Ridaforolimus as a single agent in advanced endometrial cancer: results of a single-arm, phase 2 trial.

BACKGROUND: This open-label, multicentre, phase 2 trial evaluated the efficacy and tolerability of the mammalian target of rapamycin inhibitor ridaforolimus in women with advanced endometrial cancer. METHODS: Women with measurable recurrent or persistent endometrial cancer and documented disease progression were treated with ridaforolimus 12.5 mg intravenously once daily for 5 consecutive days every 2 weeks in a 4-week cycle. The primary end point was clinical benefit response, defined as an objective response or prolonged stable disease of 16 weeks or more. RESULTS: In all, 45 patients were treated with single-agent ridaforolimus. Clinical benefit was achieved by 13 patients (29%), including 5 (11%) with confirmed partial responses and 8 (18%) with prolonged stable disease. All patients with clinical benefit response received ridaforolimus for more than 4 months. In this heavily pretreated population, the 6-month progression-free survival was 18%. Ridaforolimus was generally well tolerated: adverse events were predictable and manageable, consistent with prior studies in other malignancies. Overall, the most common adverse events were diarrhoea (58%) and mouth sores (56%); most common grade 3 or higher adverse events were anaemia (27%) and hyperglycaemia (11%). CONCLUSION: Single-agent ridaforolimus has antitumor activity and acceptable tolerability in advanced endometrial cancer patients. Further clinical evaluation of ridaforolimus is warranted.

Phase I/IIa trial of the mammalian target of rapamycin inhibitor ridaforolimus (AP23573; MK-8669) administered orally in patients with refractory or advanced malignancies and sarcoma.

BACKGROUND: Ridaforolimus is an inhibitor of mTOR with evidence of antitumor activity in an I.V. formulation. This multicenter, open-label, 3 + 3 design nonrandomized, dose-escalation, phase I/IIa trial was conducted to determine the safety, pharmacokinetic (PK) and pharmacodynamic parameters, maximum tolerated dose, and antitumor activity of oral ridaforolimus. PATIENTS AND METHODS: Patients with metastatic or unresectable solid tumors refractory to therapy were eligible. Seven different continuous and intermittent dosing regimens were examined. RESULTS: One hundred and forty-seven patients were enrolled in this study among which 85 were patients with sarcoma. Stomatitis was the most common DLT observed. The dosing regimen, 40 mg QD × 5 days/week, provided the best combination of cumulative dose, dose density, and cumulative exposure, and was the recommended dosing regimen for subsequent clinical development. PK was nonlinear, with less than proportional increases in day-1 blood AUC0-∞ and Cmax, particularly with doses >40 mg. The terminal half-life estimate of ridaforolimus (QD × 5 40 mg) was 42.0 h, and the mean half-life ∼30-60 h. The clinical benefit rate, (complete response, partial response, or stable disease for ≥4 months was 24.5% for all patients and 27.1% for patients with sarcoma. CONCLUSION: Oral ridaforolimus had an acceptable safety profile and exhibited antitumor activity in patients with sarcoma and other malignancies. ClinicalTrials.gov Identifier NCT00112372.

Intraperitoneal chemotherapy with cisplatin and melphalan.

Cisplatin and melphalan given ip exert a synergistic therapeutic effect against ascitic P388 leukemia in mice and have different dose-limiting toxic effects as well as favorable pharmacokinetic characteristics in ip phase I studies. We gave a total of 98 courses of cisplatin (escalated from 40 to 120 mg/m2) and melphalan (escalated from 12 to 30 mg/m2) to 30 patients with ip tumors, most of whom had residual ovarian cancer following iv cisplatin-containing regimens. Treatment was delivered in 2 L of 0.9% NaCl through a Tenckhoff catheter with or without a Port-a-Cath system every 28 days for one to nine cycles. Myelosuppression was dose-related and leukopenia was dose-limiting. The maximum tolerated dose was 120 mg of cisplatin/m2 and 20 mg of melphalan/m2. With the exception of treatment-induced nausea and vomiting, nonhematologic toxic effects were mild and no (or very little) local toxicity occurred. Pharmacokinetic analyses showed that the areas under the peritoneal concentration versus time curve averaged 16-fold and 17-fold more than the area under the plasma curve for cisplatin and melphalan, respectively. Objective responses were documented by third-look laparotomy in ovarian cancer patients with minimal (less than 2 cm) residual disease.

Metabolism and disposition of menogaril (NSC 269148) in the rabbit.

We have investigated the metabolism and disposition, in rabbits, of menogaril (7-OMEN), a new anthracycline antibiotic recently introduced into clinical trials. 7-OMEN was administered by rapid i.v. injection at a dosage of 2.5 mg/kg. 7-OMEN and metabolites were assayed by high performance liquid chromatography. Plasma concentrations of 7-OMEN declined in biexponential fashion with a terminal half-life of 2.7 h. The area under the plasma concentration versus time curve was 1.3 microM X h. The systemic clearance of 7-OMEN was 57.6 ml/min/kg. No metabolite of 7-OMEN was detected in plasma. At 8 h after treatment, the cumulative urinary and biliary excretions of 7-OMEN equivalents amounted to 1.3 and 3.4% of the total administered dose, respectively. 7-OMEN was the predominant fluorescent compound in urine, but four metabolites were also seen. In bile, 7-OMEN represented only 9.6% of the cumulative excretion and six metabolites were observed. Among the organs, lungs contained the highest concentrations of parent drug. Substantial concentrations of metabolites were observed in the kidneys, liver, duodenum, and small intestine. Three of the observed metabolites of 7-OMEN have been tentatively identified as N-demethylmenogaril, 7-deoxynogarol, and N-demethyl-7-deoxynogarol.

Loss of fluorescence by anthracycline antibiotics: effects of xanthine oxidase and identification of the nonfluorescent metabolites.

Rat liver cytosol and buttermilk xanthine oxidase both converted 7-deoxypyrromycinone, the 7-deoxyaglycone of marcellomycin, a new anthracycline antibiotic, to a nonfluorescent compound under anaerobic conditions and in the presence of an electron donor. Reduced nicotinamide adenine dinucleotide and reduced nicotinamide adenine dinucleotide phosphate were equally effective electron donors for liver cytosol, and xanthine was the best cofactor for xanthine oxidase. However, xanthine was inactive with liver cytosol. Reactions with xanthine oxidase obeyed Menten-Michaelis kinetics and were inhibited by allopurinol. No xanthine oxidase activity was detected in liver cytosol. Xanthine oxidase also induced a loss of fluorescence when incubated with 7-deoxydaunorubicin aglycone. The nonfluorescent metabolite of 7-deoxypyrromycinone was tentatively identified as the dihydroquinonic derivative of the parent deoxyaglycone on the basis of its spectrophotometric, fluorescent, thin layer chromatographic, and mass spectral characteristics. Our data demonstrate that more than one enzymatic activity, xanthine oxidase, and an unidentified rat liver cytosolic enzyme convert the 7-deoxyaglycones of anthracycline antibiotics to nonfluorescent metabolites.

Comparative anthracycline metabolism in rats: loss of marcellomycin fluorescence.

The in vitro metabolism of marcellomycin by rat tissue fractions showed conversion of marcellomycin to 7-deoxypyrromycinone, bisanhydropyrromycinone, and an as yet unidentified compound by rat liver homogenate, microsomes, cytosol, and mitochondria, and purified hepatic reduced nicotinamide adenine dinucleotide phosphate-cytochrome P-450 reductase, under anaerobic conditions and in the presence of reduced nicotinamide adenine dinucleotide phosphate. All these fractions except the purified reductase subsequently induced a progressive loss of fluorescence. Mitochondria, however, were much less active than microsomes, cytosol, and homogenate in inducing this latter phenomenon. Marcellomycin was converted to 7-deoxyaglycones only partially by nuclei. No loss of fluorescence was observed with this subcellular fraction. No loss of fluorescence was observed when doxorubicin or daunorubicin were incubated under similar conditions. The appearance of a compound with distinct spectrophotometric properties was demonstrated by absorbance spectrometry. The formation of a compound with different fluorescent characteristics was excluded, as was the binding of the aglycones to subcellular components. The activity inducing the loss of fluorescence was studied in greater detail with cytosol. It predominated in the liver and required both an electron donor and anaerobic conditions. The optimal pH for the reaction was between 7.5 and 8.0. Our results suggest the existence of an enzymatic pathway capable of converting the fluorescent nucleus of marcellomycin to a nonfluorescent metabolite.

Phase I study of intravenous menogaril administered intermittently.

Thirty-three adult patients with solid tumors were treated with menogaril, a new anthracycline antibiotic. The drug was given as a two-hour infusion every 4 to 5 weeks at doses ranging from 17 to 250 mg/m2. The maximum tolerated dose was 250 mg/m2. Reversible and dose-related leukopenia was the dose-limiting toxicity. Thrombocytopenia was less frequent. Hematologic toxicity was maximal 2 weeks after treatment, and recovery usually occurred within 4 weeks. There was no dissociation between WBC and neutrophil counts, and myelosuppression did not appear to be cumulative up to 200 mg/m2. Myelosuppression was more severe for patients with heavy pretreatment and/or bone marrow involvement. Local toxicity consisting of phlebitis and/or erythema was the most common nonhematologic toxicity, especially at 250 mg/m2 (eight out of nine patients). Usually, erythema appeared within 24 hours after treatment at or near the infusion site and resolved within a few days. Occasionally, a more persistent (several weeks) orange discoloration suggesting cutaneous deposits of menogaril was observed. Nausea and vomiting were uncommon and never severe. Alopecia and mucositis were rare. Minor arrhythmias were seen in several patients during treatment, but their relationship with menogaril therapy was unclear, and in no patient did heart failure develop. Plasma concentrations were best described by a tricompartmental model with a mean terminal half-life of 29.5 hours and a mean total-body clearance of 20.2 L/h/m2. Doses of 160 and 200 mg/m2 are recommended for phase II trials in poor- and good-risk patients, respectively.

Validation of clinical predictive value of in vitro colorimetric chemosensitivity assay in head and neck cancer.

For chemosensitivity testing, a rapid in vitro colorimetric method (MTT assay) was used. Eleven head and neck cancer cell lines were investigated to distinguish five known active agents from five compounds inactive in phase II studies. Evaluation of the reliability of the assay for assessing drug sensitivity in this tumor cell population was done by correlating the in vitro results with reported in vivo response data. Methotrexate and cisplatin (clinically active) and vindesine and doxorubicin (less active clinically) were recognized in vitro as active and correlated well with clinical experience. Bleomycin (clinically active) was ineffective against some cell lines. The in vitro findings for the clinically inactive drugs (deoxyazacytidine, lomustine, and carmustine) also corresponded. Amsacrine and etoposide, contrary to clinical experience, showed activity in vitro. Further comparison of MTT assay results with clinical data is warranted and essential before its use in large-scale drug screening studies.

Comparative effect of cisplatin, spiroplatin, carboplatin and iproplatin in a human tumor clonogenic assay.

A modified double-layer Hamburger and Salmon cloning assay was used to test cisplatin and its analogs (spiroplatin, carboplatin and iproplatin) on fresh tumor samples from 63 patients with a variety of non-hematological malignancies. Among them were 18 breast cancers, 17 ovarian cancers and 7 of unknown primaries. Half the patients received prior chemotherapy. Cisplatin regimens were given in 16 cases. When possible, cells were exposed for 1 h to each drug in concentrations of 0.1 microgram/ml and 1.0 microgram/ml for cisplatin and spiroplatin, 1.0 microgram/ml and 10 micrograms/ml for carboplatin and iproplatin. A greater than or equal to 50% cell kill with at least one drug was found in 20 samples including 8 ovarian cancers, 3 breast cancers and 1 unknown primary. A greater than or equal to 70% cell kill was seen in 2 samples with cisplatin, 3 with spiroplatin and carboplatin, and 6 with iproplatin. There was only partial cross-resistance between cisplatin and its analogs. Among 57 paired comparisons of cisplatin with spiroplatin, 2 showed drug sensitivity to cisplatin alone, 6 to spiroplatin alone, and 6 to both. The same sort of observation was made with carboplatin. The lack of cross-resistance between cisplatin and iproplatin was particularly striking: among 53 pairs, 6 were sensitive to cisplatin alone, 8 to iproplatin alone, and 2 to both. About 20% of the samples that were resistant to cisplatin were sensitive to iproplatin. Our data show hints of activity in breast and ovarian cancers with all analogs and suggest that they will achieve clinical antitumor activity similar to that they will achieve clinical antitumor activity similar to that of cisplatin. The in vitro evidence of incomplete cross-resistance between cisplatin and its analogs should be investigated further.

In vitro chemosensitivity of brain tumors to cisplatin and its analogues, iproplatin and carboplatin.

The human tumor stem-cell assay was used to investigate the in vitro chemosensitivity of 27 evaluable samples to cisplatin and its analogues, iproplatin and carboplatin, as well as to BCNU, teniposide, vindesine, and dibromodulcitol. All agents exhibited some antitumor activity with the exception of dibromodulcitol (zero response out of 19 evaluable samples). Vindesine, BCNU, and carboplatin were the three most active compounds, with response rates of 29%, 23%, and 22%, respectively. There was a lack of complete cross-resistance between carboplatin and cisplatin as well as between carboplatin and BCNU. Our data suggest that clinical studies with carboplatin and combinations of vindesine plus cisplatin and its analogues may be worthwhile.

Human pharmacokinetics of marcellomycin.

In conjunction with two phase I clinical trials, we have investigated the pharmacokinetics of marcellomycin (MCM), a new class II anthracycline antibiotic, in nine patients with normal renal and hepatic functions and no third-space fluid accumulation. MCM was infused IV over 15 min at a dosage of 27.5, 40, or 50 mg/m2. Plasma and urine samples were collected up to 72 h. MCM and metabolites were assayed by thin-layer chromatography and quantified by specific fluorescence. The disappearance of total MCM-derived fluorescence from plasma followed first-order kinetics and lacked the rebound in total fluorescence that has been described for the structurally similar agent, aclacinomycin A. After 40-50 mg/m2, the peak MCM concentration in plasma was 1.67 +/- 0.61 microM; MCM disappeared from plasma in a triexponential fashion and was undetectable by 48 h after infusion. The area under the plasma concentration-time plot (AUC), including the infusion time, was 1.11 +/- 0.39 microM X h; plasma clearance of MCM was 1.50 +/- 0.88 l/min/m2. Five other fluorescent compounds were consistently observed in plasma. M2 was a contaminant present in the parent drug. P1 and P2 were conjugates of MCM and M2, respectively. G1 and G2 were aglycones. The peak concentrations of the metabolites were 25% or less or the peak concentration for MCM, but their persistence resulted in higher AUCs than that for MCM. For the dosage of 27.5 mg/m2, fewer data were available; but the pharmacokinetics of MCM and metabolites appeared to be similar to that at higher dosage. Urinary excretion of total fluorescence amounted to 8.0% +/- 1.6% of the total dose at 40-50 mg/m2, and to 7.0% +/- 2.3% at 27.5 mg/m2. No correlation was detected among the various pharmacokinetic parameters and toxicities encountered in these patients.

Comparative murine metabolism and disposition of class II anthracycline antibiotics.

The metabolism and tissue distribution of aclacinomycin A (ACL), marcellomycin (MCM), and musettamycin (MST), three new anthracycline antibiotics, were compared after IV administration to mice. In plasma, total MCM- and ACL-derived fluorescence declined according to first-order kinetics, whereas an initial decline followed by a rebound was observed for MST. In plasma, MCM remained the predominant compound. ACL was eliminated more quickly, and was replaced by two metabolites, the reduced glycoside M1, and an aglycone. In the case of MST, two unidentified metabolites were observed in concentrations equivalent to that of the parent drug. The three drugs were distributed widely to organs, but only ACL achieved measurable concentrations in the brain. Initially, high concentrations of all three drugs were present in the lungs, but these decreased quickly to values similar to those present in the liver and kidneys. Intermediate concentrations of the three drugs were measured in heart and skeletal muscle. Splenic concentrations of all three drugs rose progressively, reaching a maximum at 8 h after injection in the case of ACL and MST, and at 24 h after injection in the case of MCM. Concentrations of the metabolites of MCM and MST were low in all organs except liver and kidney, where the aglycones 7-deoxypyrromycinone and bisanhydropyrromycinone were seen. The metabolism of ACL was extensive. Aglycones were dominant in the liver and kidneys, whereas reduced glycosides predominated in the spleen. These observations indicate that the murine pharmacology of these three structurally similar drugs differs markedly.

Phase I study of Brequinar sodium (NSC 368390) in patients with solid malignancies.

Brequinar sodium (DUP 785, NSC 368390) is a novel quinoline-carboxylic acid derivative that has been selected for clinical evaluation because of its broad spectrum of antitumor activity in animal models and its novel chemical structure. This compound inhibits the mitochondrial enzyme dihydroorotate dehydrogenase (DHO-DH), which catalyzes the conversion of dihydroorotate to orotate, leading to a blockage in the pyrimidine de novo biosynthesis. A total of 43 patients received 110 courses of Brequinar sodium by short-term intravenous (i.v.) infusion, which was repeated every 3 weeks. Dose escalation was initially based on a modified Fibonacci scheme. After pharmacokinetic data from mice and man became available, a pharmacologically guided dose escalation was used; at toxic levels, dose escalation was applied on the basis of clinical judgement. The dose-limiting toxicities were myelosuppression, mucositis, skin rash, nausea and vomiting. The maximum tolerable doses for poor- and good-risk patients were 1,500 and 2,250 mg/m2, respectively. One mixed response was observed in a patient with papillary carcinoma of the thyroid. The recommended doses for phase II studies are 1,200 and 1,800 mg/m2 Brequinar sodium, given by a 1-h i.v. infusion every 3 weeks to poor- and good-risk patients, respectively.

Neoadjuvant chemotherapy with cisplatin, methotrexate, bleomycin and vincristine (CABO) in patients with stage III and IV squamous cell carcinoma of the head and neck.

Forty-six patients with Stage III-IV previously untreated squamous cell carcinoma of the head and neck were treated with neoadjuvant chemotherapy with cisplatin, methotrexate, bleomycin and vincristine. The overall response rate was 70%, with a 9% complete response rate. The most frequent side effects were myelosuppression, nausea and vomiting, alopecia, neurotoxicity and stomatitis. Definitive local therapy consisted of surgery alone in 13 cases, surgery plus radiation in another 13, and radiotherapy alone in 14. Six patients, four of whom died, received no definitive local therapy and two were lost to follow-up. The median disease-free survival time was 10.5 months, and the most frequent cause of failure was local regional relapse (85%). Median survival time was 13 months and there were eight long-term survivals (median 48 months). Response to chemotherapy was independent of all analysed prognostic factors. Disease-free survival and survival were significantly influenced by the presence or absence of lymph nodes. Our results do not support the routine use of neoadjuvant chemotherapy with cisplatin, methotrexate, bleomycin, and vincristine in patients with advanced cell carcinoma of the head and neck.

Validation of the clinical predictive values of the in vitro phase II clonogenic assay in cancer of the breast and ovary.

The in vitro evaluation of new antineoplastic agents has been advocated as a method of selecting drugs for Phase I-II trials in patients. This paper is an attempt to validate, in an unbiased manner, the so-called in vitro Phase II clonogenic assay with regard to its predictive power in the clinic. Breast and ovarian cancer were chosen because of the relatively large number of drugs clinically evaluated for these diseases; 298 patients were studied. For metastatic breast cancer 12 drugs, six clinically active and six inactive, were tested. It was found that in patients without prior chemotherapy, there is an association between results in vitro and in vivo. In metastatic ovarian cancer, 11 drugs, four of which are known to be clinically inactive, were studied. The same positive association was seen for patients without prior chemotherapy. The implications of these findings are discussed.

Phase I trials of single agents in adult solid tumours: preclinical and clinical aspects.

Considerable progress has been made in the treatment of cancer. However, there is still a need for new drug development. The preclinical antitumour activity of new anticancer agents is evaluated by sequential testing in murine tumours and human xenografts in mice. More recently, the human tumour stem cell assay has been introduced into the preclinical screen. Toxicology studies are done in animals in order to characterize qualitatively and quantitatively the side effects of the new compounds. These toxicology studies allow an appropriate starting dose to be selected for clinical trials. Most commonly, the starting dose for clinical trials corresponds to 1/10 of the dose that will induce a 10% lethality in the mouse (LD10), if that dose is tolerated by the dog. The escalation scheme for clinical trials must be a compromise between the safety of the patient and quickly reaching biologically active doses. This may be achieved by using the so-called modified Fibonacci scheme. A slightly more rapid alternative is to increase the dose by 100% until the equivalent of the LD10 in the mouse is reached, and then by 50% until toxic effects are observed. Further dose increases depend on the type and severity of these toxic side-effects. Patients included in phase I clinical trials of anticancer agents must have histologically proven malignant disease that cannot be treated by conventional therapeutic modalities. They should have normal haematological, renal and hepatic functions and should be expected to live long enough to evaluate properly the toxic effects of the new compounds.(ABSTRACT TRUNCATED AT 250 WORDS)

[Diagnosis and treatment of unknown primary tumors]. / Mise au point diagnostique et thérapeutique des tumeurs de site primitif inconnu.

Cancers of unknown origin represent approximately 5% of all cancers and are therefore as frequent as some solid tumors such as gastric or pancreatic cancers. The diagnosis of cancer of unknown origin should be based on a detailed pathological examination including immunohistochemical techniques and electron microscopy; hormonal receptors should also be measured. Besides detailed medical history and physical examination, only a few additional tests should be carried out: routine chemistry including the assay of HCG, alphafoetoprotein and specific antigen of the prostate, chest X-ray, thyroid scan, mammography and abdominal CT scan. Other tests are generally not of sufficient specificity and sensitivity. Unknown primary tumors arising in the cervical area are frequently squamous cell carcinomas corresponding to occult primary tumors of the upper aerodigestive mucosae and are efficiently treated by cervicofacial radiotherapy or lymph node dissection. Women presenting with axillary lymph nodes with no obvious primary tumor should be treated according to the guidelines used for breast cancer. The patients with inguinal lymph nodes of unknown origin are usually treated with radiation therapy. The syndrome of germinal tumors of extragonadic origin corresponds to cases of undifferentiated or poorly differentiated carcinomas in patients under 50 years of age and with one of the following characteristics: involvement of the median organs, lung involvement, lymph node involvement or increase of alphafoetoprotein or HCG. The therapeutic approach recommended for these patients consists of the chemotherapeutic combination used for testicular cancer. For all other patients, the prognosis remains poor. Patients with local symptoms may be treated by radiation therapy; others may receive a combination of fluorouracil, doxorubicin and mitomycin.

A phase I trial of oral ridaforolimus (AP23573; MK-8669) in combination with bevacizumab for patients with advanced cancers.

AIMS: This phase I dose-escalation study was designed to evaluate the combination of the mammalian target of rapamycin inhibitor ridaforolimus with the vascular endothelial growth factor inhibitor bevacizumab. MATERIALS AND METHODS: Seventeen adult patients with refractory advanced solid tumours received oral ridaforolimus (30 or 40 mg) once daily for 5 days per week (QDx5/wk) combined with intravenous bevacizumab (10 mg/kg every 2 weeks [Q2wk] or 15 mg/kg every 3 weeks [Q3wk]). Patients were evaluated for dose-limiting toxicities, safety and anti-tumour activity. RESULTS: A 40 mg dose of ridaforolimus with either bevacizumab dosing schedule was the recommended phase II dose. No dose-limiting toxicities were reported; the most common drug-related adverse events were mucosal inflammation and anorexia. Seven patients, with clinical features that included primary tumour of the abdominal origin (colorectal, pancreatic or gynaecological cancers) and previous abdominal radiotherapy, reported serious adverse events related to bowel perforations. There were no objective responses, but 65% of patients had a best response of stable disease. CONCLUSION: Oral ridaforolimus (40 mg QDx5/wk) is feasible to combine with standard doses of bevacizumab, although careful patient selection would be needed to mitigate the risk of bowel perforation-related adverse events. Combination therapy produced prolonged stable disease in several heavily pretreated patients.

Comparison of pharmacokinetics and bactericidal activity of teicoplanin and vancomycin.

Teicoplanin (0.2 g) or vancomycin (1 g) were infused over 3 and 50 min respectively to six male volunteers in a cross-over study. Each drug was administered twice at a 14 h interval. The pharmacokinetics of both drugs were accurately described using a two-compartment model. Vancomycin had a shorter half-life (5.8 +/- 1.8 h) compared to teicoplainin (33.2 +/- 5.1 h; P less than 0.001). One hour serum was tested for serum bactericidal activity against ten strains each of Staphylococcus aureus (median serum bactericidal activity 1:16 for teicoplanin; 1:32 for vancomycin), Staph. epidermidis (1:32 for teicoplanin and for vancomycin) and Streptococcus faecalis (1:2 for both drugs). Serum killing rate studies showed a slower rate of killing of Staph. aureus with teicoplanin (less than 1 log10 cfu/ml over 6 h) than with vancomycin (4 log10 cfu/ml over 6 h).

Dose-ranging, placebo-controlled study of cetirizine nasal spray in adults with perennial allergic rhinitis.

A total of 360 patients with perennial allergic rhinitis were randomized in a placebo-controlled, dose-finding study comparing three concentrations (0.06%, 0.125%, and 0.25%) of a cetirizine nasal spray, administered three times a day for 2 weeks. The primary criterion of efficacy was the percentage of days with no or only mild symptoms of rhinitis (PDMax1), as evaluated by the patients. The median PDMax1 were 16.7%, 30.8%, 42.9%, and 26.7% for the placebo, 0.06%, 0.125%, and 0.25% groups, respectively. Although the global comparison among the four groups only approached statistical significance (P = 0.076), the difference (26.2%) between the placebo and 0.125% groups was clinically and statistically significant (P = 0.011). For the global evaluation by the investigator, the best results were seen in the 0.125% group (P = 0.03). The occurrence of adverse events did not differ among the four treatment groups and consisted mainly of nasal events, occurring in 22.5%, 17.1%, 12.9%, and 24.4% of the patients for the placebo, 0.06%, 0.125%, and 0.25% groups, respectively (P = 0.184). These results indicate that the 0.125% concentration is significantly better than placebo and offers the best therapeutic ratio.