Tuesday, October 31, 2017

Tagboard D-21 Secret Surveillance Drone Depicted on B-52 Mothership Nose Art

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Mike Machat,
Nose art pays tribute to B-52’s top secret past > Edwards Air Force Base > News

By Kenji Thuloweit
412th Test Wing Public Affairs

October 25, 2017

EDWARDS AIR FORCE BASE, Calif. — A B-52H Stratofortress from the 419th Flight Test Squadron is sporting new nose art to commemorate its storied past

Renowned aviation artist Mike Machat completed the artwork earlier this month on B-52H s/n 60-0036. Machat also recently completed nose art on an Edwards B-1B Lancer and was again commissioned by the 412th Test Wing for this project.

About 50 years ago, the bomber was used in a top-secret test program named Tagboard. The program, which has since been declassified, involved testing the Lockheed D-21 Drone, a ramjet-powered reconnaissance drone that could reach Mach 3. The new nose art is a re-application of the original work, which has since been painted over following routine maintenance, according to Master Sgt. David Peralta, 912th Aircraft Maintenance Squadron, Bomber Aircraft Maintenance Unit superintendent.

“Lt. Col. Middleton [419th FLTS commander] brought the original artwork on the nose of aircraft 0036 to the maintenance unit’s attention,” said Peralta. “Since we had recently gone through the process of getting approval and the painting completed on the B-1 to honor Desert High School, our AMU sought approval to restore the original artwork from the 60s and 70s because of its historical significance.”

According to Air Force Test Center History Office documents, all manned flights over the Soviet Union were discontinued by President Dwight Eisenhower after Francis Gary Powers’ U-2 spy plane was shot down May 1, 1960. While the US. government was planning on using satellites for reconnaissance, the technology was still a few years away and the Central Intelligence Agency determined unmanned drones could fill the gap until satellites became viable.

D-21 mounted on M-21
The D-21 required a mothership because of its ramjet engine, which needed to be air-launched at a certain speed to activate. Initially, Lockheed testers used an M-21 to air-launch the D-21 drone. The D-21 would be launched from the back of the M-21. Ideally, after conducting its reconnaissance mission, it would eject a hatch with photo equipment to be recovered either mid-air or after the hatch landed.

However, on the fourth flight test, the D-21 experienced an “asymmetric unstart” as it passed through the bow wake of the M-21 causing the mothership to pitch up and collide with the D-21 at Mach 3.25. Crewmembers Bill Park and Ray Torick ejected from the M-21, but Torick’s flightsuit became ripped and filled with water when he plunged into the ocean and he drowned.

After the accident, the M-21 launch program was cancelled, but testers still believed the D-21 would make a valuable reconnaissance vehicle and decided to launch the drone from B-52Hs, one being #0036. The new code name for the D-21 project became Senior Bowl.
Two D-21's mounted on B-52 Mothership

After several failed launch attempts, the first successful D-21 launch from a B-52 occurred on June 16, 1968. The drone flew 3,000 miles at 90,000 feet. After a few more flight tests, the CIA and the Air Force decided to conduct four operational launches that all ended in failure in some way. Two flights were successful, however the imagery could not be recovered from the D-21’s hatch. The other two operational flights ended with one being lost in a heavily defended area and the other D-21 simply disappeared after launch.

Lockheed D-21B Drone | The Museum of Flight
During a reconnaissance mission, the D-21 drone would follow a pre-programmed flight path over areas of interest. Then the drone would return to international airspace, where the reconnaissance film package, equipped with its own parachute, was ejected. The package was then recovered in mid-air by a specially equipped airplane or at sea by a ship. Shortly after the film package was jettisoned, the drone self-destructed.


Engineer Ben Rich worked on the D-21 program starting in 1962. Later, when he succeeded Clarence "Kelly" Johnson as the head of Lockheed's secret Skunk Works, he told of a day in the mid-1980s when a CIA man arrived carrying a panel. "Do you recognize this?" Rich did, but he couldn't figure out how the CIA man had gotten it. "It was a Christmas gift from a Soviet KGB agent," the CIA man explained. "He told me it was found by a shepherd in Siberia." The panel was part of a D-21 drone that had disappeared during testing over China in 1969. Hopelessly off course, the D-21 ran out of fuel and crashed in the vast Siberian wilderness.

The D-21 program was cancelled July 15, 1971, and both B-52s used for the program were returned to operational Air Force units.

B-52H s/n 60-0036, currently assigned to the 419th FLTS at Edwards, arrived in 2001 where it has been used as a testbed ever since.

“Most of these maintenance and operations units and many of these old planes have a storied past. It is great to be able to embrace that heritage and history, while sharing it with the next generation,” Peralta said.

Peralta added that the artwork also was done in conjunction with the 419th FLTS’ 75th anniversary.

(Information for this article provided by the Air Force Test Center History Office)

Related/Background


A D-21 reconnaissance drone is on display at Blackbird Air Park at U.S. Air Force Plant 42 in Palmdale, California. (Courtesy photo by Danny Bazzell/Flight Test Historical Foundation via USAF/Released)

A much larger, high-res version can be viewed or downloaded here:
https://media.defense.gov/2017/Oct/25/2001833301/-1/-1/0/171024-F-ZZ999-414.JPG

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VIRIN: 171016-F-LO365-003

A B-52H currently used for testing by the 419th FLTS sits on the flightline at Edwards AFB on October 16. (U.S. Air Force photo by Kenji Thuloweit/Released)

A much larger, high-res version can be viewed or downloaded here:
https://media.defense.gov/2017/Oct/25/2001833299/-1/-1/0/171016-F-LO365-003.JPG


Monday, October 23, 2017

Cancer an Unwanted Passenger on Journey of Life








I Reject the Notion I’m on a Cancer Journey - The ASCO Post

I Reject the Notion I’m on a Cancer Journey

My metastatic prostate cancer is just one part of my life’s journey.











I was diagnosed with stage IV prostate cancer in 2002. I had no idea the disease and its treatment would cause me to gain more than 50 pounds and nearly cripple me with pain. I had a transurethral resection of the prostate following my diagnosis and have had multiple testosterone-suppression medications and immunotherapy treatments ever since.

My treatments have allowed me to live with chronic cancer, but I was concerned that my weight could lead to a heart attack or stroke. Plus, the androgen-deprivation therapy was causing such severe loss of muscle mass, I had constant joint and bone pain and needed a walking cane.


 At one point, after 12 rounds of docetaxel, a trip from my house to the mailbox and back took herculean effort. I felt if I didn’t do something soon, I might die, not from the cancer but from its aftermath.

Taking Control

As a former athlete, I thought I could devise my own
exercise routine and diet plan, and the weight would fall off. But I
was wrong, and in the process I injured myself. When I sought guidance
from the staff of the exercise oncology laboratory at my hospital about
weight management and physical activity programs, I received no personal
direction. Clearly, I had to take control, but I needed professional
advice on how to lose weight and gain and retain muscle mass safely.









Just waking up every morning and looking into my wife’s eyes is all the quality of life I need.
— Robert Harrison
I learned about an exercise physiologist at a cancer center hundreds
of miles from my home. After contacting her, we began strength and
aerobic fitness sessions (via Sykpe and e-mail) that were tailored
specifically to meet my abilities and needs. Through these sessions and
information from a nutritionist at my clinic about healthy food
selection and portion size, I lost 50 pounds and have made significant
gains in muscular strength and mobility. My oncologist said my improved
lifestyle is probably as helpful to maintaining control of my cancer as
the medication he prescribes.


Living a Full Life

Hearing that you have incurable cancer is traumatizing, but I don’t consider myself to be on a cancer journey. There are so many facets to my life that aren’t related to cancer, and they bring me joy. My wife and I have been married for 50 years and have a loving family, which includes our children, grandchildren, and a great-grandchild; our siblings; and wonderful friends. Our lives are full and rich, so I reject the notion I am on a cancer journey. Rather, I am on a life journey, and cancer is an unwanted companion on that journey, but it is just one part of my life. I’ve learned that just being alive carries uncertainty, and there are no guarantees. Cancer may be what ends my life, or it may be a distracted driver on the highway. Until then, I plan to live every day as fully as possible.

Engaging the Health-Care System

Since my diagnosis, I’ve become an active patient advocate. My goal is to help health-care providers understand that patients are assets in research conception, design, and utilization. I get angry when I hear patients referred to as “participants” in clinical trials. We do not “participate” in clinical trials; we “contribute” to clinical trials. Patients’ experiences and perspectives are invaluable to making progress in cancer research, and I want to ensure that the research and clinical communities see us as valuable contributors to that progress.

I also want to enhance awareness that patients with incurable cancers can and do lead high-quality lives despite our maladies. We accommodate our cancer and its treatment side effects and integrate them into our daily lives. It may not seem possible to do, but it is in ways that are not always quantifiable in research.

Just waking up every morning and looking into my wife’s eyes is all the quality of life I need. ■Mr. Harrison lives in Clayton, North Carolina. He is the founding
President of the Patient and Family Advisory Board at North Carolina Cancer Hospital in Chapel Hill and is a patient advocate for three
university-based cancer research centers.


 Related/Background

Wednesday, October 11, 2017

Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach - CRC Press Book

 Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach - CRC Press Book

Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach (Signal and Image Processing of Earth Observations): Kun-Shan Chen: 9781466593145: Amazon.com: Books

Features

  • Includes numerical analysis of system parameters, including platforms, sensor, and image focusing, and their influences
  • Brings a large volume of samples of simulation on various scenarios to help readers resolve their own problems of interest
  • Explains in details the state-of-the-art of space-, air-borne, and ground-based systems, their different technical aspects and challenges to overcome
  • Presents novel processing algorithms and applications to feature extraction, target classification, and change detection

Summary

Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach demonstrates the use of image simulation for SAR. It covers the various applications of SAR (including feature extraction, target classification, and change detection), provides a complete understanding of SAR principles, and illustrates the complete chain of a SAR operation.
The book places special emphasis on a ground-based SAR, but also explains space and air-borne systems. It contains chapters on signal speckle, radar-signal models, sensor-trajectory models, SAR-image focusing, platform-motion compensation, and microwave-scattering from random media.
While discussing SAR image focusing and motion compensation, it presents processing algorithms and applications that feature extraction, target classification, and change detection. It also provides samples of simulation on various scenarios, and includes simulation flowcharts and results that are detailed throughout the book.
Introducing SAR imaging from a systems point of view, the author:
  • Considers the recent development of MIMO SAR technology
  • Includes selected GPU implementation
  • Provides a numerical analysis of system parameters (including platforms, sensor, and image focusing, and their influence)
  • Explores wave-target interactions, signal transmission and reception, image formation, motion compensation
  • Covers all platform motion compensation and error analysis, and their impact on final image radiometric and geometric quality
  • Describes a ground-based SFMCW system
Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach is dedicated to the use, study, and development of SAR systems. The book focuses on image formation or focusing, treats platform motion and image focusing, and is suitable for students, radar engineers, and microwave remote sensing researchers.

Review of principles of synthetic aperture radar imaging a system simulation approach - ks chen

Griffiths, H. (2017). Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach K.-S. Chen CRC Press, Taylor & Francis Group, 6000 Broken Sound Parkway NW, Suite 300, Boca Raton, FL, 33487-2742, USA. 2016. Distributed by Taylor & Francis Group, 2 Park Square, Milton Park, Abingdon, OX14 4RN, UK. 203pp. Illustrated £109.(20% discount available to RAeS members via www.crcpress.com using AKQ07 promotion code). ISBN 978-1-4665-9314-5. The Aeronautical Journal, 1-2. doi:10.1017/aer.2017.72

Tuesday, October 10, 2017

IPCSG FUTURE MEETINGS



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October 21, 2017—ADVANCES IN DIAGNOSTICS Fabio Almeida, M.D.
As Medical Director of Phoenix Molecular Imaging and Southwest PET/CT Institute in Yuma, AZ, Dr. Almeida oversees clinics in Phoenix, Yuma, and Tucson, providing his extensive clinical expertise in PET/CT imaging. He continues his research, focused on applied medical informatics with emphasis on imaging and networking systems, optimization of fusion technology, and volumetric tumor assessment for radiation therapy planning. He actively participates in several oncology and neurologic clinical trials and is the principal investigator for a novel Carbon-11 PET agent for prostate cancer imaging. 

previously:

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November 18, 2017—ADVANCES IN IMMUNE THERAPY Richard Lam M.D. 
A board-certified internist and oncologist, Richard Lam, MD, has been specializing full time at Prostate Oncology Specialists in the treatment of prostate cancer since 2001. He is the director of clinical research. Dr. Lam has written numerous articles based on his research. He is an active member of the American Society of Clinical Oncology and the American Society of Hematology. Dr. Lam continues to promote prostate cancer awareness and education by giving lectures at various medical conferences and prostate support groups throughout the country. He is particularly interested in utilizing state-of-the-art therapeutics for advanced prostate cancer.

 previously:

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· December—no meeting, next meeting in January.

2017-09 IPCSG Meeting:Dr. Brent Rose - Advances in Radiation Oncology for the Treatment of Prostate Cancer



Advances in Radiation Oncology for the Treatment of Prostate Cancer
 
 Brent S. Rose, MD, Radiation Oncology, UC San Diego
 1.  Focal Radiotherapy Boost of Dominant Intraprostatic Nodule
Prostate cancer is usually multifocal, with a dominant nodule (tumor), and one or more other smaller tumors.  So “whole-gland” radiotherapy has been necessary up to now to treat all of the cancer.  Often after radiation, the cancer comes back in the dominant nodule area, so it is hypothesized that that nodule reflects the most aggressive part of the tumor.  A new goal is to increase the dose to that highest risk area, without significantly increasing the dose to surrounding tissue.  Some details, such as how much boost to give, are still being worked out on a case by case basis.  But use of this approach is expected to increase.

2.  Treatment Response Assessment with MRI
When a patient is being treated for prostate cancer, it is important to learn quickly whether the treatment is working.  This could allow for dose escalation (or even de-escalation), based on whether the response of the tumor(s) to the treatment is favorable or not.
Multiparametric MRI is the best way of imaging localized prostate cancer.  The key parameters are T2 (for anatomic detail), Dynamic Contrast Enhancement (showing tumors because of their greater blood supply resulting in fast uptake of the contrast agent), and Diffusion Weighted Imaging (showing areas of dense tissue, which signifies a tumor – and the density correlates with Gleason scores!).  At UCSD, an advanced diffusion weighted imaging technique called Restriction Spectrum Imaging has been developed.  The anatomic detail of the T2 parameter is overlaid on the DWI result, and this gives a precise understanding of where the tumor is, and is very helpful in planning for focal radiation treatment.

3.  Sexual Potency-Preserving Radiotherapy
Erectile dysfunction is one of the most significant complications of prostate cancer treatment.  One of the common pathways for escape of the cancer from the prostate is along the nerves of the “neurovascular bundle.”  So surgery often involves cutting these nerves to get out all the cancer.  That negatively affects sexual potency.  The (typically smaller) impact of radiation on erectile function is likely due instead to irradiation of the vasculature (blood vessels) of the penis, resulting in decreased blood flow.  It’s as though the radiation causes accelerated aging, leading to buildup of plaque and less blood flow to create erections.
By directing the radiotherapy appropriately, with the aid of an MRI scan, the blood vessels can be spared much more precisely than in the past when only CT scans (which don’t show prostate anatomy well) were used for planning.  With this precise targeting, critical normal structures can be avoided, and the need for ADT (hormone therapy) may be avoided or reduced.  Although the radiation field typically includes the neurovascular bundle, the nerves are relatively resistant to radiation, so are not adversely affected very much.  Sexual potency is more often preserved compared to results after surgery.  See European Urology, 72 (2017) 617-624.

 4.  Treatment of Oligometastatic Disease: 
This is prostate cancer with 1-4 metastases, typically in the lymph nodes or bones.  Preliminary literature reports suggest that aggressive treatment may improve survival.  In a case example given, a bone scan gave (as always) poor sensitivity and specificity, but an F18-Fluciclovine (“Axumin,” radiolabeled amino acid) PET scan showed a distinct area that could be treated with radiation.  Other agents can also be used in PET imaging, including C-11 and PSMA tracers, but they are not FDA approved, so insurance won’t pay for them [but see last month’s Q&A for PSMA at UCSF paid for by Medicare].  In the case shown, MRI gave very distinct identification of the metastatic lesion, near the prostate, and the patient was treated with stereotactic radiation therapy (a short course of high-dose radiation).  In some cases, prostatectomy may be done in addition.  ADT may follow for a time, possibly including abiraterone (Zytiga).

UCSD has opened a study for cancer patients with high-risk or known metastatic disease, with a goal to test the accuracy of whole-body MRI to identify sites of metastatic disease. 

Questions: 
If on Lupron, can one use the advanced diagnostic tests (PET with tracer)?  Yes, but … Lupron tends to put the cancer to sleep, so it’s harder to see the lesions.  It’s still possible to find them if looking carefully.
When should one use proton therapy instead of IMRT?  Studies are underway, but in general results are very similar.  Side effects are about the same.  Protons don’t pass all the way through the body, so that’s an advantage for some cancers, like brain cancer or the spine (but not demonstrably so yet for prostate cancer).  It takes a very powerful (large!) machine to accelerate the protons, and this physically interferes with following the therapy by daily imaging.  However, improvements are being made. 
PIRADS scores vs. Gleason Scores?  Not equivalent, but they tend to track together.
MRI after surgery – does it correlate with PSA level?  Usually MRI after surgery is not very helpful, because any remaining tumor is likely very small and hard to see, especially in and around scar tissue.  Axumin or C-11 scan is likely to be more sensitive in that case.
SpaceOAR (gel injected between prostate and rectum before irradiation) pros and cons?  Great in theory, but how much it really matters, and what the side effects are, are still not fully determined.  A very slight benefit has been shown in published studies.  But, a few patients got fistulas.  That’s serious, though rare, and not proven if caused by the injection rather than something else.  At UCSD, they find the gel is not necessary because the rectum is not significantly damaged even when the gel is not used.  Note:  It’s not covered by some insurance, and costs up to $5,000.
Qualifications for the whole-body MRI research study?  They are very broad: having high risk for metastatic disease (newly diagnosed) or known metastatic disease are the only requirements.  Also, patients with recurrence (elevated PSA) after surgery are eligible.
What to do if one has Gleason 6 and PSA = 5 with two cores positive?  You would be unlikely to find anything with MRI, but could get the scan to be sure that a more aggressive tumor wasn’t missed.  Dr. Rose said this member is a candidate for active surveillance ... and continuing to attend IPCSG meetings!  But he should also consider talking to a radiologist and to a surgeon.  If more cores were positive, then the advisability of an MRI would rise.
MRI after surgery and radiation?  Not likely to find anything if the PSA is, say, 0.2, but you may see something if it is 2 or more.  A whole-body MRI might be helpful, to look for metastases.
With a rising PSA after external radiation, with Gleason 7, and apparent local recurrence in the prostate, when should one “pull the trigger?”  Surgery is likely to cause incontinence.  Brachytherapy (radioactive seeds) or cryotherapy may be appropriate.  Whole body imaging may be useful to look for metastases.  Decisions depend on the details of the case.  Not a clear-cut path forward that would fit all such cases.
Having recurrence after surgery, in the seminal vesicles, with radiation planned for the new tumor – should Lupron be used before radiation, to shrink the tumor?  It is likely to shrink the tumor, but it’s not known if and how much help that would be, for avoiding irradiation of the bladder.
How relevant is the patient’s age – from a member who is 87?  His PSA is 0.3, and his doctor recommends discontinuing Lupron.  Dr. Rose advised him to make his own decision, considering quality of life and length of life.
Testosterone supplementation?  Recent consensus is that if the PCa stays low after initial treatment (such as surgery and/or radiation), that supplementation to a normal testosterone level to improve quality of life, may be acceptable (and not fuel the cancer too much).  This recovery of the testosterone level occurs naturally in younger men, so supplementation doesn’t seem too dangerous in older men.  If the cancer is coming back, the testosterone supplementation probably will “fuel the fire” a little bit.  That is likely to make the PSA rise faster, and result in going back on Lupron faster.  It’s a personal choice.
If you have external beam (e.g., IMRT) radiation, and the cancer comes back, can you get radiation again?  Yes, but the side effects are high if more IMRT is given.  Proton therapy would likewise not be advised.  Your body “remembers” that you had radiation.  The first dose is usually as high a dose as the body is likely to tolerate.  But cryotherapy, brachytherapy (seed implants) or SBRT (very focused radiation) are possibilities that may limit the side effects. 
Tumor recurrence in the same spot five years after IMRT and ADT – what to do?  The member had heard there is a two-part radiation treatment.  Dr. Rose surmised that this was a reference to a brachytherapy boost, where seeds are implanted in the prostate to allow a much higher dose to the tumor than can be given by external radiation (see also the next question response below).  Other options are cryotherapy, SBRT (but rare in this type of case), and nanoknife (Note: a talk on Nanoknife, also called IRE – Irreversible Electroporesis – was given at the IPCSG last September.  The video is available through the group website, and a summary of the talk is available by contacting this author at lewis.bill@gmail.com)
More info on brachytherapy?  Often used at UCSD.  One situation is for first treatment after active surveillance suggests some treatment is advisable.  It is a one-day procedure with good efficacy, and has low side effects.  Affects the urinary tract somewhat, but spares the erectile function.  The second situation is use in combination with external radiation and hormone therapy, with published results showing good control of cancer within the prostate.  The combination gives a high dose in the observed tumor, plus a surrounding margin of radiation to eliminate other small tumors.
Usefulness of MRI-guided biopsy – required before brachytherapy?  Not “required” for it or other therapies, and thus may not be paid for by insurance, but he would choose it if newly diagnosed, to gain the best understanding of the disease status.
Is RSI-MRI better than mpMRI?  Dr. Rose thinks so.  It gives better identification of high-grade tumors, and helps avoid being fooled by things that are not tumors.  Not 100% better; more like 20% better.
Differences between locally available proton therapy, and that at Loma Linda?  Here, we have IMPT (Intensity Modulated Proton Therapy), which is more sophisticated than Loma Linda center’s proton therapy. 
See: Scripps Health distances itself from proton therapy center - Modern Healthcare business news, research, data and events








Sunday, October 1, 2017

#ProstateCancer News - 2017 -10 October

Prostate Cancer News - 2017-10 October

General News

About prostate cancer research, cases and public awareness:

Case Management

Planning a campaign against prostate cancer:

Life Choices

can influence the odds in your favor:

Diet

can starve the cancer

Exercise

can give you strength to fight the cancer and treatment side effects
  • nothing new yet 

Screening and Diagnosis

early detection is important because symptoms appear too late for treatment:

Biopsies and Pathology

Genomics

Tests

Imaging

Treatment

Active Surveillance AS

Surgery RP

frequently the first choice of Urologists for localized PCa, robotic assist dominates:

Radiation RT

Hormone ADT

Chemo


Immunotherapy

New Techniques

Side Effects

Advanced/Recurrence