WAC 296-62-07346
Appendix C -- Medical surveillance
guidelines for DBCP. (1) Route of entry.
(a) Inhalation;
(b) Skin absorption.
(2) Toxicology. Recent data collected on workers
involved in the manufacture and formulation of DBCP has shown
that DBCP can cause sterility at very low levels of exposure. This finding is supported by studies showing that DBCP causes
sterility in animals. Chronic exposure to DBCP resulted in
pronounced necrotic action on the parenchymatous organs (i.e.,
liver, kidney, spleen) and on the testicles of rats at
concentrations as low as 5 ppm. Rats that were chronically
exposed to DBCP also showed changes in the composition of the
blood, showing low RBC, hemoglobin, and WBC, and high
reticulocyte levels as well as functional hepatic disturbance,
manifesting itself in a long prothrombin time. Reznik et al.,
noted a single dose of 100 mg produced profound depression of
the nervous system of rats. Their condition gradually
improved. Acute exposure also resulted in the destruction of
the sex gland activity of male rats as well as causing changes
in the estrous cycle in female rats. Animal studies have also
associated DBCP with an increased incidence of carcinoma. Olson, et al., orally administered DBCP to rats and mice five
times per week at experimentally predetermined maximally
tolerated doses and at half those doses. As early as ten
weeks after initiation of treatment, DBCP induced a high
incidence of squamous cell carcinomas of the stomach with
metastases in both species. DBCP also induced mammary
adenocarcinomas in the female rats at both dose levels.
(3) Signs and symptoms.
(a) Inhalation: Nausea, eye irritation, conjunctivitis,
respiratory irritation, pulmonary congestion or edema, CNS
depression with apathy, sluggishness, and ataxia.
(b) Dermal: Erythema or inflammation and dermatitis on
repeated exposure.
(4) Special tests.
(a) Semen analysis: The following information excerpted
from the document "Evaluation of Testicular Function,"
submitted by the Corporate Medical Department of the Shell Oil
Company (exhibit 39-3), may be useful to physicians conducting
the medical surveillance program. In performing semen
analyses certain minimal but specific criteria should be met:
(i) It is recommended that a minimum of three valid semen
analyses be obtained in order to make a determination of an
individual's average sperm count.
(ii) A period of sexual abstinence is necessary prior to
the collection of each masturbatory sample. It is recommended
that intercourse or masturbation be performed 48 hours before
the actual specimen collection. A period of 48 hours of
abstinence would follow; then the masturbatory sample would be
collected.
(iii) Each semen specimen should be collected in a clean,
widemouthed, glass jar (not necessarily pre-sterilized) in a
manner designated by the examining physician. Any part of the
seminal fluid exam should be initialed only after liquifaction
is complete, i.e., 30 to 45 minutes after collection.
(iv) Semen volume should be measured to the nearest 1/10
of a cubic centimeter.
(v) Sperm density should be determined using routine
techniques involving the use of a white cell pipette and a
hemocytometer chamber. The immobilizing fluid most effective
and most easily obtained for this process is distilled water.
(vi) Thin, dry smears of the semen should be made for a
morphologic classification of the sperm forms and should be
stained with either hematoxalin or the more difficult, yet
more precise, Papanicolaou technique. Also of importance to
record is obvious sperm agglutination, pyospermia, delayed
liquifaction (greater than 30 minutes), and hyperviscosity. In addition, pH, using nitrazine paper, should be determined.
(vii) A total morphology evaluation should include
percentages of the following:
(A) Normal (oval) forms,
(B) Tapered forms,
(C) Amorphous forms (include large and small sperm
shapes),
(D) Duplicated (either heads or tails) forms, and
(E) Immature forms.
(viii) Each sample should be evaluated for sperm
viability (percent viable sperm moving at the time of
examination) as well as sperm motility (subjective
characterization of "purposeful forward sperm progression" of
the majority of those viable sperm analyzed) within two hours
after collection, ideally by the same or equally qualified
examiner.
(b) Serum determinations: The following serum
determinations should be performed by radiommuno-assay
techniques using National Institutes of Health (NIH) specific
antigen or antigen preparations of equivalent sensitivity:
(i) Serum follicle stimulating hormone (FSH),
(ii) Serum luteinizing hormone (LH), and
(iii) Serum total estrogen (females only).
(5) Treatment. Remove from exposure immediately, give
oxygen or artificial resuscitation if indicated. Contaminated
clothing and shoes should be removed immediately. Flush eyes
and wash contaminated skin. If swallowed and the person is
conscious, induce vomiting. Recovery from mild exposures is
usually rapid and complete.
(6) Surveillance and preventive considerations.
(a) Other considerations. DBCP can cause both acute and
chronic effects. It is important that the physician become
familiar with the operating conditions in which exposure to
DBCP occurs. Those with respiratory disorders may not
tolerate the wearing of negative pressure respirators.
(b) Surveillance and screening. Medical histories and
laboratory examinations are required for each employee subject
to exposure to DBCP. The employer should screen employees for
history of certain medical conditions (listed below) which
might place the employee at increased risk from exposure:
(i) Liver disease. The primary site of biotransformation
and detoxification of DBCP is the liver. Liver dysfunctions
likely to inhibit the conjugation reactions will tend to
promote the toxic actions of DBCP. These precautions should
be considered before exposing persons with impaired liver
function to DBCP.
(ii) Renal disease. Because DBCP has been associated
with injury to the kidney it is important that special
consideration be given to those with possible impairment of
renal function.
(iii) Skin disease. DBCP can penetrate the skin and can
cause erythema on prolonged exposure. Persons with
preexisting skin disorders may be more susceptible to the
effects of DBCP.
(iv) Blood dyscrasias. DBCP has been shown to decrease
the content of erythrocytes, hemoglobin, and leukocytes in the
blood, as well as increase the prothrombin time. Persons with
existing blood disorders may be more susceptible to the
effects of DBCP.
(v) Reproductive disorders. Animal studies have
associated DBCP with various effects on the reproductive
organs. Among these effects are atrophy of the testicles and
changes in the estrous cycle. Persons with preexisting
reproductive disorders may be at increased risk to these
effects of DBCP.
(7) References.
(a) Reznik, Ya. B. and Sprinchan, G. K.: Experimental
Data on the Gonadotoxic effect of Nemagon, Gig. Sanit., (6),
1975, pp. 101-102, (translated from Russian).
(b) Faydysh, E. V., Rakhmatullaev, N. N. and Varshavskii,
V. A.: The Cytotoxic Action of Nemagon in a Subacute
Experiment, Med. Zh. Uzbekistana, (No. 1), 1970, pp. 64-65,
(translated from Russian).
(c) Rakhmatullaev, N. N.: Hygienic Characteristics of
the Nematocide Nemagon in Relation to Water Pollution Control,
Hyg. Sanit., 36(3), 1971, pp. 344-348, (translated from
Russian).
(d) Olson, W. A. et al.: Induction of Stomach Cancer in
Rats and Mice by Halogenated Aliphatic Fumigants, Journal of
the National Cancer Institute, (51), 1973, pp. 1993-1995.
(e) Torkelson, T. R. et al.: Toxicologic Investigations
of 1,2-Dibromo-3-chloropropane, Toxicology and Applied
Pharmacology, 3, 1961 pp. 545-559.
[Statutory Authority: Chapter 49.17 RCW. 88-11-021 (Order
88-04), § 296-62-07346, filed 5/11/88.]