The present study was performed to evaluate the effect of whole bone marrow aspirate on the healing of full-thickness meniscal tear in the avascular zone in dogs. This study was carried out on 18 health adult mongrel dogs which were subjected to meniscal tear, and were divided into 2 groups. The first group was treated using whole bone marrow aspirate, while in the other group no treatment used (control group). The evaluation of the study involved clinical examination of lameness as well as morphological and histo-pathological examinations of the meniscal tears. The study concluded that the use of BMA for treatment of the full-thickness longitudinal meniscal tear in the avascular region in a canine model was successful as determined by the achievement of full limb function and meniscal tear healing morphohistologically.

The goal of the present study was to investigate the biochemical and histological changes in dog’s kidney, liver, heart, and skeletal muscles within 72 h after death. Ten male mongrel dogs aged from 1 to 2 years old were subjected to this study. Dogs were euthanized by the rapid intravenous injection of a lethal dose of sodium thiopental, and then the liver, kidney, heart, and skeletal muscle samples were collected from the whole carcasses at different time intervals 4, 12, 24, 48, and 72 h postmortem. Samples were divided into two parts; one part was used for measuring tissue levels of lactate dehydrogenase (LDH), lactate, creatine phosphokinase (CPK), and aspartate aminotransferase (AST). The other part was subjected to histopathological examinations. On the biochemical level, LDH in the liver, kidney, and cardiac and skeletal muscles showed a significant increase at 4 h followed by significant decrease at 48 and 72 h in all the studied tissues. Lactate level showed variable degrees of increase and decrease in kidney and liver tissues while muscles showed increased lactate concentration during the first 48 h then decreased at 72 h. CPK in cardiac and skeletal muscles showed similar changes; it increased from 4 to 48 h then decreased at 72 h. AST level decreased in liver tissue at 4 until 72 h, while in muscular tissue it showed a delayed reduction in concentration which started at 12 and 24 h in the cardiac and skeletal muscles respectively. Similar changes of AST levels in both skeletal and cardiac muscles were observed; it increased at 4 h and then decreased at 24, 48, and 72 h. Histopathological changes in the kidneys were the earliest changes seen in tissue. The changes in the hepatic tissue were earlier than those of heart and skeletal muscle. We concluded that LDH enzyme showed regular changes in all examined tissues; the biochemical changes in cardiac and skeletal muscles were regular and can be useful in estimation of the time of death. The histopathological changes in the kidney, liver, and cardiac and skeletal muscles were very clear and can be used for estimating the postmortem intervals in dogs.

Background and Aim: Congenital anomalies of the urinary system are common affections in ruminants. Dilatation of the
pelvic urethra is one of these affections in which the pelvic urethra dilated than normal diameter. This study aimed to explain
the diagnosis and surgical treatment of urethral dilatation in cattle calves.
Materials and Methods: Twenty-three bull calves (2-7 months old) were presented with a history of stranguria, tenesmus,
and straining. Diagnosis of urethral dilatation was relied on the case history and clinical examination and was confirmed
using survey and contrast radiography, ultrasonography, and biochemical tests. Treatment was done by urethrostomy under
the effect of local infiltration analgesia.
Results: Physical examination revealed the presence of an oval, firm, and painless swelling at the perineal region, starting
just below the anus and extended to the base of the scrotum. The owners reported that the initial swelling size and severity
of symptoms increased with the progress of animal age. Biochemical findings revealed non-significant changes in blood
urea nitrogen and creatinine levels. Radiographic findings showed an oval radiopaque mass. However, a well-demarcated
structure with acoustic enhancement was detected on ultrasonographic examination. Urethrostomy resulted in a successful
outcome of all cases.
Conclusion: Depending on these findings, ultrasonography is the most reliable diagnostic tool and urethrostomy is the
intervention of choice with acceptable results for diagnosis and treatment of urethral dilatation in cattle calves, respectively.

This study described the subcapsular technique for primary closure castration in donkeys with special regard to its efciency and welfare impacts. The study was conducted on twelve adult male donkeys, allocated randomly into two groups; subcapsular castration (SC) and open castration (OC) groups, whether the donkeys were subjected to surgical castration either by subcapsular or open castration techniques, respectively. Testosterone, cortisol, lactate, glucose, total cholesterol (TC), high density lipoprotein cholesterol (HDL-C), triglyceride (TG), and nitric oxide (NO) were measured before and after castration. Pain-associated behavioral activities were recorded post-castration. The SC was successfully performed in donkeys through a single paramedian scrotal incision. The SC was efcient as OC in reducing testosterone levels. The pain score decreased in the SC compared to the OC over time. The SC was an efcient and reliable technique for primary closure castration in donkeys with minimal postoperative complications and care and good cosmetic, physiological, and behavioral outcomes. It can be an alternative to other castration techniques in equines.

The usage of materials with the potential to accelerate wound healing is a great benefit for patients and health care systems. This study evaluated the impact of using graphene oxide (GO)–cellulose nanocomposite on skin wound healing via in vitro and in vivo investigations. The nanomaterial was synthesized and characterized. Cytocompatibility performance of the GO-cellulose was investigated through in vitro testing based on MTT and live/dead assays by EA.hy926 human endothelial cells (ECs). Additionally, the effect of GO-cellulose on induced wound scratch model using EA.hy926 ECs was investigated. Finally, the therapeutic effect of GO-cellulose was evaluated in vivo after the creation of two full-thickness wounds in the dorsum of rats (8 mm diameter). These wounds were randomly placed into two groups, the control group (10 wounds) and the GO-cellulose group (10 wounds), and monitored for gross and histopathological changes at 7 and 21 days after wound induction. MTT and Live/Dead assays showed excellent GO-cellulose cytocompatibility, whereas no difference in ECs viability was observed after culturing using conditioned media. GO-cellulose nanocomposite enhanced cell migration in the in vitro wound scratch assay. As compared to the control group, the GO-cellulose nanocomposite group's wound healing process was promoted in the in vivo rat skin wounds. Interestingly, wound re-epithelization and neovascularization were significantly accelerated in the GO-cellulose-treated rats. Furthermore, thick granulation tissue formation and intense collagen deposition were found in the GO-cellulose group. These findings showed that GO-cellulose has a promoting effect on skin wound healing, suggesting its promising and potential application in tissue regeneration.

Background: Polycaprolactone (PCL) scaffolds exhibit high biocompatibility and are attractive as vascular conduits. Materials & methods: PCL tubes were cultivated in bioreactor with human adipose regenerative cells to assess ex vivo cytocompatibility, whereas in vivo PCL tube patency was evaluated in sheep carotid bypass with and without antithrombotic treatment. Results:Ex vivo results revealed increasing adipose regenerative cells on PCL using dynamic bioreactor culturing. In vivo data showed that 67% (2/3) of grafts in the antithrombotic group were patent at day 28, while 100% (3/3) of control grafts were occluded already during the first week due to thrombosis. Histology showed that patent PCL grafts were recellularized by host cells. Conclusion: PCL tubes may work as small diameter vascular scaffolds under antithrombotic treatment.

Background: Polycaprolactone (PCL) scaffolds exhibit high biocompatibility and are attractive as vascular conduits. Materials & methods: PCL tubes were cultivated in bioreactor with human adipose regenerative cells to assess ex vivo cytocompatibility, whereas in vivo PCL tube patency was evaluated in sheep carotid bypass with and without antithrombotic treatment. Results:Ex vivo results revealed increasing adipose regenerative cells on PCL using dynamic bioreactor culturing. In vivo data showed that 67% (2/3) of grafts in the antithrombotic group were patent at day 28, while 100% (3/3) of control grafts were occluded already during the first week due to thrombosis. Histology showed that patent PCL grafts were recellularized by host cells. Conclusion: PCL tubes may work as small diameter vascular scaffolds under antithrombotic treatment.

In tissue engineering, design of biomaterial with a micro/nano structure is an essential step to mimic extracellular matrix (ECM) and to enhance biomineralization as well as cell biocompatibility. Composite polymeric nanofiber with iron particles/ions has an important role in biomineralization and collagen synthesis for bone tissue engineering. Herein, we report development of polymeric cellulose acetate (CA) nanofibers (17 wt.%) and traces of iron acetates salt (0.5 wt.%) within a polymeric solution to form electrospinning nanofibers mats with iron nanoparticles for bone tissue engineering applications. The resulting mats were characterized using field emission scanning electron microscopy (FESEM), transmission electron microscope (TEM), Fourier transform infrared (FTIR), thermal gravimetric analysis (TGA), differential scanning calorimetry (DSC), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). The resulted morphology indicated that the average diameter of CA decreased after addition of iron from (395±30) to (266±19) nm and had dense fiber distributions that match those of native ECM. Moreover, addition of iron acetate to CA solution resulted in mats that are thermally stable. The initial decomposition temperature was 300 C of CA/Fe mat> 270 C of pure CA. Furthermore, a superior apatite formation resulted in a biomineralization test after 3 days of immersion in stimulated environmental condition. In vitro cell culture experiments demonstrated that the CA/Fe mat was biocompatible to human fetal-osteoblast cells (hFOB) with the ability to support the cell attachment and proliferation. These findings suggest that doping traces …