Ch20 pg645 654


Medical Chemical Defense Acquisition Programs
Chapter 20
MEDICAL CHEMICAL DEFENSE
ACQUISITION PROGRAMS
KEITH VESELY, DVM, PHD,* AND JONATHAN NEWMARK, MD
INTRODUCTION
MEDICAL CHEMICAL ACQUISITION ORGANIZATIONS
MEDICAL CHEMICAL ACQUISITION PROCESSES AND CONCERNS
Concept Development
Technology Development
System Development and Demonstration
Production and Development
Operations and Support Phase
Acquisition Manufacturing Strategy
Acquisition Test and Evaluation Strategy
Acquisition Business and Contracting Strategy
Specific Concerns in Medical Chemical Defense
STATUS OF ACQUISITION PROGRAMS OF RECORD
Lifecycle Management Products
Sustainment Programs
Products in Advanced Development
SUMMARY
*Colonel, US Army; Joint Product Manager, Medical Identification and Treatment Systems, Chemical Biological Medical Systems Joint Project Manage-
ment Office, 64 Thomas Johnson Drive, Frederick, Maryland 21702

Colonel, US Army; Deputy Joint Program Executive Officer, Medical Systems, Joint Program Executive Office for Chemical/Biological Defense, Skyline
#2, Suite 1609, 5203 Leesburg Pike, Falls Church, Virginia 22041; Adjunct Professor, Department of Neurology, F. Edward Hébert School of Medicine,
Uniformed Services University of the Health Sciences, Bethesda, Maryland
645
Medical Aspects of Chemical Warfare
INTRODUCTION
The Department of Defense (DoD) requires medical proval (DoD policy stipulates that military personnel
countermeasures to treat or mitigate illness resulting will only receive medical products approved by the
from exposure to chemical, biological, and radiologi- FDA. Quad service doctrine, which appears in Army
cal warfare agents. While medical chemical defense Regulation 40-7, states,  it is the policy of TSG [The
depends on basic and applied science to gain insight Army Surgeon General] that drugs used will be those
into the pathophysiology, pharmacokinetics, and phar- approved by the FDA and procured from suppliers in
macodynamics of candidate countermeasures, fielding the United States. 1,2 This chapter will briefly describe
a medical countermeasure cannot occur until advanced the US military s organizations responsible for imple-
development efforts complete full-rate production and menting advanced development and will summarize
obtain US Food and Drug Administration (FDA) ap- the status of current programs of record.
MEDICAL CHEMICAL ACQUISITION ORGANIZATIONS
The acquisition process may be defined as the and technology) is the Army acquisition executive
process of developing, acquiring, fielding, maintain- responsible for managing these programs.
ing, sustaining, and, when necessary, closing out any DoD chemical and biological defense acquisition
weapons or protective system in the US military. A programs are managed by the JPEO-CBD, which is
drug, vaccine, or medical device used to protect the headed by a two-star general, the joint program ex-
force against chemical or biological attack is considered ecutive officer. The JPEO-CBD manages $1.5 billion
a protective system, and medical countermeasures in acquisition programs, of which approximately
are developed and obtained using what is known 85% are nonmedical programs (boots, masks, gloves,
as  the acquisition process. The acquisition process detectors, collective protection, information systems,
includes identifying requirements or capability gaps,
identifying potential solutions, and developing and
acquiring those solutions, whether the acquisitions are
for the development of weapons systems or medical
countermeasures.
Joint
Joint
CAPABILITIES DOCUMENTS
Program Executive
Chemical and biological defense programs within
Requirements
BUILD POM
Office for Chem/
Office
the DoD are managed by a triad of equal organizations,
Bio Defense
each of which handles one aspect of the acquisition
process. The Joint Requirements Office for Chemical,
Biological, Radiological, and Nuclear (CBRN) defense
Joint Test
generates and validates requirements from the field, and
Evaluation
such as the need for a skin decontaminant or for a
Executive
specific chemical detector. The Defense Threat Reduc-
tion Agency, through its joint science and technology
office for chemical and biological defense, conducts
and supports research and development that seeks
to meet these requirements and fill capability gaps. It
also maintains a robust science and technology base.
This chapter focuses on the third leg of the triad, the
organization responsible for the acquisition of medical
chemical defense items: the Joint Program Executive
INPUT
INPUT
Joint
FOR
Office for Chemical Biological Defense (JPEO-CBD) FOR
Science and
PRIORITIES
PRIORITIES
(Figure 20-1).
Technology
COMBATANT
COMBATANT
SERVICES
SERVICES
Office
In the DoD, all chemical and biological defense
COMMANDERS
COMMANDERS
acquisition processes fall under the responsibility of
the defense acquisition executive (the under secretary
Fig. 20-1. Required capabilities, science and technology, and
of defense for acquisition, technology, and logistics) at
acquisition responsibilities and interactions.
the DoD level. Within the DoD, the Army is the execu-
Bio: biological
tive agent for chemical and biological defense and the
Chem: chemical
assistant secretary of the Army (acquisition, logistics, POM: program objective memorandum
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Medical Chemical Defense Acquisition Programs
equipment decontamination, etc). The JPEO-CBD is biological threats through the rapid development of
responsible for developing, acquiring, fielding, and effective therapeutic medical countermeasures, mini-
supporting chemical and biological defense equipment mizing risks and saving lives. The advanced develop-
and medical countermeasures that support the national ment of therapeutic and diagnostic products, which
military strategy. includes chemical defense programs, is managed by
The JPEO-CBD medical programs are managed by a the MITS JPMO. The mission of the MITS program is to
subordinate organization, the chemical and biological develop and acquire safe, effective, and FDA-approved
medical systems joint project management office, head- products for the prophylaxis, treatment, and diagnosis
quartered at Frederick, Maryland. This office oversees of CBRN warfare agent exposure. The MITS JPMO is
three joint product management components: the joint also responsible for the critical reagents program, the
vaccine acquisition program, the newly established repository for reagents (probes and primers) and assay
transformational medical technologies initiative, and kits used in DoD biological detection/diagnostic sys-
the medical identification and treatment systems joint tems. All MITS medical countermeasures undergoing
product management office (MITS JPMO). The joint advanced development for use against CBRN agents
vaccine acquisition program is responsible for develop- are fully integrated into the JPEO-CBD systems of ap-
ing and fielding vaccines and associated products to proach to counter threat agents, thereby supporting an
protect military personnel against biological warfare integrated diagnostic, prophylactic, and therapeutic
agents. The transformational medical technologies capability. MITS medical countermeasures supplement
initiative enables the DoD to protect service members and are compatible with all the equipment developed
from novel (and potentially genetically engineered) under JPEO-CBD.
MEDICAL CHEMICAL ACQUISITION PROCESSES AND CONCERNS
The major ground rules for the defense acquisi- trials are used as expanded safety studies for medical
tion process are contained in the DoD 5000 series chemical countermeasure development and may be
documents.3,4 The federal acquisition regulations and divided into multiple arms or studies to address all
supplements also pertain to this process.5 the regulatory concerns. Phase 4 (post-marketing)
Drugs must pass through several phases of clinical studies are conducted after a drug is already approved
trials in order to obtain FDA approval (Figure 20-2). and on the market. Concurrent with the approval, the
All human research trials conducted in support of FDA may require certain post-marketing studies to
the FDA approval process must follow strict FDA delineate and document additional information about
regulations and guidelines ( good clinical practices ). a drug s risks, benefits, and optimal use, or it may
In Phase 1 clinical trials, a new drug is first tested in collect retrospective data on the safety and efficacy
a small group of healthy volunteers (usually 20 80) of the product if it is ever used. This is especially true
to evaluate its safety, determine a safe dosage range, for drugs approved under the animal rule. All FDA-
identify side effects, and determine how the drug is required Phase 4 studies are the responsibility of the
absorbed, distributed in the body, metabolized, and sponsor, whether that is the US Army Office of The
excreted. In Phase 2 clinical trials, the study drug is Surgeon General or a system integrator.
given to a larger group of people (usually around sev- Medical CBRN products are developed using a mix
eral hundred subjects) to evaluate effectiveness and to of in-house experts and commercial contractors. Within
further evaluate safety. In typical Phase 3 studies, the the acquisition process, drug development programs
study drug is given to even larger groups of people, must pass through a series of gates or milestones. A
up to several thousand, to confirm its efficacy, monitor milestone is a point in which a recommendation is
side effects, compare it to commonly used treatments, made and approval is sought regarding starting or
and collect drug safety data. However, Phase 3 stud- continuing an acquisition program.
ies are not used for the approval of medical chemical
countermeasures because it is unethical to test the Concept Development (Pre-Milestone A Activities)
effectiveness of any drug against chemical warfare
agents in people. To overcome this obstacle, the MITS Drug development decisions must take place earlier
JPMO plans to invoke the  animal rule (sometimes in the acquisition process than the typical DoD weapon
called  the animal efficacy rule ), which allows for the system development program, requiring earlier user
testing and approval of products when human efficacy involvement. The DoD 5000 series does not require
clinical trials are not feasible or are unethical,6 as DoD an analysis of alternatives for drug development
accepts this means to licensure. The Phase 2 clinical efforts because they are not typically major defense
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Medical Aspects of Chemical Warfare
Concept Technology Development System Development and Production and Operations
Development 4 8 years Demonstration 3 4 years Deployment and Support
Lab scale
production
Assay
development
Proof of concept
Milestone AIND Submission
animal studies
Process development
Manufacturing
& pilot lot production
scale up
Clinical & analytical assay development
Phase 1 Human
Dose range & safety
Trials (safety)
in animals
Animal Efficacy Trials
Milestone B
Validation Consistency
& demo lots lots
Phase 2 Human Trials
(expanded safety)
Definitive animal
efficacy studies
Complete toxicology
studies
FDA
NDA Submission
FDA Approval
Review
Milestone C (Full Rate Prod.)*
IOT&E
Stockpile
Production
Post marketing
IOC FOC
surveillance
*Under certain conditions a MS C LRIP decision may be inserted prior to FDA approval Sustain
Fig. 20-2. Model for integrating pharmaceutical development, FDA regulatory, and the Department of Defense acquisition
processes.
*Under certain conditions, an MS C LRIP decision may be inserted prior to FDA approval.
FDA: Food and Drug Administration
FOC: full operational capability
IND: investigational new drug
IOC: initial operational capability
IOT&E: initial operational test and evaluation
MS C LRIP: milestone C low rate initial production
NDA: new drug application
Prod: production
acquisition programs. However, an analysis addresses that advanced development funding is aligned appro-
all alternatives (eg, prophylactics, pretreatments, thera- priately to support a candidate at milestone A. Tech-
peutics, and nonmedical countermeasures), considers nology transition agreements are developed with the
risk, and performs cost and effectiveness analyses. If technology base for each product to ensure a smooth
development of a drug product is warranted, the tech- transition to advanced development.
nology base assigns personnel, budgets, and facilities
and begins basic and applied research. Activities dur- Technology Development
ing this phase include assay development and proof
of concept animal studies. Program management lead shifts from the science
The MITS JPMO begins coordinating early with and technology base to the MITS JPMO at milestone
the technology base to gain technical familiarity with A. Science and technology and advanced development
potential countermeasure candidates and to ensure funds may be used during the technology develop-
648
Medical Chemical Defense Acquisition Programs
ment stage, allowing MITS to engage with the science ment is achieved when the FDA approves the product
and technology base early in the process. If multiple and the contractor can ensure adequate and efficient
candidates are pursued, down-selection criteria are manufacturing capability. The initial operating ca-
evaluated during technology development and a pability is calculated as 1/x of the troop equivalent
down-selection recommendation is typically made at doses required for full operating capability, with x
milestone B. being the threshold shelf life. Full operating capabil-
Between milestones A and B, the MITS JPMO pur- ity is achieved when the required FDA-approved
sues process development and pilots lot production of troop equivalent doses have been produced for the
candidate drugs under current good manufacturing stockpile.
practices (cGMPs). Required work includes clinical
and analytical assay development, dose range and Operations and Support Phase
safety studies in animals in accordance with good
laboratory practices, investigational new drug (IND) The MITS JPMO remains responsible for lifecycle
submission to the FDA, and Phase 1 human clinical management of the approved pharmaceuticals through
safety studies compliant with good clinical practices. the operations and support phase of acquisition sus-
Emergency use authorization may be prepared and tainment, maintaining and safeguarding the industrial
submitted to the FDA for review with, or shortly after, capacity to support full production, and addressing
IND submission. regulatory issues such as long-term human safety
Intellectual property rights are addressed as part of studies, shelf life extension, and post-marketing sur-
the product transition package (ie, licensure purchase, veillance (ie, Phase 4 clinical trials). MITS transfers
the need to trace origin to ascertain if it was govern- procurement and logistical management to medical
ment funded and, if so, claim government purpose logistics organizations, such as the Defense Supply
license rights, etc). Intellectual property rights may be Center Philadelphia or the US Army Medical Materiel
a concern for future products, and the MITS JPMO will Agency, once initial stockpile quantities are in place.
examine all available options to ensure that products Funding for maintaining the stockpile in the opera-
are developed and produced in a manner equitable to tions and support phase is the responsibility of the
the government. Final decision on this approach will individual services.
be determined by the MITS JPMO.
Acquisition Manufacturing Strategy
System Development and Demonstration
The technology base develops a laboratory-scale
During the system development and demonstra- manufacturing process that is capable of producing
tion phase, the systems integrator, in conjunction with only small quantities of drug product. This process
commercial partners, develops validated processes must be transferred to a manufacturing facility that
and produces consistency lots and conducts Phase 2 adheres to cGMPs and development efforts initiated to
(expanded safety) human studies, definitive animal ensure technology can be duplicated or new processes
efficacy studies, and complete toxicology studies. pursued. One or more small cGMP pilot lots are manu-
During this phase, the systems integrator files the factured for use in the Phase 1 and 2 clinical trials and
new drug application or other necessary regulatory animal toxicity studies. Scaling up the manufacturing
documentation and requests FDA submission review. process, rather than producing additional lots at the
Items carried by service members undergo develop- smaller scale, can result in significant cost and schedule
mental and initial operational tests and evaluations savings. The manufacturing process is validated and
during this phase. The system development and consistency lots are manufactured concurrent with
demonstration phase concludes with FDA approval Phase 2 trials. After FDA approval, replenishment lots
of the pharmaceutical. are produced to meet requirements, depending on the
shelf life approved by the FDA for each product.
Production and Deployment
Acquisition Test and Evaluation Strategy
As the production and deployment phase begins,
products are stockpiled, and post-marketing surveil- The acquisition of medical CBRN defense products
lance is conducted. The MITS JPMO begins investi- for the DoD is tailored to comply with the requirements
gating post-production support plans and shelf life of both the DoD and the FDA. In a memorandum dated
extension program efforts while monitoring product November 21, 2003, the deputy under secretary of the
stability. Initial operating capability for drug develop- Army required every chemical or biological defense
649
Medical Aspects of Chemical Warfare
program, except IND programs, to have a test and as soon as possible, even as early as milestone A. The
evaluation master plan. IND applications accepted by recommendation is based on several factors, includ-
the FDA must satisfy the test and evaluation master ing commercial interest, interagency discussions, and
plan requirement for drug development programs and intellectual property rights.
provide authority for testing drug products in human
volunteers in accordance with Army Regulation 73-1, Specific Concerns in Medical Chemical Defense
Test and Evaluation Policy. For soldier-carried items,
a modified test and evaluation master plan must be The biggest challenge in medical acquisition within
executed to ensure compatibility and survivability of the DoD is that medical development is dictated by
the item and its packaging. the process of obtaining FDA approval. In this chapter,
the phrase  FDA approval broadly applies to drugs,
Acquisition Business and Contracting Strategy biologics, and medical devices. In its strictest sense, the
term  approval is usually reserved for drugs, while
The MITS JPMO is responsible for the advanced  licensure is used for biologics and  clearance is
development of medical CBRN drugs. Commercial, used for medical devices. All drugs, vaccines, or medi-
off-the-shelf medical products are normally procured cal devices intended for use on or in service members
through the medical logistics system or through pro- are regulated by the FDA. In a pharmaceutical, vac-
curement contracts issued directly to the vendor by cine, or medical device company, the steps required for
the servicing government contract office. obtaining FDA approval drive the drug development
If the MITS JPMO pursues product development, process. Within the DoD, however, medical acquisi-
it will seek a contractor to serve as the systems inte- tion is embedded within the acquisition model, which
grator, generally releasing a request for proposal and was designed around planes, ships, and tanks. Thus,
making it available to full and open competition. If no the challenge is to match the DoD acquisition model
commercial entity is identified to serve as the systems with the process of pharmaceutical development and
integrator, MITS will serve as the systems integrator FDA approval, so decisions that would be made later
for products transitioning from the technology base in the process in nonmedical military acquisition pro-
up to milestone B, at which point a contractor will be grams must be made far earlier in the medical realm,
selected. allowing INDs to be submitted to the FDA on a timely
MITS streamlines acquisition by providing a basis. The challenge, specifically for the MITS JPMO,
performance-based statement of objectives (in lieu is to integrate the FDA regulatory and DoD acquisi-
of a detailed statement of work) in the request for tion processes.
proposal, which might impede competition because The need for FDA approval of any fielded product
of numerous specific requirements. A performance- may be self-evident but deserves comment nonethe-
integrated product team, consisting of representa- less. In civilian medicine, any licensed physician may
tives from MITS, the Joint Requirements Office, and prescribe any FDA-licensed product, whether the
the appropriate Joint Science and Technology Office product is for the licensed indication or for some other
capability area program office, oversees contractor symptom. Countless examples exist of  off-label
performance in accordance with best commercial and medications approved for one indication but now
government practices. Ad-hoc members are drawn primarily used for others. In acute nerve agent poison-
from MITS, the US Army Medical Research and Ma- ing, however, patients must be treated far forward by
teriel Command, the test and evaluation community, buddies or medics and not by licensed physicians. In
JPEO-CBD, the Office of the Secretary of Defense and that case, only an FDA-approved product used on-label
other DoD offices, the Department of Health Human can legally be given by the buddy or medic. Until full
Services and other federal agencies, the technology FDA approval for this indication in 2003, the use of
base, or the logistics community, as needed. Working pyridostigmine bromide as a pretreatment against so-
performance-integrated product teams are formed to man poisoning was an off-label use, notwithstanding
address issues focused on a specific requirements area the over 50 years of experience using it for patients
pertaining to the product. with myasthenia gravis. Until the FDA approved pyri-
The DoD, sponsored by the US Army Office of dostigmine bromide specifically for soman intoxication
The Surgeon General, currently holds the INDs and pretreatment, the DoD planned to institute a process
approvals of medical chemical defense products. The of informed consent for each service member, meaning
decision to allow a commercial contractor to hold the each had the right to decline to use the drug for that
IND and drug approval for future products is made purpose. Once FDA approval was obtained, however,
on a case-by-case basis. An approach is recommended the DoD acquired the right to order its service members
650
Medical Chemical Defense Acquisition Programs
to take the drug. development strategies as necessary.
Peculiarities of medical chemical drug development Another challenge encountered during medical
create even greater challenges. For example, unlike a chemical drug development concerns the specific
naturally occurring microbial illness, the disorders indications for which a drug is used in medical chemi-
caused by chemical warfare agents are not expected cal defense. Although all of the classical organophos-
to occur in the general population on a regular basis. phorus nerve agents work by inhibiting the enzyme
Thus, the standard model for testing drugs in clinical acetylcholinesterase, under a narrow reading of the
trials is insufficient because exposing volunteers to statute, to obtain FDA approval for all potentially en-
chemical warfare agents is unethical. Consequently, the countered battlefield nerve agents, DoD would have
usual route for testing and demonstrating both safety to obtain FDA approval against each individual nerve
and efficacy of medical countermeasures in humans is agent. Instead, DoD plans to seek FDA approval for
not feasible. In 2002 the FDA recognized this problem, a whole class of acetylcholinesterase inhibitors. As
unique to chemical and biological warfare countermea- mentioned earlier, pyridostigmine bromide carries
sure development, and released the animal rule. As a pretreatment licensed indication only against soman.
result, the FDA will consider approving medical chemi- This issue is a matter of present discussion with the
cal, biological, and radiological countermeasures when FDA, but remains unresolved.
human safety data and sufficient animal efficacy data Specific manufacturing challenges exist and are
are presented without definitive human efficacy data. also of concern to the FDA and the advanced devel-
This rule allows for the submission of well-controlled oper. Stereoisomers (chiral forms of molecules) and
animal efficacy data, in multiple species, to demon- polymorphisms (multiple crystal forms of the same
strate that the product is likely to have clinical benefits molecules) must always be considered and the licensed
in humans, in lieu of definitive human efficacy studies. compound s purity must be ensured. Impurities must
So far, only two products have been fully licensed by be removed or minimized and characterized. A specific
the FDA under this rule, pyridostigmine bromide for medical chemical defense challenge is that drugs must
pretreatment against soman poisoning, approved in often be formulated for compatibility and bioavail-
2003 (see Chapter 5, Nerve Agents), and hydroxocoba- ability in an autoinjector delivery system, which is
lamin, approved as an antidote for cyanide poisoning rarely used in other drug development programs. This
in 2007. So far, the animal rule has only been used for challenge was met by the antidote treatment nerve
products specifically intended for medical chemical de- agent autoinjector (ATNAA) program, in which the
fense, but several products in advanced development actual dose of atropine in the autoinjector had to be
include plans to use the animal rule in their regulatory modified.
STATUS OF ACQUISITION PROGRAMS OF RECORD
The programs of record in medical chemical defense nerve agent antidotes. As such, it has a large hold on
within the DoD may be divided into three categories: the civilian and military markets. The Mark I is being
lifecycle management products (fielded), sustainment phased out and replaced with the ATNAA.
programs (FDA-approved products; post-marketing or The convulsant antidote nerve agent (CANA) is an
Phase 4 trials required), and advanced development autoinjector for intramuscular administration of 10 mg
programs (products not yet fielded).5 of diazepam. The CANA is used as an anticonvulsant
for nerve agent poisoning and was FDA approved
Lifecycle Management Products in December 1990. It is the only approved treatment
specifically for nerve-agent induced seizures. The
Several products have gained full FDA approval autoinjector has a unique shape that allows a medic
for an intended indication and are presently fielded. or buddy to distinguish it from Mark I, ATNAA,
The Mark I (Meridian Medical Technologies Inc, atropine-only, and other autoinjectors in a situation
Bristol, Tenn) nerve agent antidote kit descends from of light discipline.
the AtroPen (Meridian Medical Technologies Inc), an The medical aerosolized nerve agent antidote
atropine autoinjector, first developed in the 1950s for (MANAA) is an aerosol inhaler that contains atro-
nerve agent and insecticide poisoning (see Chapter 5, pine and was developed as a follow-on treatment for
Nerve Agents). The Mark I kit consists of an atropine nerve agent casualties under medical supervision.
autoinjector and a second autoinjector containing It is intended for use after administration of either
2-pralidoxime chloride (2-PAM Cl). It achieved FDA Mark I or ATNAA and after the casualty has been de-
approval in the 1980s and is the mainstay of fielded contaminated and transferred to a clean environment
651
Medical Aspects of Chemical Warfare
where protective suits and masks are not required. natural toxins as well, including poison ivy, suggesting
MANAA was intended to allow a medic to supervise a possible use in civilian medicine. However, SER-
a group of casualties who were capable of assisting PACWA is currently only approved for military use.
with their own care. Theoretically, MANAA could free Studies are ongoing to determine the compatibility
up medical personnel to treat more severely poisoned of SERPACWA with the M291 skin decontamination
or injured casualties in a mass casualty situation. No kit, a pouch containing six individual decontamina-
other aerosolized treatment for nerve agent poisoning tion packets that can provide a total of three complete
has been licensed by the FDA. MANAA was approved skin decontaminations. SERPACWA currently has an
by the FDA in 1990. FDA-approved, 3-year shelf life, and is included in the
MANAA is approaching the end of its shelf life. FDA/DoD shelf life extension program.
The manufacturer no longer maintains the cGMP Another FDA-approved product awaiting Phase 4
manufacturing line required to produce MANAA. trials is soman nerve agent pretreatment pyridostig-
Under the Montreal Protocol, an international treaty mine, which is distributed as 30 mg pyridostigmine
created to phase out ozone-depleting substances, bromide tablets. In February 2003, this pretreatment
aerosolized products such as MANAA must be dis- became the first drug to be approved by the FDA via
continued because they contain chlorofluorocarbons. the animal rule.
A congressionally-funded program for a dry powder The FDA has mandated the following post-market-
inhaler atropine (DPIA) seeks to develop a product that ing studies for this product:
will replace the MANAA. DPIA is being developed
jointly by a team that includes MicroDose Technolo- " a human serum study to correlate dose re-
gies, Inc, the University of Pittsburgh, and the MITS sponse between pyridostigmine bromide
JPMO. DPIA is anticipated to be FDA approved in 2009, blood levels and red cell acetylcholinesterase
with fielding anticipated the following year. inhibition;
ATNAA is a product developed to replace and " a guinea pig study to correlate blood pyri-
improve upon the Mark I. It is a dual-chambered au- dostigmine bromide levels, red cell acetyl-
toinjector that delivers 2.1 mg atropine (as compared cholinesterase inhibition, tissue acetylcholin-
to the 2 mg atropine in the Mark I) and 600 mg 2-PAM esterase inhibition, and the direct effects upon
Cl through a single needle. ATNAA was approved by the diaphragm;
the FDA in January 2002 and fielding began in 2003. " a nonhuman primate study to look at the same
ATNAA delivers antidotes faster than Mark I because questions as in the guinea pig; and
it uses a single autoinjector rather than two, cutting the " an in vitro human intercostal muscle study to
time needed to administer life-saving treatment to a determine if pretreatment can provide partial
nerve agent casualty in half. ATNAA is also smaller, protection to soman exposure of the muscle.
easier to use, and less expensive than the Mark I.
The first two studies are complete, the remaining
Sustainment Programs studies are ongoing.
Other products carry FDA approval but require Products in Advanced Development
Phase 4 (post-marketing) studies as mandated by the
FDA. For example, the Skin Exposure Reduction Paste The joint service personnel/skin decontamination
Against Chemical Warfare Agents (SERPACWA; Fisher system (JSPDS) program is tasked with developing an
Bioservices, Rockville, Md) is a perfluorohydrocarbon- improved skin decontamination capability through
based barrier cream intended to pretreat vulnerable open competition between commercially available
skin areas (such as the groin, neck, wrists, armpits, products. The current skin decontamination kit, M291,
waistline, and boot tops) prior to donning protective which has been fielded since 1989, is based on the
overgarments. SERPACWA provides a passive bar- Ambergard resin (Rohm and Haas, LLC, Philadelphia,
rier that protects the skin from liquid chemical agent Pa) that adsorbs and slowly detoxifies chemical agents.
exposure for over 8 hours. While SERPACWA is meant The JSPDS program is under the purview of the Joint
to be used in conjunction with mission-oriented protec- Project Management Office for Decontamination, with
tive posture, some Special Forces units have inquired medical consultation from MITS JPMO. The Joint
about its use without full mission-oriented protective Project Management Office for Decontamination com-
posture protection. The FDA approved SERPACWA in petitively chose Reactive Skin Decontamination Lotion
February 2000 and the US Army has purchased initial (RSDL; E-Z-EM, Inc, Lake Success, NY), developed by
quantities. SERPACWA also protects against many the Canadian Department of National Defence under
652
Medical Chemical Defense Acquisition Programs
a license from the Canadian Commercial Corporation, Approval is planned no later than 2011.
for evaluation against the JSPDS requirements. RSDL The improved nerve agent treatment system pro-
neutralizes and removes both vesicants and nerve gram addresses the shortcomings of 2-PAM Cl as
agents from the skin. Clinical studies completed in 2006 a reactivator of acetylcholinesterase. The program
show that RSDL can be safely used under ambient and has two goals. The first is to expand the on-label in-
heat-stressed conditions. Results from limited animal dications for pyridostigmine bromide against more
studies suggest that RSDL may be safely used around nerve agents than it is presently approved to treat.
wounds, which is in contrast to M291, which cannot The second aim is to develop a new oxime, MMB4
be used around wounds. dimethanesulfonate, to replace 2-PAM Cl. MMB4 was
With an anticipated shortage of Ambergard resin selected because its spectrum of action is broader than
in 2000, the JSPDS program planned to develop RSDL that of 2-PAM Cl for reactivating nerve-agent inhibited
as a replacement for the M291 system and compared acetylcholinesterase.
RSDL with M291 under a DoD foreign comparative MMB4 is not FDA approved in the United States
testing program, aiming to obtain FDA approval. The for several reasons. For example, one reason is that
FDA approved RSDL in 2003. The fielding decision was many compound polymorphs are present in MMB4,
expected in 2007, but as of early December, it had not causing stability and solubility concerns. Other rea-
been made. RSDL costs considerably more than M291. sons are that the number of nerve agents for which
Very recently, Rohm and Haas has resumed production an indication for MMB4 must be determined before
of Ambergard, which will require considering the pros approval can be granted, and the design of definitive
and cons of moving to field RSDL as a substitute, con- animal studies (including determining the number of
tinuing to field M291, or using a combination of the two. agents, animals, and comparisons against 2-PAM Cl
The advanced anticonvulsant system is the acquisi- that will be needed) must be designed. The regulatory
tion program that seeks to develop midazolam in an development strategy for MMB4 includes requesting
autoinjector as a replacement for the CANA, which the use of the animal rule. An IND application sub-
contains diazepam, to treat nerve-agent induced mission is anticipated in 2008, followed by approval
seizures (see Chapter 5, Nerve Agents). Midazolam is in 2013. Postmarketing studies may also be required
presently approved for other indications and has been by the FDA.
marketed for many years as a central nervous system The bioscavenger program (see Chapter 7, Nerve
depressant, but it does not carry FDA approval as an Agent Bioscavenger: Development of a New Approach
anticonvulsant, despite being used as such in many to Protect Against Organophosphorus Exposure) con-
clinical contexts in an off-label fashion. Consequently, sists of three separate increments. Increment I is the
the focus of the advanced anticonvulsant system pro- plasma-derived human butyrylcholinesterase, which
gram is to obtain FDA approval for midazolam against carries few immune potential concerns because it is
nerve-agent induced seizures. Midazolam s action is a human product derived from human serum. The
onset faster and lasts longer than that of diazepam. availability of this product is limited by the supply
There may also be less chance of respiratory depression of human serum that is suitable for manufacture of
with midazolam. If fully developed, midazolam will a licensed product for use in humans. In addition,
be an autoinjector product like CANA. manufacture of plasma-derived human butyrylcholin-
The regulatory developmental strategy for obtain- esterase is extremely expensive. Therefore, Increment
ing FDA approval for midazolam as an advanced I is considered an interim solution to the bioscavenger
anticonvulsant system includes using the animal problem from the acquisition standpoint. The DoD will
rule. An IND application was submitted to the FDA develop this product through Phase 1 clinical trials,
in April 2006. The Phase 1 clinical study is complete. with completion scheduled for 2007. The contractor
Developmental concerns with midazolam include the to the DoD is Dynport Vaccine Company, with Bax-
following: ter Healthcare Corporation as subcontractor; Baxter
Healthcare is the sponsor of the IND application, which
" respiratory depression (although probably less was submitted to the FDA in May 2006.
than with diazepam), The Increment II program will develop a product
" the number of nerve agents for which on-label that is more easily and economically produced than
indication would be sought, Increment I. Increment II will mitigate technical risk by
" Phase 2 clinical studies including drug-to- transitioning two different technologies (a recombinant
drug interactions, if any, and human butyrylcholinesterase raised in a transgenic
" any postmarketing studies the FDA may animal and a synthetic small molecule with bioscav-
mandate. enging activity) through Phase 1 clinical trials. Efforts
653
Medical Aspects of Chemical Warfare
will be tailored to each technology for evaluating but may create challenging safety concerns. An FDA-
and maturing that technology (recombinant or small approved product is anticipated no earlier than 2013.
molecule) and only one technology will be selected Increment III is envisioned as a catalytic scavenger
for acquisition program initiation at milestone B. The of nerve agent, likely to be developed with site-directed
selected product will solve the problem of short sup- mutagenesis. No candidate is yet ready for advanced
ply and consequent expense that Increment I poses, development.
SUMMARY
Good science is not enough to protect service mem- These tasks all fall under the medical chemical acquisi-
bers against the threat of chemical warfare agents. A tion mission. The average licensed product costs $400
product must be developed and approved for human to $800 million7 9 and the vast majority, 80% to 90%
use by the FDA, doctrinally on-label for the envisioned by some estimates, of products in development fail
use. It must also be manufactured, stockpiled, and to obtain full licensure. While the clinician or medical
delivered, and the user, whether a physician or the planner need not know the details of the acquisition
casualty s buddy, must know how to use it, which may mission or of its constituent parts, it is vital to recog-
require extensive training. Finally, the product must nize that this process is time- and resource-consuming,
be managed throughout its lifecycle and closed out if yet necessary if military personnel are to have proper
deemed necessary or if a superior product replaces it. countermeasures available should the need arise.
REFERENCES
1. US Department of Defense. Use of Investigational New Drugs for Force Health Protection. Washington, DC: DoD; 2000.
Directive 6200.2.
2. Executive Order 13139,  Improving Health Protection of Military Personnel Participating in Particular Military Opera-
tions, Federal Register 64 (1999): No. 192.
3. US Department of Defense. The Defense Acquisition System. Washington, DC: DoD; 2003. Directive 5000.1.
4. US Department of Defense. Operation of the Defense Acquisition System. Washington, DC: DoD; 2003. Instruction
5000.2.
5. General Services Administration, Department of Defense, and National Aeronautics and Space Administration. Federal
Acquisition Regulation. Washington, DC: GSA, DoD, NASA; 2005.
6. 21 CFR, Parts 314, 601, Subpart 1.
7. Hollis WW. Test and Evaluation (T&E) Policy for Chemical and Biological Defense Program (CBDP) Systems. US Department
of the Army, Under Secretary of the Army, Operations Research; 2005. Memorandum, 29 August 2005.
8. DiMasi JA, Hansen RW, Grabowski HG. The price of innovation: new estimates of drug development costs. J Health
Eco. 2003:22;151 185.
9. Kaitin KI, ed. Post approval R&D raises total drug development costs to $897 million. Tufts Center for the Study of Drug
Development Impact Report. 2003:5:3.
10. US Government Accountability Office. New Drug Development: Science, Business, Regulatory, and Intellectual Property
Issues Cited as Hampering Drug Development Efforts. Washington, DC: GAO; 2006. Report to Congressional Requesters.
2206.
654


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