Stroke is one of the leading causes of disability and mortality worldwide. Research into its mechanisms and the development of therapeutic strategies heavily rely on animal models that accurately replicate the pathological features of human disease. An ideal animal model for stroke should not only reproduce the neurological deficits and pathological changes observed in clinical patients but also demonstrate good reproducibility and translational value. This review focuses on the preparation and evaluation methods of ischemic stroke animal models. Firstly, it elaborates on the selection criteria, advantages, and disadvantages of experimental animals, including rodents (rats, mice) and non-rodents (non-human primates, miniature pigs, rabbits, zebrafish). Secondly, it provides a detailed overview of the modeling principles, key procedures, and application scopes for ischemic stroke models and hemorrhagic stroke models. Furthermore, the review summarizes advances in the applications of emerging technologies—including gene editing [e.g., clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) gene editing], multimodal imaging (e.g., two-photon microscopy, photoacoustic imaging), artificial intelligence, optogenetics, 3D bioprinting, organoid models, and multi-omics–in model optimization, precise assessment, and mechanistic investigation. Finally, based on a systematic analysis of relevant domestic and international literature from 2019 to 2024, this review discusses model selection strategies based on research objectives, a multidimensional evaluation system encompassing behavioral, imaging, and molecular pathological assessments, and envisions future directions involving technological integration to achieve model precision and individualization. This article aims to provide a comprehensive methodological reference to help researchers select appropriate animal models of stroke according to specific scientific questions.

OBJECTIVETo study the clinical and histopathologic features of post-transplant kidney biopsy tissues from pediatric C-III donors.

METHODSThe clinical and pathologic features of 20 cases (22 case-times) of renal transplant biopsies from pediatric cadaveric donors were analyzed by light microscopy and immunohistochemistry according to the Banff system of working classification of renal allograft pathology. Biopsies were compared to those from adult C-III donors and adult cadaveric donors.

RESULTSSixteen cases (72.7%) showed renal allograft drug toxicity damage by Tacrolimus, seven cases (31.8%) showed degeneration and necrosis of renal tubular epithelial cells, four cases (18.2%) showed T cell-mediated acute rejection and six cases (27.3%) showed renal interstitial inflammation. There were two cases (9.1%) of renal dysplasia and one case (4.5%) of renal infarction. There was insufficient evidence for diagnosis of renal allograft nephropathy. Compared to post-transplant kidney from adult C-III donors, the proportion of drug toxicity damage was higher (P<0.05). Compared to post-transplant kidney from adult cadavers, the proportions of drug toxicity damage, degeneration and necrosis of renal tubular epithelial cells were higher (P<0.05) while the proportion of acute rejection was lower (P<0.05).

CONCLUSIONSThe pathologic changes in the post-transplant kidneys from pediatric donors are different from those from adult donors. Optimal long-term outcome can be accomplished by effective treatment based on timely or procedural biopsy.

Adult ; Age Factors ; Biopsy ; Cadaver ; Child ; Graft Rejection ; pathology ; Humans ; Immunohistochemistry ; Immunosuppressive Agents ; adverse effects ; Infarction ; pathology ; Kidney ; blood supply ; drug effects ; pathology ; Kidney Transplantation ; Kidney Tubules ; drug effects ; pathology ; Necrosis ; Tacrolimus ; adverse effects ; Transplantation, Homologous ; Treatment Outcome

Bone Diseases, Infectious ; microbiology ; pathology ; Cryptococcosis ; complications ; pathology ; Forearm ; Humans ; Soft Tissue Infections ; microbiology ; pathology