RESUMO
In this case, porcine small intestinal submucosa (pSIS) was used to repair a large congenital diaphragmatic hernia in a kitten. The pSIS was moistened in saline, folded in half, and sutured to the remnant of the right hemidiaphragm. The animal was determined to be doing well clinically and radiographically 12 wk after procedure. At 8.5 mo of age, the kitten was spayed, and the diaphragm was inspected, revealing a thin, semitransparent membrane at the central region of the previous pSIS graft. Serial thoracic radiographs may be an effective way to reach a diagnosis of a diaphragmatic hernia if not clearly identifiable on initial radiographs. Surgeons should be prepared to use alternative techniques to close large diaphragmatic defects. Porcine SIS was demonstrated to be a strong, easy-to-use, readily available, and effective technique to close a large defect in the diaphragm with excellent results in the short and medium terms. When hernia repair is employed in juvenile animals, reassessment of the diaphragmatic repair should be considered if future abdominal surgeries, such as ovariohysterectomies, are necessary. A functional 8-ply pSIS should be considered in cats and dogs as it has a lower complication and graft failure rate. Key clinical message: When serial radiographs fail to diagnose a diaphragmatic hernia when one is highly suspected, other modalities, such as ultrasonography or other contrast modalities, should be considered. A functional 8-ply pSIS should be considered to reconstruct the diaphragm, particularly in growing animals, as it is an effective graft with low complication and graft failure rates.
Greffe de biomatériau de sous-muqueuse intestinale porcine pour la réparation d'une hernie pleuropéritonéale congénitale chez un chatonDans ce cas, la sous-muqueuse intestinale porcine (pSIS) a été utilisée pour réparer une grande hernie diaphragmatique congénitale chez un chaton. La pSIS a été humidifiée dans une solution saline, pliée en deux et suturée au reste de l'hémidiaphragme droit. L'animal s'est avéré se porter bien cliniquement et radiographiquement 12 semaines après l'intervention. À l'âge de 8,5 mois, le chaton a été stérilisé et le diaphragme a été inspecté, révélant une fine membrane semi-transparente dans la région centrale de la greffe pSIS précédente. Des radiographies thoraciques en série peuvent être un moyen efficace de poser un diagnostic d'hernie diaphragmatique si elle n'est pas clairement identifiable sur les radiographies initiales. Les chirurgiens doivent être prêts à utiliser des techniques alternatives pour fermer les gros défauts diaphragmatiques. La SIS porcine s'est avérée être une technique solide, facile à utiliser, facilement disponible et efficace pour fermer un gros défaut du diaphragme avec d'excellents résultats à court et moyen terme. Lorsque la réparation d'une hernie est utilisée chez les animaux juvéniles, une réévaluation de la réparation diaphragmatique doit être envisagée si de futures chirurgies abdominales, telles que des ovariohystérectomies, sont nécessaires. Une pSIS fonctionnelle à 8 plis doit être envisagée chez les chats et les chiens car elle présente un taux de complications et d'échec de greffe plus faible.Message clinique clé :Lorsque les radiographies en série ne permettent pas de diagnostiquer une hernie diaphragmatique alors qu'elle est fortement suspectée, d'autres modalités, telles que l'échographie ou d'autres modalités de contraste, doivent être envisagées. Une pSIS fonctionnelle à 8 plis doit être envisagée pour reconstruire le diaphragme, en particulier chez les animaux en croissance, car il s'agit d'une greffe efficace avec un faible taux de complications et d'échec de greffe.(Traduit par Dr Serge Messier).
Assuntos
Doenças do Gato , Hérnias Diafragmáticas Congênitas , Intestino Delgado , Animais , Suínos , Gatos , Doenças do Gato/cirurgia , Doenças do Gato/congênito , Hérnias Diafragmáticas Congênitas/cirurgia , Hérnias Diafragmáticas Congênitas/veterinária , Intestino Delgado/transplante , Mucosa Intestinal/transplante , Mucosa Intestinal/cirurgia , Feminino , Materiais Biocompatíveis/uso terapêutico , Herniorrafia/veterinária , MasculinoRESUMO
OBJECTIVE: The objectives of this study were to investigate scattered radiation doses to the hands of equine workers holding the cassette and the x-ray tube by hand, for both limb and vertebral column studies, and to compare the scattered radiation attenuation of lead with radiation protection lead-free gloves. Radiation doses to the hands of the cassette holder in the primary beam were also investigated. SAMPLE: A whole-body horse cadaver. PROCEDURES: A portable x-ray unit was used to simulate 6 radiographic study types in the horse cadaver. Doses were measured with no shielding and, for cassette holders, with the ion chamber enclosed in a lead glove and a lead-free glove. Thirty exposures were performed for each study view and condition (n = 1,920). RESULTS: Mean scattered doses to x-ray unit operators were higher than doses to cassette holders for ungula (hoof), thoracic vertebrae, and lumbar vertebrae studies, whereas doses to cassette holders were higher than doses to x-ray tube operators for studies of the metacarpophalangeal joint (fetlock) and tarsus (hock). Doses did not differ for the stifle joint. Mean percentage decrease in scattered radiation dose was 99.58% with lead gloves and 98.9% with lead-free gloves. CLINICAL RELEVANCE: X-ray tube operators can be exposed to equal or higher scattered radiation doses to the hand as cassette holders. Lead-free hand shielding should only be considered as an alternative to lead gloves if their lighter weight increases frequency of use by workers.
Assuntos
Doenças dos Cavalos , Exposição Ocupacional , Animais , Cadáver , Cavalos , Exposição Ocupacional/análise , Doses de Radiação , Coluna Vertebral/diagnóstico por imagem , Raios XRESUMO
OBJECTIVES: To describe self-reported radiation safety practices by equine veterinary technicians in North America and identify factors associated with these practices. SAMPLE: 154 equine technicians. PROCEDURES: An electronic questionnaire regarding radiation safety practices during the use of portable x-ray equipment was sent to 884 members of the American Association of Equine Veterinary Technicians and Assistants. Data were summarized, and various factors were evaluated for associations with reported safety practices. RESULTS: 221 of 884 (25.0%) questionnaires were completed, including 154 by equine technicians who had been involved in equine radiography as x-ray tube operators, cassette holders, or both in the previous year. Lead apron use was suboptimal, reported as "always" for 80.0% (104/130) of tube operators and 83.1% (123/148) of cassette holders. Approximately 20% of participants never wore thyroid shields, and approximately 90% never wore lead eyeglasses. Almost 50% of participants did not have lead eyeglasses available. Although > 55% of participants always held the x-ray equipment by hand, 58.4% (73/125) of tube operators and 25.0% (35/140) of cassette holders never wore gloves. Cassette holders wore lead gloves and personal radiation dose-monitoring devices significantly more frequently than did tube operators. CONCLUSIONS AND CLINICAL RELEVANCE: Compliance of North American equine technicians with radiation safety recommendations by the National Council on Radiation Protection and Measurements was suboptimal. Improvements in radiation safety training and education, strengthening the connection between academic institutions and private practices, and greater availability and requirement of personal protective equipment use by senior clinicians and employers might aid in improving safety practices.
Assuntos
Técnicos em Manejo de Animais , Exposição Ocupacional , Animais , Cavalos , Humanos , Doses de Radiação , Radiografia , Autorrelato , Inquéritos e Questionários , Raios XRESUMO
OBJECTIVE: To describe the radiation safety behaviors of veterinary specialists performing small animal fluoroscopic procedures and examine potential risk factors for these behaviors, including knowledge of radiation risk and training regarding machine operating parameters. SAMPLE: 197 veterinary specialists and residents in training. PROCEDURES: An electronic questionnaire was distributed to members of the American Colleges of Veterinary Internal Medicine (subspecialties of cardiology and small animal internal medicine), Veterinary Radiology, and Veterinary Surgery. RESULTS: The overall survey response rate was 6% (240/4,274 email recipients). Of the 240 respondents, 197 (82%) had operated an x-ray unit for a small animal fluoroscopic procedure in the preceding year and fully completed the questionnaire. More than 95% of respondents believed that radiation causes cancer, yet approximately 60% of respondents never wore hand or eye protection during fluoroscopic procedures, and 28% never adjusted the fluoroscopy machine operating parameters for the purpose of reducing their radiation dose. The most common reasons for not wearing eye shielding included no requirement to wear eyeglasses, poor fit, discomfort, and interference of eyeglasses with task performance. Respondents who had received training regarding machine operating parameters adjusted those parameters to reduce their radiation dose during procedures significantly more frequently than did respondents who had not received training. CONCLUSIONS AND CLINICAL RELEVANCE: On the basis of the self-reported suboptimal radiation safety practices among veterinary fluoroscopy users, we recommend formal incorporation of radiation safety education into residency training programs. All fluoroscopy machine operators should be trained regarding the machine operating parameters that can be adjusted to reduce occupational radiation exposure.
Assuntos
Exposição Ocupacional , Proteção Radiológica , Animais , Fluoroscopia/veterinária , Doses de Radiação , Autorrelato , EspecializaçãoRESUMO
Although manual restraint for small animal diagnostic radiography is common, worker protection is often not optimized, particularly for hands and eyes. Radiation safety training videos generally include hours of material on content other than personal protective equipment (PPE), have limited content, if any, on reducing dose to the lens of the eye, and are presented at the level of veterinary professionals. The objectives of this prospective, observational study were to develop a short, open access video training intervention at the layperson level, focused on proper use of PPE, and to test the effectiveness of the training video in changing behavior of workers. The use of PPE, optimal head position, and body position relative to the source of scattered radiation were compared before and after the video training was completed by workers. Results of unconditional and multivariable analyses were similar. In final multivariable analysis, workers wore gloves correctly more frequently (odds ratio [OR] = 2.09; 95% confidence interval [CI], 1.68-2.59; P < .001) and wore eyewear more frequently (OR = 1.85; 95% CI, 1.23-2.78; P = .003) after completing the training intervention. Workers also had an optimal head position more frequently (OR = 1.27; 95% CI, 1.03-1.58; P = .03) and stood straight or leaned back more frequently (OR = 1.85; 95% CI, 1.48-2.23; P < .001) after completing the training. The video training developed in this study is an effective tool that can be incorporated into a radiation protection program to improve worker radiation safety behaviors during manual restraint for small animal diagnostic radiography.