Your search keyword '"van der Vorst, J. R."' showing total 6 results

1. Quantitative perfusion assessment using indocyanine green during surgery — current applications and recommendations for future use

Author

Van Den Hoven, P., Osterkamp, J., Nerup, N., Svendsen, M. B. S., Vahrmeijer, Alexander, Van Der Vorst, J. R., and Achiam, M. P.

Published

2023

2. Near-infrared fluorescence angiography with indocyanine green for perfusion assessment of DIEP and msTRAM flaps:A Dutch multicenter randomized controlled trial

Author

Tange, F. P., Verduijn, P. S., Sibinga Mulder, B. G., van Capelle, L., Koning, S., Driessen, C., Mureau, M. A.M., Vahrmeijer, A. L., van der Vorst, J. R., Tange, F. P., Verduijn, P. S., Sibinga Mulder, B. G., van Capelle, L., Koning, S., Driessen, C., Mureau, M. A.M., Vahrmeijer, A. L., and van der Vorst, J. R.

Abstract

Background: A common complication after a DIEP flap reconstruction is the occurrence of fat necrosis due to inadequate flap perfusion zones. Intraoperative identification of ischemic zones in the DIEP flap could be optimized using indocyanine green near-infrared fluorescence angiography (ICG-NIR-FA). This randomized controlled trial aims to determine whether intraoperative ICG-NIR-FA for the assessment of DIEP flap perfusion decreases the occurrence of fat necrosis. Design/methods: This article describes the protocol of a Dutch multicenter randomized controlled clinical trial: the FAFI-trial. Females who are electively scheduled for autologous breast reconstruction using DIEP or muscle-sparing transverse rectus abdominis muscle (msTRAM) flaps are included. A total of 280 patients will be included in a 1:1 ratio between both study arms. In the intervention arm, the intraoperative assessment of flap perfusion will be based on both regular clinical parameters and ICG-NIR-FA. The control arm consists of flap perfusion evaluation only through the regular clinical parameters, while ICG-NIR-FA images are obtained during surgery for which the surgeon is blinded. The main study endpoint is the difference in percentage of clinically relevant fat necrosis between both study arms, evaluated two weeks and three months after reconstruction. Conclusion: The FAFI-trial, a Dutch multicenter randomized controlled clinical trial, aims to investigate the clinical added value of intraoperative use of standardized ICG-NIR-FA for assessment of DIEP/msTRAM flap perfusion in the reduction of fat necrosis. Clinical trial registration number: NCT05507710; NL 68623.058.18.

Published

2023

3. Treatment Outcome Trends for Non-Ruptured Abdominal Aortic Aneurysms: A Nationwide Prospective Cohort Study

Author

Alberga, Anna J., Karthaus, Eleonora G., Wilschut, Janneke A., de Bruin, Jorg L., Akkersdijk, George P., Geelkerken, Robert H., Hamming, Jaap F., Wever, Jan J., Verhagen, Hence J. M., van den Akker, P. J., Akkersdijk, G. P., Akkersdijk, W. L., van Andringa de Kempenaer, M. G., Arts, C. H. P., Avontuur, A. M., Bakker, O. J., Balm, R., Barendregt, W. B., Bekken, J. A., Bender, M. H. M., Bendermacher, B. L. W., van den Berg, M., Beuk, R. J., Blankensteijn, J. D., Bode, A. S., Bodegom, M. E., van der Bogt, K. E. A., Boll, A. P. M., Booster, M. H., Borger van der Burg, B. L. S., de Borst, G. J., Bos-van Rossum, W. T. G. J., Bosma, J., Botman, J. M. J., Bouwman, L. H., Brehm, V., de Bruijn, M. T., de Bruin, J. L., Brummel, P., van Brussel, J. P., Buijk, S. E., Buimer, M. G., Buscher, H. C. J. L., Cancrinus, E., Castenmiller, P. H., Cazander, G., Cuypers, P. H. W. M., Daemen, J. H. C., Dawson, I., Dierikx, J. E., Dijkstra, M. L., Diks, J., Dinkelman, M. K., Dirven, M., Dolmans, D. E. J. G. J., van Dortmont, L. M. C., Drouven, J. W., van der Eb, M. M., Eefting, D., van Eijck, G. J. W. M., Elshof, J. W. M., Elsman, B. H. P., van der Elst, A., van Engeland, M. I. A., van Eps, G. S., Faber, M. J., de Fijter, W. M., Fioole, B., Fritschy, W. M., Jin, P. H. P. F. K., Geelkerken, R. H., van Gent, W. B., Glade, G. J., Govaert, B., Groenendijk, R. P. R., de Groot, H. G. W., van den Haak, R. F. F., de Haan, E. F. A., Hajer, G. F., Hamming, J. F., van Hattum, E. S., Hazenberg, C. E. V. B., Hedeman Joosten, P. P. H. A., Helleman, J. N., van der Hem, L. G., Hendriks, J. M., van Herwaarden, J. A., Heyligers, J. M. M., Hinnen, J. W., Hissink, R. J., Ho, G. H., den Hoed, P. T., Hoedt, M. T. C., van Hoek, F., Hoencamp, R., Hoffmann, W. H., Hoksbergen, A. W. J., Hollander, E. J. F., Huisman, L. C., Hulsebos, R. G., Huntjens, K. M. B., Idu, M. M., Jacobs, M. J. H. M., van der Jagt, M. F. P., Jansbeken, J. R. H., Janssen, R. J. L., Jiang, H. H. L., de Jong, S. C., Jongbloed-Winkel, T. A., Jongkind, V., Kapma, M. R., Keller, B. P. J. A., Jahrome, A. K., Kievit, J. K., Klemm, P. L., Klinkert, P., Koedam, N. A., Koelemaij, M. J. W., Kolkert, J. L. P., Koning, G. G., Koning, O. H. J., Konings, R., Krasznai, A. G., Kropman, R. H. J., Kruse, R. R., van der Laan, L., van der Laan, M. J., van Laanen, J. H. H., van Lammeren, G. W., Lamprou, D. A. A., Lardenoije, J. H. P., Lauret, G. J., Leenders, B. J. M., Legemate, D. A., Leijdekkers, V. J., Lemson, M. S., Lensvelt, M. M. A., Lijkwan, M. A., van der Linden, F. T. H. P. M., Lung, P. F. Liqui, Loos, M. J. A., Loubert, M. C., van de Luijtgaarden, K. M., Mahmoud, D. E. A. K., Manshanden, C. G., Mattens, E. C. J. L., Meerwaldt, R., Mees, B. M. E., Menting, T. P., Metz, R., de Mol van Otterloo, J. C. A., Molegraaf, M. J., Montauban van Swijndregt, Y. C. A., Morak, M. J. M., van de Mortel, R. H. W., Mulder, W., Nagesser, S. K., Naves, C. C. L. M., Nederhoed, J. H., Nevenzel, A. M., de Nie, A. J., Nieuwenhuis, D. H., van Nieuwenhuizen, R. C., Nieuwenhuizen, J., Nio, D., Oomen, A. P. A., Oranen, B. I., Oskam, J., Palamba, H. W., Peppelenbosch, A. G., van Petersen, A. S., Petri, B. J., Pierie, M. E. N., Ploeg, A. J., Pol, R. A., Ponfoort, E. D., Poyck, P. P. C., Prent, A., Raa, S. ten, Raymakers, J. T. F. J., Reichmann, B. L., Reijnen, M. M. P. J., de Ridder, J. A. M., Rijbroek, A., van Rijn, M. J. E., de Roo, R. A., Rouwet, E. V., Saleem, B. R., van Sambeek, M. R. H. M., Samyn, M. G., van ’t Sant, H. P., van Schaik, J., van Schaik, P. M., Scharn, D. M., Scheltinga, M. R. M., Schepers, A., Schlejen, P. M., Schlösser, F. J. V., Schol, F. P. G., Scholtes, V. P. W., Schouten, O., Schreve, M. A., Schurink, G. W. H., Sikkink, C. J. J. M., Slaa, A. te, Smeets, H. J., Smeets, L., Smeets, R. R., de Smet, A. A. E. A., Smit, P. C., Smits, T. M., Snoeijs, M. G. J., Sondakh, A. O., Speijers, M. J., van der Steenhoven, T. J., van Sterkenburg, S. M. M., Stigter, D. A. A., Stokmans, R. A., Strating, R. P., Stultiëns, G. N. M., Sybrandy, J. E. M., Teijink, J. A. W., Telgenkamp, B. J., Testroote, M. J. G., Tha-in, T., The, R. M., Thijsse, W. J., Thomassen, I., Tielliu, I. F. J., van Tongeren, R. B. M., Toorop, R. J., Tournoij, E., Truijers, M., Türkcan, K., Tutein Nolthenius, R. P., Ünlü, C., Vaes, R. H. D., Vahl, A. C., Veen, E. J., Veger, H. T. C., Veldman, M. G., Verhagen, H. J. M., Verhoeven, B. A. N., Vermeulen, C. F. W., Vermeulen, E. G. J., Vierhout, B. P., van der Vijver-Coppen, R. J., Visser, M. J. T., van der Vliet, J. A., van Vlijmen - van Keulen, C. J., van der Vorst, J. R., Vos, A. W. F., Vos, C. G., Vos, G. A., de Vos, B., Voûte, M. T., Vriens, B. H. R., Vriens, P. W. H. E., de Vries, D. K., de Vries, J. P. P. M., de Vries, M., de Vries, A. C., van der Waal, C., Waasdorp, E. J., Wallis de Vries, B. M., van Walraven, L. A., van Wanroi, J. L., Warlé, M. C., van Weel, V., van Well, A. M. E., Welten, G. M. J. M., Wever, J. J., Wiersema, A. M., Wikkeling, O. R. M., Willaert, W. I. M., Wille, J., Willems, M. C. M., Willigendael, E. M., Wilschut, E. D., Wisselink, W., Witte, M. E., Wittens, C. H. A., Wong, C. Y., Yazar, O., Yeung, K. K., Zeebregts, C. J. A. M., van Zeeland, M. L. P., ACS - Microcirculation, Anesthesiology, Physiology, ACS - Pulmonary hypertension & thrombosis, Surgery, ACS - Atherosclerosis & ischemic syndromes, VU University medical center, ACS - Diabetes & metabolism, TechMed Centre, Multi-Modality Medical Imaging, Medical Biochemistry, and AGEM - Amsterdam Gastroenterology Endocrinology Metabolism

Subjects

Male, Time Factors, Operative procedure, Vascular damage Radboud Institute for Health Sciences [Radboudumc 16], Risk Assessment, Blood Vessel Prosthesis Implantation, Postoperative Complications, Risk Factors, Humans, Hospital Mortality, Prospective Studies, Registries, Treatment outcome, Aged, Netherlands, Retrospective Studies, Aged, 80 and over, Endovascular Procedures, Quality of care, Middle Aged, Endovascular procedure, Abdominal aortic aneurysm, Surgery, Female, Trends, Cardiology and Cardiovascular Medicine, Aortic Aneurysm, Abdominal

Abstract

Contains fulltext : 251573.pdf (Publisher’s version ) (Open Access) OBJECTIVE: The Dutch Surgical Aneurysm Audit (DSAA) initiative was established in 2013 to monitor and improve nationwide outcomes of aortic aneurysm surgery. The objective of this study was to examine whether outcomes of surgery for intact abdominal aortic aneurysms (iAAA) have improved over time. METHODS: Patients who underwent primary repair of an iAAA by standard endovascular (EVAR) or open surgical repair (OSR) between 2014 and 2019 were selected from the DSAA for inclusion. The primary outcome was peri-operative mortality trend per year, stratified by OSR and EVAR. Secondary outcomes were trends per year in major complications, textbook outcome (TbO), and characteristics of treated patients. The trends per year were evaluated and reported in odds ratios per year. RESULTS: In this study, 11 624 patients (74.8%) underwent EVAR and 3 908 patients (25.2%) underwent OSR. For EVAR, after adjustment for confounding factors, there was no improvement in peri-operative mortality (aOR [adjusted odds ratio] 1.06, 95% CI 0.94 - 1.20), while major complications decreased (2014: 10.1%, 2019: 7.0%; aOR 0.91, 95% CI 0.88 - 0.95) and the TbO rate increased (2014: 68.1%, 2019: 80.9%; aOR 1.13, 95% CI 1.10 - 1.16). For OSR, the peri-operative mortality decreased (2014: 6.1%, 2019: 4.6%; aOR 0.89, 95% CI 0.82 - 0.98), as well as major complications (2014: 28.6%, 2019: 23.3%; aOR 0.95, 95% CI 0.91 - 0.99). Furthermore, the proportion of TbO increased (2014: 49.1%, 2019: 58.3%; aOR 1.05, 95% CI 1.01 - 1.10). In both the EVAR and OSR group, the proportion of patients with cardiac comorbidity increased. CONCLUSION: Since the establishment of this nationwide quality improvement initiative (DSAA), all outcomes of iAAA repair following EVAR and OSR have improved, except for peri-operative mortality following EVAR which remained unchanged.

Published

2022

4. Quantification of near-infrared fluorescence imaging with indocyanine green in free flap breast reconstruction

Author

Van Den Hoven, P., Verduijn, P. S., Van Capelle, L., Tange, F. P., Michi, M., Corion, L. U.M., Sibinga Mulder, B. G., Mureau, M. A.M., Vahrmeijer, A. L., Van Der Vorst, J. R., Van Den Hoven, P., Verduijn, P. S., Van Capelle, L., Tange, F. P., Michi, M., Corion, L. U.M., Sibinga Mulder, B. G., Mureau, M. A.M., Vahrmeijer, A. L., and Van Der Vorst, J. R.

Abstract

Background: One of the complications of free flap breast reconstruction is the occurrence of skin and fat necrosis. Intra-operative use of near-infrared (NIR) fluorescence imaging with Indocyanine Green (ICG) has the potential to predict these complications. In this study, the quantification of the fluorescence intensity measured in free flap breast reconstruction was performed to gain insight into the perfusion patterns observed with ICG NIR fluorescence imaging. Methods: ICG NIR fluorescence imaging was performed in patients undergoing free flap breast reconstruction following mastectomy. After completion of the arterial and venous anastomosis, 7.5 mg ICG was administered intravenously. The fluorescence intensity over time was recorded using the Quest Spectrum Platform®. Four regions of interest (ROI) were selected based on location and interpretation of the NIR fluorescence signal: (1) The perforator, (2) normal perfusion, (3) questionable perfusion, and (4) low perfusion. Time-intensity curves were analyzed, and two parameters were extracted: Tmax and Tmax slopes. Results: Successful ICG NIR fluorescence imaging was performed in 13 patients undergoing 17 free flap procedures. Region selection included 16 perforators, 17 normal perfusions, 8 questionable perfusions, and 5 low perfusion ROIs. Time-intensity curves of the perforator ROIs were comparable to the ROIs of normal perfusion and demonstrated a fast inflow. No outflow was observed for the ROIs with questionable and low perfusion. Conclusion: This study provides insight into the perfusion patterns observed with ICG NIR fluorescence imaging in free flap breast reconstruction. Future studies should correlate quantitative parameters with clinical perfusion assessment and outcome.

Published

2022

5. Near-infrared fluorescence angiography with indocyanine green for perfusion assessment of DIEP and msTRAM flaps: A Dutch multicenter randomized controlled trial.

Author

Tange FP, Verduijn PS, Sibinga Mulder BG, van Capelle L, Koning S, Driessen C, Mureau MAM, Vahrmeijer AL, and van der Vorst JR

Abstract

Background: A common complication after a DIEP flap reconstruction is the occurrence of fat necrosis due to inadequate flap perfusion zones. Intraoperative identification of ischemic zones in the DIEP flap could be optimized using indocyanine green near-infrared fluorescence angiography (ICG-NIR-FA). This randomized controlled trial aims to determine whether intraoperative ICG-NIR-FA for the assessment of DIEP flap perfusion decreases the occurrence of fat necrosis., Design/methods: This article describes the protocol of a Dutch multicenter randomized controlled clinical trial: the FAFI-trial. Females who are electively scheduled for autologous breast reconstruction using DIEP or muscle-sparing transverse rectus abdominis muscle (msTRAM) flaps are included. A total of 280 patients will be included in a 1:1 ratio between both study arms. In the intervention arm, the intraoperative assessment of flap perfusion will be based on both regular clinical parameters and ICG-NIR-FA. The control arm consists of flap perfusion evaluation only through the regular clinical parameters, while ICG-NIR-FA images are obtained during surgery for which the surgeon is blinded. The main study endpoint is the difference in percentage of clinically relevant fat necrosis between both study arms, evaluated two weeks and three months after reconstruction., Conclusion: The FAFI-trial, a Dutch multicenter randomized controlled clinical trial, aims to investigate the clinical added value of intraoperative use of standardized ICG-NIR-FA for assessment of DIEP/msTRAM flap perfusion in the reduction of fat necrosis., Clinical Trial Registration Number: NCT05507710; NL 68623.058.18., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published

2023

6. Traumatic rupture of a Meckel's diverticulum due to blunt abdominal trauma in a soccer game: A case report.

Author

Tummers WS, van der Vorst JR, and Swank DJ

Abstract

Introduction: a Meckel's diverticulum is one of the most common congenital anomalies of the digestive tract. The reported lifetime complication rate is 4%, mostly due to hemorrhage, obstruction, perforation or inflammation. A symptomatic Meckel's diverticulum due to rupture after blunt abdominal trauma is very rare. We believe this case report is the first reporting a rupture of a Meckel's diverticulum after a low velocity blunt abdominal trauma and outlining the importance of a thorough and complete examination of the patient after blunt abdominal trauma., Presentation of Case: a 17-year-old male presented with abdominal pain after blunt abdominal trauma during a soccer game. Physical examination showed signs of peritonitis in all quadrants of the abdomen. During admission the patient deteriorated with decreasing blood pressure and raising pulse rate. A CT-scan showed free abdominal fluid. Our patient was scheduled for an emergent laparotomy where a perforated Meckel's diverticulum with fecal spill was found. A segmental ileal resection was performed. Post-operative, patient developed a pneumonia and also intra-abdominal abscesses treated with percutaneous drainage. After an admission period of 17-days the patient was discharged., Conclusion: perforation of a Meckel's diverticulum is rarely suspected as a cause of acute deterioration following blunt abdominal trauma. This case shows the importance of awareness of this kind of injury especially in male patients., (Copyright © 2015 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2016