Anatomy

NASCAR Phoenix recap: The anatomy of Ryan Newman’s upset win – SB Nation

NASCARs version of March Madness didnt involve a buzzer-beater and a small school few recognized toppling one of college basketballs blueblood programs. Nevertheless what transpired Sunday at Phoenix International Raceway certainly qualifies as an upset, a reminder of what can transpire when circumstances converge resulting in an unforeseen outcome.

If prior to the Camping World 500 you were to draw up a list of potential winners, Ryan Newmans name certainly would not have been among the first dozen or so chosen. Thats what happens when you havent won in 127 races, while your team, Richard Childress Racing, has gone winless in the past 112 races with neither showing much indication of snapping their streaks of futility.

For much of Sunday, the fourth Monster Energy Cup Series played out as expected. Pole-sitter Joey Logano dominated early in winning the first stage, with promising second-year driver Chase Elliott asserting himself in the second stage. Then, Kyle Busch seized control in the decisive final stage.

At no point before the final two laps did it appear Newmans name would be etched on the winners trophy.

But the race that had seemingly been so clear-cut took an entirely different focus when Loganos overheated right-front tire exploded, sending him crashing into the outside Turn 1 wall with four laps remaining. This placed the crew chiefs for Busch and others running up front in a difficult position where they had to choose between pitting for fresh tires and foregoing track position, or staying out on older tires.

Newman, who was seventh, thought it best to pit and take two tires. Crew chief Luke Lambert thought otherwise. He wanted to go for the win, figuring that with so few laps left their best chance stood if they stayed out, thereby placing Newman in a position where he would need to play defense.

It was the only opportunity we had to win the race, Lambert said. I felt like doing it was going to yield a better result than the other option. Ultimately that was the decision. He said he could make the car wide. He did.

It was now Newmans race to win or lose. The key would be the restart. If he could get away cleanly and not have those behind on fresh tires get a run entering Turn 1, he stood a chance.

Newmans mind flashed back to late restart in last falls playoff race at Phoenix, when leader Matt Kenseth found himself in a similar position. On that day, Alex Bowman had been able to get to the inside of Kenseth, who came down and clipped Bowman sending him spinning. Logano would go on to win, while Kenseth not only lost the race but was also eliminated from the playoffs.

You're on old tires, it's easy to screw up, Newman said. You got to get your tires cleaned off right. You got to get a good launch. You got to run through the gearbox right. Then you got to hold everybody off.

The stakes werent as high Sunday as they were in November when a berth in the championship finale was on the line, but for a driver and team in the midst of a three-year-plus dry spell, what was before them carried considerable importance.

Kyle Larson had been second before the caution and after pitting he would be fourth, the highest-placed among drivers on fresh tires, and in the preferred outside groove. He would likely be Newmans biggest threat provided he didnt get bogged down in traffic.

That didnt occur.

When the green flag waved Newman did his part and edged ahead, but as anticipated Larson got a terrific restart and was closing. However, instead of exercising patience, Larson attempted to swing low and to the inside of Newman. Unbeknownst to Larson, Ricky Stenhouse Jr. was there and Larson cut across his nose just as Kenseth had done to Bowman last fall.

Hindsight is always 20/20, but I should have went a lane up in (Turns) 1 and 2, Larson said. I should have known to just stay close to Newman. That's what I wish I would have done.

To his credit, Larson didnt crash. The bobble, though, allowed Newman to build enough of a gap that there wasnt enough time to chase him down and make a pass.

For the first time since July 28, 2013, Newman was on his way to victory lane. And for the first time since Nov. 3, 2013, a RCR driver had picked up a Cup Series checkered flag.

Going a long time without winning, you have confidence in your mind that you can do it, Newman said. You just got to stay humble. This sport, you walk away from it, there's one guy that wins, 39 losers. You have to be humble walking into it that you're probably not going to win that day. Odds are against you.

On the surface it may appear as if Newman stole a race he had no business winning. That couldnt be farther from the truth.

It took a combination of sage strategy by Lambert and Newmans veteran savviness to make it happen. The other six teams ahead of Newman couldve employed the same strategy as Lambert and not pitted under the final caution. Yet, it was Lambert who made the correct call. And on worn tires, it wouldve really been easy for Newman to stumble on the restart.

Sunday may have been an upset, but dont think for a second that it wasnt earned.

Read the rest here:
NASCAR Phoenix recap: The anatomy of Ryan Newman's upset win - SB Nation

Anatomy

PaleyFest 2017: Grey’s Anatomy Cast Talks Shonda Rhimes – Vulture – Vulture

J)C%X+ IEK.O1@dLA@q$2l#QmkKTvR@O/BKx7xD;~x5RMyiBwzn%q O;agMl$rM%hf UqX]^R vR[ydUIMfkzl>9yqKgI*?UYc!$272uW>/|htId[]2Wk77z';?#71KJl1Nvj5 ^([UJ(M8QKsQS)m 0 D*JyOd^n(Jl3b3lm'N ,? o#msj7|W&%[:|%~#|%u/kO:@$D w/p+okxn5?5"qHrlTXV!i[/{"(.-TNa1A!#! A2g+0Fh]xSI>]~D:?T(w66"w3^* 7:Y4CO/B@NXnQYI&"o*)m6X;2~sVx}8g ?X{puD(1R4/G9$^2bO|)U-EWV/+YYoIxMj+ =UySF/^K%n@+ hHZzwxtwlf;E^2~ 1y aO@$(>wzctcO: 5[V;t*J Ph:d"2fZo]Y="%*zV9x9$#3}-E=wPT3iDu'dT/a@-!o>^Z%sJ F[5+I5BZGGWZX/)F mkZp~[hY;o!=Mz W_[;@:q _q@}y{gmd|Ven0MzaT7U2Jq QqcjcO0LM(f$7NG5"s7ugM Pw+JiCj7g^ZNwMy0i[*IGP6q@,%7$nuI!Ex)Z"=:VOSZ]T)Qz$Y{NZiy*x zEqN1J)^w"T-EoiM4z |,=P4RVfG=x9];kdf,!W;In21kPuS>$]{b{%n/[8IZwPji|]i!H'~/|j ]aX>^ `ez/)@\eKz~pu^ oA&8Vu,ziM`yUJb&i6 CP-T7$ 8}CL}y!zF~XaT_,xrudu&6d-Bvq@NLR#jD`z*

Originally posted here:
PaleyFest 2017: Grey's Anatomy Cast Talks Shonda Rhimes - Vulture - Vulture

Anatomy

McCain and Montenegro: The Anatomy of a Conspiracy Theory by … – Antiwar.com

Just in case you thought the conspiracy theory that Russia secretly controls the US government is exclusively an affliction affecting the Democratic party, Sen. John McCains recent performance on the floor of the US Senate should disabuse you of this optimistic notion. Responding to Sen. Rand Pauls blocking of a vote in favor of the accession of Montenegro to NATO, the failed former GOP presidential candidate let it all hang out:

I note the senator from Kentucky leaving the floor without justification or any rationale for the action he has just taken. That is really remarkable, that a senator blocking a treaty that is supported by the overwhelming number, perhaps 98 at least of his colleagues would come to the floor and object and walk away. The only conclusion you can draw when he walks away is he has no justification for his objection to having a small nation be part of NATO that is under assault from the Russians. So I repeat again, the senator from Kentucky is now working for Vladimir Putin.

Whats remarkable is that this kind of lunacy is tolerated in the US Senate: I recall that Sen. Elizabeth Warren was rebuked and silenced by Senate majority leader Mitch McConnell because she read a letter from Coretta Scott King that called into question the motives of Jeff Sessions, then a Senator and a candidate for the office of Attorney General. Surely McCains outburst was an even more egregious violation of the rules than Warrens, and yet McCain was allowed to proceed uninterrupted. Perhaps this is an example of warmongers privilege.

In a later interview, Sen. Paul sought to explain McCains behavior as an indication of the Senator from Arizonas advanced age: perhaps, he suggested, McCain is past his prime, and, by the way, this is a good argument for term limits. Well, yes, but in the current political atmosphere where Vladimir Putin has been elevated to the status of a virtually omnipotent force who has the power to change election results and infiltrate the highest reaches of Western governments its no crazier than anything else were hearing out of Washington these days.

Be that as it may, ordinary Americans may have a few questions about this bizarre incident, starting with: What the heck is Montenegro?

A tiny republic in the middle of the Balkans, Montenegro has a population equal to that of Albuquerque, New Mexico, and a military force of around 2,000 soldiers and sailors. Up until the break up of Yugoslavia, it was never a unified independent country (except for a few years early in the twentieth century). Today, it is even less unified, beset as it is with rival factions that routinely battle it out in the streets. Its former President (and, alternately, Prime Minister) Milo Djukanovic, is a former top Communist official who came to power in 1997 in an election marred by allegations of fraud and violent protests, and is known as Mr. Ten Percent on account of his reputation for corruption. Although retired (this is, I believe, his third retirement) he is still the real nexus of power in the country.

Formerly a bastion of Serbian nationalism, Montenegro has undergone demographic changes since the end of the Yugoslav era, with a large incursion of Albanians who have initiated a campaign to create a Greater Albania by merging the southern portion of the country with Albania proper. Aside from that, however, there is the question of whether Montenegro will join NATO and the European Union, a project dear to the heart of Djukanovic, and opposed by the former Serbian majority which still remembers how the country was bombed under NATOs rubric during the Kosovo war.

The recent elections, billed as a referendum on NATO membership, yielded ambiguous results for Djukanovics party: the hope was that Djukanovics Democratic Party of Socialists (DPS), the successor to the old Communist Party, would win an outright majority, thus enabling the pro-NATO forces to push NATO membership through parliament without having to resort to a referendum. The DPS ended up winning 41 percent of the vote, not enough to form a government, although an alliance with smaller parties not all of them pro-NATO gave Djukanovic a parliamentary majority. The opposition parties are now pushing for a popular vote on entering NATO, and recent polls indicate that voters are split almost exactly down the middle on the issue.

That doesnt deter Djukanovic, who, with the help of the Western media, has managed to replicate the anti-Russian hysteria we are seeing infect our own politics. According to Djukanovic, a Russian plot to attack the parliament, kill members of the ruling party, and take over the country was narrowly averted when a number of plotters were arrested. The New York Times describes these sinister plotters as follows:

Mr. Djukanovic and his officials initially provided no evidence to support their allegation of a foiled coup attempt on Oct. 16, the day of national elections. They said only that 20 Serbs some of whom turned out to be elderly and in ill health had been detained just hours before they were to launch the alleged putsch. Nonetheless, Mr. Djukanovic insisted it is more than obvious that unnamed Russian structures were working with pro-Moscow politicians to derail the countrys efforts to join NATO.

After months of searching, the alleged weapons cache that was to be used in the coup attempt has yet to turn up. But, hey, who needs weapons when youre part of the vast Putinite Conspiracy? Oh, those Russians stealing elections from Michigan to Montenegro! Is there anything they cant do? The alleged leader of the plot has been granted a plea deal, and is now spinning a tale of intrigue so murky that light cannot penetrate its depths. One version has it that Russian special forces disguised as a Cossack folk band arrived on the scene to recruit those plotting to off Djukanovic. Those are some very special forces indeed. Oddly, the alleged plotters have all been released, including the supposed ringleader. Meanwhile, leaders of the anti-NATO opposition are being arrested for ties to the plot.

This what Sen. McCain was talking about when he claimed that Montenegro is under assault from the Russians. Its the Montenegrin version of the same line of baloney hes been pushing here in the US: that the Russians stole the 2016 presidential election, and are subverting American democracy.

Sen. Paul was right to block approval of Montenegros accession to NATO: that country is the perfect backdrop for an international incident that would drag us into a conflict with Russia. In accusing Paul of working for Vladimir Putin, McCain is limning the tactics of Djukanovic, who is busy framing up and arresting his political opponents on similarly phony charges.

The alleged Russian agent Mike Flynn, forced to resign as National Security Advisor because of his nonexistent ties to Moscow, reportedly recommended that the Trump administration approve Montenegros bid to join NATO. I guess he didnt get his directive from Putin in a timely manner. On the other hand, the Montenegrin opposition is petitioning Trump advisor Steve Bannon to urge the President to veto it.

Montenegros accession to NATO would plant yet another tripwire that could easily lead directly to a collision with Russia. At the very least it would cause substantial internal turmoil in the country, perhaps ending in an all-out civil war such as happened in Ukraine.

President Trump was right when he said during the campaign that NATO is obsolete. It is also dangerous in that it pledges us to go to war in defense of member nations. With Turkey, a NATO member, moving rapidly into Syria, and now face-to-face with Russian and Syrian soldiers, and with British troops now entering Estonia, where a make-believe Russian threat is supposedly being thwarted, our membership in NATO could very well drag us into a conflict on two fronts.

How is this putting America first?

NOTES IN THE MARGIN

You can check out my Twitter feed by going here. But please note that my tweets are sometimes deliberately provocative, often made in jest, and largely consist of me thinking out loud.

Ive written a couple of books, which you might want to peruse. Here is the link for buying the second edition of my 1993 book, Reclaiming the American Right: The Lost Legacy of the Conservative Movement, with an Introduction by Prof. George W. Carey, a Foreword by Patrick J. Buchanan, and critical essays by Scott Richert and David Gordon (ISI Books, 2008).

You can buy An Enemy of the State: The Life of Murray N. Rothbard (Prometheus Books, 2000), my biography of the great libertarian thinker, here.

Read the original:
McCain and Montenegro: The Anatomy of a Conspiracy Theory by ... - Antiwar.com

Anatomy

Grey’s Anatomy: Caterina Scorsone Is Just as Frustrated with Amelia as Fans Are – TV Guide (blog)

Now Playing Grey's Anatomy: Caterina Scorsone Wants Fans to Keep Rooting for Amelia and Owen

For Grey's Anatomy fans who have been frustrated by Amelia (Caterina Scorsone) essentially going into hiding after suddenly leaving her husband Owen (Kevin McKidd) with a Dear John letter earlier this season, you're not alone.

"I feel you. I feel you," Scorsone empathized, when TVGuide.com caught up with her at the PaleyFest Grey's Anatomy panel this past weekend. "There are so many layers to her, and I think Owen is maybe not the easiest person to talk to all the time."

The tension between Amelia and Owen will come to a rather unpleasant head on this week's episode, when they're forced to work together on a medical case. But the nail might not be in the coffin of their relationship just yet, and Scorsone is hoping that fans haven't given up on the relationship -- because she hasn't.

Grey's Anatomy: Justin Chambers weighs in on the Jo vs. Meredith debate

"I'm rooting for you guys to keep rooting for us," she tells us.

Check out the interview to see what else Scorsone says we can expect from Amelia and Owen this season.

Grey's Anatomy airs Thursdays at 8/7c on ABC.

(Reporting by Megan Vick)

Original post:
Grey's Anatomy: Caterina Scorsone Is Just as Frustrated with Amelia as Fans Are - TV Guide (blog)

Anatomy

Anatomy Of A Decision, Part 1: The C-Suite – Benzinga

Professional networking leader GLG has produced a new series of videos focused on decision making in the business world. As part of the series, GLG has interviewed a number of business leaders to ask about what considerations go into making important decisions.

In the first installment, GLG speaks with former Pfizer Inc. (NYSE: PFE) CEO Jeff Kindler.

Kindler said a key ingredient in his meteoric rise was an open mind.

I started saying I should be open to whatever comes along, Kindler said. And that led me down all kinds of different paths I never would have predicted.

Kindler joined Pfizer as the pharma giants general council, but he admits that he had always had ambitions to be CEO. Once he assumed the role, he was presented with an opportunity to work with former President Barack Obama on the Affordable Care Act (ACA).

Kindler said many of the provision being discussed at the time were politically polarizing but would have been universally bad for the pharmaceutical industry. Rather than fight the change, Kindler and a handful of other pharma CEOs decided to take a more constructive approach.

We formed a small group of five of us who were CEOs of different companies in pharmaceuticals with different interests and a different focus, and we decided that within the right boundaries, if we could achieve acceptable policy solutions, we would support the bill, Kindler recalled.

To this day, there are people who dont like what we did, even within the pharmaceutical industry. But my view is I got attacked by both the Wall Street Journal and the New York Times editorial page, and I think when that happens you know youre in the sweet spot.

Kindler sees his participation in the process as a valuable lesson in the power of compromise. While the pharmaceutical industry made a number of financial sacrifices as part of the process, he and his colleagues were also able help shape the bill to maximize potential industry benefits.

Kindler said the success of Obamacare to this day depends on perspective. In terms of increasing health insurance coverage, the program was a complete success. In terms of fixing the underlying problems of rising healthcare costs, Kindler believes Obamacare hasnt delivered.

He closed the interview by discussing one key regret he has about his time as CEO.

I think I fell prey to something thats in human nature, which is I didnt block enough time for personal development. I think a lot of [people] that are Type A personalities end up in big jobs, and theyre so focused on both the fact that they have achieved that and the things that they need to do on it that they just dont pay attention enough to the things that are of long-term importance.

Kindler said time management, prioritization and mentorship were three of the biggest challenges of such an important professional role.

Related Link:

6 Outsider CEO Hires That Flopped

Posted-In: Anatomy of a Decision Barack Obama GLGNews Education Management Media General Best of Benzinga

2017 Benzinga.com. Benzinga does not provide investment advice. All rights reserved.

Original post:
Anatomy Of A Decision, Part 1: The C-Suite - Benzinga

Anatomy

‘Grey’s Anatomy’ star joins rally for LGBTQ equality at Texas Capitol – KEYE TV

Former "Grey's Anatomy" star Sara Ramirez spoke out for LGBTQ equality in Texas at the Capitol on Monday. (Photo: CBS Austin)

Actress Sara Ramirez, star of ABC's "Grey's Anatomy," joined groups rallying for pro-LGBT equality at the Texas Capitol on Monday.

Ramirez was joined by members of the Texas LGBTQ and faith communities, along with representatives from the ACLU of Texas, Equality Texas, Human Rights Campaign, Texas Freedom Network, and Transgender Education Network of Texas.

In a speech, Ramirez took aim SB 6, Texas' so-called "bathroom bill," calling it "a solution in search of a problem."

Demonstrators gathered to advocate for policies that would "improve the lives of LGBTQ Texans and to speak out against legislative proposals that would amount to state-sanctioned discrimination."

Read more:
'Grey's Anatomy' star joins rally for LGBTQ equality at Texas Capitol - KEYE TV

Anatomy

‘Grey’s Anatomy’s Jesse Williams & Sarah Drew on That Japril … – Entertainment Tonight

There might be hope for Jackson Avery (Jesse Williams) and April Kepner (Sarah Drew) after all!

Last week's episode of Grey's Anatomy saw the divorced pair open the door for a rekindled romance with a sexy hookup while in Montana on a case -- where they also met Jackson's estranged father (Eric Roberts). While the couple's future is still uncertain, Drew assured fans at PaleyFest on Sunday that Japril will always be together -- whether romantically or otherwise.

RELATED: 'Grey's Anatomy': Jackson Meets His Father and Reunites With April -- Are They Back Together?

"I think the main takeaway from that experience in Montana is that these two people... there's so much love there, there's so much respect there. They know each other so well," Drew said during the Grey's Anatomy panel. "Whether it continues and moves towards romance or stays platonic, we know for sure that these two are going to be okay, and that they're always going to depend on one another, and they will always be one another's person."

"At the end of the day, who knows [what will happen]?" she added.

Williams also commented on the pair's connection, calling April Jackson's "best friend."

"He has a great support system and an absolute failure in the same experience," he shared of the tense scene when Jackson comes face-to-face with his father. "He's doing it with the full support of his person, his best friend, April Kepner."

EXCLUSIVE: Sarah Drew on Juggling Greys Anatomy With Motherhood, Her TV Twins & Future of 'Japril'

"I was excited [for the scene]. It's been a big cloud over the character for his entire life, and my entire career playing him," Williams confessed. "It's been like, a big gaping hole, so being able to fill that in with a human being, with a person you can make eye contact with and ask all these questions... was a very exciting process."

"I really prepared myself by making sure I went over and understood my timeline, and what this character has been through, but also I was just really laid the table to be able to listen and be honest in the moment," he added.

Williams and Drew shot the episode on location in Montana, with Kevin McKidd (Owen Hunt) directing.

"We went off with Kevin to shoot episode 16 while all the rest of these guys were shooting episode 10 or 11, so we were shooting with the Scandal crew. We were working with a completely different crew, in a completely different set, on location. We were in the mountains," Drew revealed. "It really did feel like we were shooting a movie. It was really neat to get the chance to kind of get out of the hospital and follow just one specific story all the way through to the end, because we got the opportunity to really take time to listen."

"So much happened in the silence in that episode, which we just don't have the luxury for when we're servicing so many different storylines," she said. "So it was really amazing."

Photo: Getty Images

RELATED: Jesse Williams Slams Hollywood Whitewashing: 'The More Diverse a Movie Is, the More Money It Makes'

"I was so proud of Jesse and Sarah, and everyone... the work that we did," McKidd offered. "When I read that script, I wanted it to feel like an independent movie -- a really high end, quality independent movie. That was my approach."

"I really encouraged the actors to just breathe," he added, "and I think it turned into something beautiful."

While Jackson and his father hashed it out on Thursday's episode, there's clearly much more to the pair's story -- which Williams said he "would love" to explore.

"I really hope so, not just selfishly, for being able to work with such an incredibly talented actor [in Roberts]," he said. "I would love to. I think there's a lot left to do there."

RELATED: 'Grey's Anatomy,' 'Scandal' Picked Up for New Seasons

"We've planted a lot of seeds this season -- and that's one of them -- that resonate in a lot of ways," added Debbie Allen, who executive produces the series in addition to starring as Jackson's mother, Catherine Avery. "But there's more coming."

As for Williams and Drew's relationship in real life, the 35-year-old actor said it's "much more stable" -- though Ellen Pompeo and Justin Chambers arguably had the most chemistry on stage, as Chambers sweetly gave up his coat for his shivering co-star.

"We don't fight, and it's really helpful. I think that generally, it's a really lighthearted set. We crack a lot of jokes and have a lot of fun and try to save the drama for what's on screen," Williams admitted. "We're carrying that with us for weeks at a time to deliver, to serve it up to you, so it's a lot of heavy weight, a lot of drama, and drama that we're trying to figure out how to articulate for you. So we try to keep it light."

EXCLUSIVE: 'Grey's Anatomy' Stars Jesse Williams and Sarah Drew Say Jackson and April Will Find 'Happiness'

See original here:
'Grey's Anatomy's Jesse Williams & Sarah Drew on That Japril ... - Entertainment Tonight

Anatomy

Where the Dead ‘Grey’s Anatomy’ Docs Would Be Now If They Were Alive – Wetpaint

}rUu-{,[-we)>+jM h@j?y:jc$_2k)wlGE/ x 67w={z?q|q`p as*ZlKy8+W^pqG?ka^]o"WT.oL=J }U Rgk"[SsfOx$E|H#dMk?=icw #cCg3DxYI]0v{r[>aOqBnrO6)"z"=?c<=AbO4@7zEB!wiE ^[$?},?G9r=AQl'1Tj,Tel{P_;A= * #pA],leR00-s8&#Cn]S/ f8 6;I7AF'`p/Y%cgV4F(PM"-WZHq!hqFX2 c}$f%{8#x<;B@r$glBDHN8/X02"%p9pcBO)@AAHv$%!sDv,# % pBU !C3U5FMN7R^v 1yD2d k0o'9v#1XVEKDrTL{7L+ap)#nac>;`/kQkdF7@2+Iad]3uNA[]hz{WW]gM_Z_JrsA+6hD&SNM -A5lER^Psv'${" YmR O;6[98ZSvm `M/s-zpo3H1;t{ c'w_qdr(. =2 .h/+. N0xBhr`=)9RXR/l;/ #[Jj `!{WFJA;z V9DZa$xD.H=Y[.xE9*fl`zcVC_nMZHw+'853^~>kRH[O|bZbIEU,4W7#;ylLKy~#;..c*TNlP"-mf1{Q,z3(! rwuwN3v?U;a?D{?fbZu|&rrGc|yz{=~x x7uk ciCy7wi3d pz(]lULvjlQ5 Ul 1=w;lw`h[ZxI011^1!oB`ZgM")jd:<{>* A5SiBwSr6$oV_ynI%7VIVmkRP;mC=AUZWU;U{e*$ G?EA#sBR sv1cAw%>f'Rp8#L)*wIgw/E[Aqh82PBCf`.7&c+I`3vNqX+Rx4JrQNi|K f9JgP(p FQVk4M`a},.gzJcoUsV5PX&kCaru>b.`jE5Y-FiY1qV4XFd i4eUZ-*@Yv/hfUMS7: O(X2i6; &|pqCVWFZAdgVhY6tvgul}GovMA=}j5a.-f|^-[;EmAmhJKlz`}fk^`hiis^(Z[l]D"n254`'#RmU4zDLnnT+qSy:@dL+s[BT F$I$L8=(@(jf r$_~oXeBr>OV|joq`1 s6tCJVjoetm@^qlr4G!JS;+Y :wJ?ogzW.): pZ{{8R %=Xc7XDS# kd_LcTxpHLv|p h;|,MWZ9AST 9b8,KPej %JI7LDYYHq9j I ^K49R{e3}jU V$r5;J)3"

xwG <#)2nQimFRVmfX`dTQ@lp>tt1.>z=OS4Bh4XYQZhy=xi4z5JuU^ b"y

2_+)ND4=A`xNmpwpS&Wo4,gOr4B;7#QE}UuW6Y> cNVhMD+k-7&F:yAiV!zV^vZif4+4Z94j{qeLi4oeM}PKY(P,[$%)*)BhJb4$H1""Qi1jcWP7]Krj,DF$l02~h)TRKX jcjPK2gtXWTrhs`0|w}C%,6.UgJib(C7:AM7v`jr>_Je5)Zu(8]2fl<5/%$5.pw;`qeDkr||: a2ofs 1 Sf+6*E$luGb=4K6yjBQ^2.NAU& e7*=ppy84|=P zhNWQYRiSi*(s_}:{S[ErCIBUJ<%[2b t>.AA4h@4 #f^Rh5+*-|Up- pU}usi=iQiJ_LUItG QHF 3WZJKd+2#p(.(EAliQ9@:m~6y!w*^<}H}I?b6kwTnX7>{~Xvj/qSJ'W ^AXmn b*OSI#!~Si-{*)5D&66V&dyaZLM": D^X*Z.l'?S f5E|KX)5~cW-^5Q%mb@@*J 3YM(]K5fR2RAv i"[GTBHz"'f.6S_cPzEv.xTub3T?L#8-x=k^yx|2$RQ6{9Rk1+-U$XQuUzW!$QMLG}dtnE*g8|3z85s'4D'qz9e*NWRJ/+I"e>]n%h*U) S N(%$f5esHhZV?SA01W8W[ =>VXUkLoTo >=A^&y5Kkxyak6;julL,kZ4kTfpGFM3nvmJt4|iHA1KT>5:I~mRu~J@BU 69xtQC;>JAu0SG}d>FQvG}dmS mLWSri+SI%5v2-/.,mC>@r *^WC=d,-+P,%Cfm*Gt+!%$zP6TKBCWXJsB"HS d8JU&CT)(X#8iK $ Z` (bJRT^(I{dam`Sp(q411v _wp?FwS?g.y@kQ,V4Zix33@T`? M^g1vh^ng;l FzLgW?=|5Vuj=:yx^4[^Htb{TPy<&x7vism0$<+qfT#KO6yd:0vy;{`fPzvhg08Q cp)>aLva8 V.'$Y'gP"[ob2P |,}i2MUF1"..&pxyj+lO.gG |z){kK]3)P`gBPE#;0%HNQIjW TU@"OTW,b$ab8'(ZEc4UB*Rf`It&o0KU||qq#X~#i}bZZA=G 5#'U'y*rbAy QC*_@N6#uQRdn-JZR)-L+6V&@`/AQ@3gV@jMR~,u]}v,J,[ IUR)kvGY:4Wya ec`J m}c0E%da8PKpZ^q]VzVsJhV uePFt9B4E/&t:5AAh=#|nfI$`3uf$H`v0:U-`u9"x2Fkr.TzB# f B?DQV+&4*qP[zrTNX^#[%#,)Ky7[5yZ[Vam-DVK9_lT|,(JokPj/se.3.O+,||E (n P70y[ayB]x_A+*g44hULe[t$evgN]<; .c]u& 8LZbOLLJ_Gi3(]`k8)1xBr-A NrM(knbW_n|YrKW9n}Igg]fpL2MIE. s idR#wcG~2;x:YGqp'P'M^C&BJ+`+7h33|7>6M qLz-D~lcW@u$Y_8L{K_v6`av>c_vn5M57o"YOiyx7W{;Wzt$tR:>24oCOC1).1<* tr1m=z-96:_!EK3|u/Rb+|Qnf~v6ZrH1 p gmQn_}Ve O ~8`BS.s}7qMGG*d?4@- TNB)KbB}6CsZLViKJo,+ x&}3&=ob _g~p g,c0 Z7Pv@%~Rq<2]JN86qz~}`.yds$;>dr_sY :6=xNGK 6`>;+)D0 3L*U?7y$4mHVyc*+.'"xR1A# KoaP{g-gl:(GO As{?uT STu$nR@^r{P}ESMc{BN{o&Qpcdz"!_}$EIdw_zz>tci;4?T}]L7?5n77?#bC-5VpQ&+.HDRV),}Y+3fka4J SSbl^iP (')[zV~"R7~c'8"X%o0<;I1HU`:r1xKdFNM#24di>*=-)leXgQ (6E/ Gu fTb M/Kcs=$wr<,'9ivb~iYZQ%H+=a`R4hbgL %+Se"K'wfm=m>jV!Ca'^!k>?q3,w]N=_V52u]oACapy/g6s04tj[][gFAf>57f{u~kV-X~ W-`NN%t!LxZL IiB fZ=7 DD# oP};nDHPj|E~4<4&`h|28N[Z>>}z-{fS? ly-?0>@{7Hqv[?y0[OkC(!@6c 4x#!.0DusZ2Y?@FWm*Gt`kXN':@A ` jFmiU,O-MhWT(xiB>YM4+d(A Z` (@Y[5{BWw,@ lJ>s'6rKf`;X~"`A}6dC|XQ$=w3h> "jrlv02fzl4HD>k2'fe6#S02-=a7^|@[ oC6- WM LDWqiu*QI"rm-C9)I$} pQeq a9{-J- Cs$i^u9v$OX5ZX7An)!G5^[A(4pC^u:!}g,Qo^ uT8|(nTEEX "DmKowG#|c65Z5F- >OTtI^sqcm^dS_,]GGR/)B&KF% ZDGW,D8v8f8vqZc1k!b8z(jJ[FaF[+*bqk1St5Xl? wH;P/r}XPFmDs*yL&igo]c`Y>C[~7*k2]Gc!S,rk?7]ut5=#p} Ye-K{"V`)S[|ez3F6L,+jh.9#scpvzn{x`L4AF3Z#shih<R'$J1L7LIm0(#1^emb t FVLau6XXHpu7Zw@'R`(?84OYQlQQ<@_H5WNT ;{ULRO=&[hkl,t8pzL }7W`8co_i yxC1eijq_y

The rest is here:
Where the Dead 'Grey's Anatomy' Docs Would Be Now If They Were Alive - Wetpaint

Human Behavior

Go inside an abandoned Iowa prison full of beauty, sadness – DesMoinesRegister.com

This is a 360 video experience. Use your mouse or the arrow keys on your keyboard to see the entire 360 view.

Take a 360-degree video tour inside the former Iowa State Penitentiary at Ft. Madison with Ret. Lieutenant Judy Milks. Brian Powers/The Register

Judy Milks worked as a lieutenant at the now closed Iowa State Penitentiary at Fort Madison for 16 years. She was the prison's first female lieutenant. Here she poses for a photo in the prison's gym.(Photo: Brian Powers/The Register)Buy Photo

FORT MADISON, Ia. Leonard Harveyspent a lot of time in the dark, narrow crevice behind inmate cells. It was a favorite tactic of unruly inmates to plug a toilet and flood their cell. Harvey, plant operations manager at the Iowa State Penitentiary,navigatedthe walkway behind the cell to get at the plug. When aninmate heard the pipe uncapped, he flushed and sent fluidsflying, usually on a new hire who didn't know better.

This was worse than getting spit at, another inmate favorite.

Lacking freedom, they used body fluids as weapons.

The stories of darkness and mystery are rich at the oldprison, its first stones laid before Iowa was a state. At lastit sits entirely empty, themedical wing closed a couple weeks ago, leaving it a relic of human behavior and structures to correct it. And now a group is trying to save it.

Only wind whips through the prison yard where the most violent of criminals at the maximum-security fort once did sit-ups inside chain-link exercise cages. Stone walls surround the vast emptiness, razor wire shining in the sun, and corner battlement towers are vacant of trained weapons specialists who for 178 years watched inmates below.

Here, near the banks of the Mississippi River in Fort Madison, a historical group of structures begins its deterioration while the state pays $1,000 a day to keep the utilities running and its grounds secure.

Some inmates housed in the new prison for men that opened in 2015 would love to see the old hellhole crumble down, said Judy Milks, a retired prison lieutenant who was part of a group to take us inside the walls last week.

She does not.There is too much history here in the structures, some dating to 1839 andon the National Register of Historic Places, too many stories of inmates and guards who lived, worked and died in what was the nation's oldest continuously operating prison.

Autoplay

Show Thumbnails

Show Captions

Milks is part of the nonprofit Historic Iowa State Penitentiary, a group that is trying to save the prison and potentially create a museum andtourist attraction as they have in prisons in other states.

Somebody needs to come along with some money to do it. So far that isnt happening.

As we venture into the nooks and crannies of a place that might give some people the willies, its as if the last renters had just upped and moved out, leaving toilet paper rolls on metal bunks and scrawled messages on cell walls.

This was their whole world, Milks said. They never got outside these walls, unless they went to Iowa City for medical care.

The new place has no stories, added Patti Wachtendorf, who started work here in her 20s and was named the penitentiarys first female warden in 2017.

This old place has stories, she said. I can almost hear them walking around, all the noises.

Words scribed into a cell wall at the closed Iowa State Penitentiary at Fort Madison.(Photo: Brian Powers/The Register)

The first exterior limestonewall of ancient cell block17 has grown light with age. Back in 1839, prisoners helped construct it, and guards dug holes in the ground for them to sleep at night, said Jean Peiton, a volunteer with the nonprofit, whose mission is to save the prison for education, economic and historical purposes.

At the time, new incarceration methods were spreading nationwide, called the Auburn system. Instead of prisoners being held in large rooms before paying a fine or facing flogging or execution, the system was designed to reform prisoners with strict habits, silence and discipline while separating them into private cells at night.

A four-tiered block of cells center the stone walls, flanked by a cement walkway called a range, which correctional officers patrolled, often ducking thrown objects and insults. Most cells are roughly six feet wide, twice as long, and contain a solid metal bed frame attached to the floor and walls, a sink, toilet and two metal plates attached to the wall that act as a desk and chair.

On the toptier, another cell became famous among guards. A prisoner had painted a large frog around a sink inits open mouth. New guards were often told to find the frog to really know the prison.

New officers were often told they have to find the lizard and the frog at te closed Iowa State Penitentiary at Fort Madison on Wednesday, March 8, 2017, in Fort Madison. The lizard was built into an exterior wall in one of the original buildings and the frog was painted by an inmate in their cell.(Photo: Brian Powers/The Register)

Behind the block of cells is a metal utility walkway where Harvey did his plumbing. Wachtendorf said correctional officers used to quietly stand back there and listen to inmates talk. You can learn a lot, she said.

To the east of the oldest structureare cell blocks 18, 19 and 20, built in the Romanesque Revival style from 1913 to 1942, listed on the National Register of Historic Places.

Historically significant structures that are owned by the state must be maintained, per Iowa Code. Tearing them down may be difficult.

The nonprofits first step in its preservation is an environmental assessment that costs from $120,000 to $180,000 before deciding what buildings could be used for ahistorical attraction, education and even small business opportunities.

The group has asked the state to fund it. With budget shortfalls at the state and the Iowa Department of Corrections, Wachtendorf said the money just isnt there.

But we need to preserve this history, she said.

Entering cell block 19, Milks had visions of her past work life here.

One of the old cell blocks at the closed Iowa State Penitentiary at Fort Madison.(Photo: Brian Powers/The Register)

It was bedlam, she said. I liked the excitement.

They called them cons for a reason. I was 50 when I started; Im 70 now. They thought they could get something over on me. Being around a while, they couldnt. Its the only way you got respect around here.

She had to quit looking up their crimes.

Baby rapers, mom killers. I had one inmate who took his mother out to eat and then killedher, she said. He loved to talk about it.

The stories behind the historical walls tell not only of correctional methods but those of men and their crimes, the group said. The old timers who lived half a century here and died. The communities that formed within the walls. The practice of religion and the moments of human decency that accompanied the deviant behavior.

Thats why Mark Fullenkamp is involved. The web director at the University of Iowa grew up in Fort Madison. His mom worked at the prison and ordered the last hanging rope in 1963. When he knew it would soon close, he toured the facility and found old wooden boxes filled with glass-plate negatives of prison mugshots dating back 150 years. He has tirelessly embarked on a preservation of those mug shots ever since, as well as compiling written and oral histories of the inmates.

Photo negatives create snapshot of prison's past

The reverse of the decades-old negative at right produced the image above of an Iowa inmate. Mark Fullenkamp has inverted and digitized more than 11,200 glass-plate negatives.(Photo: Special to the Register/Mark Fullenkamp)

The group has studied preservation efforts at penitentiaries in Pennsylvania, Missouri and Ohio. The old Mansfield, Ohio, prison has been a popular attraction because of the movie The Shawshank Redemption. Others, such as the prison in Jefferson City, Mo., have used ghost tours to help make money to maintain it.

The ghost hunters are all after them, Fullenkamp said. They show up at meetings with T-shirts from paranormal groups.

None in the group want to go down that road.

You have a lot of families of people who lived here or who were victims of the people who lived here, so we need to do it respectfully, Wachtendorf said. People died here. People lived here. This isnt a joke.

As we exit the cell block, toilet paper balls are still stuck 10 feet high on the walls across from the cells. Prisoners had wet them or peed on them to toss on the walls, a sort of mummified parting message to the old place.

The exercise cages at the closed Iowa State Penitentiary at Fort Madison.(Photo: Brian Powers/The Register)

Into the next cell block, 20, we stand inside a tight cell. Even without the front barsclosed, the walls close in quickly.

On one wall, an inmate had painted the Hawkeyes logo of the University of Iowa. This is where Milks stands to tell her stories.

She had to call for forced cell extractions byofficers with shields and stab-proof gear. She had to take down a man who had hanged himself.

The inmates took to calling her Eva Gabor when I was 50 pounds lighter and 20 years younger, she said. She got sick of it because every time she came on the range, they all started whistling the theme from Green Acres, an old TV show Gabor starred in. One day, she demanded they call her Phyllis Diller, a comic and actor popular in the 1960s that only the old lifers knew. Somehow it stuck.

She could get along with them with BS and not taking crap. One day when an inmate in a top tier began yelling brutal sexual insults at her, she walked to the middle of the range in full view of the cells, spread her arms wide and leaned back to yell with a wicked smile: Now this is prison!

They all laughed, even the guy yelling the insults, she said.

God I love this place. Isnt it awful?

In the theater, Fullenkamp said he recently found a receipt for what he considers the last movie shown there, Death Games, about an inmate using martial arts to clean up a corrupt prison. More importantly, the Art Deco seatsand historical nature of the 1930s-era U-shaped structure that also housed the chow hall are in peril.

The theater sits silent in an 1930s-era building that was damaged in a 2015 storm.(Photo: Special to The Register)

Its deteriorating with a roof problemand window damage from a 2015 storm.

The group Preservation Iowa has the penitentiary on its 2017 list of most endangered properties.

The city doesnt want it, the state doesnt want it, but people in these rust belt towns need something, Fullenkamp saidof one of Iowas most economically struggling counties (Lee). I think we are opening minds. At first, people said you cant do anything with that place. Then you see them thinking about it.

Go into a bar around here at 1 a.m., added Harvey, you hear all kinds of ideas.

Historical photographs tell many stories. Fullenkamp has ideas of projecting inmates historical photographs on cell walls with an audio oral history for tour groups. There are stories of the 1981 riot, when inmates took over the prison, orthe 2005 escape, when two inmates fashioned a makeshift rope out of upholstery fabric and used to it climb over razor wire and leap from the stone walls, only to be captured later in nearby states.

There are the hanging gallows, right on the southeast corner of the prison walls, where Fullenkamp saw the photo of ahangmans lowered head as he preparedan execution.

A crowd gathers at the Iowa State Penitentiary at Fort Madison before the Nov. 24, 1922, hanging of Orrie Cross, who had slain Des Moines grocer George Fosdick.(Photo: Register file photo)

We stand there quietly looking at the cornerwhere people far and wide came, even onriver boats,to watch men hang.

Its the unknown, Peiton said of the appeal inside these walls. Wondering how one survives in little cages. The vast aura of despair and occasional enlightenment of the men who lived here.

A section of the now closed Iowa State Penitentiary at Fort Madison that was once used for hangings .(Photo: Brian Powers/The Register)

The ring of an old sweat lodge that native Americans used outside the chapel attests to past hopes. Those inmates, said the prison officials and preservationist on the tour, were not always the monsters portrayed in film. They could be normal, absentdrugs or alcohol, or with medication for a mental illness.

I stood there talking to these guys like Im talking to you,Harvey said. Its not like on TV, all those popular prison shows now. But I have to admit, I go home and watch them, and Im in here living it every day. Doesnt make sense.

Many of the old inmates who fiercely protected their routines, playing dominoes on the tables aside the gymnasium floor, have passed on. The young guys who played basketball have staked out their territories in the new prison.

All thats left here is a lot of emptiness, not a sound for the first time in 178 years.

Read or Share this story: http://dmreg.co/2nbz8Aw

Original post:
Go inside an abandoned Iowa prison full of beauty, sadness - DesMoinesRegister.com

Genetics

Cancer Genetics Overview (PDQ)Health Professional Version …

Introduction

[Note: Many of the medical and scientific terms used in this summary are found in the NCI Dictionary of Genetics Terms. When a linked term is clicked, the definition will appear in a separate window.]

[Note: A concerted effort is being made within the genetics community to shift terminology used to describe genetic variation. The shift is to use the term variant rather than the term mutation to describe a difference that exists between the person or group being studied and the reference sequence. Variants can then be further classified as benign (harmless), likely benign, of uncertain significance, likely pathogenic, or pathogenic (disease causing). Throughout this summary, we will use the term pathogenic variant to describe a disease-causing mutation. Refer to Table 1, Variant Classification for Pathogenicity for more information.]

The etiology of cancer is multifactorial, with genetic, environmental, medical, and lifestyle factors interacting to produce a given malignancy. Knowledge of cancer genetics is rapidly improving our understanding of cancer biology, helping to identify at-risk individuals, furthering the ability to characterize malignancies, establishing treatment tailored to the molecular fingerprint of the disease, and leading to the development of new therapeutic modalities. As a consequence, this expanding knowledge base has implications for all aspects of cancer management, including prevention, screening, and treatment.

Genetic information provides a means of identifying people who have an increased risk of cancer. Sources of genetic information include biologic samples of DNA, information derived from a persons family history of disease, findings from physical examinations, and medical records. DNA-based information can be gathered, stored, and analyzed at any time during an individuals life span, from before conception to after death. Family history may identify people with a modest to moderately increased risk of cancer or may serve as the first step in the identification of an inherited cancer predisposition that confers a very high lifetime risk of cancer. For an increasing number of diseases, DNA-based testing can be used to identify a specific pathogenic variant as the cause of inherited risk and to determine whether family members have inherited the disease-related variant.

The proportion of individuals carrying a pathogenic variant who will manifest the disease is referred to as penetrance. In general, common genetic variants that are associated with cancer susceptibility have a lower penetrance than rare genetic variants. This is depicted in Figure 1. For adult-onset diseases, penetrance is usually described by the individual carrier's age and sex. For example, the penetrance for breast cancer in female carriers of BRCA1/BRCA2 pathogenic variants is often quoted by age 50 years and by age 70 years. Of the numerous methods for estimating penetrance, none are without potential biases, and determining an individual carrier's risk of cancer involves some level of imprecision. EnlargeFigure 1. Genetic architecture of cancer risk. This graph depicts the general finding of a low relative risk associated with common, low-penetrance genetic variants, such as single-nucleotide polymorphisms identified in genome-wide association studies, and a higher relative risk associated with rare, high-penetrance genetic variants, such as pathogenic variants in the BRCA1/BRCA2 genes associated with hereditary breast and ovarian cancer and the mismatch repair genes associated with Lynch syndrome.

Genetic variants, or changes in the usual DNA sequence of a particular gene, can have harmful, beneficial, neutral, or uncertain effects on health and may be inherited as autosomal dominant, autosomal recessive, or X-linked traits. Pathogenic variants that cause serious disability early in life are usually rare because of their adverse effect on life expectancy and reproduction. However, if the pathogenic variant is autosomal recessivethat is, if the health effect of the variant is caused only when two copies (one from each parent) of the altered gene are inherited carriers of the pathogenic variant (healthy people carrying one copy of the altered gene) may be relatively common in the general population. Common in this context refers, by convention, to a prevalence of 1% or more. Pathogenic variants that cause health effects in middle and older age, including several pathogenic variants known to cause a predisposition to cancer, may also be relatively common. Many cancer-predisposing traits are inherited in an autosomal dominant fashion, that is, the cancer susceptibility occurs when only one copy of the altered gene is inherited. For autosomal dominant conditions, the term carrier is often used in a less formal manner to denote people who have inherited the genetic predisposition conferred by the pathogenic variant. (Refer to individual PDQ summaries focused on the genetics of specific cancers for detailed information on known cancer-susceptibility syndromes.)

Increasingly, the public is turning to the Internet for information related both to familial and genetic susceptibility to cancer and to genetic risk assessment and testing. Direct-to-consumer marketing of genetic testing for hereditary breast and colon cancer is also taking place in some communities. This wider availability of information related to inherited cancer risk may raise concerns among persons previously unaware of the implications inherent in their family histories and may lead some of these individuals to consult their primary care physicians for management advice and recommendations. In many instances, the evaluation and advice will be relatively straightforward for physicians with a basic knowledge of familial cancer. In a subset of patients, the evaluation may be more complex, calling for referral to genetics professionals for further evaluation and counseling.

Correctly recognizing and identifying individuals and families at increased risk of developing cancer is one of countless important roles for primary care and other health care providers. Once identified, these individuals can then be appropriately referred for genetic counseling, risk assessment, consideration of genetic testing, and development of a management plan. When medical and family histories reveal cardinal clues to the presence of an underlying familial or genetic cancer susceptibility disorder (see list below),[1] further evaluation may be warranted. (Refer to the PDQ summary on Cancer Genetics Risk Assessment and Counseling for more information about the components of a genetics cancer risk assessment.)

Features of hereditary cancer include the following:

Concluding that an individual is at increased risk of developing cancer may have important, potentially life-saving management implications and may lead to specific interventions aimed at reducing risk (e.g., tamoxifen for breast cancer, colonoscopy for colon cancer, or risk-reducing salpingo-oophorectomy for ovarian cancer). Information about familial cancer risk may also inform a persons ability to plan for the future (lifestyle and health care decisions, family planning, or other decisions). Genetic information may also provide a direct health benefit by demonstrating the lack of an inherited cancer susceptibility. For example, if a family is known to carry a cancer-predisposing variant in a particular gene, a family member may experience reduced worry and lower health care costs if his or her genetic test indicates that he or she does not carry the familys disease-related variant. Conversely, information about familial cancer risk may have psychological effects or social costs (e.g., worry, guilt, or increased health care costs). Family dynamics also may be affected. For instance, the involvement of one or more family members may be required for genetic testing to be informative, and parents may feel guilt about passing inherited risk on to their children.

Knowledge about a cancer-predisposing variant can be informative not only for the individual tested but also for other family members. Family members who previously had not considered the implications of their family history for their own health may be led to do so, and some will undergo genetic testing, resulting in more definitive information on whether they are at increased genetic risk. Some relatives may learn their carrier status without being directly tested, for example, when a biological parent of a child who is a known carrier of a pathogenic variant is identified as an obligate carrier. Founder effects may result in the recognition that specific ethnic groups have a higher prevalence of certain pathogenic variants, knowledge that can be either clinically useful (permitting more rational genetic testing strategies) or potentially stigmatizing. Testing may reveal the presence of nonpaternity in a family. There is the theoretical possibility that genetic information may be misused, and concerns about the potential for insurance and/or employment discrimination may arise. Genetic information may also affect medical and lifestyle decisions.

Refer to individual PDQ summaries for available evidence addressing all ancillary issues.

Genetic counseling is a process of communication between genetics professionals and patients with the goal of providing individuals and families with information on the relevant aspects of their genetic health, available testing and management options, and support as they move toward understanding and incorporating this information into their daily lives. Genetic counseling generally involves the following six steps:

Genetic evaluation involves an interaction with a medical geneticist or other genetics professional and may include a physical examination and diagnostic testing, in addition to genetic counseling. The principles of voluntary and informed decision making, nondirective and noncoercive counseling, and protection of client confidentiality and privacy are central to the philosophy of genetic counseling.[1-5] (Refer to the PDQ summary on Cancer Genetics Risk Assessment and Counseling for more information on the nature and history of genetic counseling.)

From the mid-1990s to the mid-2000s, genetic counseling expanded to include discussion of genetic testing for cancer risk, as more genes associated with inherited cancer risk were discovered. Cancer genetic counseling often involves a multidisciplinary team of health professionals that may include a genetic counselor, an advanced practice genetics nurse, or a medical geneticist; a mental health professional; and various medical experts such as an oncologist, surgeon, or internist. The process of counseling may require a number of visits to address medical, genetic testing, and psychosocial issues. Even when cancer risk counseling is initiated by an individual, inherited cancer risk has implications for the entire family. Because genetic risk affects an unknown number of biological relatives, contact with these relatives is often essential to collect accurate family and medical histories. Cancer genetic counseling may involve several family members, some of whom will have had cancer and others who have not.

The impact of risk assessment and predisposition genetic testing is improved health outcomes. The information derived from risk assessment and/or genetic testing allows the health care provider to tailor an individual approach to health promotion and optimize long-term health outcomes through the identification of at-risk individuals before cancer develops. The health care provider can thus intervene earlier either to reduce the risk or diagnose a cancer at an earlier stage, when the chances for effective treatment are greatest. The information may be used to modify the management approach to an initial cancer, clarify the risks of other cancers, or predict the response of an existing cancer to specific forms of treatment, all of which may alter treatment recommendations and long-term follow-up.

Individual PDQ summaries focused on the genetics of specific cancers contain detailed information about many known cancer susceptibility syndromes. Although this is not a complete list, the following cancer susceptibility syndromes are discussed in the PDQ cancer genetics summaries (listed in parentheses after the syndromes):

The methods described in this section are intended to provide a brief background about the genetic analysis and discovery approaches that have been used during the past 10 to 15 years for identifying disease susceptibility genes. These methods led to important cancer gene discoveries such as BRCA1 and breast cancer risk. Since then, genetic analysis techniques have transitioned to next-generation sequencing methods as described in the Clinical Sequencing section of this summary.

The recognition that cancer clusters within families has led many investigators to collect data on multiple-case families with the goal of localizing cancer susceptibility genes through linkage studies.

Linkage studies are typically performed on high-risk kindreds, in whom multiple cases of a particular disease have occurred, in an effort to identify disease susceptibility genes. Linkage analysis statistically compares the genotypes between affected and unaffected individuals and looks for evidence that known genetic markers are inherited along with the disease trait. If such evidence is found (linkage), it provides statistical data that the chromosomal region near the marker also harbors a disease susceptibility gene. Once a genomic region of interest has been identified through linkage analysis, additional studies are required to prove that there truly is a susceptibility gene at that position. Linkage analysis is affected by the following:

An additional issue in linkage studies is the background rate of sporadic cancer in the context of family studies. For example, because a mans lifetime risk of prostate cancer is one in eight,[1] it is possible that families under study have both inherited and sporadic prostate cancer cases. Thus, men who do not inherit the prostate cancer susceptibility gene that is segregating in their family may still develop prostate cancer.

One way to address inconsistencies between linkage studies is to require inclusion criteria that defines clinically significant disease.[2-6] This approach attempts to define a homogeneous set of cases/families to increase the likelihood of identifying a linkage signal. It also prevents the inclusion of cases that may be considered clinically insignificant that were identified by screening in families.

GWAS are identifying common, low-penetrance susceptibility alleles for many complex diseases,[7] including cancer. This approach can be contrasted with linkage analysis, which searches for genetic-risk variants cosegregating within families that have a high prevalence of disease. While linkage analyses are designed to uncover rare, highly penetrant variants that segregate in predictable heritance patterns (e.g., autosomal dominant, autosomal recessive, X-linked, and mitochondrial), GWAS are best suited to identify multiple, common, low-penetrance genetic polymorphisms. GWAS are conducted under the assumption that the genetic underpinnings of complex phenotypes, such as prostate cancer, are governed by many alleles, each conferring modest risk. Most genetic polymorphisms genotyped in GWAS are common, with minor allele frequencies greater than 1% to 5% within a given population (e.g., men of European ancestry). GWAS capture a large portion of common variation across the genome.[8,9] The strong correlation between many alleles located close to one another on a given chromosome (called linkage disequilibrium) allows one to scan the genome without having to test all 10 million known single nucleotide polymorphisms (SNPs). With GWAS, researchers can test approximately 1 million to 5 million SNPs per study and ascertain almost all common inherited variants in the genome.

In a GWAS, allele frequency for each SNP is compared between cases and controls. Promising signalsin which allele frequencies deviate significantly in case compared to control populationsare validated in replication cohorts. To have adequate statistical power to identify variants associated with a phenotype, large numbers of cases and controls, typically thousands of each, are studied. Because up to 1 million SNPs are evaluated in a GWAS, false-positive findings are expected to occur frequently when using standard statistical thresholds. Therefore, stringent statistical rules are used to declare a positive finding, usually using a threshold of P < 1 10-7.[10-12]

To date, hundreds of cancer-risk variants have been identified by well-powered GWAS and validated in independent cohorts.[13] These studies have revealed consistent associations between specific inherited variants and cancer risk. However, the findings should be qualified with a few important considerations:

The implications of these points are discussed in greater detail in the PDQ summaries on Genetics of Breast and Gynecologic Cancers; Genetics of Colorectal Cancer; and Genetics of Prostate Cancer. Additional details can be found elsewhere.[18]

Broad-scale genome sequencing approaches, including multigene (panel) testing, whole-exome sequencing (WES), and whole-genome sequencing (WGS), are rapidly being developed and incorporated into a spectrum of clinical oncologic settings, including cancer therapeutics and cancer risk assessment. Several institutions and companies offer tumor sequencing, and some are developing precision medicine programs that sequence tumor genomes to identify driver genetic alterations that are targetable for therapeutic benefit to patients.[1-3] Many of these tumor-based approaches use germline DNA sequences as a reference to discriminate between DNA changes only within the tumor and those that are potentially inherited. In the genetic counseling and cancer risk assessment setting, the use of multigene testing to evaluate inherited cancer risk is becoming more common and may become routine in the near future, with institutions and companies offering multigene testing to detect alterations in a host of cancer riskassociated genes.

These advances in gene sequencing technologies also identify variants in genes related to the primary indication for ordering genetic sequence testing, along with findings not related to the disorder being tested. The latter genetic findings, termed incidental or secondary findings, are currently a source of clinical, ethical, legal, and counseling debate. The American College of Medical Genetics and Genomics (ACMG) and the Presidential Commission for the Study of Bioethical Issues have published literature that address some of these issues and provide guidance and recommendations for their use.[4-7] However, controversy continues about when and what results to provide to patients and their health care providers. This section was created to provide information about genomic sequencing technologies in the context of clinical sequencing and highlights additional areas of clinical uncertainty for which further research and approaches are needed.

DNA sequencing technologies have undergone rapid evolution, particularly since 2005 when massively parallel sequencing, or next-generation sequencing (NGS), was introduced.[8]

Automated Sanger sequencing is considered the first generation of sequencing technology.[9] Sanger cancer gene sequencing uses polymerase chain reaction (PCR) amplification of genetic regions of interest followed by sequencing of PCR products using fluorescently labeled terminators, capillary electrophoresis separation of products, and laser signal detection of nucleotide sequence.[10,11] While this is an accurate sequencing technology, the main limitations of Sanger sequencing include low throughput, a limited ability to sequence more than a few genes at a time, and the inability to detect structural rearrangements.[10]

NGS refers to high throughput DNA sequencing technologies that are capable of processing multiple DNA sequences in parallel.[11] Although platforms differ in template generation and sequence interrogation, the overall approach to NGS technologies involves shearing and immobilizing DNA template molecules onto a solid surface, which allows separation of molecules for simultaneous sequencing reactions (millions to billions) to be performed in a parallel fashion.[10,12] Thus, the major advantages of NGS technologies include the ability to sequence thousands of genes at one time, a lower cost, and the ability to detect multiple types of genomic alterations, such as insertions, deletions, copy number alterations, and rearrangements.[10] Limitations include the possibility that specific gene regions may be missed, turnaround time can be lengthy (although it is decreasing), and informatics support to handle massive amounts of genetic data has lagged behind the sequencing capability. A well-recognized bottleneck to utilizing NGS data is the lack of advanced computational infrastructure to preserve, process, and analyze the vast amount of genetic data. The magnitude of the variants obtained from NGS is exponential; bioinformatics approaches need to evaluate genetic variants for predicted functional consequence in disease biology. There is also a need for user-friendly bioinformatics pipelines to analyze and integrate genetic data to influence the scientific and medical community.[11,13]

The following terms are defined to better understand the clinical application of NGS testing and implications of results reported.

NGS has multiple potential clinical applications. In oncology, the two dominant applications are: 1) the assessment of somatic alterations in tumors to inform prognosis and/or targeted therapeutics; and 2) the assessment of the germline to identify cancer risk alleles.

There are multiple approaches to tumor testing for somatic alterations. With targeted multigene testing, a number of different genes can be assessed simultaneously. These targeted multigene tests can differ substantially in the genes that are included, and they can be tailored to individual tumor types. Targeted multigene testing limits the data to be analyzed and includes only known genes, which makes the interpretation more straightforward than in whole exome or whole genome techniques. In addition, greater depth of coverage is possible with targeted multigene testing than with WES or WGS. Depth of coverage refers to the number of times a nucleotide has been sequenced; a greater depth of coverage has fewer sequencing errors. Deep coverage also aids in differentiating sequencing errors from single nucleotide polymorphisms.

WES and WGS are far more extensive techniques and aim to uncover variants in known genes and in genes not suspected a priori. The discovery of a variant that is unexpected for a particular tumor type can lead to the use of a directed therapeutic, which could improve patient outcome. WES generates sequence data of the coding regions of the genome (representing approximately 1% of the human genome), rather than the entire genome (WGS). Consequently, WES is less expensive than WGS.

Noncoding variants can be identified using WGS but cannot be identified using WES. The use of WGS is limited by cost and the vast bioinformatics needed for interpretation. Although the costs of sequencing have dropped precipitously, the analysis remains formidable.[14]

Although the goal of WES and WGS is to improve patient care by detecting actionable genetic variants (mutations that can be targeted therapeutically), a number of issues warrant consideration. This testing may detect pathogenic variants, variants of uncertain significance (VUS), or no detectable abnormalities. In addition, pathogenic variants can be found in genes that are thought to be clearly related to tumorigenesis but can also be detected in genes with unclear relevance (particularly with WES and WGS approaches). VUS have unclear implications as they may, or may not, disrupt the function of the protein. The definition of actionable can vary, but often this term is used when an aberration, if found, would lead to recommendations against certain treatments (such as variants in ras) for which a clinical trial is available, or for which there is a known targeted drug. Although there are case reports of success with this approach, it is unlikely to be straightforward. Studies are ongoing.

Some commercial and single-institution assays test only the tumor. Clearly pathogenic variants found in important genes in the tumor can be somatic but could also be from the germline. In situations in which somatic analysis is paired with a germline analysis, it can be determined whether an identified alteration is inherited. A study that estimated the prevalence of germline variants from patients undergoing tumor sequencing with matched, normal DNA sequencing reported that cancer susceptibility genes were identified in 198 of 1,566 individuals (12.6%). Only 81 of these 198 individuals (40.9%) had pathogenic variants in cancer susceptibility genes concordant with their tumor type. When expanding to include known noncancer-related Mendelian disease genes, 246 of 1,566 individuals (15.7%) had pathogenic or presumed pathogenic germline variants identified.[15]

Sequencing tumors may lead to the identification of hereditary (germline) pathogenic variants.[16] Founder pathogenic variants in well-characterized cancer susceptibility genes are highly suggestive of a germline pathogenic variant. Hypermutated tumor phenotype may suggest an underlying constitutional defect in DNA repair. Clinical characteristics that fit with a particular genetic predisposition, such as family history, young age at diagnosis, or specific tumor type, may also raise the suspicion of a germline variant correlating with a tumor variant. A high variant allele fraction may also indicate a germline variant. All of these factors signify a potential need for patients to undergo genetic counseling and to consider confirmatory germline genetic testing.

The absence of a variant in a gene assessed as part of somatic testing does not rule out the presence of an inherited susceptibility. All patients whose personal and family histories are suggestive of hereditary cancer should consider germline testing regardless of their somatic results.

Ongoing clinical trials, such as the NCI Molecular Analysis for Therapy Choice (NCI-MATCH) Trial, are examining the value of somatic sequencing to find actionable targets. Germline sequencing is occurring as a component of this study.

The goal of germline testing is to identify pathogenic variants associated with an inherited risk of cancer and to guide cancer riskmanagement decisions. Also, germline testing can aid in some management decisions at the time of diagnosis (e.g., decisions about colectomy in Lynch syndromerelated colon cancer and contralateral mastectomy in carriers of BRCA1/2 pathogenic variants). In addition, there are emerging data that germline status may help determine systemic therapy (e.g., the use of cisplatin or PARP inhibitors in BRCA1/2-related cancer).

To date, most germline genetic testing has been performed in a targeted manner, looking for variants in the gene(s) associated with a clinical picture (e.g., BRCA1 and BRCA2 in hereditary breast and ovarian cancer; or the mismatch repair [MMR] genes in Lynch syndrome). However, targeted multigene tests now available commercially or within an institution contain different sets of genes. Some are targeted to all cancers, others to specific cancers (e.g., breast, colon, or prostate cancers). The genes on the multigene tests include high-penetrance genes related to the specific tumor (such as BRCA1/2 on a breast cancer panel); high penetrance genes related to a different type of cancer but with a more moderate risk for the tumor of reference (such as CDH1 or MSH6 on a breast cancer panel); and moderate penetrance genes for which clinical utility is uncertain (such as NBN on a breast cancer panel). Because multiple genes are included on these panels, it is anticipated that many, and perhaps most, individuals undergoing testing using these panels will be found to have at least one VUS. As it is not possible to do standard pretest counseling models for a panel of 20 genes, new counseling models are needed. Ethical issues of whether patients can opt out of specific results (such as TP53 or CDH1 in breast cancer) and how this would be done in clinical practice are unresolved.

Refer to the Multigene (panel) testing section in the PDQ summary on Cancer Genetics Risk Assessment and Counseling for more information about the use of targeted multigene tests.

WES for inherited cancer susceptibility is also commercially available. Secondary findings are likely and management of such findings is evolving.

The ACCE model uses four main components to evaluate new genetic tests: analytic validity; clinical validity; clinical utility; and ethical, legal, and social issues.[17]

The ACCE model's framework has been adopted worldwide for the evaluation of genetic tests.

Several layers of complexity exist in managing NGS in the clinical setting. At the purely technical level, improvements in the sequencing technique have allowed for sequencing across the entire genome, not merely the exome. As the costs decrease, exomic and genomic sequencing of tumor and normal tissue can be expected to become more routine.

With routine use of WGS, major challenges in interpretation emerge. Foremost is the matter of determining which sequence variations in known cancer predisposition genes are pathologic, which are harmless, and which variations require further evaluation as to their significance. This is not a new challenge. Various groups are developing processes for the interpretation and curation of a growing database of variants and their significance. For example, the International Society for Gastrointestinal Hereditary Tumors has developed such a process for the MMR genes in concert with the Human Variome Project and International Mismatch Repair Consortium.

These processes may serve as a framework for the emerging challenge of interpreting the significance of sequence variations in genes of uncertain or unknown function in regulation of neoplastic progression or other diseases. Larger cancer predisposition multigene tests have been developed by commercial laboratories, with their own process for interpretation. To the extent that increasingly larger multigene tests include genes of unknown significance, governance of the interpretation process requires that academic institutions offering their own multigene tests or using external proprietary panels develop a deliberative process for managing the quality assurance for test performance (including Clinical Laboratory Improvement Amendments [CLIA], where appropriate) and interpretation.

ACMG has issued the following updated guidelines for achieving accountability in interpreting and reporting secondary findings:[4,18]

Concerns remain that the routine reporting of germline variants in the context of tumor sequencing would require laboratories to conduct results review with germline and tumor genome expertise, which would be expected to increase costs, laboratory efforts, and turnaround time for results reporting. The nature of discussions between oncologists and patients would be altered to include the multiple facets involved with germline testing and potential results. Pre- and post-test discussions would also potentially require involvement of genetic counselors and geneticists, who are a limited resource in oncology practices. Recent expert comment stated that more data are needed about the benefits of return of secondary germline findings to cancer patients undergoing tumor sequencing, citing a need for recommendations by experts in the oncology and genetics communities.[19]

It is still very early in the development processes for oversight at the institutional level. As an example, at one high-volume cancer center, the following process has been used:

Informed consent for the sequencing of highly penetrant disease genes has been conducted since the mid-1990s in the contexts of known or suspected inherited diseases within selected families. However, the best methods and approaches for educating and counseling individuals about the potential benefits, limitations, and harms of genetic testing to facilitate informed decisions have not been fully elucidated or adequately tested. New informed consent challenges arise as NGS technologies are applied in clinical and research settings. Challenges to facilitating informed consent include the following:

The increased availability and decreased cost of NGS technology are expanding the use of genome-wide testing of tumors, with the goal of identifying somatic variants as potential targets for cancer treatment. While identifying germline pathogenic variants may be considered secondary to the main purpose of testing tumors, the possibility of identifying actionable secondary findings of pathogenic variants in cancer predisposition genes supports the need for genetic counseling in this context. Approaches for genetic counseling and informed consent in the context of tumor sequencing have been proposed.[20,21]

Advances in genetic sequencing technologies have dramatically reduced the cost of sequencing an individual's full genome or exome. WGS and WES are increasingly being employed in the clinical setting in testing for both somatic and germline variants. In addition, multigene tests are now available commercially or within an institution. Considerable debate surrounds the clinical, ethical, legal, and counseling aspects associated with NGS and gene panels. Future research is warranted to address these issues.

PDQ cancer genetics summaries focus on the genetics of specific cancers, inherited cancer syndromes, and the ethical, social, and psychological implications of cancer genetics knowledge. Sections on the genetics of specific cancers include syndrome-specific information on the risk implications of a family history of cancer, the prevalence and characteristics of cancer-predisposing variants, known modifiers of genetic risk, opportunities for genetic testing, outcomes of genetic counseling and testing, and interventions available for people with increased cancer risk resulting from an inherited predisposition.

The source of medical literature cited in PDQ cancer genetics summaries is peer-reviewed scientific publications, the quality and reliability of which is evaluated in terms of levels of evidence. Where relevant, the level of evidence is cited, or particular strengths of a study or limitations of the evidence are described.

Refer to the Levels of Evidence for Cancer Genetics Studies summary for more information on the levels of evidence utilized in the PDQ cancer genetics summaries.

Health care providers who deliver genetic services, including genetic counseling, can be located through local, regional, and national professional genetics organizations and through NCI's Cancer Genetics Services Directory website. Providers of cancer genetic services are not limited to one specialty and include medical geneticists, genetic counselors, advanced practice genetics nurses, oncologists (medical, radiation, or surgical), other surgeons, internists, pediatricians, family practitioners, and mental health professionals. A cancer genetics health care provider will assist in constructing and evaluating a pedigree, eliciting and evaluating personal and family medical histories, and calculating and providing information about cancer risk and/or probability of a pathogenic variant being associated with cancer in the family. In addition, if a genetic test is available, these providers can assist in pretest counseling, laboratory selection, informed consent, test interpretation, posttest counseling, and follow-up.

The PDQ cancer information summaries are reviewed regularly and updated as new information becomes available. This section describes the latest changes made to this summary as of the date above.

Editorial changes were made to this summary.

This summary is written and maintained by the PDQ Cancer Genetics Editorial Board, which is editorially independent of NCI. The summary reflects an independent review of the literature and does not represent a policy statement of NCI or NIH. More information about summary policies and the role of the PDQ Editorial Boards in maintaining the PDQ summaries can be found on the About This PDQ Summary and PDQ - NCI's Comprehensive Cancer Database pages.

This PDQ cancer information summary for health professionals provides comprehensive, peer-reviewed, evidence-based information about cancer genetics. It is intended as a resource to inform and assist clinicians who care for cancer patients. It does not provide formal guidelines or recommendations for making health care decisions.

This summary is reviewed regularly and updated as necessary by the PDQ Cancer Genetics Editorial Board, which is editorially independent of the National Cancer Institute (NCI). The summary reflects an independent review of the literature and does not represent a policy statement of NCI or the National Institutes of Health (NIH).

Board members review recently published articles each month to determine whether an article should:

Changes to the summaries are made through a consensus process in which Board members evaluate the strength of the evidence in the published articles and determine how the article should be included in the summary.

Any comments or questions about the summary content should be submitted to Cancer.gov through the NCI website's Email Us. Do not contact the individual Board Members with questions or comments about the summaries. Board members will not respond to individual inquiries.

Some of the reference citations in this summary are accompanied by a level-of-evidence designation. These designations are intended to help readers assess the strength of the evidence supporting the use of specific interventions or approaches. The PDQ Cancer Genetics Editorial Board uses a formal evidence ranking system in developing its level-of-evidence designations.

PDQ is a registered trademark. Although the content of PDQ documents can be used freely as text, it cannot be identified as an NCI PDQ cancer information summary unless it is presented in its entirety and is regularly updated. However, an author would be permitted to write a sentence such as NCIs PDQ cancer information summary about breast cancer prevention states the risks succinctly: [include excerpt from the summary].

The preferred citation for this PDQ summary is:

PDQ Cancer Genetics Editorial Board. PDQ Cancer Genetics Overview. Bethesda, MD: National Cancer Institute. Updated . Available at: https://www.cancer.gov/about-cancer/causes-prevention/genetics/overview-pdq. Accessed . [PMID: 26389204]

Images in this summary are used with permission of the author(s), artist, and/or publisher for use within the PDQ summaries only. Permission to use images outside the context of PDQ information must be obtained from the owner(s) and cannot be granted by the National Cancer Institute. Information about using the illustrations in this summary, along with many other cancer-related images, is available in Visuals Online, a collection of over 2,000 scientific images.

The information in these summaries should not be used as a basis for insurance reimbursement determinations. More information on insurance coverage is available on Cancer.gov on the Managing Cancer Care page.

More information about contacting us or receiving help with the Cancer.gov website can be found on our Contact Us for Help page. Questions can also be submitted to Cancer.gov through the websites Email Us.

Continue reading here:
Cancer Genetics Overview (PDQ)Health Professional Version ...