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BACKGROUND:Photothermal therapy is a novel tumor treatment strategy that uses photothermal agents to transform light energy into heat energy to accomplish non-invasive tumor ablation.The rise of photothermal therapy and nanotechnology has provided a new perspective on breast cancer treatment.OBJECTIVE:To prepare a new type of near-infrared biomimetic nanoprobe that has been modified by breast cancer cell membrane,to investigate the effect of near-infrared fluorescence/ultrasound imaging in vitro,and to observe its targeting ability and photothermal therapy effect on homologous tumor cells in vitro.METHODS:Organic small molecule ITIC-4CI with A-D-A structure was used as photothermal agents;polylactic acid/glycolic acid copolymer as nanocarrier;4T1 cell membrane of mouse breast cancer cells as a surface modifier of nanoparticles;perfluorohexane(PFH)was loaded.A novel near-infrared biomimetic nanoprobe(4T1m/ITIC-4CI/PFH)was prepared by the double emulsion evaporation method and sonication method.The basic characterization of the nanoprobe and the homologous targeting ability were detected.The photothermal properties and photothermal stability of the probe were investigated,and the near-infrared fluorescence/ultrasound imaging effect of the probe under laser irradiation was observed.The CCK-8 assay and calcein/propidium iodide staining were used to assess the efficacy of photothermal therapy.RESULTS AND CONCLUSION:(1)The prepared 4T1m/ITIC-4CI/PFH nanoprobes had uniform size,high stability,and an average particle size of(92.7±2.3)nm.The probe's protein composition was identical to that of the 4T1 cell membrane.The nanoprobe's ability to target homologous 4T1 cells was validated by an in vitro cell uptake assay.(2)The nanoprobe had a red-shift absorption spectrum and tail emission extending to the near-infrared-Ⅱ,which emitted a bright near-infrared-Ⅱ fluorescence signal under laser irradiation.(3)After laser irradiation,the nanoprobe 4T1m/ITIC-4CI/PFH could be turned into microbubbles and enhanced ultrasound imaging.The results of CCK-8 assay and calcein/propidium iodide staining showed that the nanoprobe 4T1m/ITIC-4CI/PFH had an obvious photothermal killing effect on 4T1 cells.(4)The results show that the nanoprobe 4T1m/ITIC-4CI/PFH has the ability to target homologous tumors and enhance near-infrared-Ⅱ fluorescence imaging/ultrasound imaging and photothermal therapy effects.
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BACKGROUND:Existing neuroimaging techniques,including magnetic resonance imaging,computed tomography,and high-resolution ultrasound,lack the capability to provide real-time intraoperative positioning images to surgeons.However,the clinical implementation of near-infrared fluorescence imaging technology has made it possible to directly visualize surgical target areas,offering a novel solution for real-time nerve identification during surgery. OBJECTIVE:To provide a summary and overview of the research progress in near-infrared fluorescence imaging technology for intraoperative neuroimaging. METHODS:The first author used the computer to search for the documents published from January 2010 to July 2023 in WanFang,CNKI,and PubMed with the key words of"near-infrared fluorescence imaging,optical imaging,nerve imaging"in Chinese and English.A few classic old documents were also included.Initial screening was performed by reading the titles and abstracts;duplicate,low-quality,and irrelevant content documents were excluded.A total of 69 articles were finally included for review. RESULTS AND CONCLUSION:Near-infrared fluorescence imaging guided by indocyanine green has been clinically used to identify and locate tubular organs such as blood vessels,ureters,and bile ducts,as well as various tumors during surgery.This technique is currently considered a well-established imaging method in precision surgery.In the field of intraoperative neurofluorescence imaging,indocyanine green is currently the only near-infrared fluorescent dye used in clinical research.The ideal neuroimaging agent should possess certain characteristics,including easy administration in the perioperative period,logD between 0.5 and 3 at pH=7.4,molecular mass below 500 Da,excitation and emission wavelengths within the near-infrared window,long-term retention in nerve tissue,high signal-to-background ratio,and high safety.In the future,the development of near-infrared neurofluorescence imaging agents should focus on synthesizing complexes of indocyanine green and neural-specific targets.This technology not only enables intraoperative neurofluorescence imaging,but also holds promising prospects for in-situ monitoring of nerve regeneration and diagnosis of neurological diseases.
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Liver cancer is still a major disease threatening the lives and health of the Chinese people. For early liver cancer with good liver functional reserve, surgical resection remains as the preferred treatment option. In the past several decades, great advances have been made in hepatectomy because of the refinement of surgical theories, advancements in surgical techniques, and improvements in surgical equipment. However, there are still different understandings in the academic community regarding whether to choose anatomic liver resection, how to choose the surgical margin, the design of surgical methods under the liver "territory theory", and the use of indocyanine green fluorescence imaging technology in liver cancer resection. The authors comprehensively review the current researches on the above issues and the research progress in hepatectomy for liver cancer, aiming to provide references for clinicians to optimize the surgical procedure.
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Fluorescent surgical navigation has been widely used in liver and biliary surgery, including imaging of tumors, bile ducts, blood vessels, and other small lesions that cannot be identified by traditional methods. This helps surgeons obtain visual information during surgery and facilitates intraoperative decision-making. However, there are still many controversies in pancreatic tumor surgery, which is also the reason for the limited application of this technology in the pancreas at present. This article first summarizes the current status of the application of this technology in pancreatic tumor surgery. Based on our own experiences, we summarize the current problems of fluorescence imaging technology and propose corresponding optimization strategies. Finally, we look forward to its application prospects, hoping to provide a reference for the future application of fluorescence imaging technology in pancreatic tumors.
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Objective:To analyze the clinical value of indocyanine green (ICC) fluorescence imaging in Mirizzi syndrome type Ⅱ-Ⅲ laparoscopic cholecystectomy (LC).Methods:A retrospective analysis was performed on 80 patients diagnosed with Mirizzi syndrome types Ⅱ-Ⅲ who underdoing LC in Affiliated Hospital of Liaoning University of Traditional Chinese Medicine from October 2018 to February 2022, including 32 males and 48 females, aged (63.5±6.9) years. Patients were divided into two groups based on whether ICG fluorescence imaging technology was used, the control group ( n=38) that patients were treated with conventional LC and the experimental group ( n=42) patients were treated with LC guided by ICG fluorescence imaging. In the experimental group, the extrahepatic bile duct was identified by ICG fluorescence imaging during LC, and ICG was injected intraoperally to determine the reserved blood flow of gallbladder flap for fluorescence imaging and determine the resection line. Operation time, intraoperative blood loss, conversion rate of laparotomy and postoperative complications (bile leakage, incision infection, etc.) were compared between the two groups. Intraoperative fluorescence imaging and determination of the modified resection line of reserved gallbladder were analyzed in the observation group. Results:There was no significant difference in age, male proportion, type of Mirizzi syndrome and conversion rate of laparotomy between the two groups (all P>0.05). In the observation group, the operative time was (208.7±32.0) min, the intraoperative blood loss was (50.5±23.8) ml, and the biliary leakage was 7.1% (3/42), which was lower than that in the control group (228.2±33.9) min, (73.8±31.0) ml, 26.3% (10/38). The differences were statistically significant (all P<0.05). Of 37 cases (88%) showed common hepatic duct and common bile duct successfully in the observation group. In the observation group, ICG fluorescence imaging was used to determine the gallbladder resection line in 8 cases (19.0%). The gallbladder flap without fluorescence imaging was removed. Conclusion:ICG fluorescence imaging in LC for Mirizzi syndrome patients can identify the common bile duct and hepatic duct to guide surgical resection, determine the gallbladder flap resection line, reduce postoperative bile leakage and bleeding, and accelerate the surgical progress.
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Objective:To analyze the application of indocyanine green (ICG) fluorescence imaging in laparoscopic resection of pancreatic cancer.Methods:Data of 15 patients undergoing laparoscopic surgery for pancreatic cancer in the Department of Hepatobiliary Surgery of the First Affiliated Hospital of Wannan Medical College from June 2022 to March 2023 were retrospectively analyzed, including 13 males and 2 females, aged (67.0±8.6) years. ICG were intraoperatively injected to visualize the lesion and guide surgical resection. The surgical methods, postoperative pathology, ICG fluorescence imaging and tumor margins were reviewd.Results:Among the patients, seven underwent laparoscopic pancreaticoduodenectomy, seven underwent laparoscopic radical antegrade modular pancreaticosplenectomy, and one conversed to open pancreaticoduodenectomy due to combined superior mesenteric vein reconstruction. Postoperative pathology confirmed pancreatic moderately differentiated adenocarcinoma in nine cases, pancreatic moderately-low differentiated adenocarcinoma in four cases, pancreatic follicular cell carcinoma in one case, and inflammatory lesion in one case. Negative surgical margins were confirmed in all cases. Pancreatic lesion were visualized in 14 cases (fluorescent delineation of the tumor capsule) but not well visualized in one case (with moderately differentiated adenocarcinoma). In the case of inflammatory disease, the lesion parenchyma were visualized.Conclusion:ICG injection in laparoscopic surgery enables visualization of pancreatic tumor, which facilitates tumor localization and margin determination.
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Objective @# To investigate the application of indocyanine green in near-infrared fluorescence imaging to determine the scope of necrotic bone resection in osteoradionecrosis of the jaw and to provide a reference for clinicians@*Methods @#Eight patients with osteoradionecrosis of the jaws were enrolled. Indocyanine green was intravenously injected through the elbow vein 10 minutes before osteotomy. After conservative resection of necrotic bone lesions based on imaging results, the scope of potential dead bone resection in the area of low fluorescence intensity was gradually expanded at an initial distance of 0.3 cm. Near-infrared fluorescence imaging and fluorescence intensity determination of bone cross-section were performed before and after extended resection. Statistical differences were analyzed. All patients with osteonecrosis underwent regular follow-up to evaluate the postoperative efficacy@*Results@#Indocyanine green was injected into all 8 patients with osteoradionecrosis for near-infrared fluorescence imaging and the scans were clear; the fluorescence intensity of fresh bone wounds with an expanded mandibular resection range of (0.95 ± 0.14) cm was (226.2 ± 15.8) au, which was higher than that based on intraoperative macroscopic observation and radiological results (108.8 ± 3.4) au, (t = 20.718, P<0.001). The postoperative follow-up improvement rate of 8 patients was 87.5%.@* Conclusion @#Near-infrared fluorescence imaging with indocyanine green can assist in the successful removal of necrotic bone until fresh bleeding of the jaw wound occurs, which has important clinical value in defining the resection range of osteoradionecrosis of the jaw.
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@#Sulfane sulfur species in the reactive sulfur species family include hydrogen polysulfides (H2Sn, n ≥2), which play an essential role in physiological regulation and signal transduction. As a redox pair of H2S, H2Sn can be produced through oxidation or enzyme reaction and regulate protein interaction and enzyme activity.Research has revealed that H2Sn, with higher efficiency of protein S-sulfhydration than H2S, may be responsible for some physiological functions previously attributed to H2S.Therefore, real-time detection of H2Sn is crucial for studying its physiological activity and the relationship between H2S and H2Sn.Traditional detection methods, such as mass spectrometry, are not suitable for living organisms as they require tissue cell disruption.Instead, fluorescence probes are often used for in situ real-time detection due to their high sensitivity and specificity and low biological toxicity.This review summarizes the physiological regulatory activity of H2Sn, as well as the design strategy, response mechanism, fluorescence characteristics, and biological applications of H2Sn fluorescent probes based on the structure of the response group, with a prospect of the challenges and developments in this field.
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Indocyanine green (ICG) is the most commonly used near-infrared fluorescent (NIRF) dye in clinical practice, and its mediated near-infrared fluorescence imaging technology is gradually applied in clinical practice. It has shown great potential in invasive surgery (MIS) and is expected to become the standard technology for surgical diagnosis and treatment of diseases. The clinical application of ICG fluorescence laparoscopy is reviewed here.
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Vert indocyanine , Fluorescence , Laparoscopie , Agents colorantsRÉSUMÉ
Near-infrared fluorescence imaging (NIRFI) is a new noninvasive detection and diagnosis technology, with the continuous development of NIRFI technology, now widely used in the clinic, characterized by high sensitivity, high penetration, no harmful radiation and simple equipment operation. This article describes the recent applications of NIRFI in the diagnosis and treatment of breast cancer and looks at future developments and perspectives in this field.
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Scientific and technological innovation is the most important role in driving the development of minimally invasive surgery. After more than 30 years of development, modern mini-mally invasive surgery represented by laparoscopic surgery has gradually matured. Various types of minimally invasive surgeries have been popularized, and the difficulty of surgery has changed from extreme to limit. Surgical equipments and instruments can meet the needs of most clinical operations. The future of minimally invasive surgery has reached a crossroad, and only scientific and technological innovation can promote the development of minimally invasive surgery change lanes and overtake, ushering in new development, new methods, and a new world. For innovation, the most important thing is not knowledge, but vision and ideas. A new technological revolution will inevitably bring about changes in the industry. What changes will be ushered in the operation and treatment of diseases in the future? What will be the breakthrough of minimally invasive surgery? It is worth to wait and see. The authors discuss the development direction of minimally invasive surgery based on the recent application of hot technologies in laparoscopic surgery.
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Biliary atresia is a rare infant disease that predisposes patients to liver transplantation and death if not treated in time. However, early diagnosis is challenging because the clinical manifestations and laboratory tests of biliary atresia overlap with other cholestatic diseases. Therefore, it is very important to develop a simple, safe and reliable method for the early diagnosis of biliary atresia. Herein, a novel NIR-II fluorescence probe, HZL2, with high quantum yield, excellent biocompatibility, low cytotoxicity and rapid excretion through the liver and gallbladder was developed based on the oil/water partition coefficient and permeability. A simple fecal sample after injection of HZL2 can be used to efficiently identify the success of the mouse model of biliary atresia for the first time, allowing for an early diagnosis of the disease. This study not only developed a simple and safe method for the early diagnosis of biliary atresia with great potential in clinical translation but also provides a research tool for the development of pathogenesis and therapeutic medicines for biliary atresia.
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The prescription of antibiotics empirically without confirmation of an infective etiology is on the rise. Administration of appropriate antibiotics can be guided by real-time fluorescence imaging using a point-of-care device. These composite images show the presence, type and the burden of infection. The time saved by this method over microbiological testing, especially in resource-poor settings, can lead to a paradigm shift in treatment by facilitating prompt and adequate antimicrobial therapy, surgical debridement as well as follow-up. Thumbnail sketches of a series of four cases highlighting different scenarios in which a fluorescent imaging device utilizing artificial intelligence and machine learning was found useful is presented in this report.
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Ubiquitin-proteasome system (UPS) plays an important role in neurodegenerative diseases, such as Alzheimer's disease (AD), Parkinson's disease (PD), and Huntington's disease (HD). The discovery of UPS activators for anti-neurodegenerative diseases is becoming increasingly important. In this study, we aimed to identify potential UPS activators using the high-throughput screening method with the high-content fluorescence imaging system and validate the neuroprotective effect in the cell models of AD. At first, stable YFP-CL1 HT22 cells were successfully constructed by transfecting the YFP-CL1 plasmid into HT22 cells, together with G418 screening. The degradation activity of the test compounds via UPS was monitored by detecting the YFP fluorescence intensity reflected by the ubiquitin-proteasome degradation signal CL1. By employing the high-content fluorescence imaging system, together with stable YFP-CL1 HT22 cells, the UPS activators were successfully screened from our established TCM library. The representative images were captured and analyzed, and quantification of the YFP fluorescence intensity was performed by flow cytometry. Then, the neuroprotective effect of the UPS activators was investigated in pEGFP-N1-APP (APP), pRK5-EGFP-Tau P301L (Tau P301L), or pRK5-EGFP-Tau (Tau) transiently transfected HT22 cells using fluorescence imaging, flow cytometry, and Western blot. In conclusion, our study established a high-content fluorescence imaging system coupled with stable YFP-CL1 HT22 cells for the high-throughput screening of the UPS activators. Three compounds, namely salvianolic acid A (SAA), salvianolic acid B (SAB), and ellagic acid (EA), were identified to significantly decrease YFP fluorescence intensity, which suggested that these three compounds are UPS activators. The identified UPS activators were demonstrated to clear AD-related proteins, including APP, Tau, and Tau P301L. Therefore, these findings provide a novel insight into the discovery and development of anti-AD drugs.
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Humains , Maladie d'Alzheimer/traitement médicamenteux , Neuroprotecteurs , Imagerie optique , Proteasome endopeptidase complex , UbiquitineRÉSUMÉ
Vanin-1 is an amidohydrolase that catalyses the conversion of pantetheine into the amino-thiol cysteamine and pantothenic acid (coenzyme A precursor), which plays a vital role in multiple physiological and pathological processes. In this study, an enzyme-activated near-infrared (NIR) fluorescent probe (DDAV) has been constructed for sensitively detecting Vanin-1 activity in complicated biosamples on the basis of its catalytic characteristics. DDAV exhibited a high selectivity and sensitivity toward Vanin-1 and was successfully applied to the early diagnosis of kidney injury in cisplatin-induced kidney injury model. In addition, DDAV could serve as a visual tool for in situ imaging endogenous Vanin-1 in vivo. More importantly, Enterococcus faecalis 20247 which possessed high expression of Vanin-1 was screened out from intestinal bacteria using DDAV, provided useful guidance for the rational use of NSAIDs in clinic. Finally, oleuropein as a potent natural inhibitor for Vanin-1 was discovered from herbal medicines library using a high-throughput screening method using DDAV, which held great promise for clinical therapy of inflammatory bowel disease.
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Objective:This meta-analysis was conducted to systematically evaluate the short-term efficacy and safety of indocyanine green fluorescence imaging guided laparoscopic liver tumor resection (FIGLTR).Methods:A systematic search was made for the literature on indocyanine green fluorescence image-guided laparoscopic hepatectomy in randomized, semi-randomized controlled trials and observational studies, and manually search published materials and conference papers in Chinese and English and trace references included in the literature. The retrieval period was up to September 2021. The quality of included studies was evaluated, then the meta-analysis was conducted using Review Manager 5.1 software.Results:Ten studies were included with 803 patients, including 341 in the FIGLTR group and 462 in the non-FIGLTR group. Meta results showed that: Compared to the traditional resection group, indocyanine green fluorescence imaging can significantly shorten the operative time ( MD=-22.61, 95% CI: -34.20--11.03, P<0.001), reduce intraoperative bleeding ( MD=-49.17, 95% CI: -84.99--13.36, P<0.01), shorter hospital stay ( MD=-0.89, 95% CI: -7.72--0.06, P<0.05), Improve the removal rate of R 0 edge ( OR=8.80, 95% CI: 1.96-39.44, P<0.05) and reduce the incidence of postoperative complications ( OR=0.55, 95% CI: 0.34-0.87, P<0.05) of laparoscopic liver tumor resection. There were no differences found in portal block time and transfusion rate. Conclusion:Indocyanine green fluorescence imaging technology provides a new way for safe and accurate laparoscopic resection of liver tumors.
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Objective:To study the glypican 3 (GPC3) fluorescent probe imagings in hepatocellular carcinoma (HCC) tissues and to determine its prognostic value in HCC patients.Methods:The data of 87 patients who were treated at the Affiliated Hospital of Southwest Medical University from January 2019 to August 2020 were retrospectively analyzed. There were 75 males and 12 females, with the age of (56.1±11.9) years. The expressions of GPC3 were measured by immunohistochemistry and by the fluorescent probe. The results obtained by these two tests were compared. Patients were followed up for recurrence after hepatectomy. Univariate and multivariate Cox regression analyses were used to analyze factors influencing recurrence-free survival.Results:Detection of the GPC3 expression by GPC3 fluorescence probe was consistent with the results obtained by immunohistochemical studies ( Kappa=0.84, P<0.001). The positive rates of GPC3 fluorescent probe was 79.3%(69/87), compared with 80.4%(70/87) by immunohistochemistry studies, with no significant difference between the two groups ( P>0.05). The patients were then divided into the low differentiation group ( n=30) and the middle high differentiation group ( n=57) by the degrees of tumor differentiation. The fluorescence intensity in the low differentiation group was 134.4(128.0, 144.7) a. u. which was significantly different from the middle high differentiation group of 84.8(0, 108.5)a.u. ( Z=-7.52, P<0.001). The median fluorescence intensity of 87 patients with HCC was 108.6 a. u.. Multivariate Cox regression analysis showed that patients with a GPC3 fluorescence intensity ≥108.6 a. u. ( HR=2.07, 95% CI: 1.21-3.53, P=0.008) had a significant increased risk of recurrence after hepatectomy. Conclusion:The expressions of GPC3 in HCC were consistent between the studies by using either a GPC3 specific fluorescent probe or immunohistochemistry studies. A GPC3 fluorescence intensity ≥108.6 a. u. was a risk factor of recurrence after hepatectomy in patients with HCC.
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Objective: Local recurrence is the main cause of treatment failure in patients with oral squamous cell carcinoma (OSCC). This study was proposed to investigate the feasibility of near infrared fluorescence (NIF) via indocyanine green (ICG) for monitoring surgical marginal in operation for OSCC patients. Methods: In 35 patients with OSCC treated surgically in the Department of Oral and Maxillofacial Surgery, Nanjing University School of Medicine, from January 2019 to June 2020, ICG (0.75 mg/kg) was administered intravenously via elbow vein at (12±1) hours before surgery, and NIF was performed intraoperatively on the surgical field and the cut edge of the surgically excised specimen, and fluorescence intensity was measured for OSCC tissue and normal oral mucosa, abnormal fluorescence signals were taken and subjected to rapid cryopathological examination. Correlation between NIF tumor boundary grading and pathological tumor boundary grading was analyzed by Spearman correlation analysis. Results: Clear ICG NIF was obtained for tumor lesions in all 35 patients, with a positive rate of 100%. The fluorescence intensity of OSCC tissue was (412.73±146.56) au, which was higher than that of normal oral mucosa tissue [(279.38±82.56) au, P<0.01]. Abnormal fluorescence signals were detected at the tumor bed and the cut edge of the surgical resection specimen in 4 patients, of which 2 cases were pathologically confirmed as cancer cell residue and 2 cases as inflammatory cell infiltration. The rate of positive detection of cut margins using ICG NIF technique in OSCC was 5.7% (2/35). Twenty of the 35 OSCC patients had grade 1, 11 of grade 2, and 4 of grade 3 tumor borders revealed by NIF of surgical resection specimens, which was positively correlated with pathological tumor border (r=0.809, P<0.001). Conclusions: ICG NIF technique can effectively detect the residual cancer cells at the incision margin, which is of great clinical value in reducing local recurrence of OSCC after surgery due to intraoperative cancer residue.
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Humains , Carcinome épidermoïde/chirurgie , Tumeurs de la tête et du cou , Vert indocyanine , Marges d'exérèse , Tumeurs de la bouche/chirurgie , Maladie résiduelle , Imagerie optique/méthodes , Carcinome épidermoïde de la tête et du cou/chirurgieRÉSUMÉ
OBJECTIVES@#Occult cervical lymph node metastasis is the most important reason for recurrence of early-stage tongue cancer and oropharyngeal cancer. Cervical sentinel lymph node (SLN) biopsy may help to identify them. Pigment dyes and radionuclide were used to label SLN. Both of them had shortage. This study aims to investigate the application and clinical value of indocyanine green fluorescence imaging in cervical SLN biopsy for patients with early-stage tongue cancer and oropharyngeal cancer.@*METHODS@#Retrospective analysis was conducted on 23 patients with early tongue cancer and oropharyngeal cancer, who received surgical treatment and used indocyanine green as a tracer to find SLN in Hunan Cancer Hospital from April to October 2021. The detection rate of SLN was calculated and the distribution of SLN in different regions of the neck was analyzed.@*RESULTS@#SLN was successfully identified in 22 of 23 patients, with a detection rate of 95.65%. Among these 22 patients, 3 patients were found to have cancer metastasis, and the rate of occult lymph node metastasis was 13.63%. No pathologically positive lymph nodes were detected in SLN-negative patients, and thus the positive predictive rate was 100%. For patients with primary lesions located in the anterior 2/3 of the tongue, the constituent ratios of SLN in neck area I, II, III, and IV were 15.15%, 71.72%, 13.13%, and 0, respectively. For patients with primary lesions located in base of the tongue, the constituent ratios of SLN in neck area I, II, III, and IV were 0, 44.44%, 44.44%, and 11.12%, respectively.@*CONCLUSIONS@#Indocyanine green fluorescence imaging has a high detection rate with accurate positive prediction in the anterior cervical SLN biopsy in patients with early-stage tongue cancer and oropharyngeal cancer. Meanwhile, it can also reflect the lymphatic drainage of tumors located at different primary sites, which has high clinical value.
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Humains , Biopsie de noeud lymphatique sentinelle/méthodes , Vert indocyanine , Métastase lymphatique/anatomopathologie , Tumeurs de la langue/chirurgie , Études rétrospectives , Noeuds lymphatiques/anatomopathologie , Tumeurs de l'oropharynx/chirurgie , LangueRÉSUMÉ
Objective:To analyse the application of indocyanine green (ICG) fluorescence contrast technique for resection of hepatoblastoma in children and to study its value in the application.Methods:The data of 13 children with pediatric hepatoblastoma who underwent open liver resection by using the ICG real-time image guided system were collected from June 2020 to October 2021 at the Children's Hospital of Nanjing Medical University. There were 10 males and 3 females. Their ages ranged from 5 days to 63 months, with a median of 22 months. The characteristics of the ICG imaging, surgical excision and postoperative pathology were analysed.Results:The tumors showed bright fluorescence in 13 patients. The border between the tumor and normal liver tissues was clear in 12 patients, and there was no difference between the background fluorescence of the liver and fluorescence of the tumor in one patient. Regular hepatic resection was performed in 6 patients and irregular hepatic resection in 7 patients under ICG fluorescence navigation. In one patient, the left half of the liver was resected, and there was no fluorescence on the transected surface of the liver remnant. The surface of the liver remnant was scattered with fluorescence showing multiple tumors, which were then locally enucleated. Twelve specimens which were fluorescently visualized were bisected with 8 specimens showing partial fluorescence visualization of the nodules within the tumor + annular visualization at the margins, and 4 patients showing annular fluorescence visualization at the tumor margins only. In 12 children, histopathological examination of the tissues at the site with circumferential imaging showed distorted, vacuolated and densely arranged hepatocytes resembling pseudo-envelope changes due to compression, but there were no tumor cells.Conclusion:The ICG fluorescence contrast technique was very effective for resection of childhood hepatoblastoma, and the ring fluorescence contrast of the tumor edge indicated the border for tumor resection. The ICG contrast plays an important role in navigating tumor resection, especially in patients with multiple tumor nodules.