Transarterial chemoembolization (TACE) is the preferred treatment for patients with unresectable intermediate stage hepatocellular carcinoma, however currently the development of embolic agents for TACE lacks in vitro models that closely represent the sophisticated features of the organ and the vascular systems therein. In this study, we presented a new strategy using an ex vivo liver model to provide a translucent template for evaluating embolic agents of TACE. The ex vivo liver model was developed through decellularizion of rat liver organs with preserved liver-specific vasculatures and improved transmittance of the whole liver up to 23% at 550 nm. Using this model, we investigated the embolization performances of both liquid and particle-based embolic agents, including penetration depth, embolization end-points, injection pressure and spatial distribution dynamics. We found that the embolization endpoint of liquid embolic agent such as ethiodised oil was strongly dependent on the injection pressure, and the pressure quickly built up when reaching the capillary endings, which could cause embolic agent leaking and potential tissue damages. In contrast, for particle-based embolic agents such as poly-dl-lactide microparticles and CalliSpheres® beads, their embolization endpoints were mainly determined by the particle size, whereas the particle densities close to the endpoints dramatically dropped down, which with the penetration depth represented two critical factors determining the embolic distribution. Such a decellularized organ model may open a new route to visually and quantitatively characterize embolization effects of various embolotherapies. This study aimed to evaluate in vivo the effect of laser photobiomodulation associated with a repair cement (MTA Repair HP™) on the process of bone repair in the femur of rats, through histological and histomorphometric assays. Forty Wistar albino rats were randomly divided into four groups, with two periods of euthanasia – 15 and 21 days (n = 5 per period). Under general anesthesia, a bone defect was made in the left femur of each animal. In the LS (Laser) group, the defect was irradiated following the parameters λ = 808 nm, P = 100 mW, ED = 80 J/cm2 per point, 22 s per point, E = 2.2 J per point. In the LM (MTA Repair HP™ + Laser) group, the defect was filled with MTA Repair HP™ and irradiated with laser in the same protocol of the LS group. In the MH (MTA Repair HP™) group, the defect was filled with MTA Repair HP™ without irradiation. In the CTR (Control) group, the bone defect received no treatment. At 15 days, the mean index of bone neoformation in the defect area was significantly lower in the CTR group as compared to the MH, LS, and LM groups. At 21 days, the LM group presented significantly greater bone neoformation than the MH group, without significant difference between LS and LM. Laser photobiomodulation therapy is promising as an adjuvant in the bone repair process, especially when associated with the use of biomaterials. A melanin producer bacteria Halomonas venusta was isolated from a marine sponge Callyspongia sp. and optimized for melanin production. The optimized fermented media supplemented with 1% tyrosine yielded 4.92 mg/ml of melanin. The melanin incorporated cream was formulated and fortified with concentrates of seaweed Gelidium spinosum. Melanin and seaweed concentrate were found to be rich in antioxidant activity and were effectively inhibited the growth of S. aureus (MTCC 96) and S. pyogenes (MTCC 442). Various combinations of the cream were optimized and selected a formula containing 0.25% of melanin and 0.75% of seaweed concentrate which showed improved texture quality of cream. The formulated cream showed a pH of 5.52, spreadability 23 mm, and smooth and homogeneous texture. On application over skin provides a cooling effect and immediate disappearance without formation of white or oily film. Texture analysis of newly formulated cream showed similar results with that of control cream in terms of firmness, cohesiveness, index of viscosity and consistency. The formulated cream showed significant reduction of reactive oxygen species generated on exposure to direct sunlight. The cream showed protective effect on photohemolysis thus protecting the skin from lysis of red blood cells. The sun protection factor of the formulated cream F3 was found to be 18.373 ± 1.45. The combined antimicrobial and antioxidant effect of melanin and seaweed concentrate increased the shelf life of cream over the control. This study was the first report on photoprotective cream formulation using melanin and seaweed concentrate, which improved antioxidant and wound healing properties. The antimicrobial effect of the formulated natural cream could reduce the emergence of drug resistant bacteria and side effects of synthetic creams. In the second half of the 20th century, asbestos extraction was up to 4 Mt/year. Due to its high strength and insulation properties, this mineral was used as an additive in building materials. Over time these materials were destroyed by the process of weathering and leaching. Asbestos fibers in dust form penetrate the respiratory system causing diseases. This article proposes the binding of hazardous asbestos fibers in a polymer matrix formed from waste cooking oil. Compact materials were produced by heating catalyzed waste cooking oil and asbestos waste, and the process of obtaining these materials was optimized and their physicochemical and strength properties were determined. Oil-asbestos blocks contained sulfuric acid in a mass ratio of 0.05-0.30, being the mass of waste cooking oil, invariable mass of filling and 20% of waste cooking oil to the mass of the whole mixture. The materials were characterized by a compact structure and high hardness. The best mechanical strength above 140 N/mm was obtained for blocks with low acid to oil mass ratio ranging from 0.05 to 0.1125. Porous carbons from digestate-derived hydrochar were produced, characterized and their performance to reclaim phosphate from water was evaluated as a preliminary approach to demonstrate their practical application. In a first step, the digestate was converted into hydrochars through hydrothermal carbonization by using two different pH conditions 8.3 (native conditions) and 3.0 (addition of H2SO4). The resulting hydrochars did not present significant differences. Consecutively, the hydrochars were activated with KOH to produce activated carbons with enhanced textural properties. The resulting porous carbons presented marked differences the AC native presented a lower ash content (20.3 wt%) and a higher surface area (SBET = 1106 m2/g) when compared with the AC-H2SO4 (ash content = 43.7 wt% SBET = 503 m2/g). Phosphorus, as phosphate, is a resource present in significative amount in wastewater, causing serious problems of eutrophication. Therefore, the performance of the porous carbons samples to recover phosphate – P(PO43-) – from water was evaluated through exploitation assays that included kinetic studies. The lumped model presented a good fitting to the kinetic data and the obtained uptake capacities were the same for both carbons, 12 mg P(PO43-)/g carbon. Despite the poorer textural properties of AC-H2SO4, this carbon was richer in Ca, Al, Fe, K, and Mg cations which promoted the formation of mineral complexes with phosphate anions. The results obtained in this work are promising for the future development of P(PO43-) enriched carbons that can be used thereafter as biofertilizers in soil amendment applications. INTRODUCTION Large-cell neuroendocrine carcinoma (LCNEC) of the prostate is a rare type of prostate cancer. Only eighteen case reports have been published in the literature to date. The present case report is the first case in the literature to describe brain metastasis of LCNEC of the prostate with neuroimaging, gross, and microscopic evaluation with immunohistochemistry CASE PRESENTATION A 79-year old male with a history of high-grade prostatic adenocarcinoma treated with androgen deprivation therapy (ADT) who presented after remission with a severe headache and limbs weakness. Neuroimaging showed large right frontal lesion that caused a mass effect. Tumor resection was done, and the biopsy showed LCNEC of prostatic origin. The patient survived for 40 days after the diagnosis and tumor removal. DISCUSSION We discuss the spectrum of neuroendocrine differentiation in prostate carcinomas and the possible pathological pathways leading to the development of LCNEC of the prostate, and how it affects the presentation and the pattern of metastasis. CONCLUSION This case report describes a brain metastasis of a rare aggressive type of prostate cancer with poor prognosis. With metastatic lesions of prostatic adenocarcinoma, the probability of NE transdifferentiation increases. LCNEC has a poor prognosis attributed to its nature and late diagnosis. Thus, reporting and investigating such tumor will positively contribute to better management for future patients. INTRODUCTION Odontogenic pathological lesions can generally be divided into cysts and tumors. Calcifying odontogenic cyst (COC) is a non-aggressive odontogenic cyst, however, in a few occasions, COC can show excessive growth and destruction. This study describes an uncommon aggressive presentation of a large COC and discusses the treatment strategies used to achieve a favorable result. PRESENTATION OF CASE A 11-year-old child sought treatment for a painless growth on his mandible that caused facial asymmetry. On clinical and imaging examination, a large radiolucent lesion was observed in a panoramic x-ray involving the right side of the mandible. Radiopaque areas were observed within the lesion. Treatment comprised of an initial marsupialization followed by surgical removal of the lesion. Follow up extended for more than 10 years and no signs of recurrence were observed. DISCUSSION Initial marsupialization was successfully employed in order to decrease the lesion, inducing bone formation, and reducing the risk of mandibular fracture and inferior alveolar nerve damage. Four months after marsupialization, the lesion substantially reduced its volume and enucleation with peripheral ostectomy was carried out. This approach allowed a safer surgical removal of the lesion and achieve an excellent result. CONCLUSION Although some authors consider marsupialization as an unnecessary step that delays final treatment, when well indicated, it facilitates surgical treatment, promotes and preserves normal tissues, reduces the necessity of surgical reconstruction and costs, yet showing excellent results. INTRODUCTION Isolated closed rupture or avulsion of the flexor digitomm superficialis (FDS) tendon at its insertion is a rare diagnosis. It can be related to a pathology such as rheumatoid arthritis, bony abnormalities, tenosynovitis, fractures, or tuberculosis. A review of the literature identified only few cases of closed avulsion or rupture of FDS tendons nonpathologically. We hope this report will help to gather more experience for the surgical intervention in a delayed presentation of ruptured flexor digitorm superficialis tendon. The work has been reported in line with the SCARE criteria. PRESENTATION OF CASE We report a case of 48-year-old surgeon who sustained a trauma to her left middle finger. The patient presented three months after injury with complaints of pain and decreased range of motion of involved digit. Patient was treated conservatively and after failure of conservative treatment surgical intervention was done with complete tendon excision and capsulotomy of Proximal interphalangeal joint.