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1. Percutaneous nephrostomy guidance by a polarization-sensitive optical coherence tomography probe

   Chen Wang, Yunlong Liu (March 2023, Proc. SPIE PC12353, Advanced Photonics in Urology 2023, PC1235308)

   Percutaneous nephrostomy (PCN) is a minimally invasive procedure used in kidney surgery. PCN needle placement is of great importance for the following successful renal surgery. In this study, we designed and built an endoscopic polarization-sensitive optical coherence tomography (PS-OCT) system for the PCN needle guidance. Compared to traditional OCT, PS-OCT will allow more accurate differentiation of the renal tissue types in front of the needle. In the experiment, we imaged different renal tissues from human kidneys using the PS-OCT endoscope. Furthermore, deep learning methods were applied for automatic recognition of different tissue types. 

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2. Label-Free Macroscopic Fluorescence Lifetime Imaging of Brain Tumors

   https://doi.org/10.3389/fonc.2021.666059  

   Lukina, Maria; Yashin, Konstantin; Kiseleva, Elena E.; Alekseeva, Anna; Dudenkova, Varvara; Zagaynova, Elena V.; Bederina, Evgenia; Medyanic, Igor; Becker, Wolfgang; Mishra, Deependra; et al (May 2021, Frontiers in Oncology)

   null (Ed.)

   Advanced stage glioma is the most aggressive form of malignant brain tumors with a short survival time. Real-time pathology assisted, or image guided surgical procedures that eliminate tumors promise to improve the clinical outcome and prolong the lives of patients. Our work is focused on the development of a rapid and sensitive assay for intraoperative diagnostics of glioma and identification of optical markers essential for differentiation between tumors and healthy brain tissues. We utilized fluorescence lifetime imaging (FLIM) of endogenous fluorophores related to metabolism of the glioma from freshly excised brains tissues. Macroscopic time-resolved fluorescence images of three intracranial animal glioma models and surgical samples of patients’ glioblastoma together with the white matter have been collected. Several established and new algorithms were applied to identify the imaging markers of the tumors. We found that fluorescence lifetime parameters characteristic of the glioma provided background for differentiation between the tumors and intact brain tissues. All three rat tumor models demonstrated substantial differences between the malignant and normal tissue. Similarly, tumors from patients demonstrated statistically significant differences from the peritumoral white matter without infiltration. While the data and the analysis presented in this paper are preliminary and further investigation with a larger number of samples is required, the proposed approach based on the macroscopic FLIM has a high potential for diagnostics of glioma and evaluation of the surgical margins of gliomas. 

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3. Hexachromatic bioinspired camera for image-guided cancer surgery

   https://doi.org/10.1126/scitranslmed.aaw7067  

   Blair, Steven; Garcia, Missael; Davis, Tyler; Zhu, Zhongmin; Liang, Zuodong; Konopka, Christian; Kauffman, Kevin; Colanceski, Risto; Ferati, Imran; Kondov, Borislav; et al (May 2021, Science Translational Medicine)

   Cancer affects one in three people worldwide. Surgery remains the primary curative option for localized cancers, but good prognoses require complete removal of primary tumors and timely recognition of metastases. To expand surgical capabilities and enhance patient outcomes, we developed a six-channel color/near-infrared image sensor inspired by the mantis shrimp visual system that enabled near-infrared fluorescence image guidance during surgery. The mantis shrimp’s unique eye, which maximizes the number of photons contributing to and the amount of information contained in each glimpse of its surroundings, is recapitulated in our single-chip imaging system that integrates arrays of vertically stacked silicon photodetectors and pixelated spectral filters. To provide information about tumor location unavailable from a single instrument, we tuned three color channels to permit an intuitive perspective of the surgical procedure and three near-infrared channels to permit multifunctional imaging of optical probes highlighting cancerous tissue. In nude athymic mice bearing human prostate tumors, our image sensor enabled simultaneous detection of two tumor-targeted fluorophores, distinguishing diseased from healthy tissue in an estimated 92% of cases. It also permitted extraction of near-infrared structured illumination enabling the mapping of the three-dimensional topography of tumors and surgical sites to within 1.2-mm error. In the operating room, during surgical resection in 18 patients with breast cancer, our image sensor further enabled sentinel lymph node mapping using clinically approved near-infrared fluorophores. The flexibility and performance afforded by this simple and compact architecture highlights the benefits of biologically inspired sensors in image-guided surgery. 

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4. Enhancing epidural needle guidance using a polarization‐sensitive optical coherence tomography probe with convolutional neural networks

   https://doi.org/10.1002/jbio.202300330  

   Wang, Chen; Liu, Yunlong; Calle, Paul; Li, Xinwei; Liu, Ronghao; Zhang, Qinghao; Yan, Feng; Fung, Kar‐ming; Conner, Andrew K.; Chen, Sixia; et al (October 2023, Journal of Biophotonics)

   Abstract Epidural anesthesia helps manage pain during different surgeries. Nonetheless, the precise placement of the epidural needle remains a challenge. In this study, we developed a probe based on polarization‐sensitive optical coherence tomography (PS‐OCT) to enhance the epidural anesthesia needle placement. The probe was tested on six porcine spinal samples. The multimodal imaging guidance used the OCT intensity mode and three distinct PS‐OCT modes: (1) phase retardation, (2) optic axis, and (3) degree of polarization uniformity (DOPU). Each mode enabled the classification of different epidural tissues through distinct imaging characteristics. To further streamline the tissue recognition procedure, convolutional neural network (CNN) were used to autonomously identify the tissue types within the probe's field of view. ResNet50 models were developed for all four imaging modes. DOPU imaging was found to provide the highest cross‐testing accuracy of 91.53%. These results showed the improved precision by PS‐OCT in guiding epidural anesthesia needle placement. 

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5. A Potential New Role for Gbx2 in Kidney Development

   https://doi.org/10.1002/dvdy.70043  

   Ziermann-Canabarro, Janine M; LaCour, Andriae; Enlers, Clifton; Muhammad, Laila; Correa-Alfonzo, Paola; Khundmiri, Syed (July 2025, Developmental Dynamics)

   Introduction: The mature mammalian kidney is derived from the metanephros (nephrons) and mesonephros (collecting system). Several transcription factors such as PAX2, PAX8, CK7, and WT1 are known to regulate the development of kidneys. Other factors influence the kidney development via regulation of interacting tissues, like vascularization. Mutations in p63, a member of the p53 family of tumor suppression genes, causes Ectrodactylyectodermal dysplasia-clefting syndrome 3, which presents also with genitourinary anomalies. However, Gbx2, a transcription factor mainly known for its role in central nervous system development has not been studied in context with kidney development. Here, we compared the expression of markers of specific nephron segments in kidneys from 18-day embryonic age (E18.5) of p63-/- and Gbx2neo/neo (with 6-10% of WT expression) mice. Research Aim: Gbx2 is not known to be involved in kidney development. However, unusual histology of the kidneys of Gbx2 mutant mice implies otherwise. We aim to identify if and how Gbx2 influences kidney development. Methods: Kidneys from WT, p63-/-, and Gbx2neo/neo mice at E18.5 were embedded in paraffine and serial sectioned (5 mm). The sections were studied at a light microscope after staining with Hematoxylin Eosin (HE) and immunohistochemistry. Antibody staining was performed against HNFa (proximal tubule), NKCC2 (loop of Henle), NCC (distal tubule), and Aqp2 (CCT), and Na-K ATPase. Results: The glomerular and tubular structures were similar in in all mice studied. However, HE staining showed excessive red blood cell infiltration in the kidneys of Gbx2neo/neo mice as compared to the kidneys of WT and p63-/- mice. Expression of markers of all nephron segments was significantly less in kidneys from Gbx2neo/ neo mice as compared to kidneys from WT and p63-/- mice. The expression of Na-K ATPase was similar in kidneys from all mice. Discussion: Currently Gbx2 is not linked to kidney development. However, Gbx2 is involved in vascular development. The observed red blood infiltration implies that Gbx2 deficit affects vascular ontogeny during the kidney formation and therefore also affects kidney development and function. Further studies are required and currently underway in our labs to confirm the role of Gbx2 in vascular and kidney development. Significance and implication: This study provides evidence of a yet unknown function of Gbx2 and may help us in understanding the tissue interactions necessary for normal kidney development. Session: Developmental Biology Award Symposium Funding or Support: NSF EiR-HBCU #2000005 (JMZC) 

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