OPINION OF THE COURT
Plaintiff Eric Parker commenced this action in 1999 against Mobil Oil Corporation, Island Transportation Corporation and Getty Petroleum Marketing, Inc., alleging that exposure to benzene in gasoline caused him to develop acute myelogenous leukemia (AML). Parker had worked as a gas station attendant for 17 years and had been exposed to benzene through inhalation of gasoline fumes and through dermal contact with gasoline. There is no dispute that benzene is a known carcinogen.
Parker worked at several full-service stations between March 1981 and August 1998. As part of his duties, he pumped gasoline for customers, exposing him to gasoline vapors; the pumps were not fitted with vapor recovery systems to reduce exposure to fumes until the early 1990s. He was also exposed to fumes upon receipt of deliveries of gasoline and upon daily gauging of gasoline levels in the tanks and he was responsible for cleaning up gasoline spills, occasioning it to remain on his hands and clothing throughout the day. Defendants did not warn him of the dangers of benzene exposure or provide him with safety or protective gear. It should be noted that Parker was also exposed to therapeutic radiation.
Prior to the completion of discovery, and before the exchange of expert reports, defendant Mobil Oil and several third-party defendants moved to preclude Parker’s expert testimony on the issue of medical causation. Defendants argued that the expert testimony was scientifically unreliable and should be excluded under Frye v United States (293 F 1013 [DC Cir 1923]). Further, defendants moved for summary judgment dismissing all claims, arguing that they lacked the necessary support in the absence of appropriate causation evidence.
In support of the motion, defendants introduced the opinions of two experts prepared for other litigations. The first, Dr. Ger-hard K. Raabe — an epidemiologist and Director of Medical Information Health Risk Assessment for Mobil — acknowledged
Defendants also offered the affidavit of Richard D. Irons, Ph.D., a toxicologist — likewise prepared for other litigation. Irons explained that the dose-related relationship was a unifying concept in the medical sciences and a cornerstone of pharmacology and toxicology; that there is usually a threshold below which no effect can be observed; and that the evidence of an association between chronic exposure to benzene and AML became less reliable as the dosage decreased; and that there was “virtually no reliable evidence to indicate that a causal relationship exists between chronic exposure to benzene at 10 ppm or lower and the development of AML.” In order to determine causation, according to Irons, it is necessary to know the amount of benzene sufficient to cause AML and the amount of benzene to which the particular plaintiff was exposed. He noted that the plaintiffs expert in that case did not quantify the benzene exposure and did not address studies finding no increased risk
In opposition to defendants’ motion, Parker argued that whether benzene can cause AML is not novel scientific evidence subject to Frye review, and that there is a difference of opinion in the scientific community as to what level of benzene exposure causes leukemia. To support his arguments, he produced reports from two experts. Philip J. Landrigan, M.D., a board-certified physician in occupational medicine and fellow of the American College of Epidemiology, detailed Parker’s medical history as well as his exposure to benzene as a component of gasoline. Landrigan noted that Parker had received radiation treatment for a prior illness. The doctor also observed that, during his service station employment, Parker frequently had cuts or abrasions on his hands that would have increased the absorption of benzene directly into his bloodstream. Further, there was at least one instance where Parker was doused with gasoline but continued to work in his gasoline-saturated clothing for the remainder of the day.
Landrigan cited several studies that linked benzene exposure to leukemia. He noted that a NIOSH study of rubber plant workers in Ohio found a relationship between increasing cumulative benzene exposure and leukemia mortality. He concluded that the study showed a risk of mortality from leukemia of about “150 times above background” over a 40-year working lifetime from exposure to benzene at 10 ppm. At 5 ppm, the risk was 12 times over background and at 1 ppm (or 40 ppm-years) the risk was doubled. The expert went on to explain that “[ejxtensive mathematical modeling was conducted to determine the shape of this positive dose-response relationship. These analyses found that a linear model best explained the association. No evidence was found for a threshold level below which no leukemia occurs.”
Landrigan further noted several studies that found an increased risk of leukemia in petroleum refinery workers and pointed out that the studies that did not find an increased risk of leukemia considered all refinery workers rather than specifically addressing only those exposed to benzene. He also stated that, in recognition of the carcinogenic nature of benzene, OSHA lowered the previous workplace standard from 10 ppm to 1 ppm. Landrigan found it unlikely that Parker would have
Parker also submitted a two-page report from Bernard D. Goldstein, M.D., an expert in toxicology and epidemiology. Dr. Goldstein stated that Parker had greater levels of exposure to benzene than the workers in the refinery studies, as modern refineries function within the 1 ppm workplace standard and “[g]asoline has been approximately 2% benzene (i.e., 20,000 ppm).” He also noted that although a study of British refinery workers found no increased risk of leukemia, a “nested case-control study . . . [found] more than a doubling in the likelihood that those who did die of leukemia had been exposed to higher levels of benzene than appropriate controls.” Finally, he observed that there was evidence that Parker’s medical history — having received radiation treatment — made him more susceptible to leukemia from exposure to benzene. While Gold-stein did give a number in ppm of how much benzene is in gasoline, neither of Parker’s experts quantified Parker’s exposure to benzene from gasoline.
Without conducting a Frye hearing (which neither party had requested), Supreme Court denied defendants’ motion to preclude Parker’s expert testimony. The court identified the issue as whether the causal relationship between benzene in gasoline and AML has general acceptance in the scientific community — particularly whether the experts used generally accepted principles and methodologies in arriving at their conclusions. The court recognized that Parker’s experts did not cite to studies linking AML to exposure to benzene in gasoline or quantify Parker’s exposure, but concluded that the experts distinguished the studies finding no increased risk of leukemia and that, while the failure to quantify exposure might require a hearing in some cases where there was less exposure, it was not necessary here.
Finally, the court determined that plaintiffs experts followed generally accepted principles and methodologies by detailing Parker’s exposure, demonstrating the link between benzene and leukemia and presenting a dose-response relationship of 40 ppm-years (or the theory that there is no threshold of exposure under which there will be no negative effects to health). The court also found that Landrigan “track[ed]” the process of generating an opinion on causation in toxic tort cases recom
The Appellate Division reversed and dismissed the complaint, framing the issue as “to what extent the plaintiff was required to establish the precise level of his exposure to benzene in order to establish that his AML was caused by it through a scientifically-reliable methodology” (
The Court also rejected Landrigan’s position that there is no threshold below which leukemia would not occur as “the scientific reliability of th[at] methodology has flatly been rejected as merely a hypothesis” (
Discussion
At issue in this case is the admissibility of Parker’s experts’ opinions. The parties dispute whether the opinions should be analyzed under
Frye.
The introduction of novel scientific evidence calls for a determination of its reliability. Thus, the
Frye
test asks “whether the accepted techniques, when properly performed, generate results accepted as reliable within the scientific community generally”
(People v Wesley,
The
Frye
inquiry is separate and distinct from the admissibility question applied to all evidence — whether there is a proper foundation — to determine whether the accepted methods were appropriately employed in a particular case (Wesley,
Here, there is a question as to whether the methodologies employed by Parker’s experts lead to a reliable result — specifically, whether they provided a reliable causation opinion without using a dose-response relationship and without quantifying Parker’s exposure. There is no particular novel methodology at issue for which the Court needs to determine whether there is general acceptance. Thus, the inquiry here is more akin to whether there is an appropriate foundation for the experts’ opinions, rather than whether the opinions are admissible under Frye.
As with any other type of expert evidence, we recognize the danger in allowing unreliable or speculative information (or “junk science”) to go before the jury with the weight of an impressively credentialed expert behind it. But, it is similarly inappropriate to set an insurmountable standard that would effectively deprive toxic tort plaintiffs of their day in court. It is necessary to find a balance between these two extremes.
One problem with establishing causation in toxic tort cases is that, often, a plaintiffs exposure to a toxin will be difficult or impossible to quantify by pinpointing an exact numerical value. Here, for example, defendants did not monitor the level of benzene in the air at the service stations. Nor were they
It is well-established that an opinion on causation should set forth a plaintiffs exposure to a toxin, that the toxin is capable of causing the particular illness (general causation) and that plaintiff was exposed to sufficient levels of the toxin to cause the illness (specific causation)
(see e.g. McClain v Metabolife Intl., Inc.,
The argument that precise quantification is not necessary finds support in case law from other jurisdictions. For example, the Fourth Circuit has noted that
“while precise information concerning the exposure necessary to cause specific harm to humans and exact details pertaining to the plaintiffs exposure are beneficial, such evidence is not always available, or necessary, to demonstrate that a substance is toxic to humans given substantial exposure and need not invariably provide the basis for an expert’s opinion on causation” (Westberry v Gislaved Gummi AB,178 F3d 257 , 264 [4th Cir 1999]; see also Heller v Shaw Indus., Inc.,167 F3d 146 , 157 [3d Cir 1999]; Hardyman v Norfolk & W. Ry. Co.,243 F3d 255 , 265-266 [6th Cir 2001]). 4
Some cases requiring an expert to establish the dosage at which a substance is toxic and the amount of exposure a plaintiff actually experienced also appear to recognize that an exact number may not be necessary
(see Wright,
There could be several other ways an expert might demonstrate causation. For instance, amici note that the intensity of exposure to benzene may be more important than a cumulative dose for determining the risk of developing leukemia. Moreover, exposure can be estimated through the use of mathematical modeling by taking a plaintiffs work history into account to estimate the exposure to a toxin. It is also possible that more qualitative means could be used to express a plaintiffs exposure. Comparison to the exposure levels of subjects of other studies could be helpful provided that the expert made a specific comparison sufficient to show how the plaintiffs exposure level related to those of the other subjects. These, along with others, could be potentially acceptable ways to demonstrate causation if they were found to be generally accepted as reliable in the scientific community.
Turning to the opinions offered by Parker’s experts, although we reject the Appellate Division’s requirement that the amount of exposure need be quantified exactly, we nonetheless conclude that the Appellate Division properly precluded them and properly deemed them insufficient to defeat summary judgment. The experts, although undoubtedly highly qualified in their respective fields, failed to demonstrate that exposure to benzene as a component of gasoline caused Parker’s AML. Dr. Goldstein’s general, subjective and conclusory assertion — based on Parker’s deposition testimony — that Parker had “far more exposure to benzene than did the refinery workers in the epidemiological studies” is plainly insufficient to establish causation. It neither states the level of the refinery workers’ exposure, nor specifies how Parker’s exposure exceeded it, thus lacking in epidemiologic evidence to support the claim.
Dr. Landrigan’s submissions were likewise insufficient. He reported that Parker was “frequently” exposed to “excessive” amounts of gasoline and had “extensive exposures ... in both liquid and vapor form,” which — even given that an expert is not required to pinpoint exposure with complete precision — cannot be characterized as a scientific expression of Parker’s exposure level. Moreover, Landrigan concentrates on the relationship between exposure to benzene and the risk of developing AML — an association that is not in dispute. Key to this litigation is the relationship, if any, between exposure to
gasoline
containing
Parker’s remaining contentions are without merit.
Accordingly, the order of the Appellate Division should be affirmed, with costs.
Chief Judge Kaye and Judges Rosenblatt, Graffeo, Read and R.S. Smith concur; Judge Pigott taking no part.
Order affirmed, with costs.
Notes
. PPM means parts per million — here, 100 parts benzene per one million parts of air. The TWA, or time-weighted average, is the average amount of a substance to which an individual is exposed over an eight-hour work shift. This measurement can also be expressed in ppm-years.
. Those steps are: (1) determining the plaintiffs exposure to the particular toxin; (2) general causation, which is proof that the toxin in question can in fact cause the illness, and the amount of exposure required to cause the illness (the dose-response relationship); and (3) specific causation — meaning the likelihood that plaintiffs illness was caused by the toxin, including eliminating other potential causes of the disease
(see Mancuso v Consolidated Edison Co. of N.Y., Inc.,
. Although some amici urge the Court to adopt the federal standard (or some portions of it) as expressed in
Daubert v Merrell Dow Pharmaceuticals, Inc.
(
. We recognize that these cases employ a Daubert analysis. However, they are instructive to the extent that they address the reliability of an expert’s methodology.