Objective To develop a damage control operation(DCO)simulation training platform for traumatic brain injury(TBI)in wartime based on mixed reality to open up a new path for surgical skills training of military surgeons.Methods The platform mainly consisted of wartime TBI DCO simulation training software,a surgical manikin and a HoloLens 2 MR device.The simulating training software was developed with C# language and the technologies of MR,basic gestures,spatial scanning positioning and etc on the basis of constructed surgical decision-making training system,virtual surgical environment and functional modules.The surgical manikin was customized with reference to the standard body type of an adult male with a height of 180 cm,and an electronic chip was developed and placed inside the head of the manikin to execute data matching with the simulation training software.The simulation training software was installed and run in the HoloLens 2 MR device to realize TBI DCO simulation training on the virtual reality interactive model.Results The platform developed implemented the functions of virtual reality interactive model reset positioning,operation simulation training,examination and on-site demonstration,which gained advantages in stimulating learning interest and facilitating risk-free,time-and space-indepen-dent,immersive and interactive learning and was generally recognized by the trainees.Conclusion The simulation training platform can be a supplementary to other training means to improve the ability of military surgeons in damage control operation.[Chinese Medical Equipment Journal,2024,45(2):17-21]

OBJECTIVETo investigate the clinical features and molecular diagnostic methods of three patients with DiGeorge anomaly.

METHODThe clinical manifestations and immunological features of the three cases with DiGeorge anomaly were analyzed. We detected the chromosome 22q11.2 gene deletion by fluorescence in situ hybridization (FISH).

RESULT(1) CLINICAL MANIFESTATIONS: All three cases had varying degrees of infection, congenital heart disease and small thymus by imaging; two cases had significant hypocalcemia (1.11 mmol/L and 1.22 mmol/L, respectively), accompanied by convulsions; only 1 case had cleft palate and all had no significant facial deformity. (2) Immunological characteristics: All three cases had varying degrees of T-cell immune function defects (percentage of T lymphocytes was 24% - 43%, absolute count was 309 - 803/µl), and levels of immunoglobulin G, A, M, and percent of B lymphocytes and absolute count were normal. (3) Detection of the chromosome 22q11.2 gene deletion: 400 cells of each case were detected. All cells showed two green and one red hybridization signal, indicating the presence of gene deletions in chromosome 22q11.2. (4) OUTCOME: All three cases were treated with thymosin, and appropriate clinical intervention for cardiac malformations, hypocalcemia, and were followed-up for 4 - 18 months, the prognosis was good.

CONCLUSIONDiGeorge anomaly showed diverse clinical manifestations. We should consider the disease if patients had congenital heart disease, thymic hypoplasia, hypocalcemia and/or impaired immune function. FISH for detecting chromosome 22q11.2 gene deletion can be used as accurate and rapid diagnostic method. Thymosin treatment and other clinical intervention may help to improve the prognosis of patients with partial DiGeorge anomaly.

Cells, Cultured ; Chromosome Deletion ; Chromosomes, Human, Pair 22 ; genetics ; DiGeorge Syndrome ; diagnosis ; genetics ; immunology ; Female ; Heart Defects, Congenital ; diagnosis ; genetics ; Humans ; Hypocalcemia ; diagnosis ; genetics ; In Situ Hybridization, Fluorescence ; Infant, Newborn ; Male ; T-Lymphocytes ; immunology ; Thymus Gland ; immunology ; pathology