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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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Near-infrared (NIR) can be divided into NIR-Ⅰ (650-900 nm) and NIR-Ⅱ (900-1 700 nm) according to its wavelength. Compared with traditional NIR-Ⅰfluorescence imaging, NIR-Ⅱ fluorescence imaging has lower tissue absorption and photon scattering as well as higher tissue penetration and resolution, which is considered as the most promising optical imaging technique in clinical application. In addition, combined with multimodal or therapeutic integrated molecular probes, NIR-Ⅱ fluorescence imaging can accurately localize tumors and guide treatment, providing a remarkable modality for early diagnosis and treatment of tumors. In this review, research progress on NIR-Ⅱ fluorescence imaging in the diagnosis, monitoring of metastasis and treatment of tumors are mainly introduced.
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Objective:pH low insertion peptide (pHLIP)-variant 7 (var7)-fluorescein isothiocyanate (FITC) was used to explore an accurate imaging tool that targeted burn wounds to better perform burn debridement.Methods:Twelve rat models of burn wound were established and pHLIP-var7-FITC with different concentrations (0.5, 1.5 and 2.0 mg/ml) were injected from the rat tail vein for in vivo fluorescence imaging. By determining the concentration of fluorescent conjugates to the burn wound, the scope of wound injury necrosis was judged by combining pathological sections, and its residue and toxicity in important organs such as heart, liver, kidneys, and brain were detected. The Kruskal-Wallis rank sum test, Bonferroni correction method and one-way analysis of variance were used for data analysis. Results:Within 24 h, the fluorescence photons per unit area of the burn wound in the group of 0.5 mg/ml, 1.5 mg/ml and 2.0 mg/ml were 1.49(1.31, 1.65), 2.46(1.88, 2.68), 2.77 (1.94, 3.10)×10 7 p·s -1·cm -2·Sr -1, with significant differences in the overall distribution of fluorescence photons ( H=73.55, P<0.001). The fluorescence intensity was stronger in the group with higher concentration, but with no significant difference in the number of fluorescence photons between the group of 1.5 mg/ml and 2.0 mg/ml ( P=0.263, Bonferroni correction method). At 14 time points (0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 5.0, 6.0, 7.0, 8.0, 12, 24 h), there was no significant difference in the overall mean of fluorescence photons ( F=1.04, P=0.419), and the tissue with burn necrosis seen in tissue sections was highly consistent with the fluorescence imaging region. There was no obvious fluorescence residue in the heart, liver, kidney and brain sections. Conclusion:In superficial second-degree burn tissue, pHLIP-var7-FITC can accurately target and gather on the burn wound within 24 h, showing a clear boundary between burn tissue and normal tissue, which can assist clinical surgical debridement to determine the extent of injury.
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Acupuncture, a therapeutic treatment defined as the insertion of needles into the body at specific points (ie, acupoints), has growing in popularity world-wide to treat various diseases effectively, especially acute and chronic pain. In parallel, interest in the physiological mechanisms underlying acupuncture analgesia, particularly the neural mechanisms have been increasing. Over the past decades, our understanding of how the central nervous system and peripheral nervous system process signals induced by acupuncture has developed rapidly by using electrophysiological methods. However, with the development of neuroscience, electrophysiology is being challenged by calcium imaging in view field, neuron population and visualization in vivo. Owing to the outstanding spatial resolution, the novel imaging approaches provide opportunities to enrich our knowledge about the neurophysiological mechanisms of acupuncture analgesia at subcellular, cellular, and circuit levels in combination with new labeling, genetic and circuit tracing techniques. Therefore, this review will introduce the principle and the method of calcium imaging applied to acupuncture research. We will also review the current findings in pain research using calcium imaging from in vitro to in vivo experiments and discuss the potential methodological considerations in studying acupuncture analgesia.
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Calcio , Terapia por Acupuntura , Acupuntura , Analgesia por Acupuntura/métodos , Puntos de Acupuntura , TecnologíaRESUMEN
The research advancements in probes for deep-tissue imaging and adaptive optical imaging technologies are summarized,aiming to offer a new perspective for life science and interdisciplinary research.The review firstly gives an introduction on the probes emitting in the near-infrared-Ⅱ region,including fluorescence,bioluminescence,chemiluminescence,and persistent luminescence,and then elaborates direct sensing methods for rapid measurement and correction of wavefront distortions,as well as indirect sensing methods for correcting complex optical aberrations.The continuous updating of the above techniques and methods has enabled optical imaging to successfully penetrate deeper tissues with a remarkable reduction of background noise for higher image quality.
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ABSTRACT Purpose: To compare the differences between the apparent and actual chord μ. Methods: In this prospective, comparative, non-randomized, and non-interventional study, imaging examinations using Pentacam and the HD Analyzer were performed in the same room under the same scotopic conditions. The inclusion criteria were patients aged 21-71 years, able to provide informed consent, myopia up to 4D, and anterior topographic astigmatism up to 1D. Patients using contact lenses, those with previous eye diseases or surgeries, corneal opacities, corneal tomographic changes, or suspected keratoconus were excluded. Results: Altogether, 116 eyes of 58 patients were analyzed. The patients' mean age was 30.69 (±7.85) years. In the correlation analyses, Pearson's correlation coefficient of 0.647 indicates a moderate positive linear relationship between apparent and actual chord μ. The mean actual and apparent chord μ were 226.21 ± 128.53 and 278.66 ± 123.90 μm, respectively, with a mean difference of 52.45 μm (p=0.01). The analysis of mean pupillary diameter resulted in 5.76 mm using the HD Analyzer and 3.31 mm using the Pentacam. Conclusions: We found a correlation between the two measurement devices, and even though we found considerable differences, both can be used in daily practice. Given their differences, we should respect their peculiarities as well.
RESUMO Objetivo: Comparar as diferenças entre a chord aparente μ e o chord real μ. Métodos: Estudo prospectivo, comparativo, não randomizado e não intervencionista. Os exames de imagem (Pentacam e HD Analyzer) foram realizados na mesma sala e nas mesmas condições escotópicas. Os critérios de inclusão foram idade de 21 a 71 anos; compreensão do termo de consentimento; miopia até 4D e astigmatismo topográfico anterior até 1D. Os critérios de exclusão foram usuários de lentes de contato; pacientes com doenças oculares prévias ou cirurgias; opacidades da córnea; a presença de alterações tomográficas da córnea ou suspeita de ceratocone. Resultados: Em nosso estudo foram analisados 116 olhos de 58 pacientes. A média de idade foi de 30,69 anos (± 7,85). Análises de correlação foram desenvolvidas e o coeficiente de correlação de Pearson (0,647) indica uma relação linear positiva moderada entre as variáveis. A média do chord μ real foi 226,21 ± 128,53 μm e a média do chord μ média foi 278,66 ± 123,90 μm, com diferença média de 52,45 μm (p=0,01). A análise do diâmetro pupilar médio apresentou: 5,76mm no HD Analyzer e 3,31mm no Pentacam. Conclusões: Entendemos a existência de uma diferença significativa entre os métodos e assim a medida de ambos os dispositivos com base em princípios diferentes devemos respeitar suas peculiaridades. Como encontramos correlação entre as duas medidas, acreditamos que ambas podem ser utilizadas na prática diária.
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Photoacoustic imaging combines the advantages of conventional optical imaging and ultrasound imaging with high spatial resolution and imaging contrast that can capture molecular information from macroscopic, mesoscopic and microscopic levels in real time and provide highly specific tissue images. Photoacoustic imaging has been successfully applied to the study of clinical diagnosis of breast cancer. It has significant advantages in early detection of breast cancer, benign and malignant diagnosis, identifying different pathological types and molecular subtypes of diagnosis, monitoring the effect of anti-cancer treatment and assessing tumor margins to guide surgery. Based on the published data of clinical researches, this review summarizes the advantages of photoacoustic imaging over conventional breast imaging modalities in breast cancer detection and the progress of clinical studies.
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Objective:To prepare a fluorescent probe Cetuximab-IRDye800CW targeting epidermal growth factor receptor (EGFR) and investigate its application value in surgical navigation of glioblastoma (GBM).Methods:The fluorescence properties of Cetuximab-IRDye800CW were determined by fluorescence spectrophotometer. The specificity of Cetuximab-IRDye800CW bound to GBM cells was verified by Western blot. The competitive binding method of enzyme-linked immunosorbent assay (ELISA) was used to prove whether the probe could achieve tumor targeting by binding to EGFR. Subcutaneous models of 6 nude mice of GBM were divided into experimental group ( n=3; injected with Cetuximab-IRDye800CW) and control group ( n=3; injected with IRDye800CW), and images were obtained at 5 min, 24 h, 48 h and 72 h after injection. Differences of mean fluorescence intensity (MFI) and tumor to background ratio (TBR) between experimental group and control group were compared. In situ models of GBM nude mice were established ( n=6), and MRI and intraoperative navigation were conducted, which were compared with pathological distribution. Independent-sample t test was used to analyze the data. Results:The maximum emission wavelength of Cetuximab-IRDye800CW was 820 nm, which could be received by near infrared fluorescence imaging equipment. Western blot showed that Cetuximab-IRDye800CW was only bound to GBM cells. The competitive binding of ELISA showed that Cetuximab-IRdye800CW could achieve tumor targeting by binding with EGFR. At 5 min, 24 h, 48 h and 72 h after injection of fluorescent materials, the MFI values of experimental group were 109.00±3.81, 73.36±9.93, 55.24±8.82, 37.71±6.11, which were higher than those of control group (91.32±4.17, 42.91±5.39, 25.08±6.05, 8.33±1.00; t values: 4.36-9.40, P values: 0.011-0.049). The TBR of experimental group was higher than that of control group at 24 h and 48 h after injection (24 h: 2.40±0.28 vs 1.57±0.07, t=4.94, P=0.039; 48 h: 2.07±0.12 vs 1.22±0.08, t=9.85, P=0.010). GBM in situ model was successfully constructed and verified by MRI, and the tumor was visualized under the fluorescence device navigation. Pathological distribution of the tumor with HE staining was consistent with fluorescence imaging. Conclusion:Cetuximab-IRDye800CW has fluorescence imaging capability and can identify tumor boundaries in intraoperative navigation of GBM, which has potential clinical application value.
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Objective:To explore the role and value of indocyanine green (ICG) fluorescence imaging in the surgery of bone and soft tissue tumors.Methods:A total of 38 patients with bone and soft tissue tumors, including 17 males and 21 females, aged 36±21 years (range 5-75 years), who underwent resection with application of ICG-based NIR imaging were retrospectively analyzed. ICG was intravenously administrated at a dose of 2 mg/kg on the day before surgery. Intraoperative NIR imaging was performed to confirm the tumor fluorescence and to detect residual tumor after tumor resection. The NIR imaging was post hoc analyzed to explore the influence factor of tumor stain rate and SBR value.Results:Tumor staining with ICG was successful in 34 of the 38 patients, with an overall staining rate of 90%. The ICG tumor stain rate was not influenced by different pathology types, malignant or benign pathology, the reception of neoadjuvant chemotherapies or not, and the length of time between drug administration and surgery ( P>0.05). The median SBR of 34 patients with successful tumor staining was 2.9 (2.3, 5.7). Different pathological types, malignant or benign pathology, whether to receive neoadjuvant chemotherapy, preoperative ICG administration time, preoperative dose of denosumab administration in giant cell tumor of bone patients and tumor response to neoadjuvant chemotherapy had no significant effects on SBR ( P>0.05). After tumor resection, a total of 57 pieces of tissue with residual fluorescence signals were detected and resected under the fluorescence guidance, 30 of which were pathologically confirmed to contain residual tumor lesions, with an overall accuracy of 53%. The accuracy of intralesional resection was significantly higher than that of en bloc resection (71% vs. 16%, χ 2=15.51, P=0.000). Conclusion:A high percentage of bone and soft tissue tumors can be stained with ICG. The tumor stain of ICG was stable and not easily influenced by external factors. This technique was useful to detect residual tumors, especially after piecemeal resection.
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The mammalian brain is a highly complex network that consists of millions to billions of densely-interconnected neurons. Precise dissection of neural circuits at the mesoscopic level can provide important structural information for understanding the brain. Optical approaches can achieve submicron lateral resolution and achieve "optical sectioning" by a variety of means, which has the natural advantage of allowing the observation of neural circuits at the mesoscopic level. Automated whole-brain optical imaging methods based on tissue clearing or histological sectioning surpass the limitation of optical imaging depth in biological tissues and can provide delicate structural information in a large volume of tissues. Combined with various fluorescent labeling techniques, whole-brain optical imaging methods have shown great potential in the brain-wide quantitative profiling of cells, circuits, and blood vessels. In this review, we summarize the principles and implementations of various whole-brain optical imaging methods and provide some concepts regarding their future development.
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Animales , Encéfalo/fisiología , Mapeo Encefálico/métodos , Neuronas/fisiología , Imagen Óptica/métodos , MamíferosRESUMEN
Preservation of erectile function is an important goal of radical prostatectomy. The neurovascular bundles (NVBs), which is closely related to erectile function, are quite susceptible to intraoperative injury because it is difficult to be identified and localized during surgical process. As a result, long-term postoperative potency rate is not satisfying. Techniques of monitoring pro-erectile neurovascular bundles, such as electrical stimulation, ultrasound and MRI have significant limitations in the context of real-time identification during operation. Advances of fluorescence imaging in the surgical navigation field has made it possible to achieve real-time visualization of NVBs in vivo. At present, there have already been many fluorescent agents worldwide targeting different structures within nerves, such as the axon, myelin, perineurium and vaso nervorum, and they varied in their affinity to nerves and imaging efficacies. Some lipophilic molecules, oxazine dyes and peptide-dye conjugates have successfully visualized in periprostatic autonomic nerves in rodents or in human prostate specimen. Indocyanine Green (ICG), a non-specific neurovascular dye, has already been used in clinical setting to guide during nerve-sparing radical prostatectomy. This review focused on fluorescent nerve imaging technique and its application in research on real-time imaging of NVBs in radical prostatectomy.
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ABSTRACT We report a case of a young Caucasian female presenting with sudden decrease of vision in the left eye, metamorphopsia, and nasal scotoma. Past medical history revealed a diagnosis of myasthenia gravis, which was currently treated with azathioprine, pyridostigmine, and prednisone. Ophthalmological examination showed fundus with clear vitreous and yellow-white lesions that were isolated and perimacular in the right eye, multiple and confluent in the macula, and punctate in periphery in the left eye. Laboratory workup ruled out the presence of infectious and inflammatory diseases. Fundus autofluorescence disclosed hypoautoflurescence with hyperfluorescent margins corresponding to the lesions observed in both eyes and the angiogram revealed hyperfluorescence since early phases without late leakage. Spectral-domain optical coherence tomography showed areas of intermittent retinal pigment epithelium elevations and disruption of the ellipsoid zone. She was diagnosed with punctate inner choroidopathy and then treated with an increased dose of daily prednisone, which resulted in progressive improvement of her visual acuity and anatomical status.(AU)
RESUMO Relato de caso de mulher jovem, caucasiana, com súbita diminuição de acuidade visual de olho esquerdo, metamorfopsia e escotoma nasal. Apresentava diagnóstico de Miastenia gravis, em tratamento com Azatioprina, Piridostigmina e Prednisona. Fundo de olho demonstrava vítreo límpido e lesões amarelo-esbranquiçadas, perimaculares e isoladas em olho direito, múltiplas e confluentes em mácula e pontilhadas em periferia no olho esquerdo. Exames laboratoriais descartaram doenças infecciosas e inflamatórias. Auto-fluorescência revelou lesões hipoautofluorescentes com margens hiperfluorescentes correspondentes às observadas em ambos os olhos, enquanto angiofluoresceinografia mostrou hiperfluorescência desde as fases iniciais sem vazamento tardio. Tomografia de coerência óptica de domínio espectral revelou áreas de elevações intermitentes do epitélio pigmentar da retina e interrupção da zona elipsóide correspondente. Definiu-se como diagnóstico a coroidopatia interna ponteada, sendo instituído aumento na dose diária de Prednisona, com melhoria progressiva da acuidade visual e do aspecto de fundo de olho da paciente.(AU)
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Humanos , Femenino , Adulto , Agudeza Visual , Coroiditis/fisiopatología , Angiografía con Fluoresceína/instrumentación , Tomografía de Coherencia Óptica/instrumentación , Imagen Multimodal/instrumentación , Imagen Óptica/instrumentaciónRESUMEN
Objective:To investigate the feasibility, effectiveness and safety of indocyanine green (ICG) navigation in the surgical resection of abdominal wall endometriosis (AWE).Methods:Seven women undergoing surgery for AWE in First Affiliated Hospital of Sun Yat-sen University (from July 1, 2021 to October 1, 2021) were collected. After exposure of the focus, ICG were used intravenously (0.25 mg/kg) as fluorescent dye for the intraoperative evaluation of AWE vascularization. Resection of the AWE was guided by direct visualization of the focus under standard laparoscopy with a near-infrared (NIR) camera head. Surgical margin around the AWE (3, 6, 9 and 12 point) and the margin under the focus were obtained for postoperative pathological examination of endometriosis. Time from injection to fluorescence visualization, the proportion of fluorescence visualization, time of fully resection of AWE, side effects related to the use of ICG, perioperative complications as well as the pathological result of the surgical margins were recorded.Results:ICG fluorescence of the AWE were seen in 5 patients (5/7). The mean time from injection to fluorescence visualization was (46.7±9.8) s. The mean time of fully resection of AWE was (16.4±7.0) minutes. There were no side effects related to the use of ICG. The rate of class-A wound healing was 7/7. All of the surgical margins were confirmed endometriosis-negative by postoperative pathological examination.Conclusion:ICG fluorescence visualization could conduct accurate resection of AWE, which is clinically safe and effective.
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@#Objective To prepare platelet-derived growth factor receptor β (PDGFRβ)-targeted near-infrared molecular probe and evaluate its potential in optical molecular imaging of lung cancer. Methods PDGFRβ-specific affibody Z-tri was recombinantly expressed in Escherichia coli (E. coli) and purified using affinity chromatography. In vitro cell-binding of Z-tri was analyzed by flow cytometry. Cellular distribution of Z-tri in tumor grafts was determined by protein-tracing. The molecular probe CF750-Z-tri was prepared by conjugating near-infrared fluorescent dye CF750 to Z-tri. The optical images of xenografts of lung cancer were obtained by using CF750-Z-tri combined with optical imaging system. Results PDGFRβ-specific affibody Z-tri was highly expressed in E. coli and purified to homogeneity. Z-tri could bind PDGFRβ-positive cells but not PDGFRβ-negative cells cultured in vitro. In the tumor xenografts of human lung cancer, intravenously injected Z-tri was predominantly distributed on cells overexpressing PDGFRβ. The near infrared fluorescent dye CF750 was efficiently conjugated to Z-tri. Optical images with high contrast of lung cancer xenografts were produced by using the near-infrared fluorescent probe CF750-Z-tri combined with optical imaging system. Conclusion The near-infrared fluorescent probe CF750-Z-tri can be used for optical imaging of human lung cancer, which takes great potential in optical imaging-guided surgery of lung cancer.
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The difficulty of neural localization during operation often leads to the increased risk of nerve injury,which results in neurological dysfunction,so how to accurately locate the nerves in surgeries,such as operations for patients with recurrent parotid tumors and prostate surgery,has become one of the key factors for the success of the operation.There are many methods to locate nerves in real time during operation,among which fluorescence imaging has attracted more and more attention due to its unique advantages of high sensitivity,easy to use,low cost and no radiation.In this article,the related research progresses of fluorescence imaging in neural localization are reviewed.
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The difficulty of neural localization during operation often leads to the increased risk of nerve injury, which results in neurological dysfunction, so how to accurately locate the nerves in surgeries, such as operations for patients with recurrent parotid tumors and prostate surgery, has become one of the key factors for the success of the operation. There are many methods to locate nerves in real time during operation, among which fluorescence imaging has attracted more and more attention due to its unique advantages of high sensitivity, easy to use, low cost and no radiation. In this article, the related research progresses of fluorescence imaging in neural localization are reviewed.
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OBJECTIVE@#To improve the methods to synthesize and purify of optical-magnetic bimodal molecular probe of Gd-[4, 7-Bis-carboxymethyl-10-(2-fluorescein thioureaethyl)-1, 4, 7, 10-tetraaza-cyclododec-1-yl]-acetic acid complexes.@*METHODS@#Target compound (7), optical-magnetic bimodal molecular molecular probe, was synthesized by the use of 1, 4, 7, 10-tetraazacyclododecane (1) as starting material via substitution reaction, hydrolysis reaction, coupling reaction and complexation reaction with metal.@*RESULTS@#The synthetic route of Gd-[4, 7-Bis-carboxymethyl-10-(2-fluoresceinthioureaethyl)-1, 4, 7, 10-tetraaza-cyclododec-1-yl]-acetic acid complexes was improved. The optical-magnetic bimodal molecular probes were synthesized by substitution reaction, hydrolysis reaction, coupling reaction and complex reaction with metal respectively. For the improved route, the total yield could reach 34.6% which was higher than the original route (18.0%). The structures of those compounds were identified by 1H nuclear magnetic resonance, 13C nuclear magnetic resonance, and mass spectrometry. The improved route could avoid the uncontrollable disadvantage of the substitution reaction, this process could reduce the formation of impurities and made the purification process easier, and in the aspect of purification and separation, the preparative high-performance liquid chromatography with less sample loading and high cost was improved to a column chromatography with many sample loads and being easy to operate. Therefore, the use of column chromatography could be more conducive to mass production of the optical-magnetic bimodal molecular molecular probe.@*CONCLUSION@#The improved synthetic route improves the controllability of the reaction conditions and makes it easier to purify and separate the compounds. At the same time, the improved synthetic route can increase the total yield significantly. The optical-magnetic bimodal molecular probe can combine the living magnetic resonance imaging with the in vitro optical imaging to realize the dual synchronous detection of magneto-optics, so that the detection results of the living magnetic resonance imaging and the in vitro optical imaging are mutually verified. In other words, this synthetic optical-magnetic bimodal molecular probe will make the experimental results more accurate and reliable. In subsequent biological experimental studies, the optical-magnetic bimodal molecular probe can be applied to related research of brain structure and function, and the probe can be used for the brain-related diseases researches, such as brain tumors. after intravenous administration, and thus the optical-magnetic bimodal molecular probe can play an important role in medical treatment of brain tumors and cerebrovascular diseases.
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Ácido Acético , Encéfalo , Imagen por Resonancia Magnética , Espectroscopía de Resonancia Magnética , Sondas MolecularesRESUMEN
Tissue optical clearing technique is a novel histological technique that uses a series of physical and chemical methods to process tissue blocks or organs to achieve highly transparent and complete emerging technologies. It can further observe and analyze the internal structure of tissues or organs after combining optical imaging and fluorescent labeling technique. This article will briefly explain the tissue optical clearing technique and introduce the application and prospects of tissue optical clearing technique in brain disorders.
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ABSTRACT A 26-year-old woman presented at 28 weeks gestation with hypertensive choroidopathy associated with pre-eclampsia. Fundus photography, fundus autofluorescence, spectral-domain optical coherence tomography (SD-OCT), fluorescein angiography, and indocyanine green angiography were performed in both eyes in the immediate postoperative period. SD-OCT images were obtained before delivery and during a 3-month follow-up. Fundus autofluorescence exhibited patchy hyper- and hypoautofluorescent lesions; fluorescein and indocyanine green angiography revealed areas of choroidal ischemia; and SD-OCT showed disorganization of the outer retinal layers and disruption of the ellipsoid zone. After her blood pressure was stabilized, progressive recovery of the outer retinal layer was monitored on SD-OCT.
RESUMO Uma mulher de 26 anos de idade, com 28 semanas de gestação apresentando coroidopatia hipertensiva associada à pré-eclâmpsia. Retinografia, autofluorescência, tomografia de coerência óptica de domínio espectral, angiofluoresceínografia e angiografia com indocianina verde foram realizadas em ambos os olhos no período pós-operatório imediato do parto. Imagens da tomografia de coerência óptica de domínio espectral foram obtidas antes do parto e durante o seguimento de 3 meses. A autofluorescência apresentou lesões heterogêneas hiper e hipoautofluorescentes, a angiofluoresceínografia e angiografia com indocianina verde revelaram áreas de isquemia de coroide, e a tomografia de coerência óptica de domínio espectral apresentou desorganização das camadas externas da retina e interrupção da zona elipsóide. Após a estabilização da pressão sanguínea, a recuperação progressiva da camada externa da retina foi monitorada pela tomografia de coerência óptica de domínio espectral.
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Humanos , Femenino , Embarazo , Adulto , Preeclampsia , Enfermedades de la Coroides/etiología , Enfermedades de la Coroides/diagnóstico por imagen , Hipertensión/etiología , Hipertensión/diagnóstico por imagen , Remisión Espontánea , Angiografía con Fluoresceína/métodos , Tomografía de Coherencia Óptica/métodos , Epitelio Pigmentado de la Retina/patología , Epitelio Pigmentado de la Retina/diagnóstico por imagenRESUMEN
ABSTRACT Purpose: To evaluate the usefulness of fundus autofluorescence imaging of diabetic patients without retinopathy to investigate early retinal damage. Methods: Fundus autofluorescence images of patients with type 2 diabetes mellitus without retinopathy (diabetic group) and age-sex matched healthy patients (control group) were recorded with a CX-1 digital mydriatic retinal camera after detailed ophthalmologic examinations. MATLAB 2013a software was used to measure the average pixel intensity and average curve width of the macula and fovea. Results: Fifty-six eyes of 28 patients, as the diabetic group, and 54 eyes of 27 healthy patients, as the control group, were included in this study. The mean aggregation index was 168.32 ± 37.18 grayscale units (gsu) in the diabetic group and 152.27 ± 30.39 gsu in the control group (p=0.014). The mean average pixel intensity value of the fovea was 150.87 ± 35.83 gsu the in diabetic group and as 141.51 ± 31.10 gsu in the control group (p=0.060). The average curve width value was statistically higher in the diabetic group than in the control group (71.7 ± 9.2 vs. 59.4 ± 8.6 gsu, respectively, p=0.03). Conclusion: Fundus autofluorescence imaging analysis revealed that diabetic patients without retinopathy have significant fluorescence alterations. Therefore, a noninvasive imaging technique, such as fundus autofluorescence, may be valuable for evaluation of the retina of diabetic patients without retinopathy.
RESUMO Objetivo: Avaliar a utilidade da autofluorescência do fundo de olho de pacientes diabéticos sem retinopatia para investigar lesões precoces na retina. Métodos: Imagens de autofluorescência do fundo de olho de pacientes com diabetes mellitus do tipo 2 sem retinopatia (grupo diabético) e indivíduos saudáveis pareados por idade e sexo (grupo controle) foram registrados com uma câmera retiniana digital midriática CX-1 após exames oftalmológicos detalhados. O software MATLAB 2013a foi usado para medir a intensidade média do pixel e a largura média da curva da mácula e fóvea. Resultados: Cinquenta e seis olhos de 28 pacientes, como o grupo diabético, e 54 olhos de 27 indivíduos saudáveis, como grupo controle, foram incluídos neste estudo. O índice médio de agregação foi de 168,32 ± 37,18 unidades de escala de cinza (gsu) no grupo diabético e em 152,27 ± 30,39 gsu no grupo controle (p = 0,014). O valor médio da intensidade de pixel na fóvea foi de 150,87 ± 35,83 gsu no grupo diabético e de 141,51 ± 31,10 gsu no grupo controle (p=0,060). O valor médio da largura da curva foi estatisticamente maior no grupo diabético do que no grupo controle (71,7 ± 9,2 vs. 59,4 ± 8,6 gsu, respectivamente; p = 0,03). Conclusão: A análise por imagens de autofluorescência de fundo de olho revelou que pacientes diabéticos sem retinopatia apresentam alterações significativas de fluorescência. Portanto, uma técnica de imagem não invasiva, como a autofluorescência de fundo de olho, pode ser valiosa para a avaliação da retina de pacientes diabéticos sem retinopatia.