After escaping the treacherous waters of WWII, Captain Jake Rogers leads his crew on a daring mission across Nazi-occupied Europe to rescue the father of his beloved, entangled in a web of espionage, betrayal, and relentless pursuit.
John Winn Miller, a veteran of investigative journalism for decades, masterfully weaves historical detail into his World War II novel Rescue Run. The story follows American ship’s captain Jake Rogers, who, after his U.S. Liberty ship carrying war supplies is wrecked in the North Atlantic, first lands in Ireland. He then sets out with a few of his loyal men on a perilous mission to rescue the father of Miriam Maduro, the love of his life, from the Westerbork transit camp in Nazi-occupied Holland.
A gruelling journey follows from Amsterdam across Nazi-occupied Europe to Spain – on foot, by train, and by boat – via a long series of hiding places, historical locations and events, aided by well-known and lesser-known resistance organisations and historical figures, besieged by con men, double agents, gangsters and pursued by a ruthless Dutch bounty hunter.
As a non-native English speaker, I initially struggled a bit with the first few chapters, particularly the maritime terms and rich language used in the sea adventure with the Liberty ship, besides the introduction of the many characters. However, once past those pages, the novel became a true page-turner. The gripping, almost cinematic narrative had me finishing the book in just two or three days, despite also spending some time online searching for even more historical context, for example when Rogers is helped by the Dutch resistance group ‘Groep 2000’ led by Jacoba van Tongeren, and when characters like Etty Hillesum and Audrey Hepburn appear in the story.
I rarely read fiction these days — almost exclusively occupied with non-fiction — but John Miller’s work intrigued me. I was curious to see how he managed to incorporate the reality of Nazi-occupied Europe, and in particular the Westerbork transit camp, into fiction. The result is exceptional. The blend of fiction and nonfiction strengthens the narrative, bringing the past vividly to life. Miller also provides an extensive set of notes at the end of the book, offering in-depth background information on the events and historical figures featured in the story, detailing also what happened to them after the events of the novel.
I especially appreciate how John Winn Miller brings the wartime past to life in Rescue Run, with accuracy and rich detail, from multiple perspectives. His cinematic storytelling draws readers into a narrative that inspires further exploration of this history.
John Winn Miller is an award-winning investigative reporter, foreign correspondent, editor, publisher, screenwriter, indie movie producer and novelist. | Photo Bancroft Press. | More info at Miller’s website URL https://www.johnwinnmiller.com
Though Rescue Run is a sequel to Miller’s first novel, The Hunt for the Peggy C, no prior knowledge of the first book is required. A summary of the prequel is included for new readers or those needing a refresher.
This review was prompted by my contribution of a still (image below) from the Westerbork film for the book jacket/cover, in collaboration with designer Christine Van Bree , and author John Winn Miller.
John kindly provided me with a link for a free download of the Advance Reader Copy on the BookSirens’ platform. Since I’m documenting the Westerbork film through the online magazine Settela•Com, I happily accepted BookSiren’s invitation to join the review team.
In 1988, we started a project with unique integration of two important trends in research into the treatment of diabetes by transplantation at the Leiden University Hospital (AZL) in Leiden, with major grants from the dutch Ministry of Welfare, Health and Culture (WVC) and the dutch Diabetes Fund (Diabetes Fonds Nederland).
The generous grants were received — as reported June 24, 1988 in both the dutch newspaper Leidsch Dagblad (2) and in Cicero, the biweekly publication of the Leiden Medical Faculty and University Hospital (3), as a result of our preliminary research over the previous five years into improving the technique of pancreas transplantation, and more recently the development of a technique for isolating the Islets of Langerhans from the pancreas, which produce hormones such as insulin. The idea behind this is, that these isolated islets, after injection into the body, will restart and maintain insulin production.
What is the consequence of the loss of normal nerve connections to the islets during transplantation?
What are the consequences of transplantation of only a segment of the pancreas, or islet transplantation, when fewer islets are available?
What is the consequence after transplantation of the different insulin drainage route, where the insulin does not follow the normal path directly to the liver?
To what extent do transplantation procedures disrupt the normal architecture and interactions of islets, the pancreas, and other parts of the gastro-intestinal system, and the blood sugar regulation in the body?
With the hope of answering these questions, the grants supported an ambitious new project supervised by Hein Gooszen, integrating two concomitant PhD projects for detailed islet function studies in both experimental pancreas transplantation, by Onno Guicherit (4) , as well as islet isolation by Michel van der Burg (5) in the same model.
A special feature of the experimental design in this preclinical model is that the results of functional studies in the experimental animal can be compared with such functional studies with the isolated islets from the pancreas, where the direct effect on the islets is investigated during perifusion tests in our laboratory (6).
That same month, June 1988, we began research to improve the method of islet isolation in our laboratory, with the assistance of Jane Field, who had come over that month at our invitation from Minneapolis, where she was a key member of the Surgical Research lab, University of Minnesota (led by David Sutherland).
The introduction of this Minneapolis method for islet isolation significantly improved the yield of isolated islets in our Islet Transplant Lab.
Next , early 1989 , our Islet Transplant Lab took a major step forward in a new approach to isolation and purification of the islets by replacing the islet isolation solution (the general used basic physiological salt solution or tissue culture solution) with a novel organ preservation solution : the University of Wisconsin solution (UWS). The method of choice nowadays in clinical islet transplantation centers. More on this introduction of UWS will soon be posted here. A reprint of a first poster presented in Minneapolis, Sep. 1989, is now online here (7).
June 1989 our Surgery Department (Leiden University) started an additional project, for ‘auto’ transplantation of isolated islets : Isolation of the islets from the canine pancreas and transplantation of the isolated islets ca 4 hours later in the same animal (8).
Thus, from 1989, we studied the insulin secretion of the isolated islets in perifusion experiments in the laboratory (‘in vitro’) in comparison with both the islet function ‘in vivo’ after transplantation of the isolated islets, and in the concomitant pancreas transplantation experiments — in support of our clinical pancreas transplantation program in Leiden.
1) Pancreatic Islet Transplantation • Isolation & Transplantation of Islets of Langerhans • 1988 to early 1990s • Islet Transplant Laboratory • Leiden University Hospital • 20240912_1 • michelvanderburg•com | TakeNode 5b5ca362-2adf-497a-b2be-a83e47617017 | Image edit based on : Pancreatic islet transplantation • Michel van der Burg • Miracles.Media • Thesis Repository Leiden University https://hdl.handle.net/1887/3486604
Captions in Note 9
2) Subsidie voor onderzoek suikerziekte. Leidsch Dagblad, June 24, 1988 (leiden.courant.nu) • 20240912_2 • michelvanderburg•com
3) Diabetesonderzoek | AZL krijgt grote subsidies voor diabetesonderzoek | by Sylvia van Leeuwen in Cicero, June 24th, 1988 (ISSN 0920-2900), the biweekly publication of the Academic Hospital and Leiden Medical Faculty | 20240912_3 • michelvanderburg•com | Download PDF article below : file 20240912_3_CICERO
4) Onno R. Guicherit. Long-term metabolic sequelae of beta cell mass reduction, systemic venous drainage and denervation of the canine pancreas : experimental studies in relation to clinical pancreas transplantation. (Doctoral Thesis, Faculty of Medicine, Leiden University Medical Center (LUMC) , Leiden University)(S.l.: s.n.), (ISBN print: 9789090072319, 9090072314), 1994: 149 p. URL WorldCat https://search.worldcat.org/en/title/69433794
5) Michael P.M. van der Burg. Pancreatic islet transplantation: studies on the technique and efficacy of islet isolation and transplantation. (Doctoral Thesis, Faculty of Medicine, Leiden University Medical Center (LUMC) , Leiden University), Boskoop: M.P.M. van der Burg | Miracles.Media (ISBN electronic, pdf, 9789080216402 ; ISBN print 9789080216419, 9080216410), 1994: 192 p. URL Thesis Repository Leiden University https://hdl.handle.net/1887/3486604
6) Monitoring pancreatic islets in perifusion • 20240911 • Michel van der Burg • michelvanderburg•com | URL https://michelvanderburg.com/2024/09/11/monitoring-pancreatic-islets-in-perifusion-20240911/
7) Minneapolis 1989 Poster | 20240804 | Michel van der Burg | michelvanderburg•com | URL https://michelvanderburg.com/2024/08/04/minneapolis-1989-poster-20240804/
8) Islet Transplantation Breakthrough in Leiden University Hospital • 20240830 • Michel van der Burg • michelvanderburg•com | URL https://michelvanderburg.com/2024/08/30/islet-transplantation-breakthrough-in-leiden-university-hospital-20240830/
9) Pancreatic Islet Transplantation • Isolation & Transplantation of Islets of Langerhans 1988 to early 1990s • Islet Transplant Laboratory • Leiden University Hospital • 20240912_1 • michelvanderburg•com | TakeNode 5b5ca362-2adf-497a-b2be-a83e47617017 |
Captions Image 20240912_1 :
1. Paul Langerhans
2. Section of the normal dog pancreas showing islets stained reddish-brown (immunostained for insulin)
3. Michel van der Burg, watching the dog islet isolation procedure in the Minneapolis surgical research laboratory (University of Minnesota), September 1989, with Philippe Morel and Pericles Tzardis
4. Experimental Surgery Laboratory in Leiden, June 1988, with (left to right) Hein Gooszen, Jane Field (Minneapolis), and Onno Guicherit, starting the surgical procedure for canine islet isolation
5. The pancreas (segment) is removed
6. Islet Transplant Laboratory in Leiden, at the start of islet isolation, with infusion of the collagenase solution via the ducts in the dog pancreas (whole gland for islet transplantation) – collagenase leaking from the pancreas is recirculated using a roller pump
7. During collagenase digestion at 37-39°C the pancreas falls apart, shown here in a low magnification microscopy image of pancreatic exocrine tissue, and a free-ed small blood vessel
8. Dissociated pancreatic tissue, on ice
9. Tissue is further dispersed in the cold isolation solution (here RPMI tissue culture solution is used), by aspiration in a syringe, and sieved to remove undigested fragments, ducts and vessels ~ demonstrated here by Jane Field (Minneapolis), with the introduction of the Minneapolis isolation procedure, June 1988, in our Islet Transplant Laboratory in Leiden
10. Microscopy of tissue suspension, with a low purity of the islets (stained red by dithizone) obtained by density separation in Dextran gradients (in Hanks’ solution) after islet isolation in the RPMI tissue culture solution (dark-brown exocrine fragments remain unstained)
11. Pure islet suspension obtained by density separation in Percoll gradients (in University of Wisconsin solution) after islet isolation in the University of Wisconsin solution (islets are only slightly stained due to poor diffusion over the cell membrane in the preservation solution)
12. Section of highly purified islets obtained by Dextran density separation after isolation in the University of Wisconsin solution
13. Islets are autotransplanted by infusion in the spleen of the dog
14. Transplanted islet in section of the spleen of one of the dogs shortly after the onset of fasting hyperglycemia at three months posttransplant (immunostained for insulin), 1989
15. Highly purified human islets obtained by Percoll density separation after isolation in the University of Wisconsin solution (immunostained with gold for insulin; not counterstained), July 1990
Pancreatic islet transplantation • Michel van der Burg • Miracles.Media | QR code (link to Thesis Repository Leiden University) https://hdl.handle.net/1887/3486604
Citation info : Pancreas & Islet Transplantation Program • 20240912 | Michel van der Burg | michelvanderburg•com
Printing journal on ‘F4UW’ (in porcine islet isolation) …Apple Powerbook 160 , Islet Laboratory, Leiden University Hospital 1990s. Found a snippet correspondence on F4UW :
“Dear Bjørn…I checked my journals re the use of ficoll. I have temporarily used Ficoll-400DL from Sigma in 1996 for making Optiprep-UWS gradients and UWS as the isolation solution. The reason was that I had no more Pentastarch
left from a shipment received from DuPont…Most of the experiments used WOP prepared from 1:1 optiprep and either F4UWS or 8 percent Ficoll in UWS….”
Citation info : Powerbook 160 @1MEMO 20240904 • 1-memo•com • TakeNode 7e2d8499-a369-4055-992c-0442a17027c4
