Use of oclacitinib as antipruritic drug during sarcoptic mange infestation treatment.

Sarcoptic mange is a parasitic disease causing severe pruritus, self-induced skin lesions and secondary infections. In many cases, an antipruritic treatment is useful to decrease clinical signs of the disease. Oclacitinib is a synthetic janus kinase-1 (JAK1) inhibitor, that selectively inhibits cytokines involved in inflammation and pruritus. The aim of this retrospective study was to evaluate efficacy of oclacitinib in alleviating pruritus and inflammation in dogs affected by scabies. Forty-four clinical records of dogs containing the words sarcoptes and oclacitinib were selected among dermatologic cases recorded within the last 5 years (2014-2019). Thirty-one of 44 cases with confirmed sarcoptic mange infestation were included. All dogs were treated at day (D)0 with systemic antiparasitic drugs (e.g. moxidectin, sarolaner, afoxolaner) in association with oclacitinib at 0.5 mg/kg by mouth every 12 hours for 14 days followed by oclacitinib administration every 24 hours for another 14 days. Visual Analogic Scale (VAS) was recorded at D0 and D30. Selected cases were 16 females and 15 males, median age was 4.5 years, majority were crossbred dogs. Mean VAS recorded at D0 was nine, and after onemonth decreased to three. Telephone follow up information, collected seven days after discharge, reported a significative decrease in pruritus within 24 hours. Our results suggest that the association of oclacitinib inhibition of JAK1 dependent cytokines (allergic and inflammatory associated IL2, IL4, IL6, IL13 and pruritogenic associated IL31) with conventional antiparasitic treatment, may be useful to provide quick relief from pruritus and decrease inflammation in dogs with sarcoptic mange.

Temporal horizontal H-figure sliding skin flap for central eyelid reconstructive surgery in dogs: a retrospective study.

OBJECTIVE: To describe a modified H-figure sliding skin flap for treating eyelid central neoplasms and to evaluate the cosmetic and functional results of this reconstructive blepharoplasty. MATERIAL AND METHODS: Eight dogs affected by eyelid neoplasia involving more than one-third of the central part of the margin underwent an en bloc rectangular surgical removal of the neoplasia. Reconstructive surgery was performed using a temporal horizontal H-figure sliding skin flap. RESULTS: At short-term follow-up visits, seven dogs showed no signs of ocular discomfort, whilst one exhibited mild blepharospasm and ocular discharge associated with partial necrosis of the flap. At the 60-day follow-up, all dogs showed good eyelid margin reconstruction and no signs of lagophthalmos or ocular discomfort. Secondary trichiasis was observed in one dog. CLINICAL SIGNIFICANCE: The procedure allowed a well-positioned, fully mobile eyelid. The secondary trichiasis observed in one dog did not cause evident ocular discomfort at 6-month follow-up.

Functional integration of complex miRNA networks in central and peripheral lesion and axonal regeneration.

New players are emerging in the game of peripheral and central nervous system injury since their physiopathological mechanisms remain partially elusive. These mechanisms are characterized by several molecules whose activation and/or modification following a trauma is often controlled at transcriptional level. In this scenario, microRNAs (miRNAs/miRs) have been identified as main actors in coordinating important molecular pathways in nerve or spinal cord injury (SCI). miRNAs are small non-coding RNAs whose functionality at network level is now emerging as a new level of complexity. Indeed they can act as an organized network to provide a precise control of several biological processes. Here we describe the functional synergy of some miRNAs in case of SCI and peripheral damage. In particular we show how several small RNAs can cooperate in influencing simultaneously the molecular pathways orchestrating axon regeneration, inflammation, apoptosis and remyelination. We report about the networks for which miRNA-target bindings have been experimentally demonstrated or inferred based on target prediction data: in both cases, the connection between one miRNA and its downstream pathway is derived from a validated observation or is predicted from the literature. Hence, we discuss the importance of miRNAs in some pathological processes focusing on their functional structure as participating in a cooperative and/or convergence network.

Exploring the role of MKK7 in excitotoxicity and cerebral ischemia: a novel pharmacological strategy against brain injury.

Excitotoxicity following cerebral ischemia elicits a molecular cascade, which leads to neuronal death. c-Jun-N-terminal kinase (JNK) has a key role in excitotoxic cell death. We have previously shown that JNK inhibition by a specific cell-permeable peptide significantly reduces infarct size and neuronal death in an in vivo model of cerebral ischemia. However, systemic inhibition of JNK may have detrimental side effects, owing to blockade of its physiological function. Here we designed a new inhibitor peptide (growth arrest and DNA damage-inducible 45ß (GADD45ß-I)) targeting mitogen-activated protein kinase kinase 7 (MKK7), an upstream activator of JNK, which exclusively mediates JNK's pathological activation. GADD45ß-I was engineered by optimizing the domain of the GADD45ß, able to bind to MKK7, and by linking it to the TAT peptide sequence, to allow penetration of biological membranes. Our data clearly indicate that GADD45ß-I significantly reduces neuronal death in excitotoxicity induced by either N-methyl-D-aspartate exposure or by oxygen-glucose deprivation in vitro. Moreover, GADD45ß-I exerted neuroprotection in vivo in two models of ischemia, obtained by electrocoagulation and by thromboembolic occlusion of the middle cerebral artery (MCAo). Indeed, GADD45ß-I reduced the infarct size when injected 30 min before the lesion in both models. The peptide was also effective when administrated 6 h after lesion, as demonstrated in the electrocoagulation model. The neuroprotective effect of GADD45ß-I is long lasting; in fact, 1 week after MCAo the infarct volume was still reduced by 49%. Targeting MKK7 could represent a new therapeutic strategy for the treatment of ischemia and other pathologies involving MKK7/JNK activation. Moreover, this new inhibitor can be useful to further dissect the physiological and pathological role of the JNK pathway in the brain.

Autologous CD133+ cells augment the effect of portal embolization.

AIM: The standard to treat liver tumors is a resection. When the future liver remnant (FLRV) is below 30% (healthy livers) or 40% (cirrhotic livers or previous chemotherapy), surgery carries the risk of severe complications. Portal vein embolization (PVE) gained a worldwide diffusion as a tool to augment the FLRV. Cell therapies are recent players at the frontiers of medicine. This study presents a clinical experience to evaluate the synergistic effect of combined PVE and autologous CD133+ cells coadministration. METHODS: Sixteen patients have been enrolled in the study up today. Inclusion criteria were: primary or metastatic liver malignancy with a FLRV<30% or 40%. A baseline volumetric CT-scan was obtained. CD34+ were mobilized to the blood stream by G-CSF administration and collected by immunomagnetic separation. Simultaneously with PVE, cells were administered to the non occluded liver segments. Follow-up CT scans were taken at 30th post treatment day. RESULTS: The patients (N.=6) showed an increased volume gain (Mann-Whitney test P<0.001, two sided) compared to a set of cases whose treatment was PVE only (N.=10). DISCUSSION: The use of autologous stem cells as an augmenter of liver regeneration has a clinical potential to improve the resectability of liver tumors.

Expression of the aryl hydrocarbon receptor pathway and cyclooxygenase-2 in dog tumors.

In humans, the aryl hydrocarbon receptor (AHR) gene battery constitutes a set of contaminant-responsive genes, which have been recently shown to be involved in the regulation of several patho-physiological conditions, including tumorigenesis. As the domestic dog represents a valuable animal model in comparative oncology, mRNA levels of cytochromes P450 1A1, 1A2 and 1B1 (CYP1A1, 1A2 and 1B1), AHR, AHR nuclear translocator (ARNT), AHR repressor (AHRR, whose partial sequence was here obtained) and cyclooxygenase-2 (COX2) were measured in dog control tissues (liver, skin, mammary gland and bone), in 47 mast cell tumors (MCTs), 32 mammary tumors (MTs), 5 osteosarcoma (OSA) and related surgical margins. Target genes were constitutively expressed in the dog, confirming the available human data. Furthermore, their pattern of expression in tumor biopsies was comparable to that already described in a variety of human cancers; in particular, both AHR and COX2 genes were up-regulated and positively correlated, while CYP1A1 and CYP1A2 mRNAs were generally poorly expressed. This work demonstrated for the first time that target mRNAs are expressed in neoplastic tissues of dogs, thereby increasing the knowledge about dog cancer biology and confirming this species as an useful animal model for comparative studies on human oncology.

Expression of Ki67, BCL-2, and COX-2 in canine cutaneous mast cell tumors: association with grading and prognosis.

The expression of Ki67, BCL-2, and COX-2 was investigated in 53 canine cutaneous mast cell tumors (MCTs) by immunohistochemistry and quantitative real time polymerase chain reaction (qPCR) to evaluate their prognostic significance and the association with the histologic grading and the mitotic index (MI). MCTs were graded according to the Patnaik grading system and the novel 2-tier grading system proposed by Kiupel. The numbers of mitotic figures/10 high-power fields (MI) were counted. Both grading systems were significantly associated with prognosis. The Patnaik grading was of limited prognostic value for grade 2 MCTs, with 23% being associated with mortality. The concordance among pathologists was strongly improved by the application of the 2-tier grading system, and 71% of high-grade MCTs were associated with a high mortality rate. MI and Ki67 protein expression were significantly associated with grading and survival. No significant association between BCL-2 protein expression and either grading system or health status was observed. BCL-2 mRNA expression was significantly higher in grade 2 than in grade 1 MCTs, while no statistically significant differences were detected between low- and high-grade MCTs. The increased BCL-2 mRNA level was significantly associated with increased mortality rate. The COX-2 protein expression was detected in 78% of the MCTs investigated. However, neither association with the tumor grade nor with the health status was observed. COX-2 mRNA was significantly up-regulated in MCTs compared to surgical margins and control skin tissue, but it was neither associated with tumor grade nor with survival.

Ultrasonography as a guide during vascular access procedures and in the diagnosis of complications.

Vascular access used in the treatment of patients involves central and peripheral vein accesses and arterial accesses. Catheterization of central veins is widely used in clinical practice; it is a necessary part of the treatment of patients in various settings. The most commonly involved vessels are the internal jugular, subclavian, and femoral veins. The mechanical, infectious, and thrombotic complications of central venous catheterization are markedly reduced when the procedure is performed with real-time ultrasound guidance or (to a slightly lesser extent) ultrasound assistance. Ultrasound guidance is also used to create peripheral venous accesses, for catheterization of peripheral veins and for peripheral insertion of central venous catheters. In this setting, it increases the catheterization success rate, especially during difficult procedures (e.g., obese patients, children) and reduces complications such as catheter-related infections and venous thrombosis. Arterial cannulation is used for invasive monitoring of arterial pressure and for access during diagnostic or therapeutic procedures. Ultrasound guidance reduces the risk of catheterization failure and complications. It is especially useful for arterial catheterization procedures performed in the absence of a palpable pulse (e.g., patient in shock, ECMO). Imaging support is being used increasingly to facilitate the creation of vascular accesses under difficult conditions, in part because of the growing use of ultrasonography as a bedside procedure. In clinical settings where patients are becoming increasingly vulnerable as a result of advanced age and/or complex disease, the possibility to reduce the risks associated with these invasive procedures should motivate clinicians to acquire the technical skills needed for routine use of sonographic support during vascular access procedures.

Transcriptional and post-transcriptional regulation of ß-secretase.

Alzheimer's disease (AD) is a devastating neurodegenerative disorder that results in loss of memory and cognitive function, eventually leading to dementia. A key neuropathological event in AD is the cerebral accumulation of senile plaques formed by aggregates of amyloid-ß-peptides (Aß). Aß results from two sequential endoproteolytic cleavages operated on the amyloid-ß precursor protein (AßPP), an integral membrane protein with a single-membrane spanning domain, a large extracellular N-terminus and a shorter, cytoplasmic C-terminus. First, ß-secretase (BACE1) cleaves AßPP at the N-terminal end of the Aß sequence to produce a secreted form of AßPP, named sAßPP, and a C-terminal membrane-bound 99-aminoacid fragment (C99). Then, γ-secretase cleaves C99 within the transmembrane domain to release the Aß peptides of different lengths, predominantly Aß1-40 and Aß1-42.

Monthly application of 10 per cent moxidectin and 2.5 per cent imidacloprid spot-on to prevent relapses in generalised demodicosis: a pilot study.

Canine generalised demodicosis (GD) can be difficult to cure, with some dogs requiring life-long treatment. The aim of this pilot study was to evaluate the effectiveness of monthly 10 per cent moxidectin/2.5 per cent imidacloprid spot-on in maintaining long-term (12 months) clinical and parasitological remission in dogs with relapsing GD. Fourteen dogs were included: 10 with juvenile-onset GD (JOGD) and four with adult-onset GD (AOGD). All dogs had been treated previously and relapsed (1-4 times). Each dog was treated again with either milbemycin oxime 2 mg/kg or ivermectin 400 µg/kg orally once daily, until two consecutive negative skin scrapings at one-month intervals (total 4-7 months of treatment). After treatment discontinuation, 10 per cent moxidectin/2.5 per cent imidacloprid spot-on was applied monthly for 12 months. Dogs were rechecked after 1, 2, 3, 6 and 12 months, and multiple skin scrapings were taken. Twelve dogs completed the study and were clinically normal and parasitologically negative at each recheck (four dogs with AOGD and eight with JOGD). One dog died suddenly for unrelated reasons, and one dog relapsed. Results of this pilot study suggest that monthly application of 10 per cent moxidectin/2.5 per cent imidacloprid spot-on may be effective as maintenance therapy in relapsing cases of GD.

Recent therapeutic strategies for spinal cord injury treatment: possible role of stem cells.

Spinal cord injury (SCI) often results in significant dysfunction and disability. A series of treatments have been proposed to prevent and overcome the formation of the glial scar and inhibitory factors to axon regrowth. In the last decade, cell therapy has emerged as a new tool for several diseases of the nervous system. Stem cells act as minipumps providing trophic and immunomodulatory factors to enhance axonal growth, to modulate the environment, and to reduce neuroinflammation. This capability can be boosted by genetical manipulation to deliver trophic molecules. Different types of stem cells have been tested, according to their properties and the therapeutic aims. They differ from each other for origin, developmental stage, stage of differentiation, and fate lineage. Related to this, stem cells differentiating into neurons could be used for cell replacement, even though the feasibility that stem cells after transplantation in the adult lesioned spinal cord can differentiate into neurons, integrate within neural circuits, and emit axons reaching the muscle is quite remote. The timing of cell therapy has been variable, and may be summarized in the acute and chronic phases of disease, when stem cells interact with a completely different environment. Even though further experimental studies are needed to elucidate the mechanisms of action, the therapeutic, and the side effects of cell therapy, several clinical protocols have been tested or are under trial. Here, we report the state-of-the-art of cell therapy in SCI, in terms of feasibility, outcome, and side effects.

Angioma of the chest wall: A report of 2 cases.

Hemangiomas are benign congenital tumors of endothelial origin that are typically seen in childhood and that undergo spontaneous involution with time. They are usually found on the face or less commonly on the trunk. Very few cases of chest-wall angiomas have been reported. This report describes chest-wall angiomas in two children (a 7-year-old boy and a 1-year-old girl) with emphasis on their sonographic features.

Neuropathological changes in the peripheral nervous system and spinal cord in a transgenic mouse model of Niemann-Pick disease type A.

OBJECTIVE: Type A Niemann-Pick is a severe neurological disease, caused by a mutation of the gene of acid sphingomyelinase (ASM) and reduced enzyme activity. Some studies reported neuropathological changes occurring in the central nervous system of ASM deficient transgenic (ASMKO) mice, while a detailed study on the peripheral nervous system (PNS) at different ages is currently lacking. The aim of our study was to examine the pathological changes occurring in the PNS and in the spinal cord in an AMSKO model of Niemann-Pick disease (NPD) Type A. MATERIAL AND METHOD: Dorsal root ganglia (DRG), peripheral nerves and spinal cord specimens were obtained from ASMKO mice and age-matched wild type animals (age range = 1-7 months). They were observed at the light and electron microscope. Behavioral testing was performed to assess motor coordination and reactivity. Fluoro-Jade B was used as a high affinity fluorescent marker for degenerating neurons. RESULTS: Typical NPD cytoplasmic inclusions were observed in DRG neurons and satellite cells, in peripheral nerve Schwann cells, in spinal cord neurons and in endothelial cells. All these inclusions were present from the age of 1 month and increased with aging. By Fluoro-Jade B staining we demonstrated the occurrence of neuronal degeneration starting from 5 months of age. CONCLUSION: Despite the fact that a definite diagnosis of NPD Type A depends on enzymatic assays and/or molecular analysis, morphological investigation remains an important diagnostic procedure. Well-defined and complete neuropathological information about the ASMKO mouse model, inclusive of PNS examination, may be crucial in the pre-clinical evaluation of new therapies.

Cardiac impairment in rabbits fed a high-fat diet is counteracted by dehydroepiandrosterone supplementation.

AIMS: The biochemical and structural cardiac oxidative-dependent damage induced by high-fat (HF) diet was examined in a rabbit model, together with the role of dehydroepiandrosterone (DHEA) in contrasting tissue damage. MAIN METHODS: New Zealand white rabbits fed a HF diet supplemented or not with DHEA (0.02%) were utilized for 12 weeks. Oxidative stress, inflammatory and necrosis parameters, fatty deposition, heavy-chain myosin isoforms (MHC) expression and papillary muscle functionality were examined in the left ventricle of rabbits. KEY FINDINGS: Rabbits fed a HF diet that showed hyperglycemia, insulin resistance and dyslipidemia together with increase of oxidative stress and of advanced end-glycation product levels have been observed. Concerning pro-inflammatory insults, there was increased p65-NFkB activation and increased tumor necrosis factor-alpha and C-reactive protein expressions. Cellular damage induced by the HF diet was detected through the switch of expression of MHC isoforms, indicating impairment of cardiac contractility, confirmed by altered of basal parameters of papillary muscle functionality. Rabbits fed the HF diet supplemented with DHEA showed a partial reduction of oxidative stress and the inflammatory state. Cardiac necrosis, the shift of MHC isoforms, and cardiac functionality, were also partially counteracted. SIGNIFICANCE: Rabbits fed with a HF diet showed a beneficial effect when low-dose DHEA was added to the diet. The steroid, without affecting high plasma glucose level or insulin resistance, restored oxidative balance, lowered lipid levels and inflammation insults, preventing cellular and functional alterations of cardiac tissue and thus delaying the onset of cardiac damage.

Human mesenchymal stem cell transplantation extends survival, improves motor performance and decreases neuroinflammation in mouse model of amyotrophic lateral sclerosis.

Amyotrophic lateral sclerosis (ALS) is a lethal disease affecting motoneurons. In familial ALS, patients bear mutations in the superoxide dismutase gene (SOD1). We transplanted human bone marrow mesenchymal stem cells (hMSCs) into the lumbar spinal cord of asymptomatic SOD1(G93A) mice, an experimental model of ALS. hMSCs were found in the spinal cord 10 weeks after, sometimes close to motoneurons and were rarely GFAP- or MAP2-positive. In females, where progression is slower than in males, astrogliosis and microglial activation were reduced and motoneuron counts with the optical fractionator were higher following transplantation. Motor tests (Rotarod, Paw Grip Endurance, neurological examination) were significantly improved in transplanted males. Therefore hMSCs are a good candidate for ALS cell therapy: they can survive and migrate after transplantation in the lumbar spinal cord, where they prevent astrogliosis and microglial activation and delay ALS-related decrease in the number of motoneurons, thus resulting in amelioration of the motor performance.

Nodular lesions of the tongue in canine leishmaniosis.

In this case report, an atypical clinical presentation of leishmaniosis in a dog with multiple nodular lesions of the tongue is described. Haematological and biochemical analysis, serological test for Leishmania infantum antibodies and biopsy samples from several nodules of the tongue for histopathological examination were made. The final diagnosis of leishmaniosis was based upon the observation of amastigotes in the bioptic samples. It is recommended to consider leishmaniosis among the list of differentials of mucosal nodular lesions, at least in endemic areas.

Time-course of c-Jun N-terminal kinase activation after cerebral ischemia and effect of D-JNKI1 on c-Jun and caspase-3 activation.

The c-Jun N-terminal kinase (JNK) signaling pathway plays a critical role in ischemic brain injury. The d-retro-inverso form of c-Jun N-terminal kinase-inhibitor (D-JNKI1), a cell-permeable inhibitor of JNK, powerfully reduces neuronal death induced by permanent and transient ischemia, even when administered 6 h after the ischemic insult, offering a clinically relevant window. We investigated the JNK molecular cascade activation in rat cerebral ischemia and the effects of D-JNKI1 on this cascade. c-Jun activation starts after 3 h after ischemia and peaks at 6 h in the ischemic core and in the penumbra at 1 h and at 6 h respectively. The 6 h c-Jun activation peak correlates well with that of P-JNK. We also examined the activation of the two direct JNK activators, MAP kinase kinase 4 (MKK4) and MAP kinase kinase 7 (MKK7). MKK4 showed the same time course as JNK in both core and penumbra, reaching peak activation at 6 h. MKK7 did not show any significant increase of phosphorylation in either core or penumbra. D-JNKI1 markedly prevented the increase of P-c-Jun in both core and penumbra and powerfully inhibited caspase-3 activation in the core. These results confirm that targeting the JNK cascade using the TAT cell-penetrating peptide offers a promising therapeutic approach for ischemia, raising hopes for human neuroprotection, and elucidates the molecular pathways leading to and following JNK activation.

Diagnostic imaging of inverted Y duplication of the ureter with anomalous point angle. A case report.

A rare anomaly of ureteral duplication is the inverted Y configuration, occurring when 2 distal ureteral limbs fuse proximally to become a single tube draining the kidney. In international literature there is a female predominance. Previous reports documented distal limbs that were atresic or associated with ureterocele or ectopically located. We report a case of inverted Y ureter with an obtuse point angle open caudally; the 2 ureteral limbs reach the bladder trigone and are canalized, even if the supernumerary one is partially stenotic in the distal tract.

New strategies for repairing the injured spinal cord: the role of stem cells.

Thanks to advances in the stem cell biology of the central nervous system, the previously unconceivable regeneration of the damaged spinal cord is approaching reality. A number of potential strategies aim to optimize functional recovery after spinal cord injury. They include minimizing the progression of secondary injury, manipulating the inhibitory environment of the spinal cord, replacing lost tissue with transplanted cells or peripheral nerve grafts, remyelinating denuded axons and maximizing the intrinsic regenerative potential of endogenous progenitor cells. We review the application of stem cell transplantation to the spinal cord, emphasizing the use of embryonic stem cells for remyelinating damaged axons. Recent advancements in neural injury and repair, and the progress towards development of neuroprotective and regenerative interventions are discussed.

The use of oral cyclosporin to treat feline dermatoses: a retrospective analysis of 23 cases.

Limited information is available regarding the use of cyclosporin A (CsA) for the treatment of feline dermatoses. The aim of this retrospective study was therefore to describe the efficacy of CsA for the therapy of eosinophilic granuloma (EG), eosinophilic plaque, indolent ulcer, linear granulomas, idiopathic pruritus and stomatitis. A computer search for feline dermatological cases treated with CsA between 1999 and 2004 was performed. Based on history, clinical signs and laboratory diagnostic tests, it was then possible to divide cases into three groups and to select 23 cats. Seven cats had one or more of the following conditions: EG, eosinophilic plaque, indolent ulcer and/or linear granuloma (group A); eight cats had idiopathic pruritus (group B) and eight cats had plasmacytic stomatitis (group C). Doses ranged from 5.8 to 13.3 mg kg(-1) oral CsA. All cats were monitored, with complete serum blood analysis and physical examination, monthly for a minimum of 6 months. Response to therapy was scored (severity of lesions and pruritus) with a 0-10 visual analogue scale at each visit (day 0, day, 30, day 60, day 90). All cats in groups A and B were cured and were maintained on alternate day therapy. In group C, 4/8 patients went into remission, while remaining cats have a fair to good improvement. Routine haematological and biochemical examination failed to reveal abnormalities related to CsA administration.