Appearance of the canine meninges in subtraction magnetic resonance images

The canine meninges are not visible as discrete structures in noncontrast magnetic resonance (MR) images, and are incompletely visualized in T1‐weighted, postgadolinium images, reportedly appearing as short, thin curvilinear segments with minimal enhancement. Subtraction imaging facilitates detection of enhancement of tissues, hence may increase the conspicuity of meninges. The aim of the present study was to describe qualitatively the appearance of canine meninges in subtraction MR images obtained using a dynamic technique. Images were reviewed of 10 consecutive dogs that had dynamic pre‐ and postgadolinium T1W imaging of the brain that was interpreted as normal, and had normal cerebrospinal fluid. Image‐anatomic correlation was facilitated by dissection and histologic examination of two canine cadavers. Meningeal enhancement was relatively inconspicuous in postgadolinium T1‐weighted images, but was clearly visible in subtraction images of all dogs. Enhancement was visible as faint, small‐rounded foci compatible with vessels seen end on within the sulci, a series of larger rounded foci compatible with vessels of variable caliber on the dorsal aspect of the cerebral cortex, and a continuous thin zone of moderate enhancement around the brain. Superimposition of color‐encoded subtraction images on pregadolinium T1‐ and T2‐weighted images facilitated localization of the origin of enhancement, which appeared to be predominantly dural, with relatively few leptomeningeal structures visible. Dynamic subtraction MR imaging should be considered for inclusion in clinical brain MR protocols because of the possibility that its use may increase sensitivity for lesions affecting the meninges

Magnetic Resonance Imaging of Intracranial Inflammatory Conditions in Dogs: Sensitivity of Subtraction Images versus Pre- and Post-Gadolinium T1-Weighted Image Pairs

Ante mortem diagnosis of canine meningoencephalitis is usually based on the results of neurologic examination, cerebrospinal fluid analysis and magnetic resonance (MR) imaging. It has been hypothesized that subtraction MR imaging may increase the sensitivity of MR for intracranial inflammatory lesions compared to conventional post‐gadolinium T1‐weighted imaging. Sensitivity of pre‐ and post‐gadolinium (C‐/C+) image pairs and dynamic subtraction (DS) images was compared in a retrospective diagnostic accuracy study of 52 dogs with inflammatory cerebrospinal fluid and 67 dogs with idiopathic epilepsy. Series of transverse C‐/C+ and DS images were reviewed independently for signs of abnormal enhancement affecting the pachymeninges, leptomeninges or intra‐axial structures. Sensitivity of C‐/C+ image pairs and DS images was 48% (95% CI: 35–61%) and 65% (95% CI: 52–77%), respectively (P = 0.01). Intra‐axial lesions were observed more frequently than meningeal lesions in both C‐/C+ (43% vs. 31%) and DS images (61% vs. 22%). The difference in sensitivities of C‐/C+ and DS series was entirely due to increased sensitivity of DS images for intra‐axial lesions. Eight (12%) dogs with epilepsy had evidence of intra‐axial gadolinium accumulation affecting the cerebral cortex in DS images. This finding may represent a false‐positive result or a true sign of pathology, possibly associated with a leaky blood–brain barrier in areas of the brain affected by neovascularization secondary to repeated seizures. Results suggest that DS imaging has higher sensitivity than comparison of pre‐ and post‐gadolinium image pairs for inflammatory intra‐axial lesions

Imaging findings in 14 dogs and 3 cats with lobar emphysema

Abstract Background Lobar emphysema in dogs and cats is caused by bronchial collapse during expiration and subsequent air trapping. Congenital causes such as bronchial cartilage defects or acquired causes such as compressive neoplastic lesions have been reported. Morbidity results from hyperinflation of the affected lung lobe and compression of adjacent thoracic structures. Objective To describe patient characteristics and imaging findings in dogs and cats with lobar emphysema. Animals Fourteen dogs and 3 cats with lobar emphysema diagnosed by imaging findings were retrospectively identified from veterinary referral hospital populations over a 10‐year period. Methods Cases that included thoracic radiography, thoracic computed tomography (CT), or both were included. All images were reviewed by a European College of Veterinary Diagnostic Imaging diplomate. Relevant case information included signalment, clinical findings, treatment, and histopathology where available. Results Ten of 17 (59%) patients were presented for evaluation of dyspnea and 6 (35%) for coughing. Eleven (65%) patients were <3 years of age. The right middle lung lobe was affected in 12 cases (71%) and multiple lobes were affected in 7 cases (41%). Congenital lobar emphysema was suspected in 14 cases (82%). Conclusion and Clinical Importance Lung lobe hyperinflation, atelectasis of nonaffected lung lobes, mediastinal shift, and thoracic wall and diaphragmatic wall deformation were common findings. Lobar or multilobar emphysema should be considered in patients with dyspnea or coughing, particularly younger patients. Although radiography is useful, CT provides better detail. In older patients, acquired causes of bronchial compression should be considered

Clinical and magnetic resonance imaging features of lymphoma involving the nervous system in cats

Background: Lymphoma is the most common spinal cord neoplasm and second most common intracranial tumor in cats, but description of specific magnetic resonance imaging (MRI) features is lacking. Objective: Describe the clinical and MRI features of lymphoma affecting the central (CNS) or peripheral (PNS) nervous system or both in cats. Animals: Thirty‐one cats with confirmed cytological or histopathological diagnosis or both of lymphoma involving the CNS or PNS or both, and MRI findings of the lesions. Methods: Multicenter retrospective descriptive study. Signalment and medical information were recorded. Magnetic resonance imaging findings were reviewed by 3 observers following a list of predefined criteria and consensus was sought. Frequency distributions of the different categorical data were reported. Results: Median duration of clinical signs at time of presentation was 14 days (range, 1‐90). Neurological examination was abnormal in 30/31 cats. On MRI, lesions affecting the CNS were diagnosed in 18/31 cats, lesions in both CNS and PNS in 12/31, and lesions in the PNS only in 1/31. Intracranial lesions were diagnosed in 22 cats (extra‐axial, 7/22; intra‐axial, 2/22; mixed, 13/22), and spinal lesions were diagnosed in 12 (6/12 involving the conus medullaris and lumbosacral plexuses). Infiltration of adjacent extra‐neural tissue was present in 11/31 cases. Contrast enhancement was seen in all lesions, being marked in 25/30. Meningeal enhancement was present in all but 2 cases. Several distinct MRI patterns were observed. Conclusions and Clinical Importance: Nervous system lymphoma in cats has a wide range of MRI features, of which none is pathognomonic. However, together with clinical data and cerebrospinal fluid (CSF) analysis, MRI may provide a strong tentative antemortem diagnosis

Clinical Features, Imaging Characteristics, and Long-term Outcome of Dogs with Cranial Meningocele or Meningoencephalocele

Background: The term meningoencephalocele (MEC) describes a herniation of cerebral tissue and meninges through a defect in the cranium, whereas a meningocele (MC) is a herniation of the meninges alone. Hypothesis/Objectives: To describe the clinical features, magnetic resonance imaging (MRI) characteristics, and outcomes of dogs with cranial MC and MEC. Animals: Twenty-two client-owned dogs diagnosed with cranial MC or MEC. Methods: Multicentric retrospective descriptive study. Clinical records of 13 institutions were reviewed. Signalment, clinical history, neurologic findings and MRI characteristics as well as treatment and outcome were recorded and evaluated. Results: Most affected dogs were presented at a young age (median, 6.5 months; range, 1 month – 8 years). The most common presenting complaints were seizures and behavioral abnormalities. Intranasal MEC was more common than parietal MC. Magnetic resonance imaging identified meningeal enhancement of the protruded tissue in 77% of the cases. Porencephaly was seen in all cases with parietal MC. Cerebrospinal fluid (CSF) analysis identified mild abnormalities in 4 of 11 cases. Surgery was not performed in any affected dog. Seventeen patients were treated medically, and seizures were adequately controlled with anti-epileptic drugs in 10 dogs. Dogs with intranasal MEC and mild neurologic signs had a fair prognosis with medical treatment. Conclusion and clinical importance: Although uncommon, MC and MEC should be considered as a differential diagnosis in young dogs presenting with seizures or alterations in behavior. Medical treatment is a valid option with a fair prognosis when the neurologic signs are mild.</p

Diversity in phenotype and steroid hormone dependence in dendritic cells and macrophages in the mouse uterus

© 2004 by the Society for the Study of Reproduction, Inc.The dendritic cells and related antigen-presenting cells (APCs) that activate lymphocytes for acquired immunity in the female reproductive tract are not well characterized. The aim of the present study was to examine heterogeneity among uterine APCs in mice and, specifically, to determine whether phenotypically and functionally distinct subpopulations of dendritic cells and macrophages can be identified. Using immunohistochemistry, abundant cells expressing APC-restricted molecules major histocompatibility complex (MHC) class II, F4/80, class A scavenger receptor, macrosialin, and sialoadhesin were evident in estrous mice. Cells expressing the costimulatory molecule B7-2 were rarely observed. Flow cytometric analysis revealed three subpopulations of uterine APCs. Undifferentiated macrophages were F4/80-positive (+), MHC class II-negative (–) cells, of which 70–80% expressed CD11b, but few expressed class A scavenger receptor, macrosialin, or sialoadhesin. Mature macrophages were F4/80+/MHC class II+ cells, of which approximately 50% expressed CD11b, class A scavenger receptor, macrosialin, and sialoadhesin. Uterine dendritic cells were F4/ 80–/MHC class II+ cells, with stimulatory immunoaccessory function relative to uterine macrophages and heterogeneous expression of dendritic markers 33D1, DEC205, CD11c, and CD1. Experiments in ovariectomized mice showed that undifferentiated macrophages were steroid hormone dependent but that mature macrophages and dendritic cells persisted after depletion of ovarian steroid hormones, although with altered phenotypes. In summary, our findings identify three discrete populations of APCs inhabiting the murine uterus and suggest that both mature macrophages and dendritic cells differentiate from undifferentiated macrophage precursor cells. Plasticity in the ontogenetic and functional relationships between uterine dendritic cells and macrophages likely is critical in regulating immune responses conducive to reproductive success.Sarah N. Hudson Keenihan, and Sarah A. Robertso

An online community of practice around science communication: #onsci

#onsci is a Twitter hashtag and monthly chat session originally created to continue and extend conversations ‘on science’ stemming from the Inspiring Australia conference of 2011. Each month, participants are invited to join a hosted hour-long Twitter conversation on topical matters relating to science communication, education, policy, research, marketing and more. Interested parties also use the #onsci tag to share relevant resources and conduct conversations outside of designated chat times. With approximately 50 participants per session (mostly Australian but also some internationals) in 25 chats, #onsci has been highly successful in providing a forum for those interested in science communication to come together, share ideas and develop their personal and professional networks. #onsci has also contributed to the development of science policy via a submission to the McKeon Review, and teaching of science communication in Australia through informal associations with courses taught at Universities and online. This paper considers the effectiveness of #onsci as an online community of practice around science communication, and consider how future iterations might shape the practice of science communication in Australia.Heather Bray, Sarah Keenihan, James Hutson and Kristin Alfor

The Complex Futures of Emerging Technologies: Challenges and Opportunities for Science Foresight and Governance in

This paper outlines trends in the development of high-profile new technologies such as nano- and bio-technology, identifying roles foresight and governance practices must play to enable their usage in addressing ‘wicked ’ problems (e.g. climate change). We explain the notion of emerging technologies, and their expected convergences, and consider both their potential and issues faced in the Australian context. Recent trends and emerging issues – such as slower, more problematic development and adoption than expected, and increasingly global competition to establish ‘future industries ’ – are reviewed to identify a set of imperatives. These imperatives highlight emerging opportunities and challenges, focussing on how examining alternative futures and perspectives may help enable effective responses to emerging technologies. emerging technologies, wicked problems, governance, expectations, convergenc