron neutron capture therapy (BNCT) project, a clinical Phase I study of borocaptate sodium [Na2B12H11SH (BSH)] as the boron-10 delivery agent was performed to obtain data on disposition and tissue distribution of boron after an infusion of this compound, as well as to establish an optimal protocol for BNCT of malignant cerebral tumors. METHODS AND MATERIALS: The kinetics of boron disposition after an infusion of borocaptate sodium (25 mg/kg body wt over the period of 1 h) was studied in a group of 10 patients with astrocytoma or glioblastoma of cerebral hemispheres using a modification of the Soloway-Messer colorimetric method. The boron content of tissues (tumor, healthy brain, dura mater, muscle, skin, and cranial bone) removed during the operation performed with latencies varying between 3 and 18 h was investigated by atomic emission spectrometry. RESULTS: Compartmental analysis of boron blood concentrations has shown that in the majority of patients (four males and three females), the concentration decline can be adequately described by a two-compartment pharmacokinetic model (i.e., by a biexponential relationship). The calculated half-lives of the initial (fast) phase of the concentration decline varied between 0.85 and 3.65 h, whereas the half-life values for the terminal (slow) phase ranged between 22.2 and 111.8 h. However, in the remaining three patients (all females), the goodness of fit of the boron concentration data was significantly better when a pharmacokinetic model with three compartments was assumed. In these patients, therefore, an additional ultrafast phase with a half-life varying between 17 and 37 min was detected in the beginning of the boron blood concentration decline. On the other hand, in one of these patients, the half-life of the terminal phase was found to be 415 h (i.e., more than 17 days). Such a long persistence in the body is explained by the very high value of the total distribution volume, indicating extensive binding of BSH in peripheral tissues. Another reason may be enterohepatic recycling of BSH. CONCLUSION: Tumor-to-blood ratios higher than 1.5, which are necessary for an effective outcome of BNCT, can be obtained only if the time interval elapsing between the onset of surgery and termination of BSH infusion is at least 12 h.
Subject(s)
Borohydrides/therapeutic use , Boron Neutron Capture Therapy/standards , Boron/pharmacokinetics , Sulfhydryl Compounds/therapeutic use , Adult , Borohydrides/adverse effects , Boron/blood , Female , Half-Life , Humans , Male , Middle Aged , Sulfhydryl Compounds/adverse effects , Tissue DistributionABSTRACT
Kidney function changes after single-dose administration of borocaptate sodium were studied in rats and in patients with brain tumors. Changes of glomerular filtration rate (GFR) measured as 14C-inulin clearance and urine flow rate (UFR) after a slow intravenous injection of BSH (25 and 50 mg/kg b.w., respectively) were investigated in rats under pentobarbital anesthesia. The effect of BSH has been compared with that of its disulfide (BSSB) which is spontaneously generated by oxidation of BSH during storage. It was found that BSH decreases GFR in relation to dose and, in the same way, causes a temporary increase of UFR. On the other hand, BSSB (50 mg/kg) induced a large reversible decrease of GFR as well as a decrease of urine excretion. Measurements of GFR (inulin clearance), renal plasma flow (PAH clearance) and urine excretion were taken in a group of patients with brain tumors in which boron disposition after an infusion of BSH (25 mg/kg b.w. over 1 h) had been studied. An increase in urine production was the dominant effect (up to 200% of the initial value), with the alterations of GFR and RPF being of minor significance except in one patient with a GFR reduction up to almost 50% the original value. Kidney function changes after BSH or BSSB administration are supposedly related to the high retention of BSH in kidney.
Subject(s)
Borohydrides/adverse effects , Boron Neutron Capture Therapy , Brain Neoplasms/radiotherapy , Diuretics/adverse effects , Glomerular Filtration Rate/drug effects , Sulfhydryl Compounds/adverse effects , Animals , Borates/pharmacology , Borohydrides/toxicity , Brain Neoplasms/blood , Brain Neoplasms/urine , Disulfides/pharmacology , Diuretics/toxicity , Female , Humans , Injections, Intravenous , Kidney Function Tests , Male , Pilot Projects , Rats , Rats, Wistar , Renal Circulation/drug effects , Sulfhydryl Compounds/toxicitySubject(s)
Brain Neoplasms/radiotherapy , Glioma/radiotherapy , Neutrons , Radiotherapy/methods , Boron/therapeutic use , Czechoslovakia , Humans , Isotopes , Nuclear ReactorsSubject(s)
Enkephalin, Methionine/blood , Pain/surgery , Electrocoagulation , Humans , Pain/blood , Pain/physiopathology , Spinal Cord/surgeryABSTRACT
Treatment with general anesthesia (neuroleptanalgesia) and deep hypothermia was performed on 8 patients suffering from epilepsy. The body temperature was decreased to 29 degrees C and the temperature in the brain ventricles to 16 degrees C. Somatosensory evoked potentials were recorded. Increase in latency of all waves was observed, and it was noted that the more distant the wave, the higher the increase in latency. Statistical values are given for N1, N2 and N3. A parallel decrease in the amplitudes of all components of the somatosensory evoked potential was also present.
