Near-infrared intraoperative imaging of pelvic autonomic nerves: a pilot study

Evolution in optical molecular imaging techniques guided nerve imaging from 2009 to 2023: a bibliometric and visualization analysis

Background

Recent years, the use of optical molecular imaging (OMI) techniques guided nerve imaging has made significant progress. However, a comprehensive bibliometric analysis in this field is currently lacking. In this study, we aim to shed light on the current status, identify the emerging hot topics, and provide valuable insights for researchers within this field.

Methods

In this study, we collected 414 research via the Web of Science Core Collection (WoSCC) from 2009 to 2023. CiteSpace, VOSviewer and R package "bibliometrix" were used for analysis of countries, institutions, journals, etc., to evaluate the trends.

Results

The amounts of publications in relation to OMI guided nerve imaging has been increasing. United States and China contributed to over 60% of the publications. The Shanghai Jiao Tong University contributed the highest number of publications. Investigative Ophthalmology and Visual Science is considered the most prestigious and prolific journal in the field. It is also widely regarded as the most cited journal. Among the top 10 authors in terms of output, Hehir CAT has the highest number of citations. The "neurosciences neurology," "science technology other topics," and "ophthalmology" are representative research areas. The main cluster of keywords in this field includes "axonal regeneration," "mouse," and "optical coherence tomography."

Conclusion

This bibliometric investigation offers a comprehensive portrayal of the structure of knowledge and the progression patterns, presents an all-encompassing synthesis of findings, discerns and illustrates the forefront within OMI guided nerve imaging for the first time. It will provide a valuable reference for relevant scholars.

Precise and safe pulmonary segmentectomy enabled by visualizing cancer margins with dual-channel near-infrared fluorescence

BACKGROUND

Segmentectomy is a type of limited resection surgery indicated for patients with very early-stage lung cancer or compromised function because it can improve quality of life with minimal removal of normal tissue. For segmentectomy, an accurate detection of the tumor with simultaneous identification of the lung intersegment plane is critical. However, it is not easy to identify both during surgery. Here, the authors report dual-channel image-guided lung cancer surgery using renally clearable and physiochemically stable targeted fluorophores to visualize the tumor and intersegmental plane distinctly with different colors; cRGD-ZW800 (800 nm channel) targets tumors specifically, and ZW700 (700 nm channel) simultaneously helps discriminate segmental planes.

METHODS

The near-infrared (NIR) fluorophores with 700 nm and with 800 nm channels were developed and evaluated the feasibility of dual-channel fluorescence imaging of lung tumors and intersegmental lines simultaneously in mouse, rabbit, and canine animal models. Expression levels of integrin αvβ3, which is targeted by cRGD-ZW800-PEG, were retrospectively studied in the lung tissue of 61 patients who underwent lung cancer surgery.

RESULTS

cRGD-ZW800-PEG has clinically useful optical properties and outperforms the FDA-approved NIR fluorophore indocyanine green and serum unstable cRGD-ZW800-1 in multiple animal models of lung cancer. Combined with the blood-pooling agent ZW700-1C, cRGD-ZW800-PEG permits dual-channel NIR fluorescence imaging for intraoperative identification of lung segment lines and tumor margins with different colors simultaneously and accurately.

CONCLUSION

This dual-channel image-guided surgery enables complete tumor resection with adequate negative margins that can reduce the recurrence rate and increase the survival rate of lung cancer patients.

Intraoperative Fluorescent Image Guidance for Nerve-Sparing Prostatectomy: A Review of Historical Context and Current Research

Fluorescent probes in the near-infrared (NIR) range have immense potential to improve observation of positive margins, lymph nodes, and nerves in prostatectomy. Development of fluorescent dyes and mechanisms of cellular uptake paved the way for the current emerging technologies. However, intracellular transport of fluorophores proved to be logistically challenging with respect to intraoperative deployment. Peptide-based probes with high specificity for nerves enabled broader and more rapid labeling. Key features of the ideal probe include selectivity, minimal background noise, safety, and low cost. Human neuropeptide 401 (HNP401) and oxazine-based probes perform well in these categories. As for tumor-specific labeling, prostate specific membrane antigen is relatively selective for the prostate and can be conjugated to a fluorophore. NIR spectrum emission is an ideal range for clinical imaging use, as fluorescence occurs outside the field of visible light, and tissue optical properties diverge significantly at the visible-NIR transition. Indocyanine, carbocyanine, and fluorescein derivatives are common fluorophore conjugates for the probes. Finally, to harness the power of fluorescence intraoperatively, the surgeon must look through a specialized lens. Multiphoton microscopy, optical coherence tomography, and confocal laser endomicroscopy have emerged as frontrunners in this arena. As with any evolving technology, ongoing research is expanding the applications of fluorescent intraoperative imaging in prostate surgery. Innovations in camera technology, dye selection, and image processing are refining the technique's capabilities. A core challenge of these technologies translating into the operating room relates to size and the ability to view objects at vastly different magnifications. Dual modality zoom settings are promising solutions. Furthermore, interdisciplinary collaboration between surgeons, imaging specialists, and researchers continues to drive advancements. In conclusion, fluorescent intraoperative imaging has the potential to usher in a new era of precision and safety in prostate surgery.

Indocyanine green dye and its application in gastrointestinal surgery: The future is bright green

Indocyanine green (ICG) is a water-soluble fluorescent dye that is minimally toxic and widely used in gastrointestinal surgery. ICG facilitates anatomical identification of structures (e.g., ureters), assessment of lymph nodes, biliary mapping, organ perfusion and anastomosis assessment, and aids in determining the adequacy of oncological margins. In addition, ICG can be conjugated to artificially created antibodies for tumour markers, such as carcinoembryonic antigen for colorectal, breast, lung, and gastric cancer, prostate-specific antigen for prostate cancer, and cancer antigen 125 for ovarian cancer. Although ICG has shown promising results, the optimization of patient factors, dye factors, equipment, and the method of assessing fluorescence intensity could further enhance its utility. This review summarizes the clinical application of ICG in gastrointestinal surgery and discusses the emergence of novel dyes such as ZW-800 and VM678 that have demonstrated appropriate pharmacokinetic properties and improved target-to-background ratios in animal studies. With the emergence of robotic technology and the increasing reporting of ICG utility, a comprehensive review of clinical application of ICG in gastrointestinal surgery is timely and this review serves that aim.

Advances in optical molecular imaging for neural visualization

Iatrogenic nerve injury is a significant complication in surgery, which can negatively impact patients' quality of life. Currently, the main clinical neuroimaging methods, such as computed tomography, magnetic resonance imaging, and high-resolution ultrasonography, do not offer precise real-time positioning images for doctors during surgery. The clinical application of optical molecular imaging technology has led to the emergence of new concepts such as optical molecular imaging surgery, targeted surgery, and molecular-guided surgery. These advancements have made it possible to directly visualize surgical target areas, thereby providing a novel method for real-time identification of nerves during surgery planning. Unlike traditional white light imaging, optical molecular imaging technology enables precise positioning and identifies the cation of intraoperative nerves through the presentation of color images. Although a large number of experiments and data support its development, there are few reports on its actual clinical application. This paper summarizes the research results of optical molecular imaging technology and its ability to realize neural visualization. Additionally, it discusses the challenges neural visualization recognition faces and future development opportunities.

Clinical advancement of precision theranostics in prostate cancer

Theranostic approaches with positron emission tomography/computed tomography (PET/CT) or PET/magnetic resonance imaging (PET/MRI) molecular imaging probes are being implemented clinically in prostate cancer (PCa) diagnosis and imaging-guided precision surgery. This review article provides a comprehensive summary of the rapidly expanding list of molecular imaging probes in this field, including their applications in early diagnosis of primary prostate lesions; detection of lymph node, skeletal and visceral metastases in biochemical relapsed patients; and intraoperative guidance for tumor margin detection and nerve preservation. Although each imaging probe shows preferred efficacy in some applications and limitations in others, the exploration and research efforts in this field will eventually lead to improved precision theranostics of PCa.

Indocyanine Green Fluorescence Guided Surgery in Colorectal Surgery

BACKGROUND

Indocyanine green (ICG) imaging has been increasingly used for intraoperative guidance in colorectal surgery over the past decade. The aim of this study was to review and organize, according to different type of use, all available literature on ICG guided colorectal surgery and highlight areas in need of further research and discuss future perspectives.

METHODS

PubMed, Scopus, and Google Scholar databases were searched systematically through November 2022 for all available studies on fluorescence-guided surgery in colorectal surgery.

RESULTS

Available studies described ICG use in colorectal surgery for perfusion assessment, ureteral and urethral assessment, lymphatic mapping, and hepatic and peritoneal metastases assessment. Although the level of evidence is low, results are promising, especially in the role of ICG in reducing anastomotic leaks.

CONCLUSIONS

ICG imaging is a safe and relatively cheap imaging modality in colorectal surgery, especially for perfusion assessment. Work is underway regarding its use in lymphatic mapping, ureter identification, and the assessment of intraperitoneal metastatic disease.

Propensity score matching between conventional laparoscopic cholecystectomy and indocyanine green cholangiography-guided laparoscopic cholecystectomy: observational study

The injury of common bile duct (CBD) is one of the most common complications during laparoscopic cholecystectomy. Consequences of CBD injury are grave since CBD is the only pathway of bile from biliary tracts to duodenum. When CBD injury occurs, extra surgical procedures repairing CBD or reconstructing biliary tracts have to be performed on patients, which increase expenses of patients and physical trauma. A total of 238 patients undergoing laparoscopic cholecystectomy (LC) in Zhuhai People's Hospital from July 2020 to April 2021 were enrolled in this observational study, including 126 patients undergoing conventional LC and 112 patients undergoing ICG angiography-guided LC. Method of propensity score matching was used to balance the preoperative data of patients in the two groups. For both groups, the "Critical View of Safety" (CVS) was introduced. For the ICG group, the CBD, cystic duct (CD), and gallbladder were identified using near-infrared (NIR) ray. Intraoperative blood loss, operation time, postoperative hospitalization time, and the incidence rate of intraoperative complications were compared between the two groups. ICG angiography in LC shows safe and effective outcomes. The intraoperative blood loss, operation duration, postoperative hospitalization time, and complication incidence rate of the ICG group are significantly lower than those of the conventional group. ICG angiography in LC was a useful and effective method to identify the CBD and prevent intraoperative complications. Registration at Chinese Clinical Trial Registry, No: ChiCTR1900024594. Registration time: 18/07/2019.