TORTINI

For your delectation and delight, desultory dicta on the law of delicts.

Lies, False Memories, or Bad Biochemistry?

February 23rd, 2015

NBC suspended Brian Williams for six months for a bout of misremembering[1]. The electronic media hardly skipped a sine wave. David Brooks thinks that the public reaction was “barbaric” [sic][2], and counseled more empathy. Indeed, some commentators jumped on Williams’ apology as an admission of lying.[3] Science Times writer Parker-Pope more charitably asked whether Brian Williams was a victim of false memory[4]. The media fretted that Williams, their most trustworthy voice and face, had undermined the public’s trust in the major news services. Why worry though? There was little trust in the nightly news programs that serve up news as entertainment.

Memory is key to what trial lawyers do in presenting evidence in support of historical narrative about events that took place in the past. False memory, whether the innocent or guilty kind, is a major threat to the judicial system’s attempt to discern the truth based upon narrative testimony. Lawyers recognize that memories are fragile and subject to manipulation. The tenuous connection between past events and current recollection is an omnipresent challenge to the basic process of juridical fact finding. The most cynical members[5] of the bar, no doubt, exploit the amorphous quality of memory, but even at its best, memory can be a slender reed to support our judgments.

Consider the criminal prosecution against Adnan Syed, which turned on the dodgy testimony of Jay Wilds. As recounted in Sarah Koenig’s Serial podcasts, the State of Maryland tried Syed twice. The first trial ended in a mistrial before the case could be submitted to a jury. The murder charges turned on factual accounts of one witness, Jay Wilds, who gave a wildly different account each time he talked about his participation in the cover up of the murder of Hae Min Lee.

Koenig’s series not only breathed life into Syed’s efforts to obtain a hearing on his ineffective assistance challenge, but they demonstrated the power of hindsight and other cognitive bias in the criminal justice system, as well as in all human endeavors[6]. Witnesses, including Syed, struggled to give accurate accounts of past events, even a few weeks after the fact, whatever that was.

Every lawyer who has tried cases can recount instances in which witnesses failed to recall, or recalled erroneously, essential facts in the litigation. In one recent case I had in upstate New York, a witness, who appeared very honest to the defense counsel in the deposition room, testified that he had never seen or read any warnings concerning crystalline silica in the pottery factory, where had worked for several decades. When the employer produced documents from its safety program, the documentary record showed that the plaintiff sat on a safety committee, and that he had helped to prepare safety warning placards for the workplace. Memories are like that, especially when they are inconvenient.

In 2013, Mauro Costa-Mattioli and his research group showed that actin polymerization, fostered by the mTORC2 pathway, is essential for long-term memory in mice and flies. See Wei Huang,Ping Jun Zhu, Shixing Zhang, Hongyi Zhou, Loredana Stoica, Mauricio Galiano, Krešimir Krnjević, Gregg Roman & Mauro Costa-Mattioli, “mTORC2 controls actin polymerization required for consolidation of long term memory,” 16 Nature Neurosci. 441 (2013). Well, perhaps Brian Williams simply had a surfeit of actin polymerization working to remodel his memory in a false and misleading way? And perhaps my plaintiff had a deficit of actin remodeling of his neurons?


[1] Emily Steel & Ravi Somaiya, “Brian Williams Suspended From NBC for 6 Months Without Pay,” N.Y. Times (Feb. 10, 2015).

[2] David Brooks, “The Act of Rigorous Forgiving,” N.Y. Times (Feb. 10, 2015). Brooks would probably think this use of “sic” was barbaric rather than merely barbarous pedantry in pointing out a diction error.

[3] “NBC’S Brian Williams admits on air to lying: Apologizes for bogus story of his ‛personal heroics’.”

[4] Tara Parker-Pope, “Was Brian Williams a Victim of False Memory?” N.Y. Times (Feb. 9, 2015). (The print edition contained a different, more biting headline: “False Memory vs. Bald Faced Lie”).

[5] See “Preparing for your deposition” a.k.a. the Baron & Budd asbestos memo” Wikipedia; Walter Olson, “Thanks for the Memories: How lawyers get the testimony they want,” Reason (June 1998).

[6] Not everyone agrees. JaneAnne Murray, a lawyer with criminal defense experience, took a surprising approach in suggesting that Adnan Syed should have pleaded guilty, in part because the prosecution’s case against Syed was strong. See JaneAnne Murray, “Why Adnan Syed of ‘Serial’ Should Have Pleaded Guilty,” N.Y. Times (Jan. 22, 2015) (“In this case, the injustice may lie not in the conviction, but in the failure to negotiate the charges. The unstructured presentation of the facts in “Serial” obscured a strong case for the prosecution.”). Actually, Koenig’s Serial podcasts appeared to play down the strength of the defense, and what should and could have been done with the testimony of the chief prosecution witness, Jay Wilds. Koenig lauded Syed’s defense lawyer, Cristina Gutierrez, as having a reputation for brillance, which seemed conspicuously absent in the segments of trial tapes excerpted on Serial. In any event, the Maryland Special Court of Appeals has only recently granted Syed an appeal on his claim for post-conviction relief. Emma G. Fitzsimmons, “Appeal to Be Heard in ‘Serial’ Murder Case,” N.Y. Times (Feb. 7, 2015).

 

 

Plaintiffs Sue Friendly Physicians for Access to Opinions and to Data

February 14th, 2015

Access to underlying data continues to be a difficult and contentious issue in litigation and in the world of public health. Healthcare providers have made intemperate demands upon pharmaceutical manufacturers to produce underlying data from clinical trials, but often the same providers object the loudest when asked to share underlying data from their own observational or experimental studies.

Last month saw a judicial rejection of an effort by New York researchers to resist production of underlying data. Plaintiffs in the World Trade Center health effects litigation sought to compel their treating physicians at the Mt. Sinai Health System to testify to their opinions about general and specific causation of the plaintiffs’ alleged injuries. Previously, in discovery depositions of the plaintiffs’ treating physicians as fact witnesses, Mt. Sinai Hospital’s attorneys objected to plaintiffs’ counsel’s efforts to elicit causation opinions not recorded in the plaintiffs’ personal medical records. Plaintiffs then moved to compel the treating physicians to give opinions on causation, and to produce underlying data from their published papers on the claimed health effects of exposure to World Trade Center dust. The hospital opposed these motions on grounds that its neutrality in the litigation would be compromised by compulsory testimony and production of data.

In a short opinion, Judge Alvin K. Hellerstein refused plaintiffs’ motions to compel testimony, but granted their motion to compel production of underlying data. In re World Trade Center Lower Manhattan Disaster Site Litig., ___ F.R.D. ___, 2015 WL 220988, at *1-2 (S.D.N.Y. Jan. 15, 2015). Judge Hellerstein acknowledged that, in rare instances, federal trial courts have compelled experts to provide opinion testimony. Carter–Wallace, Inc. v. Otte, 474 F.2d 529, 536 (2d Cir.1972) (“The weight of authority holds that, although it is not the usual practice, a court does have the power to subpoena an expert witness and … require him [or her] to state whatever opinions he [or she] may have previously formed.”).

Judge Hellerstein cited the five factors articulated in Kaufman v. Edelstein, as governing the exercise of discretion in compelling expert testimony:

(1) “[T]he degree to which the expert is being called because of his knowledge of facts relevant to the case rather than in order to give opinion testimony”;

(2) “the difference between testifying to a previously formed or expressed opinion and forming a new one”;

(3) “the possibility that, for other reasons, the witness is a unique expert”;

(4) “the extent to which the calling party is able to show the unlikelihood that any comparable witness will willingly testify”; and

(5) “the degree to which the witness is able to show that he has been oppressed by having continually to testify[.]”

2015 WL 220988, at *2-3, citing and quoting Kaufman v. Edelstein, 539 F.2d 811, 822 (2d Cir.1976).

Considering these factors, Judge Hellerstein refused to enforce the subpoena ad testificandum against the Mt. Sinai physicians. Plaintiffs have their own retained expert witness, Dr. Tee Guidotti, who was prepared to testify about both specific and general causation of the plaintiffs’ claimed injuries. The underlying data gathered by Mt. Sinai physicians and scientists, however, were another matter:

“However, it is undisputed that the scope and detail of the research conducted by the Mt. Sinai WTC Health Program is unparalleled. This litigation can only benefit from a full record and the inclusion of the relevant data underlying the research conducted by the Mt. Sinai WTC Health Program is appropriate. Accordingly, Mt. Sinai is ordered to produce all Mt. Sinai WTC Health Program data pursuant to the protocol established in In re World Trade Center Disaster Site Litigation, 21–mc–100, accounting for the redaction of personal identifying information and other sensitive patient material.”

Id. at *4; see also id. at *1.

Cynical observers may wonder whether the Mt. Sinai opposition to the subpoenas and motions to compel was posturing. The hospital and many of its physicians have been outspoken advocates on many occupational and environmental issues. Perhaps like Brer Rabbit, they were protesting not to be thrown in the briar patch. Or maybe, they realized that they could not resist the subpoena for data unless they also declined to testify about their opinions. In any event, Judge Hellerstein maintained the right of expert witnesses to hold their opinions to themselves and to avoid participating in the litigation system, while ensuring that the data are available to all. The plaintiffs may well have been clever by halves in bringing their motion.

Sander Greenland on “The Need for Critical Appraisal of Expert Witnesses in Epidemiology and Statistics”

February 8th, 2015

Sander Greenland is one of the few academics, who has served as an expert witness, who has written post-mortems of his involvement in various litigations[1]. Although settling scores with opposing expert witnesses can be a risky business[2], the practice can provide important insights for judges and lawyers who want to avoid the errors of the past. Greenland correctly senses that many errors seem endlessly recycled, and that courts could benefit from disinterested commentary on cases. And so, there should be a resounding affirmation from federal and state courts to the proclaimed “need for critical appraisal of expert witnesses in epidemiology and statistics,” as well as in many other disciplines.

A recent exchange[3] with Professor Greenland led me to revisit his Wake Forest Law Review article. His article raises some interesting points, some mistaken, but some valuable and thoughtful considerations about how to improve the state of statistical expert witness testimony. For better and worse[4], lawyers who litigate health effects issues should read it.

Other Misunderstandings

Greenland posits criticisms of defense expert witnesses[5], who he believes have misinterpreted or misstated the appropriate inferences to be drawn from null studies. In one instance, Greenland revisits one of his own cases, without any clear acknowledgment that his views were largely rejected.[6] The State of California had declared, pursuant to Proposition 65 ( the Safe Drinking Water and Toxic Enforcement Act of 1986, Health and Safety Code sections 25249.5, et seq.), that the State “knew” that di(2-ethylhexyl)phthalate, or “DEHP” caused cancer. Baxter Healthcare challenged the classification, and according to Greenland, the defense experts erroneously interpreted inclusive studies with evidence supporting a conclusion that DEHP does not cause cancer.

Greenland argues that the Baxter expert’s reference[7] to an IARC working group’s classification of DEHP as “not classifiable as to its carcinogenicity to humans” did not support the expert’s conclusion that DEHP does not cause cancer in human. If Baxter’s expert invoked the IARC working group’s classification for complete exoneration of DEHP, then Greenland’s point is fair enough. In his single-minded attack on Baxter’s expert’s testimony, however, Greenland missed a more important point, which is that the IARC’s determination that DEHP is not classifiable as to carcinogenicity is directly contradictory of California’s epistemic claim to “know” that DEHP causes cancer. And Greenland conveniently omits any discussion that the IARC working group had reclassified DEHP from “possibly carcinogenic” to “not classifiable,” in the light of its conclusion that mechanistic evidence of carcinogenesis in rodents did not pertain to humans.[8] Greenland maintains that Baxter’s experts misrepresented the IARC working group’s conclusion[9], but that conclusion, at the very least, demonstrates that California was on very shaky ground when it declared that it “knew” that DEHP was a carcinogen. California’s semantic gamesmanship over its epistemic claims is at the root of the problem, not a misstep by defense experts in describing inconclusive evidence as exonerative.

Greenland goes on to complain that in litigation over health claims:

“A verdict of ‛uncertain’ is not allowed, yet it is the scientific verdict most often warranted. Elimination of this verdict from an expert’s options leads to the rather perverse practice (illustrated in the DEHP testimony cited above) of applying criminal law standards to risk assessments, as if chemicals were citizens to be presumed innocent until proven guilty.

39 Wake Forest Law Rev. at 303. Despite Greenland’s alignment with California in the Denton case, the fact of the matter is that a verdict of “uncertain” was allowed, and he was free to criticize California for making a grossly exaggerated epistemic claim on inconclusive evidence.

Perhaps recognizing that he may be readily be seen as an advocate for coming to the defense of California on the DEHP issue, Greenland protests that:

“I am not suggesting that judgments for plaintiffs or actions against chemicals should be taken when evidence is inconclusive.”

39 Wake Forest Law Rev. at 305. And yet, his involvement in the Denton case (as well as other cases, such as silicone gel breast implant cases, thimerosal cases, etc.) suggest that he is willing to lend aid and support to judgments for plaintiffs when the evidence is inconclusive.

Important Advice and Recommendations

These foregoing points are rather severe limitations to Greenland’s article, but lawyers and judges should also look to what is good and helpful here. Greenland is correct to call out expert witnesses, regardless of party of affiliation, who opine that inconclusive studies are “proof” of the null hypothesis. Although some of Greenland’s arguments against the use of significance probability may be overstated, his corrections to the misstatements and misunderstandings of significance probability should command greater attention in the legal community. In one strained passage, however, Greenland uses a disjunction to juxtapose null hypothesis testing with proof beyond a reasonable doubt[10]. Greenland of course understands the difference, but the context would lead some untutored readers to think he has equated the two probabilistic assessments. Writing in a law review for lawyers and judges might have led him to be more careful. Given the prevalence of plaintiffs’ counsel’s confusing the 95% confidence coefficient with a burden of proof akin to beyond a reasonable doubt, great care in this area is, indeed, required.

Despite his appearing for plaintiffs’ counsel in health effects litigation, some of Greenland’s suggestions are balanced and perhaps more truth-promoting than many plaintiffs’ counsel would abide. His article provides an important argument in favor of raising the legal criteria for witnesses who purport to have expertise to address and interpret epidemiologic and experimental evidence[11]. And beyond raising qualification requirements above mere “reasonable pretense at expertise,” Professor Greenland offers some thoughtful, helpful recommendations for improving expert witness testimony in the courts:

  • “Begin publishing projects in which controversial testimony (a matter of public record) is submitted, and as space allows, published on a regular basis in scientific or law journals, perhaps with commentary. An online version could provide extended excerpts, with additional context.
  • Give courts the resources and encouragement to hire neutral experts to peer-review expert testimony.
  • Encourage universities and established scholarly societies (such as AAAS, ASA, APHA, and SER) to conduct workshops on basic epidemiologic and statistical inference for judges and other legal professionals.”

39 Wake Forest Law Rev. at 308.

Each of these three suggestions is valuable and constructive, and worthy of an independent paper. The recommendation of neutral expert witnesses and scholarly tutorials for judges is hardly new. Many defense counsel and judges have argued for them in litigation and in commentary. The first recommendation, of publishing “controversial testimony” is part of the purpose of this blog. There would be great utility to making expert witness testimony, and analysis thereof, more available for didactic purposes. Perhaps the more egregious testimonial adventures should be republished in professional journals, as Greenland suggests. Greenland qualifies his recommendation with “as space allows,” but space is hardly the limiting consideration in the digital age.

Causation

Professor Greenland correctly points out that causal concepts and conclusions are often essentially contested[12], but his argument might well be incorrectly taken for “anything goes.” More helpfully, Greenland argues that various academic ideals should infuse expert witness testimony. He suggests that greater scholarship, with acknowledgment of all viewpoints, and all evidence, is needed in expert witnessing. 39 Wake Forest Law Rev. at 293.

Greenland’s argument provides an important corrective to the rhetoric of Oreskes, Cranor, Michaels, Egilman, and others on “manufacturing doubt”:

“Never force a choice among competing theories; always maintain the option of concluding that more research is needed before a defensible choice can be made.”

Id. Despite his position in the Denton case, and others, Greenland and all expert witnesses are free to maintain that more research is needed before a causal claim can be supported. Greenland also maintains that expert witnesses should “look past” the conclusions drawn by authors, and base their opinions on the “actual data” on which the statistical analyses are based, and from which conclusions have been drawn. Courts have generally rejected this view, but if courts were to insist upon real expertise in epidemiology and statistics, then the testifying expert witnesses should not be constrained by the hearsay opinions in the discussion sections of published studies – sections which by nature are incomplete and tendentious. See Follow the Data, Not the Discussion” (May 2, 2010).

Greenland urges expert witnesses and legal counsel to be forthcoming about their assumptions, their uncertainty about conclusions:

“Acknowledgment of controversy and uncertainty is a hallmark of good science as well as good policy, but clashes with the very time limited tasks faced by attorneys and courts”

39 Wake Forest Law Rev. at 293-4. This recommendation would be helpful in assuring courts that the data may simply not support conclusions sufficiently certain to be submitted to lay judges and jurors. Rosen v. Ciba-Geigy Corp., 78 F.3d 316, 319, 320 (7th Cir. 1996) (“But the courtroom is not the place for scientific guesswork, even of the inspired sort. Law lags science; it does not lead it.”) (internal citations omitted).

Threats to Validity

One of the serious mistakes counsel often make in health effects litigation is to invite courts to believe that statistical significance is sufficient for causal inferences. Greenland emphasizes that validity considerations often are much stronger, and more important considerations than the play of random error[13]:

“For very imperfect data (e.g., epidemiologic data), the limited conclusions offered by statistics must be further tempered by validity considerations.”

*   *   *   *   *   *

“Examples of validity problems include non-random distribution of the exposure in question, non-random selection or cooperation of subjects, and errors in assessment of exposure or disease.”

39 Wake Forest Law Rev. at 302 – 03. Greenland’s abbreviated list of threats to validity should remind courts that they cannot sniff a p-value below five percent and then safely kick the can to the jury. The literature on evaluating bias and confounding is huge, but Greenland was a co-author on an important recent paper, which needs to be added to the required reading lists of judges charged with gatekeeping expert witness opinion testimony about health effects. See Timothy L. Lash, et al., “Good practices for quantitative bias analysis,” 43 Internat’l J. Epidem. 1969 (2014).


[1] For an influential example of this sparse genre, see James T. Rosenbaum, “Lessons from litigation over silicone breast implants: A call for activism by scientists,” 276 Science 1524 (1997) (describing the exaggerations, distortions, and misrepresentations of plaintiffs’ expert witnesses in silicone gel breast implant litigation, from perspective of a highly accomplished scientist physician, who served as a defense expert witness, in proceedings before Judge Robert Jones, in Hall v. Baxter Healthcare Corp., 947 F. Supp. 1387 (D. Or. 1996). In one attempt to “correct the record” in the aftermath of a case, Greenland excoriated a defense expert witness, Professor Robert Makuch, for stating that Bayesian methods are rarely used in medicine or in the regulation of medicines. Sander Greenland, “The Need for Critical Appraisal of Expert Witnesses in Epidemiology and Statistics,” 39 Wake Forest Law Rev. 291, 306 (2004).  Greenland heaped adjectives upon his adversary, “ludicrous claim,” “disturbing, “misleading expert testimony,” and “demonstrably quite false.” See “The Infrequency of Bayesian Analyses in Non-Forensic Court Decisions” (Feb. 16, 2014) (debunking Prof. Greenland’s claims).

[2] One almost comical example of trying too hard to settle a score occurs in a footnote, where Greenland cites a breast implant case as having been reversed in part by another case in the same appellate court. See 39 Wake Forest Law Rev. at 309 n.68, citing Allison v. McGhan Med. Corp., 184 F.3d 1300, 1310 (11th Cir. 1999), aff’d in part & rev’d in part, United States v. Baxter Int’l, Inc., 345 F.3d 866 (11th Cir. 2003). The subsequent case was not by any stretch of the imagination a reversal of the earlier Allison case; the egregious citation is a legal fantasy. Furthermore, Allison had no connection with the procedures for court-appointed expert witnesses or technical advisors. Perhaps the most charitable interpretation of this footnote is that it was injected by the law review editors or supervisors.

[3] SeeSignificance Levels are Made a Whipping Boy on Climate Change Evidence: Is .05 Too Strict? (Schachtman on Oreskes)” (Jan. 4, 2015).

[4] In addition to the unfair attack on Professor Makuch, see supra, n.1, there is much that some will find “disturbing,” “misleading,” and even “ludicrous,” (some of Greenland’s favorite pejorative adjectives) in the article. Greenland repeats in brief his arguments against the legal system’s use of probabilities of causation[4], which I have addressed elsewhere.

[5] One of Baxter’s expert witnesses appeared to be the late Professor Patricia Buffler.

[6] See 39 Wake Forest Law Rev. at 294-95, citing Baxter Healthcare Corp. v. Denton, No. 99CS00868, 2002 WL 31600035, at *1 (Cal. App. Dep’t Super. Ct. Oct. 3, 2002) (unpublished); Baxter Healthcare Corp. v. Denton, 120 Cal. App. 4th 333 (2004)

[7] Although Greenland cites to a transcript, the citation is to a judicial opinion, and the actual transcript of testimony is not available at the citation give.

[8] See Denton, supra.

[9] 39 Wake Forest L. Rev. at 297.

[10] 39 Wake Forest L. Rev. at 305 (“If it is necessary to prove causation ‛beyond a reasonable doubt’–or be ‛compelled to give up the null’ – then action can be forestalled forever by focusing on any aspect of available evidence that fails to conform neatly with the causal (alternative) hypothesis. And in medical and social science there is almost always such evidence available, not only because of the ‛play of chance’ (the focus of ordinary statistical theory), but also because of the numerous validity problems in human research.”

[11] See Peter Green, “Letter from the President to the Lord Chancellor regarding the use of statistical evidence in court cases” (Jan. 23, 2002) (writing on behalf of The Royal Statistical Society; “Although many scientists have some familiarity with statistical methods, statistics remains a specialised area. The Society urges you to take steps to ensure that statistical evidence is presented only by appropriately qualified statistical experts, as would be the case for any other form of expert evidence.”).

[12] 39 Wake Forest Law Rev. at 291 (“In reality, there is no universally accepted method for inferring presence or absence of causation from human observational data, nor is there any universally accepted method for inferring probabilities of causation (as courts often desire); there is not even a universally accepted definition of cause or effect.”).

[13] 39 Wake Forest Law Rev. at 302-03 (“If one is more concerned with explaining associations scientifically, rather than with mechanical statistical analysis, evidence about validity can be more important than statistical results.”).

Sander Greenland on “The Need for Critical Appraisal of Expert Witnesses in Epidemiology and Statistics”

February 8th, 2015

Sander Greenland is one of the few academics, who has served as an expert witness, who has written post-mortems of his involvement in various litigations[1]. Although settling scores with opposing expert witnesses can be a risky business[2], the practice can provide important insights for judges and lawyers who want to avoid the errors of the past. Greenland correctly senses that many errors seem endlessly recycled, and that courts could benefit from disinterested commentary on cases. And so, there should be a resounding affirmation from federal and state courts to the proclaimed “need for critical appraisal of expert witnesses in epidemiology and statistics,” as well as in many other disciplines.

A recent exchange[3] with Professor Greenland led me to revisit his Wake Forest Law Review article. His article raises some interesting points, some mistaken, but some valuable and thoughtful considerations about how to improve the state of statistical expert witness testimony. For better and worse[4], lawyers who litigate health effects issues should read it.

Other Misunderstandings

Greenland posits criticisms of defense expert witnesses[5], who he believes have misinterpreted or misstated the appropriate inferences to be drawn from null studies. In one instance, Greenland revisits one of his own cases, without any clear acknowledgment that his views were largely rejected.[6] The State of California had declared, pursuant to Proposition 65 ( the Safe Drinking Water and Toxic Enforcement Act of 1986, Health and Safety Code sections 25249.5, et seq.), that the State “knew” that di(2-ethylhexyl)phthalate, or “DEHP” caused cancer. Baxter Healthcare challenged the classification, and according to Greenland, the defense experts erroneously interpreted inclusive studies with evidence supporting a conclusion that DEHP does not cause cancer.

Greenland argues that the Baxter expert’s reference[7] to an IARC working group’s classification of DEHP as “not classifiable as to its carcinogenicity to humans” did not support the expert’s conclusion that DEHP does not cause cancer in human. If Baxter’s expert invoked the IARC working group’s classification for complete exoneration of DEHP, then Greenland’s point is fair enough. In his single-minded attack on Baxter’s expert’s testimony, however, Greenland missed a more important point, which is that the IARC’s determination that DEHP is not classifiable as to carcinogenicity is directly contradictory of California’s epistemic claim to “know” that DEHP causes cancer. And Greenland conveniently omits any discussion that the IARC working group had reclassified DEHP from “possibly carcinogenic” to “not classifiable,” in the light of its conclusion that mechanistic evidence of carcinogenesis in rodents did not pertain to humans.[8] Greenland maintains that Baxter’s experts misrepresented the IARC working group’s conclusion[9], but that conclusion, at the very least, demonstrates that California was on very shaky ground when it declared that it “knew” that DEHP was a carcinogen. California’s semantic gamesmanship over its epistemic claims is at the root of the problem, not a misstep by defense experts in describing inconclusive evidence as exonerative.

Greenland goes on to complain that in litigation over health claims:

“A verdict of ‛uncertain’ is not allowed, yet it is the scientific verdict most often warranted. Elimination of this verdict from an expert’s options leads to the rather perverse practice (illustrated in the DEHP testimony cited above) of applying criminal law standards to risk assessments, as if chemicals were citizens to be presumed innocent until proven guilty.

39 Wake Forest Law Rev. at 303. Despite Greenland’s alignment with California in the Denton case, the fact of the matter is that a verdict of “uncertain” was allowed, and he was free to criticize California for making a grossly exaggerated epistemic claim on inconclusive evidence.

Perhaps recognizing that he may be readily be seen as an advocate for coming to the defense of California on the DEHP issue, Greenland protests that:

“I am not suggesting that judgments for plaintiffs or actions against chemicals should be taken when evidence is inconclusive.”

39 Wake Forest Law Rev. at 305. And yet, his involvement in the Denton case (as well as other cases, such as silicone gel breast implant cases, thimerosal cases, etc.) suggest that he is willing to lend aid and support to judgments for plaintiffs when the evidence is inconclusive.

Important Advice and Recommendations

These foregoing points are rather severe limitations to Greenland’s article, but lawyers and judges should also look to what is good and helpful here. Greenland is correct to call out expert witnesses, regardless of party of affiliation, who opine that inconclusive studies are “proof” of the null hypothesis. Although some of Greenland’s arguments against the use of significance probability may be overstated, his corrections to the misstatements and misunderstandings of significance probability should command greater attention in the legal community. In one strained passage, however, Greenland uses a disjunction to juxtapose null hypothesis testing with proof beyond a reasonable doubt[10]. Greenland of course understands the difference, but the context would lead some untutored readers to think he has equated the two probabilistic assessments. Writing in a law review for lawyers and judges might have led him to be more careful. Given the prevalence of plaintiffs’ counsel’s confusing the 95% confidence coefficient with a burden of proof akin to beyond a reasonable doubt, great care in this area is, indeed, required.

Despite his appearing for plaintiffs’ counsel in health effects litigation, some of Greenland’s suggestions are balanced and perhaps more truth-promoting than many plaintiffs’ counsel would abide. His article provides an important argument in favor of raising the legal criteria for witnesses who purport to have expertise to address and interpret epidemiologic and experimental evidence[11]. And beyond raising qualification requirements above mere “reasonable pretense at expertise,” Professor Greenland offers some thoughtful, helpful recommendations for improving expert witness testimony in the courts:

  • “Begin publishing projects in which controversial testimony (a matter of public record) is submitted, and as space allows, published on a regular basis in scientific or law journals, perhaps with commentary. An online version could provide extended excerpts, with additional context.
  • Give courts the resources and encouragement to hire neutral experts to peer-review expert testimony.
  • Encourage universities and established scholarly societies (such as AAAS, ASA, APHA, and SER) to conduct workshops on basic epidemiologic and statistical inference for judges and other legal professionals.”

39 Wake Forest Law Rev. at 308.

Each of these three suggestions is valuable and constructive, and worthy of an independent paper. The recommendation of neutral expert witnesses and scholarly tutorials for judges is hardly new. Many defense counsel and judges have argued for them in litigation and in commentary. The first recommendation, of publishing “controversial testimony” is part of the purpose of this blog. There would be great utility to making expert witness testimony, and analysis thereof, more available for didactic purposes. Perhaps the more egregious testimonial adventures should be republished in professional journals, as Greenland suggests. Greenland qualifies his recommendation with “as space allows,” but space is hardly the limiting consideration in the digital age.

Causation

Professor Greenland correctly points out that causal concepts and conclusions are often essentially contested[12], but his argument might well be incorrectly taken for “anything goes.” More helpfully, Greenland argues that various academic ideals should infuse expert witness testimony. He suggests that greater scholarship, with acknowledgment of all viewpoints, and all evidence, is needed in expert witnessing. 39 Wake Forest Law Rev. at 293.

Greenland’s argument provides an important corrective to the rhetoric of Oreskes, Cranor, Michaels, Egilman, and others on “manufacturing doubt”:

“Never force a choice among competing theories; always maintain the option of concluding that more research is needed before a defensible choice can be made.”

Id. Despite his position in the Denton case, and others, Greenland and all expert witnesses are free to maintain that more research is needed before a causal claim can be supported. Greenland also maintains that expert witnesses should “look past” the conclusions drawn by authors, and base their opinions on the “actual data” on which the statistical analyses are based, and from which conclusions have been drawn. Courts have generally rejected this view, but if courts were to insist upon real expertise in epidemiology and statistics, then the testifying expert witnesses should not be constrained by the hearsay opinions in the discussion sections of published studies – sections which by nature are incomplete and tendentious. See Follow the Data, Not the Discussion” (May 2, 2010).

Greenland urges expert witnesses and legal counsel to be forthcoming about their assumptions, their uncertainty about conclusions:

“Acknowledgment of controversy and uncertainty is a hallmark of good science as well as good policy, but clashes with the very time limited tasks faced by attorneys and courts”

39 Wake Forest Law Rev. at 293-4. This recommendation would be helpful in assuring courts that the data may simply not support conclusions sufficiently certain to be submitted to lay judges and jurors. Rosen v. Ciba-Geigy Corp., 78 F.3d 316, 319, 320 (7th Cir. 1996) (“But the courtroom is not the place for scientific guesswork, even of the inspired sort. Law lags science; it does not lead it.”) (internal citations omitted).

Threats to Validity

One of the serious mistakes counsel often make in health effects litigation is to invite courts to believe that statistical significance is sufficient for causal inferences. Greenland emphasizes that validity considerations often are much stronger, and more important considerations than the play of random error[13]:

“For very imperfect data (e.g., epidemiologic data), the limited conclusions offered by statistics must be further tempered by validity considerations.”

*   *   *   *   *   *

“Examples of validity problems include non-random distribution of the exposure in question, non-random selection or cooperation of subjects, and errors in assessment of exposure or disease.”

39 Wake Forest Law Rev. at 302 – 03. Greenland’s abbreviated list of threats to validity should remind courts that they cannot sniff a p-value below five percent and then safely kick the can to the jury. The literature on evaluating bias and confounding is huge, but Greenland was a co-author on an important recent paper, which needs to be added to the required reading lists of judges charged with gatekeeping expert witness opinion testimony about health effects. See Timothy L. Lash, et al., “Good practices for quantitative bias analysis,” 43 Internat’l J. Epidem. 1969 (2014).


[1] For an influential example of this sparse genre, see James T. Rosenbaum, “Lessons from litigation over silicone breast implants: A call for activism by scientists,” 276 Science 1524 (1997) (describing the exaggerations, distortions, and misrepresentations of plaintiffs’ expert witnesses in silicone gel breast implant litigation, from perspective of a highly accomplished scientist physician, who served as a defense expert witness, in proceedings before Judge Robert Jones, in Hall v. Baxter Healthcare Corp., 947 F. Supp. 1387 (D. Or. 1996). In one attempt to “correct the record” in the aftermath of a case, Greenland excoriated a defense expert witness, Professor Robert Makuch, for stating that Bayesian methods are rarely used in medicine or in the regulation of medicines. Sander Greenland, “The Need for Critical Appraisal of Expert Witnesses in Epidemiology and Statistics,” 39 Wake Forest Law Rev. 291, 306 (2004).  Greenland heaped adjectives upon his adversary, “ludicrous claim,” “disturbing, “misleading expert testimony,” and “demonstrably quite false.” See “The Infrequency of Bayesian Analyses in Non-Forensic Court Decisions” (Feb. 16, 2014) (debunking Prof. Greenland’s claims).

[2] One almost comical example of trying too hard to settle a score occurs in a footnote, where Greenland cites a breast implant case as having been reversed in part by another case in the same appellate court. See 39 Wake Forest Law Rev. at 309 n.68, citing Allison v. McGhan Med. Corp., 184 F.3d 1300, 1310 (11th Cir. 1999), aff’d in part & rev’d in part, United States v. Baxter Int’l, Inc., 345 F.3d 866 (11th Cir. 2003). The subsequent case was not by any stretch of the imagination a reversal of the earlier Allison case; the egregious citation is a legal fantasy. Furthermore, Allison had no connection with the procedures for court-appointed expert witnesses or technical advisors. Perhaps the most charitable interpretation of this footnote is that it was injected by the law review editors or supervisors.

[3] SeeSignificance Levels are Made a Whipping Boy on Climate Change Evidence: Is .05 Too Strict? (Schachtman on Oreskes)” (Jan. 4, 2015).

[4] In addition to the unfair attack on Professor Makuch, see supra, n.1, there is much that some will find “disturbing,” “misleading,” and even “ludicrous,” (some of Greenland’s favorite pejorative adjectives) in the article. Greenland repeats in brief his arguments against the legal system’s use of probabilities of causation[4], which I have addressed elsewhere.

[5] One of Baxter’s expert witnesses appeared to be the late Professor Patricia Buffler.

[6] See 39 Wake Forest Law Rev. at 294-95, citing Baxter Healthcare Corp. v. Denton, No. 99CS00868, 2002 WL 31600035, at *1 (Cal. App. Dep’t Super. Ct. Oct. 3, 2002) (unpublished); Baxter Healthcare Corp. v. Denton, 120 Cal. App. 4th 333 (2004)

[7] Although Greenland cites to a transcript, the citation is to a judicial opinion, and the actual transcript of testimony is not available at the citation give.

[8] See Denton, supra.

[9] 39 Wake Forest L. Rev. at 297.

[10] 39 Wake Forest L. Rev. at 305 (“If it is necessary to prove causation ‛beyond a reasonable doubt’–or be ‛compelled to give up the null’ – then action can be forestalled forever by focusing on any aspect of available evidence that fails to conform neatly with the causal (alternative) hypothesis. And in medical and social science there is almost always such evidence available, not only because of the ‛play of chance’ (the focus of ordinary statistical theory), but also because of the numerous validity problems in human research.”

[11] See Peter Green, “Letter from the President to the Lord Chancellor regarding the use of statistical evidence in court cases” (Jan. 23, 2002) (writing on behalf of The Royal Statistical Society; “Although many scientists have some familiarity with statistical methods, statistics remains a specialised area. The Society urges you to take steps to ensure that statistical evidence is presented only by appropriately qualified statistical experts, as would be the case for any other form of expert evidence.”).

[12] 39 Wake Forest Law Rev. at 291 (“In reality, there is no universally accepted method for inferring presence or absence of causation from human observational data, nor is there any universally accepted method for inferring probabilities of causation (as courts often desire); there is not even a universally accepted definition of cause or effect.”).

[13] 39 Wake Forest Law Rev. at 302-03 (“If one is more concerned with explaining associations scientifically, rather than with mechanical statistical analysis, evidence about validity can be more important than statistical results.”).

Fixodent Study Causes Lockjaw in Plaintiffs’ Counsel

February 4th, 2015

Litigation Drives Science

Back in 2011, the Fixodent MDL Court sustained Rule 702 challenges to plaintiffs’ expert witnesses. “Hypotheses are verified by testing, not by submitting them to lay juries for a vote.” In re Denture Cream Prods. Liab. Litig., 795 F. Supp. 2d 1345, 1367 (S.D.Fla.2011), aff’d, Chapman v. Procter & Gamble Distrib., LLC, 766 F.3d 1296 (11th Cir. 2014). The Court found that the plaintiffs had raised a superficially plausible hypothesis, but that they had not verified the hypothesis by appropriate testing[1].

Like dentures to Fixodent, the plaintiffs stuck to their claims, and set out to create the missing evidence. Plaintiffs’ counsel contracted with Dr. Salim Shah and his companies Sarfez Pharmaceuticals, Inc. and Sarfez USA, Inc. (“Sarfez”) to conduct human research in India, to support their claims that zinc in denture cream causes neurological damage[2]In re Denture Cream Prods. Liab. Litig., Misc. Action 13-384 (RBW), 2013 U.S. Dist. LEXIS 93456, *2 (D.D.C. July 3, 2013).  When the defense learned of this study, and the plaintiffs’ counsel’s payments of over $300,000, to support the study, they sought discovery of raw data, study protocol, statistical analyses, and other materials from plaintiffs’ counsel.  Plaintiffs’ counsel protested that they did not have all the materials, and directed defense counsel to Sarfez.  Although other courts have made counsel produce similar materials from the scientists and independent contractors they engaged, in this case, defense counsel followed the trail of documents to contractor, Sarfez, with subpoenas in hand.  Id. at *3-4.

The defense served a Rule 45 subpoena on Sarfez, which produced some, but not all responsive documents. Proctor & Gamble pressed for the missing materials, including study protocols, analytical reports, and raw data.  Id. at *12-13.  Judge Reggie Walton upheld the subpoena, which sought underlying data and non-privileged correspondence, to be within the scope of Rules 26(b) and 45, and not unduly burdensome. Id. at *9-10, *20. Sarfez attempted to argue that the requested materials, listed as email attachments, might not exist, but Judge Walton branded the suggestion “disingenuous.”  Attachments to emails should be produced along with the emails.  Id. at *12 (citing and collecting cases). Although Judge Walton did not grant a request for forensic recovery of hard-drive data or for sanctions, His Honor warned Sarfez that it might be required to bear the cost of forensic data recovery if it did not comply the court’s order.  Id. at *15, *22.

Plaintiffs Put Their Study Into Play

The study at issue in the subpoena was designed by Frederick K. Askari, M.D., Ph.D., an associate professor of hepatology, in the University of Michigan Health System. In re Denture Cream Prods. Liab. Litig., No. 09–2051–MD, 2015 WL 392021, at *7 (S.D. Fla. Jan. 28, 2015). At the instruction of plaintiffs’ counsel, Dr. Askari sought to study the short-term effects of Fixodent on copper absorption in humans. Working in India, Askari conducted the study on 24 participants, who were given a controlled diet for 36 days. Of the 24 participants, 12, randomly selected, received 12 grams of Fixodent per day (containing 204 mg. of zinc). Another six participants, randomly selected, were given zinc acetate, three times per day (150 mg of zinc), and the remaining six participants received placebo, three times per day.

A study protocol was approved by an independent group[3], id. at *9, and the study was supposed to be conducted with a double blind. Id. at *7. Not surprisingly, those participants who received doses of Fixodent or zinc acetate had higher urinary levels of zinc (pee < 0.05). The important issue, however, was whether the dietary zinc levels affect copper excretion in a way that would support plaintiffs’ claims that copper levels were lowered sufficiently by Fixodent to cause a syndromic neurological disorder. The MDL Court ultimately concluded that plaintiffs’ expert witnesses’ opinions on general causation claims were not sufficiently supported to satisfy the requirements of Rule 702, and upheld defense challenges to those expert witnesses. In doing so, the MDL Court had much of interest to say about case reports, weight of the evidence, and other important issues. This post, however, concentrates on the deviations of one study, commissioned by plaintiffs’ counsel, from the scientific standard of care. The Askari “research” makes for a fascinating case study of how not to conduct a study in a litigation caldron.

Non-Standard Deviations

The First Deviation – Changing the Ascertainment Period After the Data Are Collected

The protocol apparently identified a primary endpoint to be:

“the mean increase in [copper 65] excretion in fecal matter above the baseline (mg/day) averaged over the study period … to test the hypothesis that the release of [zinc] either from Fixodent or Zinc Acetate impairs [copper 65] absorption as measured in feces.”

The study outcome, on the primary end point, was clear. The plaintiffs’ testifying statistician, Hongkun Wang, stated in her deposition that the fecal copper (whether isotope Cu63 or Cu65) was not different across the three groups (Fixodent, zinc acetate, and placebo). Id. at *9[4]. Even Dr. Askari himself admitted that the total fecal copper levels were not increased in the Fixodent group compared with the placebo control group. Id. at *9.[5]

Apparently after obtaining the data, and finding no difference in the pre-specified end point of average fecal copper levels between Fixodent and placebo groups, Askari turned to a new end point, measured in a different way, not described in the protocol as the primary end point.

The Second Deviation – Changing Primary End Point After the Data Are Collected

In the early (days 3, 4, and 5) and late (days 31, 32, and 33) part of the Study, participants received a dose of purified copper 65[6] to help detect the “blockade of copper.” Id. at 8*. The participants’ fecal copper 65 levels were compared to their naturally occurring copper 63 levels. According to Dr. Askari:

“if copper is being blocked in the Fixodent and zinc acetate test subjects from exposure to the zinc in the test product (Fixodent) and positive control (zinc acetate), the ratio of their fecal output of copper 65 as compared to their fecal output of copper 63 would increase relative to the control subjects, who were not dosed with zinc. In short, a higher ratio of copper 65 to copper 63 reflects blocking of copper.”

Id.

Askari analyzed the ratio of two copper isotopes (Cu65 /Cu63), in the limited period of observation to study days 31 to 33. Id. at *9. Askari thus changed the outcome to be measured, the timing of the measurement, and manner of measurement (average over entire period versus amount on days 31 to 33). On this post hoc, non-prespecified end point, Askari claimed to have found “significant” differences.

The MDL Court expressed its skepticism and concern over the difference between the protocol’s specified end point, and one that came into the study only after the data were obtained and analyzed. The plaintiffs claimed that it was their (and Askari’s) intention from the initial stages of designing the Fixodent Blockade Study to use the Cu65/Cu63 ratio as the primary end point. According to the plaintiffs, the isotope ratio was simply better articulated and “clarified” as the primary end point in the final report than it was in the protocol. The Court was not amused or assuaged by the plaintiffs’ assurances. The study sponsor, Dr. Salim Shah could not point to a draft protocol that indicated the isotope ratio as the end point; nor could Dr. Shah identify a request for this analysis by Wang until after the study was concluded. Id. at *9.[7]

Ultimately, the Court declared that whether the protocol was changed post hoc after the primary end point provided disappointing analysis, or the isotope ratio was carelessly omitted from the protocol, the design or conduct of the study was “incompatible with reliable scientific methodology.”

The Third Deviation – Changing the Standard of “Significance” After the Data Are Collected and P-Values Are Computed

The protocol for the Blockade study called for a pre-determined Type I error rate (p-value) of no more than 5 percent.[8] Id. at *10. The difference in the isotope ratio showed an attained level of significance probability of 5.7 percent, and thus even the post hoc end point missed the prespecified level of significance. The final protocol changed the value of “significance” to 10 percent, to permit the plaintiffs to declare a “statistically significant” result. Dr. Wang admitted in deposition that she doubled the acceptable level of Type I error only after she obtained the data and calculated the p-value of 0.057. Id. at *10.[9]

The Court found that this deliberate moving of the statistical goal post reflected a “lack of objectivity and reliability,” which smacked of contrivance[10].

The Court found that the study’s deviations from the protocol demonstrated a lack of objectivity. The inadequacy of the Study’s statistical analysis plan supported the Court’s conclusion that Dr. Askari’s supposed finding of a “statistically significant” difference in fecal copper isotope ratio between Fixodent and placebo group participants was “not based on sufficiently reliable and objective scientific methodology” and thus could not support plaintiffs’ expert witnesses’ general causation claims.

The Fourth Deviation – Failing to Take Steps to Preserve the Blind

The protocol called for a double-blinded study, with neither the participants nor the clinical investigators knowing which participant was in which group. Rather than delivering the three different groups capsules that looked similar, the group each received starkly different looking capsules. Id. at *11. The capsules for one set were apparently so large that the investigators worried whether the participants would comply with the dosing regimen.

The Fifth Deviation – Failing to Take Steps to Keep Biological Samples From Becoming Contaminated

Documents and emails from Dr. Shah acknowledged that there had been “difficulties in storing samples at appropriate temperature.” Id. at *11. Fecal samples were “exposed to unfrozen and undesirable temperature conditions.” Dr. Shah called for remedial steps from the Study manager, but there was no documentation that such steps were taken to correct the problem. Id.

The Consequences of Discrediting the Study

Dr. Askari opined that the Study, along with other evidence, shows that Fixodent can cause copper deficiency myeloneuropathy (“CDM”). The plaintiffs, of course, argued that the Defendants’ criticisms of the Fixodent

Study’s methodology went merely to the “weight rather than admissibility.” Id. at *9. Askari’s study was but one leg of the stool, but the defense’s thorough discrediting of the study was an important step in collapsing the support for the plaintiffs’ claims. As the MDL Court explained:

“The Court cannot turn a blind eye to the myriad, serious methodological flaws in the Fixodent Blockade Study and conclude they go to weight rather than admissibility. While some of these flaws, on their own, may not be serious enough to justify exclusion of the Fixodent Blockade Study; taken together, the Court finds Fixodent Blockade Study is not “good science,” and is not admissible. Daubert, 509 U.S. at 593 (internal quotation marks and citation omitted).”

Id. at *11.

A study, such as the Fixodent Blockade Study, is not itself admissible, but the deconstruction of the study upon which plaintiffs’ expert witnesses relied, led directly to the Court’s decision to exclude those witnesses. The Court omitted any reference to Federal Rule of Evidence 703, which addresses the requirements of facts and data, otherwise inadmissible, which may be relied upon by expert witnesses in reaching their opinions.


 

[1] SeePhiladelphia Plaintiff’s Claims Against Fixodent Prove Toothless” (May 2, 2012); Jacoby v. Rite Aid Corp., 2012 Phila. Ct. Com. Pl. LEXIS 208 (2012), aff’d, 93 A.3d 503 (Pa. Super. 2013); “Pennsylvania Superior Court Takes The Bite Out of Fixodent Claims” (Dec. 12, 2013).

[2] SeeUsing the Rule 45 Subpoena to Obtain Research Data” (July 24, 2013)

[3] The group was identified as the Ethica Norma Ethical Committee.

[4] citing Wang Dep. at 56:7–25, Aug. 13, 2013), and Wang Analysis of Fixodent Blockade Study [ECF No. 2197–56] (noting “no clear treatment effect on Cu63 or Cu65”).

[5] Askari Dep. at 69:21–24, June 20, 2013.

[6] Copper 65 is not a typical tracer; it is not radioactive. Naturally occurring copper consists almost exclusively of two stable (non-radioactive) isotope, Cu65 about 31 percent, Cu63 about 69 percent. See, e.g., Manuel Olivares, Bo Lönnerdal, Steve A Abrams, Fernando Pizarro, and Ricardo Uauy, “Age and copper intake do not affect copper absorption, measured with the use of 65Cu as a tracer, in young infants,” 76 Am. J. Clin. Nutr. 641 (2002); T.D. Lyon, et al., “Use of a stable copper isotope (65Cu) in the differential diagnosis of Wilson’s disease,” 88 Clin. Sci. 727 (1995).

[7] Shah Dep. at 87:12–25; 476:2–536:12, 138:6–142:12, June 5, 2013).

[8] The reported decision leaves unclear how the analysis would proceed, whether by ANOVA for the three groups, or t-tests, and whether there was multiple testing.

[9] Wang Dep. at 151:13–152:7; 153:15–18.

[10] 2015 WL 392021, at *10, citing Perry v. United States, 755 F.2d 888, 892 (11th Cir. 1985) (“A scientist who has a formed opinion as to the answer he is going to find before he even begins his research may be less objective than he needs to be in order to produce reliable scientific results.”); Rink v. Cheminova, Inc., 400 F.3d 1286, 1293 n. 7 (11th Cir.2005) (“In evaluating the reliability of an expert’s method … a district court may properly consider whether the expert’s methodology has been contrived to reach a particular result.” (alteration added)).