The occurrence of right-sided congestive heart failure (CHF) in dogs with left-sided heart disease is well-recognized, but its mechanisms are incompletely understood. A 12-year-old Maltese dog was admitted to the clinic for left atrial decompression to treat recurrent CHF due to severe myxomatous mitral valve disease (MMVD). Left atrial decompression was successful but atrial fibrillation (AF) occurred during the procedure. Electric cardioversion restored normal sinus rhythm (NSR) and the dog's recovery was uneventful. This sequence of events made it possible to study intracameral pressures individually in each atrium in a dog with naturally occurring MMVD during AF and again during NSR. Although pressures in both atria declined following cardioversion, the right atrial pressure declined to a greater degree. These findings indicated a disproportionate effect of AF on right atrial pressure. This difference was noteworthy given the long-standing clinical observation that dogs with MMVD have a higher prevalence of right-sided CHF when AF is present. Key clinical message: A dog with MMVD had a greater reduction in right atrial pressure than in left atrial pressure when its AF was cardioverted as part of a cardiac catheterization procedure. This observation proposed a mechanism for the well-known but unexplained observation that dogs with MMVD manifest right-sided CHF disproportionately more often when they have AF.
Effets de la fibrillation auriculaire aiguë et de la cardioversion sur les pressions auriculaires gauche et droite chez un chien. La présence d'une insuffisance cardiaque congestive du côté droit (ICC) chez les chiens atteints d'une cardiopathie du côté gauche est bien connue, mais ses mécanismes ne sont pas complètement compris. Un chien maltais de 12 ans a été admis à la clinique pour une décompression auriculaire gauche afin de traiter une ICC récurrente due à une grave maladie myxomateuse de la valvule mitrale (MMVD). La décompression auriculaire gauche a réussi, mais une fibrillation auriculaire (FA) s'est produite pendant la procédure. La cardioversion électrique a rétabli le rythme sinusal normal (NSR) et la récupération du chien s'est déroulée sans incident. Cette séquence d'événements a permis d'étudier les pressions individuellement dans chaque oreillette chez un chien atteint de MMVD d'origine naturelle pendant la FA et à nouveau pendant la NSR. Bien que les pressions dans les deux oreillettes aient diminué après la cardioversion, la pression de l'oreillette droite a diminué dans une plus grande mesure. Ces résultats ont indiqué un effet disproportionné de la FA sur la pression auriculaire droite. Cette différence était remarquable compte tenu de l'observation clinique de longue date selon laquelle les chiens atteints de MMVD ont une prévalence plus élevée d'ICC du côté droit en cas de FA.Message clinique clé :Un chien atteint de MMVD présentait une réduction plus importante de la pression auriculaire droite que de la pression auriculaire gauche lorsque sa FA était cardiovertie dans le cadre d'une procédure de cathétérisme cardiaque. Cette observation propose un mécanisme pour l'observation bien connue mais inexpliquée selon laquelle les chiens atteints de MMVD manifestent une ICC du côté droit de manière disproportionnée plus souvent lorsqu'ils souffrent de FA.(Traduit par Dr Serge Messier).
Atrial Fibrillation , Dog Diseases , Heart Failure , Heart Valve Diseases , Dogs , Animals , Atrial Fibrillation/veterinary , Atrial Fibrillation/drug therapy , Electric Countershock/veterinary , Atrial Pressure , Heart Valve Diseases/veterinary , Heart Atria , Heart Failure/veterinary , Dog Diseases/surgery
Objective: This study sought to determine the serum concentrations of C-terminal telopeptide of Type-I collagen (CTx), a marker of collagen degradation, in a hospital population of cats with hypertrophic cardiomyopathy (HCM). The study also evaluated the prevalence of myocardial hyperechogenicity of the left ventricle (LV) in the same cats. Animals and procedure: Cats brought to a university veterinary cardiology service entered the study when they had an echocardiographic diagnosis of HCM; echocardiographically normal cats served as controls. Serum CTx concentrations were assessed using ELISA. Results: There was no difference in serum CTx concentrations between cats with HCM and controls (HCM: median 0.248 ng/mL, controls: median 0.253 ng/mL; P = 0.4). Significantly more cats with HCM (60%) showed echocardiographic LV myocardial hyperechogenicity compared to normal controls (17%; P = 0.0057), but serum CTx concentrations were not different between these 2 groups. Conclusion and clinical relevance: These results indicate that, as in human patients with HCM and in contrast to earlier feline studies, there was no evidence of enhanced collagen degradation indicated by serum CTx concentrations in cats with HCM compared to normal controls.
Concentration sérique de télopeptide C-terminal du collagène de Type I (CTx) et hyperéchogénicité myocardique chez des chats atteints de cardiomyopathie hypertrophique. Objectif: Le premier objectif de cette étude était d'évaluer le taux sérique d'un marqueur de dégradation de collagène, soit le télopeptide C-terminal du collagène de Type-I (CTx), chez les chats atteints de cardiomyopathie hypertrophique (CMH). Le deuxième objectif était d'évaluer la prévalence de l'hyperéchogénicité du myocarde du ventricule gauche chez ces mêmes chats. Animaux et procédures: Les chats participant à l'étude avaient été présentés pour soins à un service de cardiologie vétérinaire universitaire, et ces chats avaient un diagnostic échocardiographique soit de CMH, soit d'aucune lésion cardiaque (groupe témoin). Le taux sérique de CTx a été évalué de façon immuno-enzymatique par ELISA. Résultats: Les résultats n'ont démontré aucune différence entre le taux sérique de CTx chez les chats atteint de CMH et le taux sérique de CTx chez les chats sans lésion cardiaque (CMH : médiane, 0,248 ng/mL; groupe témoin : médiane, 0,253 ng/mL; P = 0,4). Plus de chats atteints de CMH (60 %) que de chats dans le groupe témoin (17 %) ont démontré une hyperéchogénicité du myocarde du ventricule gauche à l'échocardiographie (P = 0,0057), quoique les taux sériques de CTx n'étaient pas différents entre ces 2 groupes. Conclusion et signification clinique: Ces résultats n'indiquent aucune augmentation de la dégradation de collagène chez les chats atteints de CMH, ce qui s'apparente aux résultats provenant d'études antérieures de la CMH chez l'humain mais non pas à ceux provenant d'études de la CMH féline.(Traduit par les auteurs).
Cardiomyopathy, Hypertrophic , Cat Diseases , Cats , Humans , Animals , Collagen Type I , Cardiomyopathy, Hypertrophic/diagnostic imaging , Cardiomyopathy, Hypertrophic/veterinary , Echocardiography/veterinary , Heart Ventricles , Universities , Cat Diseases/diagnostic imaging
BACKGROUND: Holter electrocardiographic monitoring is a cornerstone of diagnostic testing for arrhythmogenic cardiomyopathy (ACM) in Boxer dogs, but physical activity during monitoring is not controlled. In humans, exercise testing (ExT) can identify latent tachyarrhythmias associated with cardiomyopathy, and exercise increases serum cardiac troponin-I concentrations ([hs-cTnI]). These effects have not yet been investigated in Boxer dogs. HYPOTHESIS/OBJECTIVES: Subjecting Boxer dogs to brief, moderate-intensity ExT can identify changes in Holter recordings and [hs-cTnI] compared to baseline results. ANIMALS: Thirty overtly healthy, client-owned Boxer dogs. METHODS: Prospective interventional study. Dogs underwent baseline diagnostic testing including 24-hour Holter monitoring and [hs-cTnI], followed by brief ExT (accompanied, brisk stair-climbing and -descending for <5 minutes). RESULTS: Eleven dogs (37%) had >100 premature ventricular complexes (PVCs)/24 hours at baseline (3), ExT (3), or both (5). After ExT, these dogs had more PVCs/24 hours and greater increases in [hs-cTnI] compared to those with ≤100 PVCs/24 hours. Dogs with the striatin mutation had more PVCs/24 hours and a greater increase in [hs-cTnI] after ExT than did dogs without the striatin mutation. CONCLUSIONS AND CLINICAL IMPORTANCE: Exercise testing may improve the binary classification of Boxer dogs with or without ACM by increasing the number of PVCs and [hs-cTnI] in affected dogs to a greater degree than in unaffected dogs. This effect also is associated with presence or absence of the striatin mutation. Exercise should be a controlled variable when screening Boxer dogs for ACM.
Cardiomyopathies , Dog Diseases , Humans , Dogs , Animals , Exercise Test/veterinary , Prospective Studies , Heart , Electrocardiography , Cardiomyopathies/veterinary
Aims: To assess the safety and efficacy of two exercise sessions performed 60- and 120-min postmeal with a combination of meal bolus reduction and increased glucose target to the automated insulin delivery (AID) system. Methods: A randomized crossover trial in 13 adult participants (6 females) living with type 1 diabetes using AID (A1c = 7.9% ± 0.6%, age = 53.5 ± 15.5 years, T1D duration = 29.0 ± 16.0 years) was conducted. Just before breakfast, at the time of meal bolus, the AID glucose target was increased from 6 to 9 mmol/L, and a meal bolus reduction of 33% was applied. Two 60-min exercise sessions (60% of VO2 peak) were undertaken either 60 min (60EX) or 120 min (120EX) after a standardized breakfast, followed by a 90-min recovery period. Results: The mean reduction in plasma glucose (PG) levels from prebreakfast to postexercise (-0.8 ± 2.4 mmol/L vs. +0.3 ± 2.3 mmol/L, P = 0.082) were similar between 60EX and 120EX. From prebreakfast to postexercise, PG times in range (3.9-10.0 mmol/L; 63.4% ± 43.1% 60EX vs. 51.9% ± 29.7% 120EX, P = 0.219) and time above range (>10.0 mmol/L; 36.3% ± 43.3% 60EX vs. 48.1% ± 29.7% 120EX, P = 0.211) did not differ between interventions. The 60EX attenuated the glucose rise between premeal to pre-exercise (+1.8 ± 2.1 mmol/L 60EX vs. +3.9 ± 2.1 mmol/L 120EX, P = 0.001). No hypoglycemic events (<3.9 mmol/L) occurred during the study. Conclusion: Premeal announcement combining meal bolus reduction and increased glucose target was effective and safe during 60 min of moderate-intensity aerobic exercise, whether exercise onset was 60 or 120 min following a meal. Clinical Trial Registration No.: NCT04031599.
Diabetes Mellitus, Type 1 , Female , Adult , Humans , Middle Aged , Aged , Blood Glucose , Pilot Projects , Insulin/therapeutic use , Cross-Over Studies , Hypoglycemic Agents/therapeutic use , Exercise
An 8-month-old neutered male miniature Australian shepherd was examined for evaluation and treatment of suspected embolization of a peripheral intravenous catheter fragment. Embolism had occurred after the catheter cannula was accidentally cut during removal from the right cephalic vein. Radiographs showed migration of the fragment to the proximolateral right brachium. Surgical exploration, assisted by fluoroscopy, localized the fragment to the axillobrachial vein, where the tip was visualized within the vessel lodged against the wall. A venotomy was performed, allowing the fragment to be extracted from the peripheral vessel before it could migrate farther. The dog recovered from surgery without complication and was discharged the following day. Key clinical message: In the case reported here, the axillobrachial vein was a clinically important location on the migration path of a cephalic intravenous catheter embolus. Fluoroscopy allowed for quick localization of an embolized intravenous catheter fragment within a peripheral vein and directed open surgical retrieval of the foreign body. A peripheral catheter fragment can be retrieved surgically from a vein in a limb even when a tourniquet has not been applied immediately.
Ablation chirurgicale d'un fragment de cathéter intraveineux embolisé de la veine axillo-brachiale d'un chien. Un berger australien miniature mâle castré âgé de 8 mois a été examiné pour l'évaluation et le traitement d'une suspicion d'embolisation d'un fragment de cathéter intraveineux périphérique. L'embolie s'est produite après que la canule du cathéter fut accidentellement coupée lors du retrait de la veine céphalique droite. Les radiographies montraient une migration du fragment vers le brachium droit proximolatéral. L'exploration chirurgicale, assistée par fluoroscopie, a localisé le fragment au niveau de la veine axillo-brachiale, où la pointe a été visualisée à l'intérieur du vaisseau logé contre la paroi. Une veinotomie a été réalisée, permettant au fragment d'être extrait du vaisseau périphérique avant qu'il ne puisse migrer plus loin. Le chien a récupéré de la chirurgie sans complication et a été libéré le lendemain.Message clinique clé :Dans le cas rapporté ici, la veine axillo-brachiale était un emplacement cliniquement important sur la voie de migration d'une embolie par cathéter intraveineux céphalique. La fluoroscopie a permis la localisation rapide d'un fragment de cathéter intraveineux embolisé dans une veine périphérique et l'extraction chirurgicale ouverte dirigée du corps étranger. Un fragment de cathéter périphérique peut être extrait chirurgicalement d'une veine d'un membre même lorsqu'un garrot n'a pas été appliqué immédiatement.(Traduit par Dr Serge Messier).
Dog Diseases , Foreign Bodies , Male , Dogs , Animals , Australia , Catheters , Phlebotomy/veterinary , Fluoroscopy , Foreign Bodies/surgery , Foreign Bodies/veterinary , Dog Diseases/surgery
Objective: Studies investigating strategies to limit the risk of nocturnal hypoglycemia associated with physical activity (PA) are scarce and have been conducted in standardized, controlled conditions in people with type 1 diabetes (T1D). This study sought to investigate the effect of daily PA level on nocturnal glucose management in free-living conditions while taking into consideration reported mitigation strategies to limit the risk of nocturnal hyoglycemia in people with T1D. Methods: Data from 25 adults (10 males, 15 females, HbA1c: 7.6 ± 0.8%), 20-60 years old, living with T1D, were collected. One week of continuous glucose monitoring and PA (assessed using an accelerometer) were collected in free-living conditions. Nocturnal glucose values (midnight-6:00 am) following an active day "ACT" and a less active day "L-ACT" were analyzed to assess the time spent within the different glycemic target zones (<3.9 mmol/L; 3.9 - 10.0 mmol/L and >10.0 mmol/L) between conditions. Self-reported data about mitigation strategies applied to reduce the risk of nocturnal hypoglycemia was also analyzed. Results: Only 44% of participants reported applying a carbohydrate- or insulin-based strategy to limit the risk of nocturnal hypoglycemia on ACT day. Nocturnal hypoglycemia occurrences were comparable on ACT night versus on L-ACT night. Additional post-meal carbohydrate intake was higher on evenings following ACT (27.7 ± 15.6 g, ACT vs. 19.5 ± 11.0 g, L-ACT; P=0.045), but was frequently associated with an insulin bolus (70% of participants). Nocturnal hypoglycemia the night following ACT occurred mostly in people who administrated an additional insulin bolus before midnight (3 out of 5 participants with nocturnal hypoglycemia). Conclusions: Although people with T1D seem to be aware of the increased risk of nocturnal hypoglycemia associated with PA, the risk associated with additional insulin boluses may not be as clear. Most participants did not report using compensation strategies to reduce the risk of PA related late-onset hypoglycemia which may be because they did not consider habitual PA as something requiring treatment adjustments.
Diabetes Mellitus, Type 1 , Hypoglycemia , Adult , Blood Glucose , Blood Glucose Self-Monitoring , Diabetes Mellitus, Type 1/complications , Diabetes Mellitus, Type 1/epidemiology , Exercise , Female , Glucose , Humans , Hypoglycemia/chemically induced , Hypoglycemic Agents/adverse effects , Insulin/adverse effects , Male , Middle Aged , Prevalence , Social Conditions , Young Adult
A 12-year-old castrated male cocker spaniel dog was referred for evaluation of signs consistent with right-sided heart failure. Thoracic radiography revealed mineralization in the region of the right atrium. Echocardiography identified a mass partially filling the right atrium and right ventricle and obstructing flow through the right heart. These findings were confirmed at necropsy and histopathologic features were consistent with myxoma with chondroid differentiation.
Myxome cardiaque obstructif minéralisé avec différenciation chondroïde chez un cocker. Un chien cocker mâle castré de 12 ans a été référé pour une évaluation de signes compatibles avec une insuffisance cardiaque droite. La radiographie thoracique a révélé une minéralisation dans la région de l'oreillette droite. L'échocardiographie a identifié une masse remplissant partiellement l'oreillette droite et le ventricule droit et obstruant le flux à travers le cæur droit. Ces résultats ont été confirmés à l'autopsie et les caractéristiques histopathologiques étaient compatibles avec un myxome à différenciation chondroïde.(Traduit par Dr Serge Messier).
Dog Diseases , Heart Failure , Heart Neoplasms , Myxoma , Animals , Dog Diseases/diagnostic imaging , Dogs , Echocardiography/veterinary , Heart Failure/diagnosis , Heart Failure/veterinary , Heart Neoplasms/diagnosis , Heart Neoplasms/diagnostic imaging , Heart Neoplasms/veterinary , Heart Ventricles/pathology , Male , Myxoma/diagnostic imaging , Myxoma/veterinary
OBJECTIVE: To better understand spatial relationships between principal bronchi and other intrathoracic structures by use of CT images of dogs of various somatotypes. ANIMALS: 93 dogs that underwent thoracic CT. PROCEDURES: Information was collected from medical records regarding signalment and physical examination and echocardiographic findings. Two investigators recorded multiple measurements on a thoracic axial CT image from each dog. RESULTS: Thoracic height-to-width ratio (H:W) was associated with left principal bronchus (LPB) and right principal bronchus (RPB) H:W, aortic-LPB separation, focal LPB narrowing, and aortic-vertebral overlap. Thoracic H:W was not associated with dog age, weight, sex, or brachycephalic breed. Twenty-five (27%) dogs had focal LPB narrowing, compared with 5 (5%) dogs with focal RPB narrowing (P < 0.001). Ten of 25 dogs had overlap or contact between vertebrae, aorta, LPB, and heart, suggesting a cumulative compressive effect on the LPB, while 15 had LPB-aorta contact and lack of contact between the aorta and thoracic vertebrae, suggesting an aortic constrictive effect on the LPB. None had LPB narrowing without contact from surrounding structures. Inter-rater agreement was high. CLINICAL RELEVANCE: In dogs that underwent CT and were not selected for clinical suspicion of bronchial disease, principal bronchial morphology was associated with thoracic conformation. Focal LPB narrowing occurred more often than RPB narrowing. Focal LPB narrowing occurred with evidence of extraluminal compression, with or without contact between aorta and vertebrae. Brachycephalic breed could not be used for predicting thoracic H:W.
Craniosynostoses , Dog Diseases , Dogs , Animals , Bronchi , Tomography, X-Ray Computed/veterinary , Craniosynostoses/veterinary , Thoracic Vertebrae
BACKGROUND: There is a lack of clinical data on hypertrophic cardiomyopathy (HCM) in dogs. HYPOTHESIS/OBJECTIVES: To investigate signalment, clinical signs, diagnostic findings, and survival in dogs with HCM. ANIMALS: Sixty-eight client-owned dogs. METHODS: Retrospective multicenter study. Medical records were searched between 2003 and 2015. The diagnosis of left ventricular (LV) hypertrophy was made by echocardiographic examination. RESULTS: Three hundred and forty-five dogs with LV hypertrophy were identified, of which 277 were excluded. The remaining 68 dogs were 0.3 to 14 years old and predominantly <10 kg (85%), and without a sex predilection. Twenty-four % were Shih Tzu and 24% terrier breeds. Most (80%) had a systolic heart murmur. Owner-determined exercise intolerance (37%) and syncope (18%) were most commonly reported signs. The majority (84%) of dogs had symmetrical LV hypertrophy, whereas asymmetrical septal and LV free wall hypertrophy was observed in 9% and 6% of dogs, respectively. Isolated basal interventricular septal hypertrophy was not observed. Commonly recorded were systolic anterior motion of the mitral valve (60%) and LV diastolic dysfunction (89% of dogs where diastolic function was evaluated). Six dogs died unexpectedly, and 3 developed congestive heart failure. Known survival times were between 1 day and 114 months after diagnosis. CONCLUSIONS AND CLINICAL IMPORTANCE: Hypertrophic cardiomyopathy in dogs should be considered as a differential diagnosis if LV hypertrophy is identified. Small breed dogs are overrepresented, and it is uncommon for dogs with HCM to develop CHF although sudden death can occur.
Cardiomyopathy, Hypertrophic , Dog Diseases , Heart Failure , Ventricular Dysfunction, Left , Animals , Cardiomyopathy, Hypertrophic/diagnosis , Cardiomyopathy, Hypertrophic/veterinary , Dog Diseases/diagnostic imaging , Dogs , Echocardiography/veterinary , Heart Failure/veterinary , Hypertrophy, Left Ventricular/veterinary , Retrospective Studies , Ventricular Dysfunction, Left/veterinary
OBJECTIVE: To investigate the effects of dexmedetomidine (DXM) and its subsequent reversal with atipamezole (APM) on the echocardiogram and circulating concentrations of cardiac biomarkers in cats. ANIMALS: 14 healthy cats. PROCEDURES: Cats underwent echocardiography and measurements of circulating cTn-I and NT-proBNP concentrations before (PRE) and during (INTRA) DXM sedation (40 µg/kg IM) and 2 to 4 (2H POST) and 24 (24H POST) hours after reversal with APM. RESULTS: Administering DXM significantly decreased heart rate, right ventricular and left ventricular (LV) outflow tract velocities, and M-mode-derived LV free-wall thickness; increased LV end systolic diameter and volume; and caused valvar regurgitation. While sedative effects resolved within 25 minutes of APM reversal, the evolution of echocardiographic changes was mixed: LV ejection fraction and mitral valvar regurgitation score were different at 2H POST than at both INTRA and PRE (partial return toward baseline), LV end-diastolic volume was different PRE to INTRA and INTRA to 2H POST but not different PRE to 2H POST (full return toward baseline), and M-mode-derived LV free-wall thickness was significantly different from PRE to INTRA and PRE to 2H POST (no return toward baseline). Serum cTn-I and plasma NT-proBNP concentrations increased significantly with DXM, which remained significant 2H POST. CLINICAL RELEVANCE: Administration of DXM and APM reversal produced changes in echocardiographic results and in circulating cTn-I and NT-proBNP concentrations. Understanding these changes could help veterinarians differentiate drug effects from cardiac disease.
Dexmedetomidine , Animals , Biomarkers , Cats , Dexmedetomidine/pharmacology , Echocardiography/veterinary , Imidazoles , Natriuretic Peptide, Brain , Peptide Fragments , Stroke Volume
Alzheimer's disease (AD) is the most common major neurocognitive disorder of ageing. Although largely ignored until about a decade ago, accumulating evidence suggests that deteriorating brain energy metabolism plays a key role in the development and/or progression of AD-associated cognitive decline. Brain glucose hypometabolism is a well-established biomarker in AD but was mostly assumed to be a consequence of neuronal dysfunction and death. However, its presence in cognitively asymptomatic populations at higher risk of AD strongly suggests that it is actually a pre-symptomatic component in the development of AD. The question then arises as to whether progressive AD-related cognitive decline could be prevented or slowed down by correcting or bypassing this progressive 'brain energy gap'. In this review, we provide an overview of research on brain glucose and ketone metabolism in AD and its prodromal condition mild cognitive impairment (MCI) to provide a clearer basis for proposing keto-therapeutics as a strategy for brain energy rescue in AD. We also discuss studies using ketogenic interventions and their impact on plasma ketone levels, brain energetics and cognitive performance in MCI and AD. Given that exercise has several overlapping metabolic effects with ketones, we propose that in combination these two approaches might be synergistic for brain health during ageing. As cause-and-effect relationships between the different hallmarks of AD are emerging, further research efforts should focus on optimising the efficacy, acceptability and accessibility of keto-therapeutics in AD and populations at risk of AD.
Alzheimer Disease , Ketones , Humans , Ketones/metabolism , Brain/metabolism , Glucose/metabolism , Cognition
OBJECTIVE: To compare potassium concentrations in feline plasma and serum samples analyzed promptly after collection or after 20 to 28 hours of refrigerated storage. ANIMALS: 41 cats. PROCEDURES: A venous blood sample was obtained from each cat. Aliquots were placed in 2 tubes without anticoagulant (blood was allowed to clot to derive serum) and 2 tubes with heparin (to derive plasma). One serum and 1 plasma sample were kept at room temperature and analyzed within 60 minutes after collection (baseline); the other serum and plasma samples were analyzed after 20 to 28 hours of refrigerated storage. At both time points, serum and plasma potassium concentrations were measured. RESULTS: Median baseline serum potassium concentration (4.3 mmol/L) was significantly higher than median baseline plasma potassium concentration (4.1 mmol/L). The median difference between those values was 0.4 mmol/L (95% CI, 0.2 to 0.5 mmol/L). Compared with their respective baseline measurements, the median serum plasma concentration (4.8 mmol/L) and median plasma potassium concentration (4.6 mmol/L) were higher after 20 to 28 hours of refrigeration. CLINICAL RELEVANCE: Results indicated that with regard to potassium concentration in feline blood samples, clotting or refrigerated storage for 20 to 28 hours results in a significant artifactual increase. Detection of an unexpectedly high potassium concentration in a cat may represent pseudohyperkalemia, especially if the blood sample was placed in a no-additive tube, was stored for 20 to 28 hours prior to analysis, or both.
Potassium , Refrigeration , Animals , Blood Specimen Collection/veterinary , Cats , Refrigeration/veterinary
A 4 month-old, 14.8 kg, male Newfoundland dog was presented for cardiovascular evaluation following detection of a heart murmur. Echocardiography revealed enlargement of the sinuses of Valsalva and marked, diffuse dilation of the ascending aorta (annuloaortic ectasia, AAE), with mild/equivocal subaortic stenosis (SAS). The dog was monitored over the duration of its lifetime, with serial echocardiograms performed at 5, 6, and 8 months and 1, 2, 3, 4, 8, and 10 years demonstrating persistent, diffuse dilation of the ascending aorta. The dog lived until it was 10 years old and died of metastatic carcinoma. Postmortem examination confirmed AAE and mild SAS. Hematoxylin and eosin and Weigert van Gieson stains were used to compare the ascending aorta to the descending aorta and left subclavian artery, and to compare aortic samples to those of three control dogs. Histopathologic evaluation revealed mild medial degeneration in the ascending aorta of all four dogs. Immunofluorescent microscopy was used for determining the deposition of proteins known to play a role in aortic aneurysms in humans: fibrillin-1 (FBN1), latent transforming growth factor beta binding protein 4 (LTBP4) and fibronectin. The ascending aorta of the AAE case demonstrated reduced deposition of FBN1, indicating that its loss may have contributed to aortic dilation. Diffuse, primary ascending aortic dilation is uncommonly reported in dogs; when it is, it carries a poor prognosis. This case provides an important example of marked dilation of the ascending aorta in a dog that lived with no associated adverse effects for 10 years.
Aortic Aneurysm, Thoracic , Aortic Aneurysm , Dog Diseases , Marfan Syndrome , Animals , Aortic Aneurysm/veterinary , Aortic Aneurysm, Thoracic/veterinary , Dog Diseases/diagnostic imaging , Dogs , Follow-Up Studies , Male , Marfan Syndrome/veterinary
PRACTICAL RELEVANCE: Although feline hypertrophic cardiomyopathy (HCM) occurs more commonly, dilated cardiomyopathy (DCM), restrictive cardiomyopathy (RCM), arrhythmogenic right ventricular cardiomyopathy (ARVC), left ventricular noncompaction (LVNC) and cardiomyopathy - nonspecific phenotype (NCM; formerly unclassified cardiomyopathy) are all recognized in domestic cats. PATIENT GROUP: Any adult domestic cat, of either sex and of any breed, can be affected. DIAGNOSTICS: The non-HCM cardiomyopathies are rarely suspected in subclinically affected cats, so most are first identified when a cat presents with signs of heart failure or systemic thromboembolic disease. The definitive clinical confirmatory test for these other feline cardiomyopathies is echocardiography. KEY FINDINGS: 'Cardiomyopathy - nonspecific phenotype' is a catch-all term that groups hearts with myocardial changes that either do not meet the criteria for any one type of cardiomyopathy (HCM, RCM, DCM, ARVC, LVNC) or meet the echocardiography criteria for more than one type. RCM is characterized by diastolic dysfunction due to fibrosis that results in a restrictive transmitral flow pattern on Doppler echocardiography and usually marked left or biatrial enlargement. DCM is characterized by decreased myocardial contractility and is rare in cats. When it occurs, it is seldom due to taurine deficiency. However, since taurine-deficient DCM is usually reversible, a diet history should be obtained, whole blood and plasma taurine levels should be measured and taurine should be supplemented in the diet if the diet is not commercially manufactured. ARVC should be suspected in adult cats with severe right heart enlargement and right heart failure (ascites and/or pleural effusion), especially if arrhythmia is present. Feline LVNC is rare; its significance continues to be explored. Treatment of the consequences of these cardiomyopathies (management of heart failure, thromboprophylaxis, treatment of systemic arterial thromboembolism) is the same as for HCM. CONCLUSIONS: While these other cardiomyopathies are less prevalent than HCM in cats, their clinical and radiographic presentation is often indistinguishable from HCM. Echocardiography is usually the only ante-mortem method to determine which type of cardiomyopathy is present. However, since treatment and prognosis are often similar for the feline cardiomyopathies, distinguishing among the cardiomyopathies is often not essential for determining appropriate therapy. AREAS OF UNCERTAINTY: The feline cardiomyopathies do not always fit into one distinct category. Interrelationships among cardiomyopathies in cats may exist and understanding these relationships in the future might provide critical insights regarding treatment and prognosis.
Cardiomyopathies , Cardiomyopathy, Hypertrophic , Cat Diseases , Venous Thromboembolism , Animals , Anticoagulants , Cardiomyopathies/diagnosis , Cardiomyopathies/etiology , Cardiomyopathies/veterinary , Cardiomyopathy, Hypertrophic/diagnosis , Cardiomyopathy, Hypertrophic/veterinary , Cat Diseases/diagnosis , Cat Diseases/etiology , Cats , Echocardiography/veterinary , Venous Thromboembolism/veterinary
PRACTICAL RELEVANCE: The feline cardiomyopathies are the most prevalent type of heart disease in adult domestic cats. Several forms have been identified (see Parts 2 and 3), with hypertrophic cardiomyopathy (HCM) being the most common. Clinically the cardiomyopathies are often indistinguishable. Cats with subclinical cardiomyopathy may or may not have characteristic physical examination findings (eg, heart murmur, gallop sound), or radiographic cardiomegaly. Cats with severe disease may develop signs of heart failure (eg, dyspnea, tachypnea) or systemic arterial thromboembolism (ATE; eg, pain and paralysis). Sudden death is possible. Treatment usually does not alter the progression from subclinical to clinical disease and often the treatment approach, once clinical signs are apparent, is the same regardless of the type of cardiomyopathy. However, differentiating cardiomyopathy from normal variation may be important prognostically. PATIENT GROUP: Domestic cats of any age from 3 months upward, of either sex and of any breed, can be affected. Mixed-breed cats are most commonly affected but certain breeds are disproportionately prone to developing HCM. DIAGNOSTICS: Subclinical feline cardiomyopathies may be suspected based on physical examination findings, thoracic radiographs and cardiac biomarker results but often the disease is clinically silent. The definitive clinical confirmatory test is echocardiography. Left heart failure (pulmonary edema and/or pleural effusion) is most commonly diagnosed radiographically, but point-of-care ultrasound and amino terminal pro-B-type natriuretic peptide (NT-proBNP) biomarker testing can also be useful, especially when the stress of taking radiographs is best avoided. KEY FINDINGS: Knowledge of pathophysiological mechanisms helps the practitioner identify the feline cardiomyopathies and understand how these diseases progress and how they manifest clinically (heart failure, ATE). Existing diagnostic tests have strengths and limitations, and being aware of these can help a practitioner deliver optimal recommendations regarding referral. CONCLUSIONS: Several types of feline cardiomyopathies exist in both subclinical (mild to severe disease) and clinical (severe disease) phases. Heart failure and ATE are the most common clinical manifestations of severe cardiomyopathy and are therapeutic targets regardless of the type of cardiomyopathy. The long-term prognosis is often guarded or poor once overt clinical manifestations are present. AREAS OF UNCERTAINTY: Some cats with presumed cardiomyopathy do not have echocardiographic features that fit the classic cardiomyopathies (cardiomyopathy - nonspecific phenotype). Although no definitive treatment is usually available, understanding how cardiomyopathies evolve remains worthy of investigation.
Cardiomyopathies , Cardiomyopathy, Hypertrophic , Cat Diseases , Heart Diseases , Heart Failure , Animals , Cardiomyopathies/diagnosis , Cardiomyopathies/veterinary , Cardiomyopathy, Hypertrophic/diagnosis , Cardiomyopathy, Hypertrophic/veterinary , Cat Diseases/diagnosis , Cats , Echocardiography/veterinary , Heart Diseases/veterinary , Heart Failure/diagnosis , Heart Failure/etiology , Heart Failure/veterinary
PRACTICAL RELEVANCE: Hypertrophic cardiomyopathy (HCM) is the most common form of feline cardiomyopathy observed clinically and may affect up to approximately 15% of the domestic cat population, primarily as a subclinical disease. Fortunately, severe HCM, leading to heart failure or arterial thromboembolism (ATE), only occurs in a small proportion of these cats. PATIENT GROUP: Domestic cats of any age from 3 months upward, of either sex and of any breed, can be affected. A higher prevalence in male and domestic shorthair cats has been reported. DIAGNOSTICS: Subclinical feline HCM may or may not produce a heart murmur or gallop sound. Substantial left atrial enlargement can often be identified radiographically in cats with severe HCM. Biomarkers should not be relied on solely to diagnose the disease. While severe feline HCM can usually be diagnosed via echocardiography alone, feline HCM with mild to moderate left ventricular (LV) wall thickening is a diagnosis of exclusion, which means there is no definitive test for HCM in these cats and so other disorders that can cause mild to moderate LV wall thickening (eg, hyperthyroidism, systemic hypertension, acromegaly, dehydration) need to be ruled out. KEY FINDINGS: While a genetic cause of HCM has been identified in two breeds and is suspected in another, for most cats the cause is unknown. Systolic anterior motion of the mitral valve (SAM) is the most common cause of dynamic left ventricular outflow tract obstruction (DLVOTO) and, in turn, the most common cause of a heart murmur with feline HCM. While severe DLVOTO is probably clinically significant and so should be treated, lesser degrees probably are not. Furthermore, since SAM can likely be induced in most cats with HCM, the distinction between HCM without obstruction and HCM with obstruction (HOCM) is of limited importance in cats. Diastolic dysfunction, and its consequences of abnormally increased atrial pressure leading to signs of heart failure, and sluggish atrial blood flow leading to ATE, is the primary abnormality that causes clinical signs and death in affected cats. Treatment (eg, loop diuretics) is aimed at controlling heart failure. Preventive treatment (eg, antithrombotic drugs) is aimed at reducing the risk of complications (eg, ATE). CONCLUSIONS: Most cats with HCM show no overt clinical signs and live a normal or near-normal life despite this disease. However, a substantial minority of cats develop overt clinical signs referable to heart failure or ATE that require treatment. For most cats with clinical signs caused by HCM, the long-term prognosis is poor to grave despite therapy. AREAS OF UNCERTAINTY: Genetic mutations (variants) that cause HCM have been identified in a few breeds, but, despite valiant efforts, the cause of HCM in the vast majority of cats remains unknown. No treatment currently exists that reverses or even slows the cardiomyopathic process in HCM, again despite valiant efforts. The search goes on.
Cardiomyopathies , Cardiomyopathy, Hypertrophic , Cat Diseases , Animals , Cardiomyopathies/veterinary , Cardiomyopathy, Hypertrophic/diagnosis , Cardiomyopathy, Hypertrophic/veterinary , Cat Diseases/diagnosis , Cat Diseases/etiology , Cats , Echocardiography/veterinary , Heart Ventricles , Male , Systole
BACKGROUND: Point-of-care (POC) N-terminal pro B-type natriuretic peptide (NT-proBNP) ELISA test has been evaluated for screening cats for cardiac disease in the referral veterinary setting but less is known about its use in general practice (GP). OBJECTIVES: To evaluate the diagnostic utility of a POC NT-proBNP ELISA in cats seen in GPs. ANIMALS: Two hundred and seventeen apparently healthy cats from 21 GPs. METHODS: This was a prospective, cross-sectional study. Cardiac auscultation and POC NT-proBNP ELISA were done by veterinarians at their GPs. After enrollment at GPs, cats were sent to a cardiology referral hospital for cardiac auscultation and echocardiographic diagnosis. Results were interpreted based on whether cats had normal or abnormal echocardiographic findings. RESULTS: Point-of-care NT-proBNP ELISA results differentiated cats in the abnormal group from those in the normal group with a sensitivity of 43%, specificity of 96%. In cats with a heart murmur at GPs, POC NT-proBNP ELISA results differentiated cats in the abnormal group from those in the normal group with a sensitivity of 71% and a specificity of 92%. CONCLUSION AND CLINICAL IMPORTANCE: In apparently healthy cats in GPs, positive POC NT-proBNP results are associated with heart disease, warranting an echocardiogram, but negative results do not reliably exclude heart disease. These results suggest POC NT-proBNP is not an effective screening test for apparently healthy cats in GPs, although its performance is improved if it is used only in cats that have a heart murmur.
Cat Diseases , General Practice , Heart Diseases , Heart Failure , Animals , Biomarkers , Cat Diseases/diagnosis , Cats , Cross-Sectional Studies , Heart Diseases/diagnosis , Heart Diseases/veterinary , Heart Failure/veterinary , Natriuretic Peptide, Brain , Peptide Fragments , Point-of-Care Systems , Prospective Studies
INTRODUCTION: Mild cognitive impairment (MCI) is often accompanied by metabolic abnormalities and inflammation that might play a role in the development of cognitive impairment. The use of ketogenic medium-chain triglycerides (kMCT) to improve cognition in this population has shown promising results but remains controversial because of the potentially detrimental effect of elevated intake of saturated fatty acids on cardiovascular (CV) health and perhaps inflammatory processes. The primary aim of this secondary data analysis report is to describe changes in cardiometabolic markers and peripheral inflammation during a 6-month kMCT intervention in MCI. METHODS: Thirty-nine participants with MCI completed the intervention of 30 g/day of either a kMCT drink or calorie-matched placebo (high-oleic acid) for 6 months. Plasma concentrations of cardiometabolic and inflammatory markers were collected before (fasting state) and after the intervention (2 h following the last drink). RESULTS: A mixed model ANOVA analysis revealed a time by group interaction for ketones (P < 0.001), plasma 8:0 and 10:0 acids (both P < 0.001) and IL-8 (P = 0.002) with follow up comparison revealing a significant increase in the kMCT group (+48%, P = 0.005), (+3,800 and +4,900%, both P < 0.001) and (+147%, P < 0.001) respectively. A main effect of time was observed for insulin (P = 0.004), triglycerides (P = 0.011) and non-esterified fatty acids (P = 0.036). CONCLUSION: Under these study conditions, 30 g/d of kMCT taken for six months and up to 2-hour before post-intervention testing had minimal effect on an extensive profile of circulating cardiometabolic and inflammatory markers as compared to a placebo calorie-matched drink. Our results support the safety kMCT supplementation in individuals with MCI. The clinical significance of the observed increase in circulating IL-8 levels is presently unknown and awaits future studies.
Cognitive Dysfunction/diet therapy , Fatty Acids/blood , Insulin/blood , Interleukin-8/blood , Triglycerides/administration & dosage , Aged , Aged, 80 and over , Biomarkers/blood , Cognitive Dysfunction/blood , Diet, Ketogenic , Drug Administration Schedule , Fasting/blood , Female , Humans , Male , Treatment Outcome , Triglycerides/pharmacokinetics
