Evaluation of dexamethasone as a chemoprotectant for CCNU‐induced bone marrow suppression in dogs*

In mice and people, administering corticosteroids before chemotherapy can reduce the severity of myelosuppression without reducing antitumour effects. This study investigated whether pretreatment with dexamethasone would reduce the incidence of grade 4 neutropenia in dogs receiving CCNU. Twenty‐five dogs received dexamethasone [0.1 mg kg^?1 per os (PO) every 12 h] for 5 days and on the sixth day received CCNU (90 mg m^?2 PO). Historical dogs (n = 67) received CCNU alone (90 mg m^?2 PO). Forty‐five percent of historical dogs had grade 4 neutropenia, while 64% of dogs pretreated with dexamethasone had grade 4 neutropenia (P = 0.16). Dexamethasone plasma levels were quantified by enzyme‐linked immunosorbent assay in three healthy dogs. Peak plasma concentrations after a single oral 0.1‐mg kg^?1 dose were <80 ng mL^?1, the minimum level associated with chemoprotective effects of dexamethasone in people. Pretreatment with dexamethasone did not reduce the incidence of grade 4 neutropenia in dogs receiving CCNU.     

A phase II study to evaluate the toxicity and efficacy of alternating CCNU and high‐dose vinblastine and prednisone (CVP) for treatment of dogs with high‐grade,metastatic or nonresectable mast cell tumours

Safety and efficacy of a protocol of alternating 1‐(2‐chloroethyl)‐3‐cyclohexyl‐1‐nitrosourea (CCNU; 70 mg m^?2) and vinblastine (3.5 mg m^?2), and prednisone (1–2 mg kg^?1; CVP) in dogs with mast cell tumours (MCT) were evaluated. A total of 17 dogs had nonresectable MCTs and 35 received CVP as adjunctive treatment to locoregional control of metastatic MCTs or grade III MCTs. Neutropenia with fever occurred in 8% of dogs after treatment with vinblastine and in 2% after treatment with CCNU. Persistent elevation of serum alanine transaminase, suggestive of hepatotoxicity, occurred in 9% of the dogs. Response rate in dogs with nonresectable MCTs was 65%; five achieved a complete response (median, 141 days) and six achieved a partial response (median, 66 days). Overall median progression‐free survival (PFS) time in dogs treated in the adjuvant setting was 489 days. Dogs with grade III MCTs had shorter PFS compared with dogs with metastatic grade II MCTs (190 days versus 954 days; P < 0.001). Phase III studies are needed to provide reliable information about the comparative efficacy of this protocol.     

Phase I Dose Escalation of Single‐Agent Vinblastine in Dogs

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.     

Dose-escalating vinblastine for the treatment of canine mast cell tumour

The purpose of this study was to evaluate the short‐term adverse events (AEs) in dogs with mast cell tumours (MCT) receiving prednisone and dose‐escalating vinblastine (VBL). Twenty‐four dogs were treated with intravenous VBL starting at 2 mg m^?2 and then escalating in weekly increments to 2.33, 2.67 and 3 mg m^?2. AEs were graded using a standardized scoring system. No dogs receiving 2 or 2.33 mg m^?2 experienced grade 3 or 4 AEs. Among the dogs, 9.5 and 5.9% had grade 3 or 4 AEs at dosages of 2.67 and 3 mg m^?2, respectively. Serious AEs included neutropaenia (n = 3) and vomiting (n = 1), only one of which required hospitalization. These data indicate that VBL chemotherapy may be safe to administer at higher than the traditional 2 mg m^?2 dosage for dogs with MCT. Randomized prospective trials are necessary to establish whether dose escalation will translate into improved response rates when compared with the standard 2 mg m^?2 dosage.     

Retrospective comparison of three doses of metronomic chlorambucil for tolerability and efficacy in dogs with spontaneous cancer

The study hypothesis is that higher doses of metronomic (low‐dose) chlorambucil will improve outcome without significantly worsening adverse events (AE). Retrospectively, 88 dogs were screened to assess for tolerability and response to chlorambucil utilizing retrospective and prospective data sets, comparing metronomic oral daily doses 4, 6 and 8 mg m². There were 78 and 70 dogs in the tolerability and efficacy portions, respectively. The severity of gastrointestinal (GI) AE was significantly worse, and time to development of GI events was significantly shorter at 6 mg m² than at 4 mg m² (both P < 0.001). Chlorambucil was discontinued earlier in the dogs treated at the 6 mg m² doses than in the dogs treated at 4 mg m² (P = 0.015). Thrombocytopenia occurred significantly earlier at 8 mg m² than at 4 mg m² (P = 0.017). Higher doses of metronomic (low‐dose) chlorambucil did not provide improved responses and were associated with more AE.     

Safety evaluation of combination carboplatin and toceranib phosphate (Palladia) in tumour‐bearing dogs: A phase I dose finding study

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.     

The pharmacokinetics of cytarabine administered subcutaneously,combined with prednisone,in dogs with meningoencephalomyelitis of unknown etiology

The objective of this study was to describe the pharmacokinetics (PK) of cytarabine (CA) after subcutaneous (SC) administration to dogs with meningoencephalomyelitis of unknown etiology (MUE). Twelve dogs received a single SC dose of CA at 50 mg/m² as part of treatment of MUE. A sparse sampling technique was used to collect four blood samples from each dog from 0 to 360 min after administration. All dogs were concurrently receiving prednisone (0.5–2 mg kg^?1day^?1). Plasma CA concentrations were measured by HPLC, and pharmacokinetic parameters were estimated using nonlinear mixed‐effects modeling (NLME). Plasma drug concentrations ranged from 0.05 to 2.8 μg/ml. The population estimate (CV%) for elimination half‐life and Tmax of cytarabine in dogs was 1.09 (21.93) hr and 0.55 (51.03) hr, respectively. The volume of distribution per fraction absorbed was 976.31 (10.85%) ml/kg. Mean plasma concentration of CA for all dogs was above 1.0 μg/ml at the 30‐, 60‐, 90‐, and 120‐min time points. In this study, the pharmacokinetics of CA in dogs with MUE after a single 50 mg/m² SC injection in dogs was similar to what has been previously reported in healthy beagles; there was moderate variability in the population estimates in this clinical population of dogs.     

Immunological and angiogenic markers during metronomic temozolomide and cyclophosphamide in canine cancer patients

Metronomic chemotherapy stimulates the immune response via depletion of regulatory T cells (Tregs) and suppresses angiogenesis by modulating the secretion of thrombospondin‐1 (TSP‐1) and vascular endothelial growth factor (VEGF). In this study, blood was collected from 10 healthy dogs and from 30 canine cancer patients before and 2 and 4 weeks after treatment with metronomic temozolomide (6.6 mg m^?2), cyclophosphamide (12.5 mg m^?2) or cyclophosphamide and temozolomide. The percentage of circulating CD25⁺Foxp3⁺CD4⁺ Tregs and the plasma levels of TSP‐1 and VEGF were measured. There was a significant difference in the percentage of Tregs between cancer patients and healthy dogs. A significant decrease in Tregs was noted in patients treated with metronomic cyclophosphamide and the combination. Treatment with temozolomide had no effect on the percentage of Tregs. TSP‐1 and VEGF levels were, respectively, significantly lower and higher in cancer patients than in healthy dogs, but they were not influenced by any of the studied metronomic treatment regimens.     

An Open‐label Phase 1 Dose‐escalation Clinical Trial of a Single Intravenous Administration of Gemcitabine in Dogs with Advanced Solid Tumors

Background

A broad range of gemcitabine dosages have been used in dogs.

Hypothesis/Objectives

To determine maximally tolerated dose (MTD), dose‐limiting toxicity (DLT), and preliminary antitumor activity of intravenous administration of gemcitabine in dogs with advanced solid tumors.

Animals

Twenty‐two client‐owned dogs.

Methods

Dogs with advanced cancer were prospectively enrolled in an open‐label Phase 1 study of gemcitabine. Gemcitabine was administered as a 30‐minute intravenous bolus starting at 800 mg/m², using escalation of 50 mg/m² increments with 3 dogs per dose level. MTD was established based on the number of dogs experiencing DLT assessed after 1 cycle. Treatment continued until disease progression or unacceptable toxicosis. Additional dogs were enrolled at MTD to better characterize tolerability, and to assess the extent and duration of gemcitabine excretion.

Results

Twenty‐two dogs were treated at 4 dose levels, ranging from 800 to 950 mg/m². Neutropenia was identified as DLT. MTD was 900 mg/m². DLT consisting of grade 4 febrile neutropenia was observed at 950 mg/m² in 2 dogs. There were no nonhematologic DLTs. Twenty dogs received multiple doses, and none had evidence of severe toxicosis from any of their subsequent treatments. At 900 mg/m², 2 complete and 5 partial responses were observed in dogs with measurable tumors. The amount of gemcitabine excreted in urine decreased over time, and was undetectable after the first 24 hours.

Conclusions and Clinical Importance

The recommended dose of gemcitabine for future Phase 2 studies is weekly 900 mg/m². In chemotherapy‐naïve dogs with advanced solid tumor this dose level merits further evaluation.     

Photodynamic detection of canine mammary gland tumours after oral administration of 5‐aminolevulinic acid

5‐Aminolevulinic acid (5‐ALA) is widely used in photodynamic detection (PDD) and therapy. We evaluated the pharmacokinetics of 5‐ALA‐induced porphyrins and its effectiveness in PDD in dogs with mammary gland tumours (MGTs) following oral administration. Healthy dogs and those with MGTs (nine each) were orally administered 4 mg kg^?1 5‐ALA. Protoporphyrin IX (PpIX) was not detected in the plasma of healthy dogs but it peaked in dogs with MGT at 2 h after 5‐ALA administration. In the PDD study, 16 dogs with MGT were orally administered 40 mg kg^?1 5‐ALA, and MGT but not normal tissue showed red fluorescence after 2–4 h. Photon counts were 6635–63 890 and 59–4011 (median, 19 943 and 919) for MGT and non‐tumour tissues, respectively. Cell density strongly correlated with PpIX photon counts of MGT tissue of the dogs (R = 0.743, P = 0.0009). We suggest that 5‐ALA‐PDD might be an effective diagnostic tool for MGTs.     

Safety evaluation of combination CCNU and continuous toceranib phosphate (Palladia®) in tumour‐bearing dogs: a phase I dose‐finding study

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.     

Romifidine and low doses of tiletamine‐zolazepam in dogs

ObjectiveTo evaluate clinical effects of romifidine and low doses of tiletamine‐zolazepam (TZ) in dogs.Study designRandomized “blinded” cross‐over study.AnimalsSix healthy beagle dogs (two males, four females).MethodsIn separate preliminary experiments dogs received intravenous (IV) tiletamine‐zolazepam (TZ) at 1 and 2 mg kg^?1. For the main trial, dogs received romifidine (R) followed 5 minutes later by IV at six dose regimens: R40TZ1, R60TZ1, R80TZ1 (Romifidine at 40, 60, 80 μg kg^?1 and TZ at 1 mg kg^?1), R40TZ2, R60TZ2 and R80TZ2 (Romifidine at 40, 60, 80 μg kg^?1 and TZ at 2 mg kg^?1). Dogs underwent endotracheal intubation, but breathed room air. Cardiorespiratory variables were measured and arterial blood analyzed. Quality of sedation, duration of anaesthesia and time to recovery (TR) were recorded. Data were analysed by anova or Friedman test as relevant.ResultsEndotracheal intubation was possible with all romifidine/TZ combinations but not with TZ alone. Mean times (minutes) from TZ injection to return of pedal reflex were 1–3 minutes for TZ alone, and 9–17 minutes for romifidine combinations. In the main trial (romifidine combinations) mean time (minutes) to standing increased with increasing dosage (R40TZ1 13; R80TZ2 32). Five minutes after TZ administration, when compared with baseline arterial blood pressures and arterial carbon dioxide had increased, and respiratory rate, pH and arterial oxygen tensions decreased, these changes becoming statistically significant with the higher dose rates. One dog in R60TZ2 and three dogs in R80TZ2 became hypoxaemic.Conclusions and clinical relevanceRomifidine improves the quality and lengthens the duration of anaesthesia induced by TZ. The combination provides a suitable protocol for induction of or short‐term anaesthesia in healthy dogs. However, the higher doses cause cardiovascular stimulation and respiratory depression, and precautions should be taken accordingly.     

Phase II open‐label study of single‐agent hydroxyurea for treatment of mast cell tumours in dogs*

This prospective study evaluated the efficacy and safety of hydroxyurea (HU) in dogs with measurable mast cell tumours (MCTs). Dogs were treated with HU at 60 mg kg^?1per os q24h for 14 days then 30 mg kg^?1 q24h thereafter or until MCT recurrence. Forty‐six dogs were enrolled. The overall response rate was 28%. Two dogs had a complete response (CR) for 256 and 448 days, respectively. Eleven dogs had a partial response for a median duration of 46 days (range, 28–189 days). Grade 2 to 4 neutropenia occurred in eight dogs and grade 4 thrombocytopenia in two. Grade 3–4 anaemia occurred in seven dogs; overall, there was a significant decrease in haematocrit after treatment with HU. The median drop in haematocrit was 10%. This study demonstrated that HU has activity in the treatment of MCTs with mild anaemia being the primary adverse event.     

Serum 25‐hydroxyvitamin D concentrations in dogs – correlation with health and cancer risk

25‐hydroxyvitamin D (25(OH)D) is important in bone health as well as many diseases including cancer. Supplementation may increase responsiveness of cancer cells to chemotherapy. Serum 25(OH)D, intact parathyroid hormone (iPTH) and canine C‐reactive protein (c‐CRP) were measured in healthy dogs and dogs with haemoabdomen. Regression analysis determined optimal 25(OH)D concentrations. In healthy dogs (n = 282), mean iPTH concentrations correlated inversely (r² = 0.88, P < 0.001) to 25(OH)D concentrations. Variation in both iPTH and c‐CRP plateaued at 25(OH)D concentrations of 100–120 ng mL^?1. Haemoabdomen dogs (n = 63, 43 malignant and 20 benign) had 25(OH)D concentrations ranging from 19.4 to >150 ng mL^?1. Relative risk of cancer increased with decreasing 25(OH)D concentrations [RR = 3.9 for 25(OH)D below 40 ng mL^?1 (P = 0.0001)]. Serum 25(OH)D concentrations in dogs vary widely, and are influenced by dietary VitD content. Serum vitD measurement can identify dogs for which supplementation may improve health and response to cancer therapy.     

The pharmacokinetics of cytarabine administered at three distinct subcutaneous dosing protocols in dogs with meningoencephalomyelitis of unknown origin

The objective of this study was to evaluate the pharmacokinetics of the standard cytarabine (Ara‐C) protocol (50 mg/m² subcutaneously every 12 hr for 2 days) used for dogs with neuroinflammatory disease and compare it to two more practical protocols (a single 200 mg/m² subcutaneous dose and two 100 mg/m² subcutaneous doses every 12 hr). Four client‐owned dogs previously diagnosed with meningoencephalomyelitis of unknown origin were administered three distinct Ara‐C protocols with a 21‐day washout between each protocol. A complete blood count was performed seven days after each dosing protocol to assess for clinically relevant myelosuppression. No adverse events were observed. Plasma Ara‐C concentrations were measured using a validated liquid chromatography coupled to tandem mass spectrometry assay. The mean maximal concentrations in this study were 4,230, 9,293, and 16,675 ng/ml for a single dose of 50, 100, and 200 mg/m², respectively. There was a linear relationship between dose and drug exposure. Drug exposure was similar regardless of the dosing protocol when the total dose was analyzed, with an area under the concentration versus time curve of 37,026, 38,465, and 32,510 ng × hr/ml for 50, 100, and 200 mg/m², respectively.     

Evaluation of ifosfamide salvage therapy for metastatic canine osteosarcoma

A retrospective study was performed to assess toxicity and response rate of ifosfamide salvage treatment for dogs diagnosed with metastatic osteosarcoma (OSA). Dogs diagnosed with OSA and previously treated with standard chemotherapy were included in the study. Nineteen dogs met the inclusion criteria, and 17 dogs were evaluable for response. Ifosfamide doses ranged from 375 to 425 mg m^?2 (median dose 375 mg m^?2), with a median of two doses administered per dog (range 1–7 doses). The overall response to ifosfamide was 11.8% [complete response (CR) = 1/17, partial response (PR) = 1/17, stable disease (SD) = 2/17, progressive disease (PD) = 13/17]. Two dogs were hospitalized due to ifosfamide toxicosis. The median survival duration from the first dose of ifosfamide to death was 95 days. Ifosfamide was well tolerated, but minor anti‐tumour activity was observed.     

Treatment of canine mast cell tumours with prednisolone and radiotherapy

This retrospective study describes 35 dogs with non‐resectable, grade I–III mast cell tumours on the head or limb treated with prednisolone (40 mg m^?2 daily) for 10–14 days prior to radiotherapy (4 × 800 cGy fractions at 7‐day intervals) from a 4 MV linear accelerator. Prednisolone was continued at a reduced dose rate (20 mg m^?2) during radiotherapy and for 2 months or longer afterwards. Eighteen of 24 tumours (75%) decreased in size in response to prednisolone treatment. By 6–8 weeks following radiotherapy, 12 dogs had achieved a complete remission and 19 a partial response. Two tumours remained static and two progressed during the course of treatment. The overall response rate was 88.5%. With long‐term follow‐up, 11 dogs experienced local recurrence (n = 4), metastasis (n = 5) or both (n = 2). The median progression‐free interval was 1031 days (95% CI 277.44–1784.56, Kaplan–Meier), with 1‐ and 2‐year progression‐free rates of 60 and 52%, respectively. Tumour grade did not predict the prognosis for this group of dogs, but tumour location did affect the outcome. Dogs with tumours located on the limb survived longer than those with tumours on the head. The combination of prednisolone with radiotherapy appears to have a useful role in the management of measurable mast cell tumours sited on the head and distal extremities.     

Effects of pre‐operative administration of medetomidine on plasma insulin and glucose concentrations in healthy dogs and dogs with insulinoma

ObjectiveTo investigate the effect of medetomidine on plasma glucose and insulin concentrations in dogs with insulinoma and in healthy dogs undergoing anesthesia and surgery.AnimalsTwenty–five dogs with insulinoma and 26 healthy dogs.MethodsIn dogs with insulinoma, medetomidine (5 μg kg^?1) was randomly included (n = 12) or omitted (n = 13) from the pre–anesthetic medication protocol, which typically contained an opioid and an anticholinergic. Healthy dogs received medetomidine (5 μg kg^?1; n = 13) or acepromazine (0.04 mg kg^?1; n = 13) plus an opioid (morphine 0.5 mg kg^?1) and an anticholinergic (atropine 0.04 mg kg^?1) as pre–anesthetic medications. Pre–anesthetic medications were given intramuscularly. Plasma glucose and insulin concentrations were measured before (sample 1) and 30 minutes after pre–anesthetic medication (sample 2), and at the end of surgery in dogs with insulinoma or at 2 hours of anesthesia in healthy dogs (sample 3). Glucose requirement to maintain intra–operative normoglycemia in dogs with insulinoma was quantified and compared. Data were analyzed with anova and Bonferroni post–test, t–tests or chi–square tests as appropriate with p < 0.05 considered significant. Data are shown as mean ± SD.ResultsMedetomidine significantly decreased plasma insulin concentrations and increased plasma glucose concentrations in healthy dogs and those with insulinoma. These variables did not change significantly in the dogs not receiving medetomidine. In the dogs with insulinoma, intra–operative glucose administration rate was significantly less in the animals that received medetomidine compared to those that did not.ConclusionsPre–anesthetic administration of medetomidine significantly suppressed insulin secretion and increased plasma glucose concentration in dogs with insulinoma and in healthy dogs undergoing anesthesia and surgery.Clinical relevanceThese findings support the judicious use of medetomidine at low doses as an adjunct to the anesthetic management of dogs with insulinoma.     

Treatment of vascular and soft-tissue sarcomas in dogs using an alternating protocol of ifosfamide and doxorubicin

A retrospective analysis was done to assess the toxicity and efficacy associated with an alternating chemotherapy protocol of ifosfamide (375 mg m^?2) and doxorubicin (30 mg m^?2) for adjuvant treatment of 39 dogs with sarcomas. Twelve dogs had various soft‐tissue sarcomas and 27 dogs had hemangiosarcoma (HSA). Complete blood counts were evaluated 7 days after the first dose of ifosfamide and doxorubicin. One dog had grade 4 neutropenia (<500 µL^?1) after treatment with ifosfamide and one dog had grade 3 neutropenia (500–1000 µL^?1) after treatment with doxorubicin. One dog treated with doxorubicin was hospitalized for 24 h due to vomiting. The median survival time (ST) for the 27 dogs with HSA treated by surgery and with doxorubicin/ifosfamide was 149 days (mean 366 days). Although the protocol of alternating ifosfamide and doxorubicin was well tolerated, it failed to result in a statistically significant improvement in the ST when compared to a historical population of dogs with stage 2 splenic HSA treated by surgery alone.     

Prevalence of elevated alanine transaminase activity in dogs treated with CCNU (Lomustine)*

The purpose of this study was to evaluate prevalence of serum alanine transaminase (ALT) elevation in dogs receiving lomustine (CCNU) and to analyse the pattern of occurrence and potential risk factors. Serum ALT activity in 109 dogs during single‐agent CCNU chemotherapy was retrospectively analysed. The median initial dose, dose‐intensity and cumulative dose of CCNU were 64 mg m^?2, 21 mg m^?2 week^?1 and 171 mg m^?2, respectively. The overall prevalence of major ALT elevation [> 5‐fold upper reference limit (URL)] was 29% (32/109) and developed most commonly after one to three doses of CCNU. These ALT elevations occurred without preceding mild ALT elevation in 53% (17/32) of the cases. Three dogs (2.8%) developed clinical hepatopathy. For severe ALT elevation (>10‐fold URL), age ≤5‐year‐old was associated with higher risk. The findings of this study showed that elevation of ALT is common during CCNU chemotherapy in dogs and severe elevation can develop on a sudden onset.