TORTINI

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

Reference Manual – Desiderata for 4th Edition – Part II – Epidemiology & Specific Causation

January 31st, 2023

There are many nits that a reader could pick with the third edition of the Reference Manual, but one non-trivial issue is raised by the epidemiology chapter’s pronouncement that:

“Epidemiology is concerned with the incidence of disease in populations, and epidemiologic studies do not address the question of the cause of an individual’s disease178.”[1]

According to the Manual’s authors, the so-called specific-causation question is “beyond the domain of the science of epidemiology.” Epidemiologists do not investigate whether “an agent caused a specific plaintiff’s disease.”[2] The chapter insists that “[t]his question is not a question that is addressed by epidemiology. Rather, it is a legal question with which numerous courts have grappled.”[3]

Later on in the chapter, the authors repeat their opinion when they insist that the use of a threshold relative risk is “not epidemiology or an inquiry that an epidemiologist would undertake.”[4]

Strictly speaking the authors are correct that an epidemiologic study itself typically does not address the question individual causation. The authors of an epidemiologic study have no one person in mind, as does the factfinder in a civil action. The notion that epidemiology as a scientific discipline does not address the question of individual causation, however, seems just wrong. Tellingly, the authors’ footnote pointed to case law and a law review article, and not a single scientific source. The chapter does reference another legal source, the Third Restatement, which repeats the gist of the epidemiology chapter’s categorical statement:

“Scientists who conduct group studies do not examine specific causation in their research. No scientific methodology exists for assessing specific causation for an individual based on group studies. Nevertheless, courts have reasoned from the preponderance-of-the-evidence standard to determine the sufficiency of scientific evidence on specific causation when group-based studies are involved.”[5]

The chapter’s broad, sweeping characterization fails to consider:

  • genome-wide association studies that may identify genes or mutations that are highly penetrant and which identify a causal association in the carriers of the genes; and
  • epidemiologic studies that identify associations, shown to be causal, with risk ratios sufficiently great (say over 20) such that virtually all cases of the studied outcome would be avoided by removing the exposure that gave rise to such a large risk ratio; and
  • epidemiologic studies that allow causal associations to be inferred in limited sub-populations, with sufficiently high relative risks that the studies support specific causation opinions.

Perhaps even more important than the above counter-examples, the chapter authors ignore the myriad instances in which epidemiologic studies and clinical trials, and analyses of both, directly inform clinical judgments about individual patients or subjects. Clinicians use studies of groups, such as clinical trials, to identify therapeutic benefits from medications and other interventions.  These data directly inform their prescription decisions for individual patients, or their decisions to recommend surgical or other medical interventions to individuals.[6] The classic text on medical decision making describes how group-level data provide the basis for individual clinical decisions on therapy:

1.5 How do I choose among several risky treatment alternatives?

Choosing among risky treatment alternatives is difficult because the outcome of most treatments is uncertain: some people respond to treatment but others do not. If the outcome of a treatment is governed by chance, a clinician cannot know in advance which outcome of the treatment will result. Under these circumstances, the best way to achieve a good outcome is to choose the treatment alternative whose average outcome is best. This concept is called expected value decision making.”[7]

Medical practitioners and scientists frequently use epidemiologic data, based upon “group-based data” to make individual diagnostic judgments. The inferences from group data to individual range abound in the diagnostic process itself, where the specificity and sensitivity of disease signs and symptoms are measured by group data. Physicians must rely upon group data to make prognoses for individual patients, and they rely upon group data to predict future disease risks for individual patients. Future disease risks, as in the Framingham risk score for hard coronary heart disease, or the Gale model for breast cancer risk, are, of course, based upon “group-based data.”[8] A search on the phrase “prediction models” yielded 662,297 results in the National Library of Medicine PubMed database.

The epidemiology chapter has taken its position on the irrelevance of epidemiology to specific causation through all three editions of the Reference Manual.  Perhaps its authors will rethink their dogma in the fourth.


[1] RMSE3d at 608. The internal footnote, 178, pointed to: “178. See DeLuca v. Merrell Dow Pharms., Inc., 911 F.2d 941, 945 & n.6 (3d Cir. 1990) (“Epidemiological studies do not provide direct evidence that a particular plaintiff was injured by exposure to a substance.”) (emphasis added in this post). The emphasis in the quote is mine because the DeLuca court suggested by implication that epidemiologic studies provided the basis for inferences about specific causation. The footnote also cited another case that simply cited an earlier edition of the Manual, which hardly advances the inquiry into whether the Manual was correct in the first place. See In re Viagra Prods. Liab. Litig., 572 F. Supp. 2d 1071, 1078 (D. Minn. 2008) (“Epidemiology focuses on the question of general causation (i.e., is the agent capable of causing disease?) rather than that of specific causation (i.e., did it cause a disease in a particular individual?)” (quoting the second edition of this reference guide)). Finally, the Manual cited a state court case, In re Asbestos Litig,, 900 A.2d 120, 133 (Del. Super. Ct. 2006), and a law review article, Michael Dore, “A Commentary on the Use of Epidemiological Evidence in Demonstrating Cause-in-Fact,” 7 Harv. Envtl. L. Rev. 429, 436 (1983).” Admittedly, the chapter’s position can be found in writings of other legal commentators, although repetition hardly makes it any less wrong. See, e.g., Andrew See, “Use of Human Epidemiology Studies in Proving Causation,” 67 Def. Couns. J. 478, 478 (2000) (“Epidemiology studies are relevant only to the issue of general causation and cannot establish whether an exposure or factor caused disease or injury in a specific individual.”); Melissa Moore Thomson, Causal Inference in Epidemiology: Implications for Toxic Tort Litigation, 71 N.C. L. Rev. 247, 255 (1992) (“statistic-based epidemiological study results should not be applied directly to establish the likelihood of causation in an individual plaintiff”); 

[2] RMSE3d at 609 & n.179. Inconsistently, the epidemiology chapter reports, without criticism, that some courts have allowed expert witnesses to opine about specific causation, without detailing how epidemiologic science was helpful to the specific causation issues. See RMSE3d at 609 n. 181 (citing Ambrosini v. Labarraque, 101 F.3d 129, 137–41 (D.C. Cir. 1996); Zuchowicz v. United States, 870 F. Supp. 15 (D. Conn. 1994); Landrigan v. Celotex Corp., 605 A.2d 1079, 1088–89 (N.J. 1992)).

[3] RMSE3d at 609.

[4] RMSE3d at 611 n.186.

[5] See Restatement (Third) of Torts: Liability for Physical and Emotional Harm § 28 cmt.

c(3) (2010) (cited at RMSE3d at 610 n.182).

[6] See, e.g., Robert H. Fletcher, Suzanne W. Fletcher, and Grant S. Fletcher, Clinical Epidemiology: The Essentials (5th ed. 2015) (treating prognosis, diagnosis, treatment, and prevention as topics of consideration, all involving individual patient decisions, in clinical epidemiology); Grobbee & Arno W. Hoes, Clinical Epidemiology: Principles, Methods, and Applications for Clinical Research (2d ed. 2015).

[7] Harold C. Sox, Michael C. Higgins & Douglas K. Owens, Medical Decision Making 6 (2d ed. 2013).

[8] See, e.g., Ewout W. Steyerberg. Clinical Prediction Models: A Practical Approach to Development, Validation, and Updating (2d ed. 2019).

Reference Manual – Desiderata for 4th Edition – Part I – Signature Diseases

January 30th, 2023

The fourth edition of the Reference Manual on Scientific Evidence is by all accounts under way. Each of the first three editions represented an improvement over previous editions, but the last edition continued to have substantive problems. The bar, the judiciary, and the scientific community hopefully await an improved fourth edition. Although I have posted previously about issues in the third edition, I am updating and adding to what I have written.[1]  There were only a few reviews and acknowledgments of the third edition.[2] The editorial staff provided little to no opportunity for comments in advance of the third edition, and to date, there has been no call for public comment about the pending fourth edition. I hope there will be more opportunity for the legal and scientific community to comment in the production of the fourth edition.

There are several issues raised by the third edition’s treatment of specific causation, which I hope will be improved in the fourth edition. One such issue is the epidemiology chapter’s brief discussion of so-called signature diseases. The chapter takes the curious position that epidemiology has nothing to say about individual or specific causation, a position I will discuss in later posts. The chapter, however, carves out a limited exception to its (questionable) edict that epidemiology does not concern itself with specific causation.  The chapter tells us, uncontroversially, that some diseases do not occur without exposure to a specific chemical or substance. In my view, the authors of this chapter then go astray in telling us that “[a]bestosis is a signature disease for asbestos, and vaginal adenocarcinoma (in young adult women) is a signature disease for in utero DES exposure.”

Now, by definition, only asbestos can cause asbestosis, but asbestosis presents clinically in a way that is indistinguishable in many cases from idiopathic pulmonary fibrosis and other interstitial fibrotic diseases of the lungs. Over the years, the diagnostic criteria for asbestosis have changed, but these criteria have always had a specificity and sensitivity less than 100%. Saying that a case of asbestosis must have been caused by asbestos begs the clinical question whether the case really is asbestosis.

The chapter’s characterization of vaginal adenocarcinoma as a signature disease of in utero DES exposure is also not correct.  Although this cancer in young women is extremely rare, there is a baseline risk that allows the calculation of relative risks for young women exposed in utero. In older women, the relative risks are lower because the baseline risks are higher, and because the effect of DES is diminished for older onset cases.[3] The disease was known before the use of DES in pregnant women began after World War II.[4]

For support of their discussion of “signal diseases,” the authors of the epidemiology chapter chose, remarkably, to cite an article that was over 25 years old (now over 35 years old) at the time the third edition was published.[5] The referenced passage asks us to:

“Consider tort claims for what have come to be called signature disease. These are diseases characteristically caused by only a few substances – such as the vaginal adenocarcinoma usually associated with exposure to DES in utero – and mesothelioma, a cancer of the pleura caused almost exclusively by exposure to asbestos fibers in the air.”[6]

Well, “usually associated” does equal signature disease.[7] The relative risks for smoking and some kinds of lung cancer are higher than for DES in utero and clear cell vaginal adenocarcinoma, but no one calls lung cancer a signature disease of smoking. (Admittedly, smoking is the major cause and perhaps the most preventable cause of lung cancer in Western countries.)

The third edition’s reference to a source that describes mesothelioma as “caused almost exclusively by exposure to asbestos fibers” is also out of date.[8] Recognizing that casual comments and citations can influence credulous judges, the authors of the fourth edition should strive for greater accuracy in their discussions of such scientific issues. It may be time to find new examples of signature disease.


[1]Reference Manual on Scientific Evidence v4.0” (Feb. 28, 2021); “Reference Manual on Scientific Evidence – 3rd Edition is Past Its Expiry” (Oct. 17, 2021). 

[2] See, e.g., Adam Dutkiewicz, “Book Review: Reference Manual on Scientific Evidence, Third Edition,” 28 Thomas M. Cooley L. Rev. 343 (2011); John A. Budny, “Book Review: Reference Manual on Scientific Evidence, Third Edition,” 31 Internat’l J. Toxicol. 95 (2012); James F. Rogers, Jim Shelson, and Jessalyn H. Zeigler, “Changes in the Reference Manual on Scientific Evidence (Third Edition),” Internat’l Ass’n Def. Csl. Drug, Device & Biotech. Comm. Newsltr. (June 2012). See Schachtman “New Reference Manual’s Uneven Treatment of Conflicts of Interest” (Oct. 12, 2011).

[3] Janneke Verloop, Flora E. van Leeuwen, Theo J. M. Helmerhorst, Hester H. van Boven, and Matti A. Rookus, “Cancer risk in DES daughters,” 21 Cancer Causes & Control 999 (2010).

[4] See “Risk Factors for Vaginal Cancer,” American Cancer Soc’y website (last visited Jan. 29, 2023).

[5] Kenneth S. Abraham & Richard A. Merrill, Scientific Uncertainty in the Courts, 2 Issues Sci. & Tech. 93, 101 (Winter 1986).

[6] Id.

[7] See, e.g., Kadir Güzin, Semra Kayataş Eserm, Ayşe Yiğit, and Ebru Zemheri, “Primary clear cell carcinoma of the vagina that is not related to in utero diethylstilbestrol use,” 3 Gynecol. Surg. 281 (2006).

[8] Michele Carbone, Harvey I. Pass, Guntulu Ak, H. Richard Alexander Jr., Paul Baas, Francine Baumann, Andrew M. Blakely, Raphael Bueno, Aleksandra Bzura, Giuseppe Cardillo, Jane E. Churpek, Irma Dianzani, Assunta De Rienzo, Mitsuru Emi, Salih Emri, Emanuela Felley-Bosco, Dean A. Fennell, Raja M. Flores, Federica Grosso, Nicholas K. Hayward, Mary Hesdorffer, Chuong D. Hoang, Peter A. Johansson, Hedy L. Kindler, Muaiad Kittaneh, Thomas Krausz, Aaron Mansfield, Muzaffer Metintas, Michael Minaai, Luciano Mutti, Maartje Nielsen, Kenneth O’Byrne, Isabelle Opitz, Sandra Pastorino, Francesca Pentimalli, Marc de Perrot, Antonia Pritchard, Robert Taylor Ripley, Bruce Robinson, and Valerie Rusch, “Medical and Surgical Care of Patients With Mesothelioma and Their Relatives Carrying Germline BAP1 Mutations,” 17 J. Thoracic Oncol. 873 (2022). See also Mitchell Cheung, Yuwaraj Kadariya, Eleonora Sementino, Michael J. Hall, Ilaria Cozzi, Valeria Ascoli, Jill A. Ohar, and Joseph R. Testa, “Novel LRRK2 mutations and other rare, non-BAP1-related candidate tumor predisposition gene variants in high-risk cancer families with mesothelioma and other tumors,” 30 Human Molecular Genetics 1750 (2021); Thomas Wiesner, Isabella Fried, Peter Ulz, Elvira Stacher, Helmut Popper, Rajmohan Murali, Heinz Kutzner, Sigurd Lax, Freya Smolle-Jüttner, Jochen B. Geigl, and Michael R. Speicher, “Toward an Improved Definition of the Tumor Spectrum Associated With BAP1 Germline Mutations,” 30 J. Clin. Oncol. e337 (2012); Alexandra M. Haugh, BA1; Ching-Ni Njauw, MS2,3; Jeffrey A. Bubley, et al., “Genotypic and Phenotypic Features of BAP1 Cancer Syndrome: A Report of 8 New Families and Review of Cases in the Literature,” 153 J.Am. Med. Ass’n Dermatol. 999 (2017).

Mass Tortogenesis

January 22nd, 2023

Mass torts are created much as cancer occurs in humans. The multistage model of tortogenesis consists of initiating and promoting events. The model describes, and in some cases, can even predict mass torts. The model also offers insights into prevention.

INITIATION

Initiating events can take a variety of forms. A change in a substance’s categorization in the International Agency for Research on Cancer’s treatment of cancer “hazards” will often initiate a mass tort by stirring interest in the lawsuit industry. A recent example of an IARC pronouncement’s initiating mass tort litigation is its reclassification of glyphosate as a “probable” human carcinogen.  Although the IARC monograph was probably flawed at its inception, and despite IARC’s specifying that its use of “probable” has no quantitative meaning, the IARC glyphosate monograph was a potent initiator of mass tort litigation against the manufacturer of glyphosate.

Regulatory rulemaking will often initiate a mass tort. Asbestos litigation existed as workman’s compensation cases from the 1930s, and as occasional, isolated cases against manufacturers, from the late 1950s.[1] By 1970, federal regulation of asbestos, in both occupational and environmental settings, however, helped create a legal perpetual motion machine that is still running, half a century later.

Publication of studies, especially with overstated results, will frequently initiate a mass tort. In 2007, the New England Journal of Medicine published a poorly done meta-analysis by Dr. Steven Nissen, on the supposed risk of heart attack from the use of rosiglitazone (Avandia).[2] Within days, lawsuits were filed against the manufacturer, GlaxoSmithKline, which ultimately paid over six billion dollars in settlements and costs.[3] Only after the harm of this mass tort was largely complete, the results of a mega-trial, RECORD,[4] became available, and the FDA changed its regulatory stance on rosiglitazone.[5]

More recently, on October 17, 2022, the Journal of the National Cancer Institute, published an observational epidemiologic study, “Use of Straighteners and Other Hair Products and Incident Uterine Cancer.”[6] Within a week or two, lawsuits began to proliferate. The authors were equivocal about their results, refraining from using explicit causal language, but suggesting that specific (phthalate) chemicals were “driving” the association:

“Abstract

Background

Hair products may contain hazardous chemicals with endocrine-disrupting and carcinogenic properties. Previous studies have found hair product use to be associated with a higher risk of hormone-sensitive cancers including breast and ovarian cancer; however, to our knowledge, no previous study has investigated the relationship with uterine cancer.

Methods

We examined associations between hair product use and incident uterine cancer among 33947 Sister Study participants aged 35-74 years who had a uterus at enrollment (2003-2009). In baseline questionnaires, participants in this large, racially and ethnically diverse prospective cohort self-reported their use of hair products in the prior 12 months, including hair dyes; straighteners, relaxers, or pressing products; and permanents or body waves. We estimated adjusted hazard ratios (HRs) and 95% confidence intervals (CIs) to quantify associations between hair product use and uterine cancer using Cox proportional hazard models. All statistical tests were 2-sided.

Results

Over an average of 10.9 years of follow-up, 378 uterine cancer cases were identified. Ever vs never use of straightening products in the previous 12 months was associated with higher incident uterine cancer rates (HR= 1.80, 95% CI = 1.12 to 2.88). The association was stronger when comparing frequent use (> 4 times in the past 12 months) vs never use (HR=2.55, 95% CI = 1.46 to 4.45; P trend=.002). Use of other hair products, including dyes and permanents or body waves, was not associated with incident uterine cancer.

Conclusion

These findings are the first epidemiologic evidence of association between use of straightening products and uterine cancer. More research is warranted to replicate our findings in other settings and to identify specific chemicals driving this observed association.”

The JNCI article might be considered hypothesis generating, but we can observe the article, in real time, initiating a mass tort. A petition for “multi-district litigation” status was filed not long after publication, and the lawsuit industry is jockeying for the inside post in controlling the litigation. Although the authors acknowledged that their findings were “novel,” and required more research, the lawsuit industry did not.

PROMOTION OF INITIATED MASS TORTS

As noted, within days of publication of the JNCI article on hair straighteners and uterine cancer, lawyers filed cases against manufacturers and sellers of hair straighteners. Mass tort litigation is a big business, truly industrial in scale, with its own eco-system of litigation finance, and claim finding and selling. Laws against champerty and maintenance have gone the way of the dodo. Part of the ethos of this eco-system is the constant deprecation of manufacturing industry’s “conflicts of industry,” while downplaying the conflicts of the lawsuit industry.

Here is an example of an email that a lawsuit industry lawyer might have received last month. The emphases below are mine:

“From:  ZZZ

To:  YYYYYYYYY

Date:  12/XX/2022
Subject:  Hair relaxer linked to cancer

Hi,

Here is the latest information on the Hair Relaxer/Straightener tort.

A recent National Institute of Health sister study showed proof that hair straightener products are linked to uterine cancer.

Several lawsuits have been filed against cosmetic hair relaxer companies since the release of the October 2022 NIH study.

The potential plaintiff pool for this case is large since over 50,000 women are diagnosed yearly.

A motion has been filed with the Judicial Panel on Multi District Litigation to have future cases moved to a class action MDL.

There are four cosmetic hair relaxers that are linked to this case so far.  Dark & Lovely, Olive Oil Relaxer, Motions, and Organic Root Stimulator.

Uterine fibroids and endometriosis have been associated with phthalate metabolites used in hair relaxers.

Are you looking to help victims in this case

ZZZ can help your firm sign up these thousands of these claimants monthly with your hair relaxer questionnaire, criteria, retainer agreement, and Hippa without the burden of doing this in house at an affordable cost per signed retainer for intake fees.

  • ZZZ intake fees are as low as $65 dollars per signed based upon a factors which are criteria, lead conversion %, and length of questionnaire.  Conversion rates are averaging 45%.
  • I can help point you in the right direction for reputable marketing agencies if you need lead sources or looking to purchase retainers.  

Please contact me to learn more about how we can help you get involved in this case.

Thank you,

ZZZ”

As you can see from ZZZ’s email, the JNCI article was the tipping point for the start of a new mass tort. ZZZ, however, was a promoter, not an initiator. Consider the language of ZZZ’s promotional efforts:

“Proof”!

As in quod erat demonstrandum.

Where is the Department of Justice when you have the makings of a potential wire fraud case?[7]

And “link.” Like sloppy journalists, the lawsuit industry likes to link a lot.

chorizo sausage links (courtesy of Wikipedia)[8]

And so it goes.

Absent from the promotional email are of course, mentions of the “novelty” of the JNCI paper’s finding, its use of dichotomized variables, its multiple comparisons, or its missing variables. Nor will you see any concern with how the JNCI authors inconsistently ascertained putative risk factors. Oral contraception was ascertained for over 10 years before base line, but hair straightener use was ascertained only for one year prior to baseline.

SYSTEMIC FAILURES TO PREVENT MASS TORTOGENESIS

Human carcinogenesis involves initiation and promotion, as well as failure of normal defense mechanisms against malignant transformation. Similarly, mass tortogenesis involves failure of defense mechanisms. Since 1993, the federal courts have committed to expert witness gatekeeping, by which they exclude expert witnesses who have outrun their epistemic headlights. Gatekeeping in federal court does not always go well, as for example in the Avandia mass tort, discussed above. In state courts, gatekeeping is a very uneven process.

Most states have rules or law that looks similar to federal law, but state judges, not uncommonly, look for ways to avoid their institutional responsibilities. In a recent decision involving claims that baby foods allegedly containing trace metals cause autism, a California trial judge shouted “not my job”[9]:

 “Under California law, the interpretation of epidemiological data — especially data reported in peer-reviewed, published articles — is generally a matter of professional judgment outside the trial court’s purview, including the interpretation of the strengths and weaknesses of a study’s design. If the validity of studies, their strengths and weaknesses, are subject to ‘considerable scientific interpretation and debate’, a court abuses its discretion by ‘stepping in and resolving the debate over the validity of the studies’. Nor can a court disregard ‘piecemeal … individual studies’ because it finds their methodology, ‘fully explained to the scientific community in peer-reviewed journals, to be misleading’ – ‘it is essential that… the body of studies be considered as a whole’. Flaws in study methodology should instead be ‘explored in detail through cross-examination and with the defense expert witnesses’ and affect ‘the weight[,] not the admissibility’ of an expert’s opinions.”

When courts disclaim responsibility for ensuring validity of evidence used to obtain judgments in civil actions, mass tortogenesis is complete, and the victim, the defendants, often must undergo radical treatment.


[1] The first civil action appears to have been filed by attorney William L. Brach on behalf of Frederick LeGrande, against Johns-Manville, for asbestos-related disease, on July 17, 1957, in LeGrande v. Johns-Manville Prods. Corp., No. 741-57 (D.N.J.).

[2] Steven E. Nissen, M.D., and Kathy Wolski, M.P.H., “Effect of Rosiglitazone on the Risk of Myocardial Infarction and Death from Cardiovascular Causes,” 356 New Engl. J. Med. 2457, 2457 (2007).

[3] In re Avandia Marketing, Sales Practices and Product Liability Litigation, 2011 WL 13576, *12 (E.D. Pa. 2011) (Rufe, J.).  See “Learning to Embrace Flawed Evidence – The Avandia MDL’s Daubert Opinion” (Jan. 10, 2011). Failed expert witness opinion gatekeeping promoted the mass tort into frank mass tort.

[4] Philip D. Home, Stuart J Pocock, et al., “Rosiglitazone Evaluated for Cardiovascular Outcomes in Oral Agent Combination Therapy for Type 2 Diabetes (RECORD),” 373 Lancet 2125 (2009) (reporting hazard ratios for cardiovascular deaths 0.84 (95% C.I., 0·59–1·18), and for myocardial infarction, 1·14 (95% C.I., 0·80–1·63). SeeRevisiting the Avandia Scare: Results from the RECORD TrialDiaTribe Learn (updated Aug. 14, 2021).

[5] FDA Press Release, “FDA requires removal of certain restrictions on the diabetes drug Avandia” (Nov. 25, 2013). And in December 2015, the FDA abandoned its requirement of a Risk Evaluation and Mitigation Strategy for Avandia. FDA, “Rosiglitazone-containing Diabetes Medicines: Drug Safety Communication – FDA Eliminates the Risk Evaluation and Mitigation Strategy (REMS)” (Dec. 16, 2015).

[6] Che-Jung Chang, Katie M O’Brien, Alexander P Keil, Symielle A Gaston, Chandra L Jackson, Dale P Sandler, and Alexandra J White, “Use of Straighteners and Other Hair Products and Incident Uterine Cancer,”114 J.Nat’l Cancer Instit. 1636 (2022).

[7] See, e.g., United States v. Harkonen, 2010 WL 2985257, at *5 (N.D. Calif. 2010) (denying defendant’s post–trial motions to dismiss the indictment, for acquittal, or for a new trial), aff’d, 510 Fed. Appx. 633, 2013 WL 782354, 2013 U.S. App. LEXIS 4472 (9th Cir. March 4, 2013), cert. denied 134 S.Ct. 824 (2013).

[8] See https://en.wikipedia.org/wiki/List_of_sausages.

[9] NC v Hain Celestial Group, Inc., 21STCV22822, Slip op. sur motion to exclude expert witnesses, Cal. Super. Ct. (Los Angeles May 24, 2022) (internal citations omitted).