Stereological analysis of liver, spleen and bone of Leishmania infantum-experimentally infected hamsters.

Leishmaniasis is remaining as one of the important health problems of many countries around the world. The histopathology of the disease and the effects of the parasite on various tissues have not yet been fully elucidated. The current study aimed to evaluate the stereological features of the liver, spleen, and bone of hamsters infected with Leishmania infantum. In this experimental study, the L. infantum parasite was mass cultivated in a culture medium. Then, 15 golden hamsters were selected, of which 5 animals were considered as controls and another 10 animals were injected intravenously, with 1 × 108 promastigotes of L. infantum. Four months later, the hamsters were euthanized and impression smears were prepared from the liver and spleen. Moreover, pathology slides were prepared from the spleen, liver, and femur. The orientated method was used to obtain isotropic uniform random (IUR) sections. For stereological evaluation, the tissues were fixed with formalin buffer, and sections (4 and 25 µm thick) were prepared and stained with Heidenhain's AZAN trichrome and hematoxylin-eosin, respectively. The tissue samples were examined by stereological methods and all changes in the samples of the infected hamsters were compared with the control group. The number of hepatocyte and their nuclei volumes were significantly decreased in the Leishmania-infected group, compared to the control group. The number of Kupffer cells and their volume in the liver of the Leishmania-infected group was higher than that of the control group, and the differences were statistically significant. The volume of trabeculae and central arteries in the spleen of the Leishmania-infected group was lower than that of the control group and the number of lymphocytes and macrophages in the spleen of the Leishmania-infected group was increased compared to the control group. The trabecular volume and the number of osteoblasts and osteoclasts of the femur in Leishmania-infected animals decreased, whereas the volume of bone marrow was significantly raised. Leishmaniasis leads to changes in tissue structure and their function in the host by the involvement of various organs of the immune system including the liver, spleen, and bone. Understanding these changes are important in identifying the effective mechanisms of the parasite and host interaction.

Edge artificial intelligence wireless video capsule endoscopy.

Gastrointestinal (GI) tract diseases are responsible for substantial morbidity and mortality worldwide, including colorectal cancer, which has shown a rising incidence among adults younger than 50. Although this could be alleviated by regular screening, only a small percentage of those at risk are screened comprehensively, due to shortcomings in accuracy and patient acceptance. To address these challenges, we designed an artificial intelligence (AI)-empowered wireless video endoscopic capsule that surpasses the performance of the existing solutions by featuring, among others: (1) real-time image processing using onboard deep neural networks (DNN), (2) enhanced visualization of the mucous layer by deploying both white-light and narrow-band imaging, (3) on-the-go task modification and DNN update using over-the-air-programming and (4) bi-directional communication with patient's personal electronic devices to report important findings. We tested our solution in an in vivo setting, by administrating our endoscopic capsule to a pig under general anesthesia. All novel features, successfully implemented on a single platform, were validated. Our study lays the groundwork for clinically implementing a new generation of endoscopic capsules, which will significantly improve early diagnosis of upper and lower GI tract diseases.

Colon capsule endoscopy versus CT colonography after incomplete colonoscopy. Application of artificial intelligence algorithms to identify complete colonic investigations.

BACKGROUND: Guidelines suggest computed tomography colonography (CTC) following incomplete optical colonoscopy (OC). Colon capsule endoscopies (CCE) have been suggested as an alternative, although completion rates have been unsatisfactory. Introduction of artificial intelligence (AI)-based localization algorithms of the camera capsules may enable identification of incomplete CCE investigations overlapping with incomplete OCs. OBJECTIVE: The study aims to investigate relative sensitivity of CCE compared with CTC following incomplete OC, investigate the completion rate when combining results from the incomplete OC and CCE, and develop a forward-tracking algorithm ensuring a safe completeness of combined investigations. METHODS: In this prospective paired study, patients with indication for CTC following incomplete OC were included for CCE and CTC. Location of CCE abortion and OC abortion were registered to identify complete combined investigations. AI-based algorithm for localization of capsules were developed reconstructing the passage of the colon. RESULTS: In 237 individuals with CTC indication; 105 were included, of which 97 underwent both a CCE and CTC. CCE was complete in 66 (68%). Including CCEs which reached most oral point of incomplete OC, 73 (75%) had complete colonic investigations; 78 (80%) had conclusive investigations. Relative sensitivity of CCE compared with CTC was 2.67 (95% confidence interval (CI) 1.76;4.04) for polyps >5 mm and 1.91 (95% CI 1.18;3.09) for polyps >9 mm. An AI-based algorithm was developed. CONCLUSION: Sensitivity of CCE following incomplete OC was superior to CTC. Introducing and improving algorithm-based localization of capsule abortion may increase identification of overall complete investigation rates following incomplete OC.ClinicalTrials.gov identifier: NCT02826993.