Purpose. The goal of this study was to evaluate the ability of nanoparticles to be used as a targeted delivery system for oligonucleotides. Methods. Pharmacokinetic and tissue distribution were carried out in mice by measuring the radioactivity associated to the model oligothymidylate 33P-pdT16 loaded to poly(isobutylcyanoacryrate) (PIBCA) nanoparticles. In addition, we have used a TLC linear analyzer to measure quantitatively on a polyacrylamide gel electrophoresis, the amount of non degraded pdT16Results. Organ distribution study has shown that nanoparticles deliver 33P-pdT16 specifically to the liver reducing its distribution in the kidney and in the bone marrow. Nanoparticles could partially protect pdT16 against degradation in the plasma and in the liver 5 min after administration, whereas free oligonucleotide was totally degraded at the same time. Conclusions. Nanoparticles protect oligonucleotides in vivo against degradation and deliver them to the liver. 相似文献
The value of sonography in the diagnosis of renal masses in a series of 119 consecutive histologically confirmed cases is presented. Sonography correctly identified 92% of the cystic and 90% of the solid renal masses. Causes of incorrect diagnoses included lesions smaller than 2 cm, masses in the left upper pole, diffusely infiltrating urothelial tumors, echogenic fatty lesions (early in our experience), and acute abscesses and hematomas. Angiography in the same series of cases correctly diagnosed 80% of the cystic and 88% of the solid renal masses. Avascular lesions were the main cause for equivocal or incorrect angiographic diagnoses. We conclude that sonography is more definitive than angiography in the diagnosis of avascular masses, while angiography excels when the lesion is vascular or small. Combining the sonographic and angiographic findings allowed accurate diagnosis in over 99% of the cases. 相似文献
Summary Previous studies have shown that a low dose of the alkylating compound N-ethoxycarbonyl-2-ethoxy1,2-dihydroquinoline (EEDQ) reduces the density of 2-adrenoceptors in rat cerebral cortex and antagonizes the effects of an 2-adrenoceptor agonist on noradrenaline release in rat cortical slices. In the present study, a corresponding dose of EEDQ (1 mg/kg, s. c., 24 h) was shown to reduce the effect of the 2-adrenoceptor agonists clonidine and guanfacine on noradrenaline turnover in rat brain while not affecting the inhibitory effect of clonidine on locus coeruleus (LC) cell firing. When considerably higher doses of EEDQ were administered (10 and 20 mg/kg, s. c., 24 h) not only the biochemical but also the electrophysiological effects of clonidine were markedly reduced (or even reversed). The data support the notion that EEDQ decreases the responsiveness of brain 2-adrenergic receptors; moreover, they indicate that 2-adrenoceptors regulating LC activity are characterized by a larger receptor reserve or are less sensitive to the influence of alkylation than are the population of 2-adrenoceptors regulating noradrenaline utilization.
Send offprint requests to G. Engberg, at the above address 相似文献
The treatment of infections caused by obligate or facultative intracellular microorganisms is difficult because most of the available antibiotics have either poor intracellular diffusion and retention or reduced activity at the acidic pH of the lysosomes. The need for antibiotics with greater intracellular efficacy led to the development of endocytosable drug carriers, such as liposomes and nanoparticles, which mimic the entry path of the bacteria by penetrating the cells into phagosomes or lysosomes. This Review assesses the potential of liposomes and nanoparticles in the targeted antibiotic therapy of intracellular bacterial infections and diseases and the pharmaceutical advantages and limitations of these submicron delivery systems. 相似文献
Summary Cyclophosphamide demonstrates enhanced tumoricidal activity with decreased bone marrow toxicity when given on a divided-dose schedule in certain animal models. A total of 22 patients presenting with refractory metastatic cancer were treated in a phase I trial of continuous infusion of cyclophosphamide over 96 h. Granulocytopenia of <500/l that lasted for > 14 days or thrombocytopenia of <25,000/l that lasted for > 14 days was the target dose-limiting toxicity in the absence of nonhematologic grade 4 toxicity. The maximal tolerated dose was 7 g/m2. Three patients died. Of 21 evaluable patients, 9 responded, including 8/9 who had experienced disease progression during prior oxazaphosphorine-containing combination chemotherapy. Clinically meaningful responses were observed in patients who had demonstrated clinical resistance to an oxazaphosphorine drug given at lower doses.Supported in part by U.S. Public Health Service grant P01CA-38493 and by a grant from the Mather's Foundation. Two of the authors (J. P. E. and A. D. E.) are recipients of Career Development awards from the American Cancer Society, and one (T. C. S.) is a recipient of a Faculty Development Award from the Pharmaceutical Manufacturer's Association Foundation 相似文献
: Accelerated fractionation was used to shorten overall treatment time to increase locoregional control and cause-specific survival.
: Eighty-eight patients with cancer of the esophagus ineligible for surgery were entered in the study between 1986 and 1993. Neoadjuvant chemotherapy was given to 64% of patients. Accelerated radiotherapy using the concomitant boost technique delivered a median dose of 65 Gy in a median overall treatment time of 32 days.
: The 3-year acturial local control rate in patients with T1, T2, and T3 tumors was 71%, 42%,and 33%, respectively. The 3-year cause-specific survival rates were 40%, 22%, and 6%, respectively. Sixteen percent of patients experienced Grafe 3 esophagitis. Late toxicity included esophageal stenosis and pulmonary fibrosis in 8% and 9% of the patients, respectively. Multivariate analysis demonstrated that T stage and overall treatment time were prognostic factors for cause-specific survival. T stage and neoadjuvant chemotherapy were independent prognostic factors for locoregional control.
: These findings suggest that accelerated giben in an overall treatment time of <35 days might be beneficial for easy-stage cancer of the esophagus. Neoadjuvant chemotherapy is not recommended, as it was a significant adverse prognostic factor in the multivariate analysis for local control. Accelerated fractionation can be carried out with modeate acure and late toxicity. 相似文献
Most therapeutic peptides and proteins are administered via the parenteral route, which presents numerous drawbacks and limitations. To overcome these drawbacks, alternative administration routes, such as oral or mucosal routes, have been investigated. The oral route presents a series of attractive advantages for the administration of therapeutic compounds, such as the avoidance of the pain and discomfort associated with injections, good patient compliance, and being less expensive to produce. However, oral administration of peptides, proteins, or nucleic acids also presents several difficulties because of their instability in the upper gastrointestinal (GI) tract and their poor transport across biologic membranes. Among the various approaches developed to improve the oral delivery of peptides, proteins, or nucleic acids, specific delivery to the colon has attracted a lot of interest because of its potential for the local treatment of colonic diseases, systemic delivery of poorly absorbed drugs, and vaccine delivery. Numerous pharmaceutical approaches described in this review have been exploited for the development of colon-targeted drug delivery systems using various concepts, such as pH-dependent, time-dependent, pressure-controlled, or bacterially triggered delivery systems. The action of the pH-dependent delivery systems is based on pH differences between the stomach and the ileum. Time-dependent delivery systems are based on the transit time of pharmaceutical dosage forms in the GI tract, drug release being delayed until they reach the colon. A combination of pH- and time-dependent delivery systems has also been described to avoid the drawbacks of both strategies. The pressure-controlled delivery concept exploits the physiologic luminal pressure of the colon as the driving force for site-specific delivery of drugs. Finally, bacterially triggered delivery systems exploit the enormous diversity of enzymatic activity associated with the colonic microflora. Bacterially triggered delivery systems are generally composed of polymers, which are specifically degraded by colonic enzymes of microbial origin. These polymers have been used to form prodrugs with the drug moiety, as coating materials for the drug core, or as embedding media to entrap the drug into matrix or hydrogel systems. Each of these concepts has advantages and limitations. They present varied colonic specificity and, among them, bacterially triggered delivery systems in particular show the greatest potential for colonic delivery of peptides, proteins, and nucleic acids. 相似文献