Artificial Intelligence‐Supported Video Analysis as a Means to Assess the Impact of DROP‐IN Image Guidance on Robotic Surgeons: Radioguided Sentinel Lymph Node versus PSMA‐Targeted Prostate Cancer Surgery

[1]  J. Dankelman,et al.  Value-assessment of computer-assisted navigation strategies during percutaneous needle placement , 2022, International Journal of Computer Assisted Radiology and Surgery.

[2]  F. Montorsi,et al.  Prostate-specific membrane antigen Radioguided Surgery to Detect Nodal Metastases in Primary Prostate Cancer Patients Undergoing Robot-assisted Radical Prostatectomy and Extended Pelvic Lymph Node Dissection: Results of a Planned Interim Analysis of a Prospective Phase 2 Study. , 2022, European urology.

[3]  H. G. van der Poel,et al.  Quantifying the Impact of Signal-to-background Ratios on Surgical Discrimination of Fluorescent Lesions , 2022, Molecular Imaging and Biology.

[4]  H. G. van der Poel,et al.  Cohort Study of Oligorecurrent Prostate Cancer Patients: Oncological Outcomes of Patients Treated with Salvage Lymph Node Dissection via Prostate-specific Membrane Antigen-radioguided Surgery. , 2022, European urology.

[5]  A. Vrachimis,et al.  PSMA PET in Imaging Prostate Cancer , 2022, Frontiers in Oncology.

[6]  H. G. van der Poel,et al.  Oligometastases: the art of providing metastases-directed therapy in prostate cancer , 2022, Nature reviews. Urology.

[7]  S. Leong,et al.  The lymphatic system and sentinel lymph nodes: conduit for cancer metastasis , 2021, Clinical & experimental metastasis.

[8]  Sirisha Rambhatla,et al.  Road to automating robotic suturing skills assessment: Battling mislabeling of the ground truth. , 2021, Surgery.

[9]  Lejla Alic,et al.  Advancing intraoperative magnetic tracing using 3D freehand magnetic particle imaging , 2021, International Journal of Computer Assisted Radiology and Surgery.

[10]  M. V. van Oosterom,et al.  The Click-On gamma probe, a second-generation tethered robotic gamma probe that improves dexterity and surgical decision-making , 2021, European Journal of Nuclear Medicine and Molecular Imaging.

[11]  S. Cen,et al.  Surgeon Automated Performance Metrics as Predictors of Early Urinary Continence Recovery After Robotic Radical Prostatectomy—A Prospective Bi-institutional Study , 2021, European urology open science.

[12]  M. V. van Oosterom,et al.  Optical Navigation of the Drop-In γ-Probe as a Means to Strengthen the Connection Between Robot-Assisted and Radioguided Surgery , 2021, The Journal of Nuclear Medicine.

[13]  J. Vencovský,et al.  Plasma Hsp90 levels in patients with systemic sclerosis and relation to lung and skin involvement: a cross-sectional and longitudinal study , 2021, Scientific Reports.

[14]  E. Klang,et al.  Deep learning visual analysis in laparoscopic surgery: a systematic review and diagnostic test accuracy meta-analysis , 2021, Surgical Endoscopy.

[15]  H. Ahmed,et al.  The Potential of a Digital Twin in Surgery , 2020, Surgical innovation.

[16]  A. Gallagher,et al.  Objective assessment of intraoperative skills for robot‐assisted radical prostatectomy (RARP): results from the ERUS Scientific and Educational Working Groups Metrics Initiative , 2020, BJU international.

[17]  H. G. van der Poel,et al.  A DROP-IN Gamma Probe for Robot-assisted Radioguided Surgery of Lymph Nodes During Radical Prostatectomy. , 2020, European urology.

[18]  H. G. van der Poel,et al.  Clinical impact of PSMA PET/CT in primary prostate cancer compared to conventional nodal and distant staging: a retrospective single center study , 2020, BMC Cancer.

[19]  P. Kotzki,et al.  Clinical implementation of PLANET® Dose for dosimetric assessment after [177Lu]Lu-DOTA-TATE: comparison with Dosimetry Toolkit® and OLINDA/EXM® V1.0 , 2020, EJNMMI Research.

[20]  M. Eiber,et al.  [99cmTc]Tc-PSMA-I&S-SPECT/CT: experience in prostate cancer imaging in an outpatient center , 2020, EJNMMI Research.

[21]  H. G. van der Poel,et al.  Prostate-Specific Membrane Antigen PET/CT Combined with Sentinel Node Biopsy for Primary Lymph Node Staging in Prostate Cancer , 2019, The Journal of Nuclear Medicine.

[22]  Zijian Zhao,et al.  Image-based laparoscopic tool detection and tracking using convolutional neural networks: a review of the literature , 2020, Computer assisted surgery.

[23]  T. Maurer,et al.  Image-Guided Surgery: Are We Getting the Most Out of Small-Molecule Prostate-Specific-Membrane-Antigen-Targeted Tracers? , 2019, Bioconjugate chemistry.

[24]  H. G. van der Poel,et al.  Recent advances in nuclear and hybrid detection modalities for image-guided surgery , 2019, Expert review of medical devices.

[25]  M. Kattan,et al.  Guidelines for reporting of statistics for clinical research in urology , 2019, BJU international.

[26]  A. Jarc,et al.  Experts vs super‐experts: differences in automated performance metrics and clinical outcomes for robot‐assisted radical prostatectomy , 2018, BJU international.

[27]  Alexandr A. Kalinin,et al.  Albumentations: fast and flexible image augmentations , 2018, Inf..

[28]  Tobias Maurer,et al.  Robot-assisted laparoscopic surgery using DROP-IN radioguidance: first-in-human translation , 2018, European Journal of Nuclear Medicine and Molecular Imaging.

[29]  Anthony Jarc,et al.  Utilizing Machine Learning and Automated Performance Metrics to Evaluate Robot-Assisted Radical Prostatectomy Performance and Predict Outcomes. , 2018, Journal of endourology.

[30]  G. H. KleinJan,et al.  The best of both worlds: a hybrid approach for optimal pre- and intraoperative identification of sentinel lymph nodes , 2018, European Journal of Nuclear Medicine and Molecular Imaging.

[31]  Sanju Lama,et al.  Surgical Skill Assessment Using Motion Quality and Smoothness. , 2017, Journal of surgical education.

[32]  M. Schwaiger,et al.  Preclinical Evaluation and First Patient Application of 99mTc-PSMA-I&S for SPECT Imaging and Radioguided Surgery in Prostate Cancer , 2017, The Journal of Nuclear Medicine.

[33]  Nynke S. van den Berg,et al.  Fluorescence guided surgery and tracer-dose, fact or fiction? , 2016, European Journal of Nuclear Medicine and Molecular Imaging.

[34]  H. G. van der Poel,et al.  Comparing the Hybrid Fluorescent–Radioactive Tracer Indocyanine Green–99mTc-Nanocolloid with 99mTc-Nanocolloid for Sentinel Node Identification: A Validation Study Using Lymphoscintigraphy and SPECT/CT , 2012, The Journal of Nuclear Medicine.

[35]  Danail Stoyanov,et al.  Vision‐based and marker‐less surgical tool detection and tracking: a review of the literature , 2017, Medical Image Anal..