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1.
Silver M Rusk A Phillips B Beck E Jankowski M Philibert J Hahn K Hershey E McKeegan E Bauch J Krivoshik A Khanna C 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2012,26(2):349-354
Background
ABT‐751 is a novel orally available antimitotic agent that targets microtubule polymerization. This mechanism may suggest potential activity in canine lymphoma.Objective
Determine a maximum tolerated dose for ABT‐751, and assess long‐term tolerability and activity in canine lymphoma.Animals
Thirty dogs with newly diagnosed (n = 19) or relapsed (n = 11) non‐Hodgkin's lymphoma.Methods
Dogs (n = 11) were enrolled in a rapid dose escalation study to define the maximum tolerated dose. Upon definition of a maximally tolerated dose, a cohort expansion of 19 dogs allowed verification of long‐term tolerability and assessment of activity. Study endpoints in the cohort expansion included chronic tolerability, response rate, response duration, and time to progression. Additional endpoints included serum pharmacokinetics, lymph node drug concentrations, and changes in circulating endothelial cells.Results
The maximum tolerated dose of ABT‐751 was 350 mg/m2 PO q24h. Dose‐limiting toxicities included vomiting and diarrhea, which resolved with a schedule adjustment to 350 mg/m2 PO q48h. ABT‐751 was consistently detected in lymphoma tissue samples from dogs treated at or above the maximum tolerated dose. In the cohort expansion, objective responses were seen in 3/15 (20%) dogs with a response duration ranging from 21 to 111 days. Decreases in circulating endothelial cells were seen in 10 dogs at day 7 (2 responding dogs and 8 nonresponding dogs).Conclusion
ABT‐751 was well tolerated at 350 mg/m2 PO q24h for 7 days and then q48h thereafter. Activity of ABT‐751 suggested a rationale for additional studies of ABT‐751 as part of a combination chemotherapy protocol for lymphoma or other canine cancers. 相似文献2.
Safety evaluation of combination CCNU and continuous toceranib phosphate (Palladia®) in tumour‐bearing dogs: a phase I dose‐finding study 
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下载免费PDF全文 While maintaining a standard toceranib dosage [2.75 mg kg?1, PO, every other day (EOD)], three dose‐escalating CCNU cohorts up to and including 60 mg m?2, PO, q3wk, were completed. The dose‐limiting toxicities (DLT) for the combination were neutropenia and the maximum tolerated dose (MTD) for CCNU when given with continuous toceranib was determined to be 50 mg m?2, q3wk. While activity is not a primary objective of phase I trials, we observed one complete (lymphoma) and four partial responses (lymphoma, sarcoma, undifferentiated carcinoma and prostatic carcinoma) and two dogs experienced stable disease for >6 weeks [gastric adenocarcinoma and metastatic multilobulated osteochondrosarcoma (MLO)] for an objective response rate of 38.4% and a biological response rate of 53.8%. Concurrent continuous toceranib (2.75 mg kg?1, EOD) and pulse dose CCNU (50 mg m?2, q3wk) was well tolerated. Phase II effectiveness and phase III prospective randomized trials should further interrogate the potential activity of this combination. 相似文献
3.
D.B. Bailey K.M. Rassnick O. Kristal J.D. Chretin C.E. Balkman 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2008,22(6):1397-1402
Background: Vinblastine (VBL) is commonly used in dogs at a dosage of 2.0 mg/m2. The minimal toxicity observed at this dosage indicates that higher dosages might be well tolerated. Hypothesis: The maximum tolerated dosage (MTD) for a single VBL treatment is higher than the previously published dosage of 2.0 mg/m2. Animals: Twenty‐three dogs with lymphoma or cutaneous mast cell tumors. Methods: Dogs received 1 single‐agent VBL treatment IV. The starting dosage was 3.0 mg/m2, and dosages were increased in increments of 0.5 mg/m2 in cohorts of 3 dogs. Hematologic toxicity was assessed with weekly CBCs. Gastrointestinal toxicity was assessed from medical histories from owners. Once the MTD was determined, additional dogs were treated with VBL at that dosage. Dogs whose cancers responded to VBL continued to receive treatments q2–3 weeks. Results: VBL dosages ranged from 3.0 to 4.0 mg/m2. Neutropenia was the dose‐limiting toxicity, with the nadir identified 7 days after treatment and resolving by 14 days after treatment. The MTD was 3.5 mg/m2. Sixteen dogs were treated at this dosage, and 3 experienced severe toxicity characterized by asymptomatic grade 4 neutropenia, febrile grade 4 neutropenia, and death. Gastrointestinal toxicity was mild and self‐limiting. Preliminary evidence of antitumor activity was identified in 2 of 12 dogs with lymphoma treated at the MTD. Conclusions and Clinical Importance: In dogs, single‐agent VBL is well tolerated at a dosage of 3.5 mg/m2 IV. At this dosage, the minimum safe treatment interval is q2 weeks, and adjunct treatment with prophylactic antibiotics should be considered. 相似文献
4.
Safety evaluation of combination carboplatin and toceranib phosphate (Palladia) in tumour‐bearing dogs: A phase I dose finding study 下载免费PDF全文
下载免费PDF全文 Combining conventional cytotoxic maximum tolerated dose (MTD) chemotherapy with low‐dose metronomic and/or anti‐angiogenic agents is a exciting area of oncologic research. The objective of this study was to establish the MTD, safety and adverse event (AE) profile of 1 such drug combination. This prospective phase I dose‐finding clinical trial assumed an open‐label 3 + 3 cohort design. Client‐owned dogs with 1 or more cytologically and/or histologically confirmed and macroscopically measurable, naive or recurrent, malignant tumours, were enrolled. No preference for tumour histology, grade or stage was expressed. Toceranib was administered at a dose of 2.75 mg kg?1 by mouth (PO) every other day (EOD), and carboplatin administered intravenously (IV) every 21 days at a starting dose of 200 mg m?2. A total of 25% dose escalation was proposed for carboplatin, to a maximum of 300 mg m?2. AEs were graded according to the Veterinary Cooperative Oncology Group's common terminology criteria for AEs (VCOG‐CTCAE). Grade 3 haematologic or gastrointestinal AEs were nominated dose‐limiting. Response to therapy was evaluated according to the VCOG's revised RECIST criteria. Eleven dogs were enrolled. Tumour histologies included sinonasal carcinoma, osteosarcoma, thyroid carcinoma, melanoma and apocrine gland anal sac adenocarcinoma. MTDs of carboplatin and toceranib were identified as 200 mg m?2 IV every 21 days and approximately 2.75 mg kg?1 PO EOD, respectively. The dose‐limiting toxicity was neutropenia. Two dogs experienced a partial response, and 6 maintained stable disease. Combination carboplatin and toceranib chemotherapy was well‐tolerated. Clinical benefit was observed in most cases. This protocol warrants further investigation in phase II/III trials. 相似文献
5.
Safety,tolerability and pharmacokinetic properties of the novel triazene TriN 2755 in tumour bearing dogs – a phase I study† 下载免费PDF全文
下载免费PDF全文 I. Athanasiadi C. Geigy R. A. Hilger V. Meier C. Rohrer Bley 《Veterinary and comparative oncology》2017,15(1):94-104
TriN 2755 is an alkylating antineoplastic agent for intravenous (IV) use, carrying the triazene group as the cytotoxic principal. Using a standard 3 + 3 design, a phase I study was performed in tumour bearing dogs to determine the maximum tolerated dose (MTD), the dose limiting toxicity (DLT), and pharmacokinetic (PK) profile of TriN 2755. Thirty dogs were included in the study. TriN 2755 was administered over 20 min on two consecutive weeks per month for a total of three cycles. The starting dose was 25 mg kg?1 and the MTD was 74.6 mg kg?1. Three dogs experienced DLT, which was characterized by gastrointestinal adverse events. The PKs of TriN 2755 and its main metabolites in plasma and sputum are described in a two‐compartment model. The response rate for 19 of 30 dogs was 47.3% (six partial remission, three stable disease) and the median progression‐free interval (PFI) for the responders was 47 days (range: 21–450 days). 相似文献
6.
Kisseberth WC Vail DM Yaissle J Jeglum KA Couto CG Ward H Khanna C Obradovich JE 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2008,22(1):83-88
BACKGROUND: The dosage of carboplatin in cats has been reported anecdotally and experimentally in non-tumor-bearing cats, but the dosage for carboplatin treatment in tumor-bearing cats has yet to be defined in a prospective clinical trial. PURPOSE: To determine the maximally tolerated dose (MTD) and dose-limiting toxicosis (DLT) of carboplatin in tumor-bearing cats. CATS: Fifty-nine cats with measurable solid tumors. METHODS: The starting dose of carboplatin was 160 mg/m(2) of body surface area IV. Doses were increased by 20 mg/m(2) in cohorts of 3-14 cats until the MTD was reached. RESULTS: The 59 cats entered into this multi-institutional phase I study received 1 or more doses of carboplatin at various dosages and were evaluated for toxicity, response to treatment, or both. The MTD was 240 mg/m(2) and neutropenia was the DLT. For the 1st cycle of treatment in 44 cats evaluated for neutropenia, 6 episodes of grade 3 or greater neutropenia occurred on days 7 (n=1), 14 (n=4), and 21 (n=1). There was no evidence of drug-induced nephrotoxicosis or pulmonary edema. Preliminary evidence of antitumor activity was observed in 7 of 59 (11.9%; 95% CI, 5.6-22.8%) cats evaluated for response to treatment. There was 1 complete response (cutaneous hemangiosarcoma) and 6 partial responses (4 injection site sarcomas, 1 oral squamous cell carcinoma, 1 lymphoma). Responses were of short duration (median, 42 days; range, 7-168 days). CONCLUSIONS AND CLINICAL IMPORTANCE: The dose of carboplatin recommended to treat tumor-bearing cats is 240 mg/m(2) IV every 3-4 weeks. 相似文献
7.
Evaluation of cisplatin combined with piroxicam for the treatment of oral malignant melanoma and oral squamous cell carcinoma in dogs 总被引:1,自引:0,他引:1
Boria PA Murry DJ Bennett PF Glickman NW Snyder PW Merkel BL Schlittler DL Mutsaers AJ Thomas RM Knapp DW 《Journal of the American Veterinary Medical Association》2004,224(3):388-394
OBJECTIVE: To determine the maximum tolerated dose (MTD) of cisplatin administered with piroxicam, the antitumor activity and toxicity of cisplatin combined with piroxicam in dogs with oral malignant melanoma (OMM) and oral squamous cell carcinoma (SCC), and the effects of piroxicam on the pharmacokinetics of cisplatin in dogs with tumors. DESIGN: Prospective nonrandomized clinical trial. ANIMALS: 25 dogs. PROCEDURE: Dogs were treated with a combination of cisplatin (escalating dose with 6 hours of diuresis with saline [0.9% NaCI] solution) and piroxicam (0.3 mg/kg 10.14 mg/lb], PO, q 24 h).The initial cisplatin dose (50 mg/m2) was increased by 5 mg/m2 until the MTD was reached. Tumor stage and size were determined at 6-week intervals during treatment. The pharmacokinetics of cisplatin were determined in dogs receiving a combination of cisplatin and piroxicam during the clinical trial and dogs that were treated with cisplatin alone. RESULTS: 11 dogs with OMM and 9 dogs with SCC were included in the clinical trial. The MTD of cisplatin when administered in combination with piroxicam was 50 mg/m2. Tumor remission occurred in 5 of 9 dogs with SCC and 2 of 11 dogs with OMM. The most common abnormality observed was renal toxicosis. Clearance of cisplatin in dogs that were treated with cisplatin alone was not significantly different from that in dogs treated with a combination of cisplatin and piroxicam. CONCLUSIONS AND CLINICAL RELEVANCE: Cisplatin administered in combination with piroxicam had antitumor activity against OMM and SCC. The level of toxicity was acceptable, although renal function must be monitored carefully. 相似文献
8.
Pharmacokinetics of cyclophosphamide after oral and intravenous administration to dogs with lymphoma
Warry E Hansen RJ Gustafson DL Lana SE 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2011,25(4):903-908
Background: Cyclophosphamide is an alkylating chemotherapeutic drug administered IV or PO. It is currently assumed that exposure to the active metabolite, 4‐hydroxycyclophosphamide (4‐OHCP), is the same with either route of administration.
Objectives:
To characterize the pharmacokinetics of cyclophosphamide and 4‐OHCP in dogs with lymphoma when administered PO or IV. Animals: Sixteen client‐owned dogs with substage A lymphoma were enrolled in the study. Eight dogs received cyclophosphamide IV and 8 received it PO. Methods: Prospective randomized clinical trial was performed. Blood was collected from each dog at specific time points after administration of cyclophosphamide. The serum was evaluated for the concentration of cyclophosphamide and 4‐OHCP with mass spectrometry and liquid chromatography. Results: Drug exposure to cyclophosphamide measured by area under the curve (AUC)0–inf is significantly higher after intravenous administration (7.14 ± 3.77 μg/h/mL) compared with exposure after oral administration (P‐value < .05). No difference in drug exposure to 4‐OHCP was detected after IV (1.66 ± 0.36 μg/h/mL) or PO (1.42 ± 0.64 μg/h/mL) administered cyclophosphamide. Conclusions and Clinical Importance: Drug exposure to the active metabolite 4‐OHCP is equivalent after administration of cyclophosphamide either PO or IV. 相似文献9.
A. Dudley J. Thomason S. Fritz J. Grady J. Stokes R. Wills L. Pinchuk A. Mackin K. Lunsford 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2013,27(1):141-149
Background
Low‐dose aspirin is used to prevent thromboembolic complications in dogs, but some animals are nonresponsive to the antiplatelet effects of aspirin (“aspirin resistance”).Hypothesis/Objectives
That low‐dose aspirin would inhibit platelet function, decrease thromboxane synthesis, and alter platelet cyclooxygenase (COX) expression.Animals
Twenty‐four healthy dogs.Methods
A repeated measures study. Platelet function (PFA‐100 closure time, collagen/epinephrine), platelet COX‐1 and COX‐2 expression, and urine 11‐dehydro‐thromboxane B2 (11‐dTXB2) were evaluated before and during aspirin administration (1 mg/kg Q24 hours PO, 10 days). Based on prolongation of closure times after aspirin administration, dogs were divided into categories according to aspirin responsiveness: responders, nonresponders, and inconsistent responders.Results
Low‐dose aspirin increased closure times significantly (62% by Day 10, P < .001), with an equal distribution among aspirin responsiveness categories, 8 dogs per group. Platelet COX‐1 mean fluorescent intensity (MFI) increased significantly during treatment, 13% on Day 3 (range, ?29.7–136.1%) (P = .047) and 72% on Day 10 (range, ?0.37–210%) (P < .001). Platelet COX‐2 MFI increased significantly by 34% (range, ?29.2–270%) on Day 3 (P = .003) and 74% (range, ?19.7–226%) on Day 10 (P < .001). Urinary 11‐dTXB2 concentrations significantly (P = .005, P < .001) decreased at both time points. There was no difference between aspirin responsiveness and either platelet COX expression or thromboxane production.Conclusions and Clinical Importance
Low‐dose aspirin consistently inhibits platelet function in approximately one‐third of healthy dogs, despite decreased thromboxane synthesis and increased platelet COX expression in most dogs. COX isoform expression before treatment did not predict aspirin resistance.10.
Fiocchi SC Selting KA Rosenberg MP Kolli P Lenaz G Henry C 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2011,25(4):897-902
Background: Elsamitrucin, the most potent topoisomerase II inhibitor available, is unique in that it does not cause neutropenia or cardiotoxicosis. It has antitumor activity in human patients with relapsed or refractory non‐Hodgkin's lymphoma. Objectives: To determine the maximum tolerated dose (MTD), safety, and toxicity of elsamitrucin when administered to tumor‐bearing dogs and to evaluate the incidence and severity of adverse events. Animals: Twenty client‐owned dogs with spontaneous malignant solid tumors or lymphoma that were refractory to, or for which the owner declined, conventional therapy were enrolled. Methods: Prospective, open‐label, single‐agent study. Escalating doses of elsamitrucin were administered once weekly IV for up to 16 weeks in a modified 3 + 3 Phase I design. The starting dose was 0.06 mg/kg with escalation to 0.08 and 0.09 mg/kg. Dogs that remained on the study were monitored for evidence of toxicoses for at least 4 weeks and for survival every 2 months. Results: Serious adverse events (SAEs) possibly attributable to elsamitrucin include: 1 dog developed heart failure and another developed hepatotoxicosis manifested by increased alanine aminotransferase, alkaline phosphatase, and total bilirubin (0.06 mg/kg dose); 1 dog developed severe anorexia and diarrhea, another developed severe diarrhea alone, and a 3rd dog went into cardiac arrest (0.09 mg/kg dose). A dose of 0.08 mg/kg was well tolerated with no SAEs. Conclusions and Clinical Importance: The MTD and recommended dose for Phase II trials of elsamitrucin is 0.08 mg/kg IV weekly. Elsamitrucin might be considered for combination protocols with myelosuppressive chemotherapy agents. 相似文献
11.
Selting KA Wang X Gustafson DL Henry CJ Villamil JA McCaw DL Tate D Beittenmiller M Garnett C Robertson JD 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2011,25(4):909-915
Background: Satraplatin is the 1st orally bioavailable platinum anticancer drug. Objective: Our objectives were to evaluate efficacy in vitro against a canine cancer cell line, to determine the maximally tolerated dose (MTD) of satraplatin in tumor‐bearing dogs, to identify the dose‐limiting and other toxicities in dogs, and to record pharmacokinetics (PK). Animals: Dogs with macro‐ or microscopic malignant neoplasia. Methods: D17 canine osteosarcoma cells first were evaluated in a clonogenic survival assay. Then, dogs with a diagnosis of malignant neoplasia were prospectively entered in standard 3 + 3 cohorts. Additional patients were entered at the MTD to assess efficacy. Total and free platinum (by ultrafiltrate) concentrations were determined with inductively coupled plasma mass spectroscopy. Results: Satraplatin inhibited clonogenic survival in vitro at clinically relevant and achievable concentrations. Twenty‐three dogs were treated, 14 with PK evaluation. The MTD was 35 mg/m2/d for 5 days, repeated every 3–4 weeks. Bioavailability was 41%. PK variables (mean ± SD) at the MTD included Tmax 1.8 (± 0.7) hours, Cmax 72 (± 26) ng/mL, area under concentration (AUC)0–24 h 316 (± 63) h × ng/mL, and MRT 7 (± 1.3) hours. Higher AUC after the 5th versus the 1st dose suggested drug accumulation. Interestingly, platelets consistently reached nadir sooner than did neutrophils (day 14 versus 19). Myelosuppression was dose‐limiting and gastrointestinal toxicity was mild. Conclusions and Clinical Importance: Satraplatin was well tolerated in tumor‐bearing dogs, thus warranting further investigation in a phase II trial. 相似文献
12.
Suter SE 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2011,25(6):1406-1413
Background
Canine peripheral blood mononuclear cell (PBMC) apheresis using a Baxter‐Fenwal CS‐3000 Plus automated blood cell separator has not been reported.Objective
To determine the feasibility and safety of using a CS‐3000 Plus blood cell separator with a small volume separation container holder (SVSCH) and small volume collection chamber (SVCC) to harvest canine PBMCs from dogs weighing <50 kg.Animals
Eight healthy mongrel dogs and 11 client‐owned dogs in clinical remission for lymphoproliferative diseases (LPD).Methods
In this prospective study, aphereses were performed using a Baxter‐Fenwal CS‐3000 Plus blood cell separator, with or without recombinant human granulocyte colony‐stimulating factor (rhG‐CSF) treatment.Results
Aphereses from 6 healthy dogs given rhG‐CSF yielded an average of 1.1 × 107 ± 8.2 × 106 CD34+ cells/kg. Aphereses from LPD dogs given rhG‐CSF yielded an average of 5.4 × 106 ± 3.25 × 106 CD34+ cells/kg (P = .17). Higher hematocrit in both groups of dogs receiving rhG‐CSF correlated with an increased number of CD34+ cells/kg harvested (healthy, P = .04; LPD, P = .05). Apheresis was well tolerated by all dogs.Conclusions and Clinical Importance
Canine PBMC apheresis using the Baxter‐Fenwal CS‐3000 Plus cell separator with an SVSCH and SVCC is a feasible and safe option for harvesting an adequate number of CD34+ peripheral blood progenitor cells from dogs weighing ≥17 kg for hematopoietic cell transplantation. 相似文献13.
K.‐D. Cho J.‐H. Kang D. Chang K.‐J. Na M.‐P. Yang 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2013,27(1):91-98
Background
Trilostane is commonly used to treat pituitary‐dependent hyperadrenocorticism (PDH) in dogs. There are differing opinions regarding the dose and frequency of trilostane administration in dogs with PDH.Objectives
To compare the efficacy of 2 trilostane protocols in the treatment of dogs with PDH.Animals
Sixteen client‐owned dogs with PDH and a body weight <5 kg.Methods
Prospective observational study. Group A (n=9; low‐dose treatment group) received 0.78 ± 0.26 mg of trilostane/kg PO every 12 h and group B (n = 7; high‐dose treatment group) 30 mg of trilostane/dog PO every 24 h. All of the dogs were reassessed at 2, 4, 8, 12, 16, and 24 weeks after the initiation of treatment.Results
An improvement in both ACTH‐stimulated serum cortisol concentrations and clinical signs occurred more slowly in group A than in group B; however, after 20 weeks of treatment, 2/7 dog in group B had clinical signs and abnormal laboratory findings consistent with hypoadrenocorticism. At 24 weeks, an improvement in the clinical findings of all of the dogs in both groups was detected.Conclusions and clinical importance
In dogs with PDH, twice‐daily administration of low‐dose trilostane is an effective approach to the management of PDH. In addition, our results suggest fewer potential adverse effects if trilostane is administered twice daily in the lower dose. 相似文献14.
15.
Pharmacokinetics and cardiovascular effects following a single oral administration of a nonaqueous pimobendan solution in healthy dogs 下载免费PDF全文
下载免费PDF全文 M. Yata A. J. McLachlan D. J. R. Foster S. W. Page N. J. Beijerink 《Journal of veterinary pharmacology and therapeutics》2016,39(1):45-53
Pimobendan is an inodilator used in the treatment of canine congestive heart failure (CHF). The aim of this study was to investigate the pharmacokinetics and cardiovascular effects of a nonaqueous oral solution of pimobendan using a single‐dose, operator‐blinded, parallel‐dose study design. Eight healthy dogs were divided into two treatment groups consisting of water (negative control) and pimobendan solution. Plasma samples and noninvasive measures of cardiovascular function were obtained over a 24‐h period following dosing. Pimobendan and its active metabolite were quantified using an ultra‐high‐performance liquid chromatography–mass spectrometer (UHPLC‐MS) assay. The oral pimobendan solution was rapidly absorbed [time taken to reach maximum concentration (Tmax) 1.1 h] and readily converted to the active metabolite (metabolite Tmax 1.3 h). The elimination half‐life was short for both pimobendan and its active metabolite (0.9 and 1.6 h, respectively). Maximal cardiovascular effects occurred at 2–4 h after a single oral dose, with measurable effects occurring primarily in echocardiographic indices of systolic function. Significant effects persisted for <8 h. The pimobendan nonaqueous oral solution was well tolerated by study dogs. 相似文献
16.
Safety evaluation of combination doxorubicin and toceranib phosphate (Palladia®) in tumour bearing dogs: a phase I dose‐finding study 下载免费PDF全文
下载免费PDF全文 M. A. Pellin R. M. Wouda K. Robinson K. Tsimbas I. D. Kurzman B. J. Biller D. M. Vail 《Veterinary and comparative oncology》2017,15(3):919-931
Combination chemotherapy holds promise for improving outcomes in malignancy when compared with single‐agent approaches. Care must be taken to avoid overlapping toxicity and to utilize agents with differing mechanisms of action. A phase I dose‐finding trial was performed to determine the maximally tolerated dose (MTD) of a concurrent toceranib and doxorubicin (DOX) combination protocol where toceranib dose was maintained at or near 2.75 mg kg?1 by mouth every other day (PO EOD) while escalating DOX dosage. The dose‐limiting toxicity was found to be neutropenia and the MTD of the combination was determined to be 25 mg m?2 of DOX q 21 days given concurrently with toceranib 2.75 mg kg?1 PO EOD. This combination was well tolerated with no excessive gastrointestinal toxicity nor novel adverse events (AEs) noted. Anti‐tumour activity was observed in the majority of cases. This combination warrants further investigation in the context of phase II/III clinical trials to characterize efficacy and long‐term AE profiles. 相似文献
17.
Survival analysis of dogs with advanced primary lung carcinoma treated by metronomic cyclophosphamide,piroxicam and thalidomide 下载免费PDF全文
下载免费PDF全文 G. Polton R. Finotello S. Sabattini F. Rossi P. Laganga M. E. Vasconi A. Barbanera K. Stiborova C. Rohrer Bley L. Marconato 《Veterinary and comparative oncology》2018,16(3):399-408
Unresectable or metastatic (advanced) primary pulmonary carcinoma (PPC) represents a therapeutic challenge where surgery may be contraindicated and the therapeutic role of maximum‐tolerated dose (MTD) chemotherapy remains uncertain. This study was undertaken to explore the impact of metronomic chemotherapy (MC) in dogs with advanced PPC. Previously untreated dogs with advanced (T3 or N1 or M1) PPC, with complete staging work‐up and follow‐up data, receiving MC (comprising low‐dose cyclophosphamide, piroxicam and thalidomide), surgery, MTD chemotherapy or no oncologic treatment were eligible for inclusion. For all patients, time to progression (TTP) and survival time (ST) were evaluated. Quality‐of‐life (QoL) was only evaluated in patients receiving MC. To assess QoL, owners of dogs receiving MC were asked to complete a questionnaire before and during treatment. Ninety‐one dogs were included: 25 received MC, 36 were treated with surgery, 11 with MTD chemotherapy and 19 received no treatment. QoL was improved in dogs receiving MC. Median TTP was significantly longer in patients receiving MC (172 days) than patients undergoing surgery (87 days), receiving MTD chemotherapy (22 days), or no oncologic treatment (20 days). Median ST was similarly longer in patients receiving MC (139 days) than those undergoing surgery (92 days), MTD chemotherapy (61 days) and no oncologic treatment (60 days). In dogs with advanced PPC, MC achieved a measurable clinical benefit without significant risk or toxicity. This makes MC a potential alternative to other recognized management approaches. 相似文献
18.
M. L. Mastromauro S. E. Suter M. L. Hauck P. R. Hess 《Veterinary and comparative oncology》2018,16(1):E123-E129
Oral melphalan has been included in multi‐agent rescue protocols for canine lymphoma but its activity as a single‐agent for this purpose has not been established. Inexpensive cost, ease of administration and tolerability make oral melphalan an attractive candidate for single‐agent rescue therapy of canine lymphoma. Retrospective evaluation of 19 cases of relapsed canine lymphoma treated with oral melphalan was performed. Melphalan was primarily administered (n = 16) via a high dose protocol (HDM ) with a median dosage of 19.4 mg m?2. Fifteen dogs (78.9%) were treated concurrently with corticosteroids. Response evaluation was possible for all dogs with a calculated overall clinical benefit (partial response [PR ] + stable disease [SD ]) of 31.6% (PR 3/19; SD 3/19). Times to progression following melphalan (TTP ‐M) were 14, 24 and 34 days for responders and 20, 28 and 103 days for dogs experiencing SD . Twelve of 17 dogs evaluable for toxicity experienced an adverse event (AE ) with only 3 dogs experiencing a grade III or higher AE . Haematologic toxicity was common (11/17) while gastrointestinal toxicity was rare (1/17). Although treatment resulted in limited clinical benefit and non‐durable responses, oral melphalan was well‐tolerated and may be a reasonable rescue option in cases where minimal effective agents remain. 相似文献
19.
Rassnick KM Moore AS Northrup NC Kristal O Beaulieu BB Lewis LD Page RL 《American journal of veterinary research》2006,67(3):510-516
OBJECTIVE: To determine the maximally tolerated dose (MTD) and dose-limiting toxicosis (DLT) of ifosfamide in tumor-bearing cats. ANIMALS: 38 cats with resected, recurrent, or metastatic sarcomas. PROCEDURE: The starting dosage of ifosfamide was 400 mg/m(2) of body surface area, IV, and dosages were increased by 50 to 100 mg/m(2) in cohorts of 3 cats. To protect against urotoxicosis, mesna was administered at a dosage equal to 20% of the calculated ifosfamide dosage. Diuresis with saline (0.9% NaCl) solution before and after administration of ifosfamide was used to minimize nephrotoxicosis. Samples for pharmacokinetic analysis were obtained after the MTD was reached. RESULTS: 38 cats were entered into this phase I study and were administered a single dose of ifosfamide at various dosages. The MTD was 1,000 mg/m(2), and neutropenia was the DLT. Seven of 8 episodes of neutropenia were on day 7 after treatment, and 1 cat developed severe neutropenia on day 5. Adverse effects on the gastrointestinal tract were generally mild and self-limiting, the most common of which was nausea during ifosfamide infusion. One cat had signs consistent with a drug-induced hypersensitivity reaction. There were no episodes of hemorrhagic cystitis or nephrotoxicosis. Correlations between pharmacokinetic variables and ifosfamide-associated toxicoses were not found. Preliminary evidence of antitumor activity was observed in 6 of 27 cats with measurable tumors. CONCLUSIONS AND CLINICAL RELEVANCE: The dosage of ifosfamide recommended to treat tumor-bearing cats is 900 mg/m(2) every 3 weeks. This dosage should be used in phase II clinical trials. 相似文献
20.
An Open‐label Phase 1 Dose‐escalation Clinical Trial of a Single Intravenous Administration of Gemcitabine in Dogs with Advanced Solid Tumors 下载免费PDF全文
下载免费PDF全文 L. Marconato R. Finotello U. Bonfanti M. Dacasto L. Beatrice S. Pizzoni V.F. Leone G. Balestra T. Furlanello C. Rohrer Bley L. Aresu 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2015,29(2):620-625