The use of caffeine as a respiratory stimulant in a cat.

OBJECTIVE: To report the use of caffeine as a respiratory stimulant in a cat with hypoventilation. CASE SUMMARY: A cat was mechanically ventilated due to persistent hypercapnia (Pet co2  > 75 mm Hg) following median sternotomy and thymectomy. After 3 days of mechanical ventilatory support, the cat would initiate breaths but failed weaning due to persistent hypercapnia. Following administration of intravenous caffeine (total 12 mg/kg over 24 h), respiratory and mental status rapidly improved. The cat was subsequently extubated and able to maintain Pvco2  < 50 mm Hg. The cat was later diagnosed with myasthenia gravis. Quality of life 13 months after discharge was reported as excellent by her owner. NEW OR UNIQUE INFORMATION PROVIDED: Caffeine may be considered as a respiratory stimulant in cats with hypoventilation.

Central cord syndrome: clinical features, etiological diagnosis, and outcome in 74 dogs.

OBJECTIVE: To describe the clinical and neurologic signs, diagnostic investigations, definitive or presumptive diagnosis, treatment, and outcome of dogs presented with acute onset central cord syndrome (CCS). ANIMALS: 74 client-owned dogs evaluated for CCS at 5 referral hospitals between January 2016 and March 2021. PROCEDURES: Data were collected from the medical records of each dog, including patient signalment, physical and neurologic examination results, presence of signs of respiratory failure, diagnostic imaging findings, definitive or presumptive diagnosis, treatment and follow-up information. Descriptive statistics were calculated and bivariable analysis was performed to identify associations between selected variables. RESULTS: 2 neuroanatomic locations for the CCS were identified: C1-C5 spinal cord segments in 65 of 74 (88%) dogs and C6-T2 in 9 (12%) dogs. Neurolocalization did not correlate with the imaging findings in 43 (58%) dogs. Different diseases were associated with CCS. The most common condition was Hansen type I disk herniation in 27 (36%) dogs and hydrated nucleus pulposus extrusion in 16 (22%) dogs. Main lesion locations within the vertebral column associated with CCS were C3-C4 and C4-C5 intervertebral disk spaces in 21 (28%) and 18 (24%) dogs, respectively. Outcome was favorable in 69 (93%) dogs. Patients presenting with hypoventilation were 14.7 times more likely to have a poor outcome. CLINICAL RELEVANCE: CCS in dogs may be seen with lesions in the C1-C5 and C6-T2 spinal cord segments. Etiologies are variable. Total or partial improvement was achieved in most dogs with the appropriate treatment. Hypoventilation was associated with death.

Hypoventilation following oxygen administration associated with alfaxalone-dexmedetomidine-midazolam anesthesia in New Zealand White rabbits.

OBJECTIVE: To investigate the relationship between oxygen administration and ventilation in rabbits administered intramuscular alfaxalone-dexmedetomidine-midazolam. STUDY DESIGN: Prospective, randomized, blinded study. ANIMALS: A total of 25 New Zealand White rabbits, weighing 3.1-5.9 kg and aged 1 year. METHODS: Rabbits were anesthetized with intramuscular alfaxalone (4 mg kg-1), dexmedetomidine (0.1 mg kg-1) and midazolam (0.2 mg kg-1) and randomized to wait 5 (n = 8) or 10 (n = 8) minutes between drug injection and oxygen (100%) administration (facemask, 1 L minute-1). A control group (n = 9) was administered medical air 10 minutes after drug injection. Immediately before (PREoxy/air5/10) and 2 minutes after oxygen or medical air (POSToxy/air5/10), respiratory rate (fR), pH, PaCO2, PaO2, bicarbonate and base excess were recorded by an investigator blinded to treatment allocation. Data [median (range)] were analyzed with Wilcoxon, Mann-Whitney U and Kruskal-Wallis tests and p < 0.05 considered significant. RESULTS: Hypoxemia (PaO2 < 88 mmHg, 11.7 kPa) was observed at all PRE times: PREoxy5 [71 (61-81) mmHg, 9.5 (8.1-10.8) kPa], PREoxy10 [58 (36-80) mmHg, 7.7 (4.8-10.7) kPa] and PREair10 [48 (32-64) mmHg, 6.4 (4.3-8.5) kPa]. Hypoxemia persisted when breathing air: POSTair10 [49 (33-66) mmHg, 6.5 (4.4-8.8) kPa]. Oxygen administration corrected hypoxemia but was associated with decreased fR (>70%; p = 0.016, both groups) and hypercapnia (p = 0.016, both groups). Two rabbits (one per oxygen treatment group) were apneic (no thoracic movements for 2.0-2.5 minutes) following oxygen administration. fR was unchanged when breathing air (p = 0.5). PaCO2 was higher when breathing oxygen than air (p < 0.001). CONCLUSIONS AND CLINICAL RELEVANCE: Early oxygen administration resolved anesthesia-induced hypoxemia; however, fR decreased and PaCO2 increased indicating that hypoxemic respiratory drive is an important contributor to ventilation using the studied drug combination.

Hypoventilation, cardiac dysrhythmia, and cardiac arrest following acute Brunfelsia species (Yesterday, today, tomorrow) intoxication in a dog.

BACKGROUND: Intoxication following ingestion of the popular garden shrub 'Yesterday, today, tomorrow' (Brunfelsia sp.) is known to result in gastrointestinal and central nervous system clinical signs in dogs. CASE REPORT: A 2-year-old dog developed acute-onset vomiting, profuse diarrhoea and ptyalism after unsupervised access to an enclosed backyard that contained a Brunfelsia sp. shrub. During initial assessment the watery diarrhoea contained plant material and the dog appeared painful on abdominal palpation. Soon after admission, severe neurological abnormalities developed. Decontamination was undertaken by gastric and colonic lavage under general anaesthesia, but on recovery the patient had generalised seizures that were unresponsive to benzodiazepines. Following treatment with multiple antiepileptic medications and endotracheal intubation for loss of gag reflex, the patient developed respiratory failure requiring mechanical ventilation. Four days after initial presentation, the patient developed cardiac dysrhythmia leading to fatal cardiac arrest. Plant material recovered from the shrub and the patient's gastrointestinal tract were identified as Brunfelsia spp. CONCLUSION: This is the first report of hypoventilation, severe cardiac dysrhythmia and cardiac arrest associated with Brunfelsia sp. intoxication in a dog. Previous reports described clinical signs of gastrointestinal disease and mild cardiac dysrhythmia progressing to seizure activity and opisthotonus. Electrocardiography should form part of patient monitoring and mechanical ventilation considered for patients that develop respiratory failure, especially if massive ingestion is suspected.

A Quick Reference on Hypoxemia.

This article describes the calculation of the alveolar-arterial gas gradient and its clinical application in determining the cause of hypoxemia. It also outlines the analysis of arterial blood gases and the clinical approach toward diagnosis and treatment of respiratory disease.

The use of equine surfactant and positive pressure ventilation to treat a premature alpaca cria with severe hypoventilation and hypercapnia.

A 5-hour-old, premature alpaca cria was presented with failure to nurse, weakness, hypoglycemia, hypercapnia, and respiratory distress. The cria was treated with 3 doses of fresh, crude equine surfactant, positive pressure ventilation, and supplemental intranasal oxygen. Recovery to discharge was uneventful, and the cria regained apparently normal respiratory function. Three years after hospital discharge, the alpaca was a healthy adult.

Utilisation du surfactant équin et de la ventilation à pression positive pour traiter un jeune alpaga atteint d'hypoventilation grave et d'hypercapnie. Un jeune alpaga né prématurément et âgé de 5 heures a été présenté pour une absence d'allaitement, une faiblesse, l'hypoglycémie, l'hypercapnie et la détresse respiratoire. Le jeune a été traité à l'aide de 3 doses de surfactant équin frais et brut, une ventilation à pression positive et de l'oxygène intranasal supplémentaire. Le rétablissement et le congé se sont bien passés et la fonction respiratoire normale du jeune s'est apparemment rétablie. Trois ans après le congé de l'hôpital, l'alpaga était un adulte en santé.(Traduit par Isabelle Vallières).

Hypoxia following etorphine administration in goats (Capra hircus) results more from pulmonary hypertension than from hypoventilation.

BACKGROUND: Etorphine, a potent opioid agonist, causes pulmonary hypertension and respiratory depression. Whether etorphine-induced pulmonary hypertension negatively influences pulmonary gas exchange and exacerbates the effects of ventilator depression and the resultant hypoxemia is unknown. To determine if these effects occurred we instrumented twelve goats with peripheral and pulmonary arterial catheters to measure systemic and pulmonary pressures before and after etorphine administration. Concurrent cardiopulmonary and arterial blood gas variables were also measured. RESULTS: Etorphine induced hypoventilation (55% reduction to 7.6 ± 2.7 L.min(-1), F(11,44) = 15.2 P < 0.0001), hypoxia (<45 mmHg, F(11,44) = 8.6 P < 0.0001), hypercapnia (>40 mmHg, F(11,44) = 5.6 P < 0.0001) and pulmonary hypertension (mean 23 ± 6 mmHg, F(11,44) = 8.2 P < 0.0001). Within 6 min of etorphine administration hypoxia was twice (F(11,22) = 3.0 P < 0.05) as poor than that expected from etorphine-induced hypoventilation alone. This disparity appeared to result from a decrease in the movement of oxygen (gas exchange) across the alveoli membrane, as revealed by an increase in the P(A-a)O2 gradient (F(11,44) = 7.9 P < 0.0001). The P(A-a)O2 gradient was not correlated with global changes in the ventilation perfusion ratio (P = 0.28) but was correlated positively with the mean pulmonary artery pressure (P = 0.017, r(2) = 0.97), indicating that pulmonary pressure played a significant role in altering pulmonary gas exchange. CONCLUSION: Attempts to alleviate etorphine-induced hypoxia therefore should focus not only on reversing the opioid-induced respiratory depression, but also on improving gas exchange by preventing etorphine-induced pulmonary hypertension.

Basics of mechanical ventilation for dogs and cats.

Respiratory failure may occur due to hypoventilation or hypoxemia. Regardless of the cause, emergent anesthesia and intubation, accompanied by positive pressure ventilation, may be necessary and life saving. Long-term mechanical ventilation requires some specialized equipment and knowledge; however, short-term ventilation can be accomplished without the use of an intensive care unit ventilator, and can provide oxygen supplementation and carbon dioxide removal in critical patients.

Afundamento costal estabilizado com suporte externo de metilmetacrilato em um felino / Ditching costal stabilized with external support of methylmethacrylate in a feline

O tórax instável ou afundamento costal acontece quando há fraturas múltiplas de pelo menos duas costelas consecutivas (CROWE et al., 2005). Nesse caso, durante a inspiração, o segmento fraturado, ao invés de expandir com o restante da caixa torácica, tende a penetrar no tórax. Subsequentemente, no momento da expiração, o conjunto instável tende a expansão (CROWE et al., 2005, FOSSUM, 2008). O tratamento inicial consiste em tornar o tórax estável, com uma pinça backhaus (AGUIAR, 2011). Posteriormente faz-se necessária a imobilização externa, que permitirá a adequada expansão torácica, sendo mantida por alguns dias até a estabilização do paciente. Para o tratamento cirúrgico recomenda-se a reconstrução anatômica das costelas fraturadas (CUNHA et al., 2009). O objetivo desse trabalho é demonstrar o tratamento da instabilidade costal com metilmetacrilato em felino, descrita por Coutinho et al. (2012).

Effects of hypercapnic hyperpnea on recovery from isoflurane or sevoflurane anesthesia in horses.

OBJECTIVE: To test the hypothesis that hypercapnic hyperpnea produced using endotracheal insufflation with 5-10% CO(2) in oxygen could be used to shorten anesthetic recovery time in horses, and that recovery from sevoflurane would be faster than from isoflurane. STUDY DESIGN: Randomized crossover study design. ANIMALS: Eight healthy adult horses. METHODS: After 2 hours' administration of constant 1.2 times MAC isoflurane or sevoflurane, horses were disconnected from the anesthetic circuit and administered 0, 5, or 10% CO(2) in balance O(2) via endotracheal tube insufflation. End-tidal gas samples were collected to measure anesthetic washout kinetics, and arterial and venous blood samples were collected to measure respiratory gas partial pressures. Horses recovered in padded stalls without assistance, and each recovery was videotaped and evaluated by reviewers who were blinded to the anesthetic agent and insufflation treatment used. RESULTS: Compared to isoflurane, sevoflurane caused greater hypoventilation and was associated with longer times until standing recovery. CO(2) insufflation significantly decreased anesthetic recovery time compared to insufflation with O(2) alone without significantly increasing PaCO(2) . Pharmacokinetic parameters during recovery from isoflurane with CO(2) insufflation were statistically indistinguishable from sevoflurane recovery without CO(2). Neither anesthetic agent nor insufflation treatment affected recovery quality from anesthesia. CONCLUSIONS AND CLINICAL RELEVANCE: Hypercapnic hyperpnea decreases time to standing without influencing anesthetic recovery quality. Although the lower blood gas solubility of sevoflurane should favor a shorter recovery time compared to isoflurane, this advantage is negated by the greater respiratory depression from sevoflurane in horses.

Successful management of severe hypoventilation and hypercapnia in an alpaca (Vicugna pacos) with short-term mechanical ventilation.

OBJECTIVE: To describe the successful management of an alpaca with severe hypoventilation and hypercapnia, suspected to be secondary to an anesthesia-related event. CASE SUMMARY: A 3-year-old, female alpaca underwent a routine eye enucleation under general anesthesia after traumatic globe perforation. Severe hypoventilation and associated hypercapnia developed postoperatively resulting in a severe primary respiratory acidosis. The awake alpaca was supported with positive-pressure ventilation for approximately 20 hours before successful weaning. Recovery to hospital discharge occurred over the subsequent 5 days with the alpaca regaining apparently normal respiratory function. NEW OR UNIQUE INFORMATION PROVIDED: To the knowledge of the authors, this is the first report describing positive-pressure ventilation of an alpaca in the veterinary literature. In this case of severe hypoventilation, ventilatory support was essential to the positive outcome. As South American camelids continue to increase in popularity there may be an increased demand for high-quality and sophisticated veterinary care for these animals. Mechanical ventilation can be used to help restore and maintain normal PO2, PCO2, and respiratory acid-base status in alpacas with ventilatory dysfunction.

Respiratory acidosis: a quick reference.

This article serves as a quick reference for respiratory acidosis. Guidelines for analysis and causes, signs, and a stepwise approach are presented.

Metabolic alkalosis: a quick reference.

This article serves as a quick reference for metabolic alkalosis. Guidelines for analysis and causes, signs, and a stepwise approach are presented.

Sensory irritation response in rats: modeling, analysis and validation.

Inhaled gases can cause respiratory depression by irritating (stimulating) nerves in the nasal cavity. Respiratory depression, in turn, decreases the rate of delivery of those gases to the stimulated nerves, potentially leading to a complex feedback response. In order to better understand how the nervous system responds to such chemicals, a mathematical model is created to describe how the presence of irritants affects respiration in the rat. The ordinary differential equation model describes the dosimetry of these reactive gases in the respiratory tract, with particular focus on the physiology of the upper respiratory tract, and on the neurological control of respiration rate due to signaling from the irritant-responsive nerves in the nasal cavity. The ventilation equation is altered to account for an apparent change in dynamics between the initial ventilation decrease and the recovery to steady state as seen in formaldehyde exposure data. Further, the model is evaluated and improved through optimization of particular parameters to describe formaldehyde-induced respiratory response data and through sensitivity analysis. The model predicts the formaldehyde data well, and hence the model is thought to be a reasonable description of the physiological system of sensory irritation. The model is also expected to translate well to other irritants.

Severe respiratory compromise secondary to cervical disk herniation in two dogs.

Two dogs presented with acute tetraparesis, hypoventilation, and bradycardia with a second-degree atrioventricular heart block. Neurological examination localized both lesions to the cervical spine. Diagnostic imaging revealed a ventral extradural compression at the second to third cervical (C(2)-C(3)) region in one dog and at the third to fourth cervical (C(3)-C(4)) region in the other. Following surgical correction of the extruded disk, the hypoventilation and bradycardia resolved. Cervical disk extrusions are a common cause of acute tetraparesis in the dog. This report shows that respiratory and cardiac complications may occur concurrently. The authors recommend screening dogs with cervical myelopathies for respiratory and cardiac dysfunctions and treating appropriately. Prompt surgical intervention and supportive care can improve the prognosis.

Comparison of a sidestream capnograph and a mainstream capnograph in mechanically ventilated dogs.

OBJECTIVE: To compare the ability of a sidestream capnograph and a mainstream capnograph to measure end-tidal CO2 (ETCO2) and provide accurate estimates of PaCO2 in mechanically ventilated dogs. DESIGN: Randomized, double Latin square. ANIMALS: 6 healthy adult dogs. PROCEDURE: Anesthesia was induced and neuromuscular blockade achieved by IV administration of pancuronium bromide. Mechanical ventilation was used to induce conditions of standard ventilation, hyperventilation, and hypoventilation. While tidal volume was held constant, changes in minute volume ventilation and PaCO2 were made by changing the respiratory rate. Arterial blood gas analysis was performed and ETCO2 measurements were obtained by use of either a mainstream or a sidestream capnographic analyzer. RESULTS: A linear regression model and bias analysis were used to compare PaCO2 and ETCO2 measurements; ETCO2 measurements obtained by both capnographs correlated well with PaCO2. Compared with PaCO2, mainstream ETCO2 values differed by 3.15 +/- 4.89 mm Hg (mean bias +/- SD), whereas the bias observed with the sidestream ETCO2 system was significantly higher (5.65 +/- 5.57 mm Hg). Regardless of the device used to measure ETCO2, bias increased as PaCO2 exceeded 60 mm Hg. CONCLUSIONS AND CLINICAL RELEVANCE: RelevancehAlthough the mainstream cas slightly more accurate, both methods of ETCO2 measurement correlated well with PaCO2 and reflected changes in the ventilatory status. However, ETCO2 values > 45 mm Hg may inaccurately reflect the severity of hypoventilation as PaCO2 may be underestimated during conditions of hypercapnia (PaCO2 > 60 mm Hg).

Hyperventilation and loss of hemolymph Na+ and Cl- in the freshwater amphipod Gammarus fossarum exposed to acid stress: a preliminary study.

The effect of acidification on the acid-sensitive species Gammarus fossarum was investigated in the laboratory. The results showed that as mortality increased, mean hemolymph chloride and sodium concentrations decreased rapidly. Concomitantly, organisms hyperventilated during the first 24 h and then started to hypoventilate. These results demonstrated that exposure to acid stress in the acid-sensitive species G. fossarum led to ion-regulatory and respiratory failure as previously reported in fish and crayfish exposed to acid stress.

Ventilatory failure, ventilator management, and outcome in dogs with cervical spinal disorders: 14 cases (1991-1999).

OBJECTIVE: To determine the incidence of and risk factors for ventilatory failure in dogs undergoing surgery for treatment of cervical spinal disorders and to document ventilator management, clinical course, and long-term outcome of dogs that experienced ventilatory failure in association with cervical spinal disorders or their management. DESIGN: Retrospective study. ANIMALS: 14 dogs. PROCEDURE: Dogs with cervical spinal disorders that required positive-pressure ventilation (PPV) were identified, and signalment, concurrent diseases, neurologic status at initial examination, clinical course, pulmonary function before, during, and after PPV, management techniques, complications, and outcome were recorded. Dogs that underwent surgery and required PPV were compared with dogs that underwent cervical spinal surgery during the same period that did not require PPV. RESULTS: 14 dogs with cervical spinal disorders required PPV to treat hypoventilation, including 13 of 263 (4.9%) dogs that underwent surgery for cervical spinal disorders. Lesions between the second and fourth cervical vertebrae and treatment by means of a dorsal decompressive laminectomy were associated with a significantly increased risk of perioperative hypoventilation. Pulmonary gas exchange function was normal or nearly normal throughout the course of PPV in dogs that survived. Ten dogs survived, and 9 of the 10 regained neurologic function. All 9 dogs that regained neurologic function had deep pain perception on initial examination at the veterinary teaching hospital. CONCLUSIONS AND CLINICAL RELEVANCE: Results suggest that a small percentage of dogs with cervical spinal disorders may require perioperative ventilatory support. With prolonged PPV and aggressive management, a good outcome may be achieved in dogs similar to those described in the present study.

Accidentes y complicaciones en anestesia de pequeños animales (I) / Emergences and complications in small animal anaesthesia (I)

La anestesia general supone la instauración de un estado de depresión controlada del sistema nervioso central (SNC), que se acompaña siempre de depresión cardiovascular y respiratoria, dosis dependiente, lo que implica un riesgo vital para el paciente, incluso si éste se encuentra en perfecto estado de salud. En medicina veterinaria aún son escasos los trabajos acerca de la morbilidad y mortalidad asociada a la anestesia, aunque se aprecia que su incidencia es muy superior a la descrita para seres humanos. Una razón que explica la alta incidencia de accidentes anestésicos en medicina veterinaria es que, en muchos centros veterinarios, no existe personal veterinario o auxiliar, encargado de monitorizar continuamente la anestesia, y de prestar atención a la aparición temprana de comlicaciones durante el desarrollo y recuperación de la misma. En este trabajo se revisan los accidentes y las complicaciones anestésicas más frecuentes en clínica de pequeños animales. (AU)