Updated guidelines for the conduction of autopsies in cases of suspected Creutzfeldt-Jakob-Disease
Autopsies of patients suffering from prion diseases are intrinsically hazardous and mandate
special precautions to minimize the risk of infection. While prions may be less contagious than
many other human pathogens, prion infections are inexorably lethal, and neither effective
treatment nor any proven post-exposure prophylaxis is currently available
concern is the fact that prions are transmissible by a variety of
pathways (Table 1) potentially relevant to the autopsy situation (
Universal precautions, the basic level of prevention that suffices for most infectious autopsies,
are insufficient in the setting of suspected prion disease. Accordingly, it is essential to
implement stringent measures to prevent the transmission of prions to personnel performing
autopsies and downstream analytical activities, such as histotechnical and biochemical
Recent heightened institutional concern over biosafety has renewed interest in optimizing the
risk management of infectious diseases in the hospital environment, and particularly in
anatomical pathology. New procedures for performing autopsies and handling tissue
specimens from patients with suspected prion diseases have been introduced that offer more
effective protection of medical personnel than those published 16 years ago (
; ). The following guidelines provide an updated step by step approach
to the autopsy of patients with suspected prion diseases.
General Guidelines Autopsy room requirements
Biosafety Level 3 (BSL3) containment conditions are highly recommended, but rarely
available. If a BSL3 environment is unavailable, prion autopsies should be performed under
environmental containment conditions of at least BSL2.
Recommended procedures Measures to minimize contamination of the autopsy suite
The body should be kept within a body bag lined with absorbent sponges during the
autopsy to avoid spillage of body fluids onto the autopsy table.
Water should never be used for rinsing during the autopsy. Disposable instruments should be used for dissection, whenever possible.
Alternatively, a set of instruments dedicated for CJD autopsies can be decontaminated
Personal Protective Equipment worn by persons performing the post-mortem
examination should consist of a disposable full body suit (Microgard 2000 Plus),
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plastic shoe covers, 3 pairs of gloves (taped to the sleeves of the full body suit),
surgical cap, face mask and goggles or face shield. Chainmail gloves worn
underneath the latex gloves are required to protect the personnel performing the
autopsy from penetrating injuries. A helmet with a transparent face shield provides
Post mortem examination
A limited post mortem examination minimizes the risk of infection. Body cavities should be
opened for inspection of the inner organs. Minimal in-situ-dissection should be performed to
determine the cause of death and major relevant illnesses.
Brain removal
The head should be opened with a stainless-steel handsaw to avoid aerosol formation. An
electrically-powered saw contained within a plastic bag may be used as an alternative.
Standard procedure is recommended to remove the brain from the cranium.
The first step is separate the skull cap from the skull bases by sawing circumferentially
through the cranial bone, using the frontal tuberosities and occipital protuberance as
Incise the temporal dura mater on both sides without removing it from the inner table
After tilting the head slightly backwards, gently separate the olfactory bulbs from the
skull base, then severe the optic nerves, pituitary stalk, and internal carotid arteries at
their entry points into the cranial cavity.
While using one hand to dissect, gently support the cerebral hemispheres with the
other hand to avoid stretching the midbrain.
Section the tentorium on both sides along the sphenoid bone as far posterior as
possible. Identify the vertebral arteries and cut with scissors.
As the last step, insert a scalpel into the spinal canal through the foramen magnum to
transect the cervical spinal cord at the lowest possible point. The brain can now be
lifted out of the cranium and placed on a washable plastic board for inspection and
Initial Sampling
The following areas of the central nervous system should be sampled at the time of autopsy,
then frozen in liquid nitrogen and stored at -80°C in clearly labelled, leak-proof containers:
Tissue from the following body sites should be sampled whenever possible:
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The remaining CNS tissue should be fixed in 4% formalin (without added phenol, which
interferes with formic acid used for decontamination) for at least 10 days before further
sectioning and processing using the same cautionary measures as described above.
Brain dissection
In order to limit dispersal of contaminated fluids onto work surfaces, dissection should be
performed in a shallow tray. After the standard inspection of the cerebral convexities, base of
the brain, brainstem, and cerebellum, the brainstem and cerebellum can be separated from the
diencephalon and hemispheres by inserting a scalpel into the interpeduncular fossa and
cutting through the midbrain transversely. The cerebral hemispheres are sectioned in the
coronal plane into slices of approximately 1-2 cm thickness, whereas the brainstem and
cerebellum should be sectioned in the transverse plane.
The following areas of the brain should be sampled:
Tissue samples should be placed into tissue cassettes and stored in specialized, tightly
sealed, leak-proof containers with 4% formalin until the time of formic acid treatment. All
containers containing potentially infectious material should be clearly labelled as “hazardous Decontamination of tissue blocks for histology, processing
Although the exact procedure may vary slightly, formic acid treatment consists of placing small
fragments of fixed tissue, no more than 5 mm thick, into 50 to 100 ml of 96 - 98% formic acid
for an hour, followed by washing in H2O for 2 hours, then fixation in fresh formalin for an additional 48hrs. Further processing of the blocks is conducted according to routine histologic
Caution: the 4% formalin solution in which tissue is fixed is considered as infectious as brain
All the sequential steps from processing the blocks from formalin into paraffin, sectioning,
processing mounted paraffin sections back into aqueous staining solutions, should be carried
out manually or in an automatic processor dedicated to TSE tissues. Similarly, it is advisable to
dedicate a microtome for sectioning tissue blocks that were not inactivated with formic acid,
since there is no practical way to disinfect the instrument.
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Formic acid-treated sections can be cut on a standard microtome (if possible, using a
disposable knife or dedicated blade) and processed as usual.
Histology slides made from sections which have been treated with formic acid are considered
Decontamination of the autopsy suite, including work surfaces and instruments, and waste disposal
Decontamination of work surfaces and surgical instruments to be re-used can be achieved by
any one of the following procedures:
Porous load steam autoclaving at 134°C for 18 min or 6 cycles at 134°C for 3 min Gravity displacement steam autoclaving at 134°C for 60 min 2 N NaOH for 1 hour, with constant rewetting of surfaces 96% formic acid for 1 hour NaClO (sodium hypochlorite) solution containing 20'000 p.p.m. chlorine
Note that formic acid and NaClO solutions are corrosive and may not be suitable for
decontamination of metal instruments or surfaces.
The recommended procedure for instrument decontamination performed at the Swiss National
Reference Center for Prion Disease consists of placing instruments in 1N NaOH for 2 hours
(or 2N NaOH for 1hour), then rinsing with water and autoclaving at 134°C for 1 hour.
All waste material from the autopsy, brain dissection and histological processing is infectious
and should be deposited in biohazard containers that must be incinerated. This applies to
solutions used for fixation and processing of tissues (i.e., formalin, xylene) as well as
disposable blades used for cutting tissue. Fluids may be absorbed with sawdust before
Emergency procedures
Once a suspected exposure to prion infected material has occurred, a mandated plan of action
should be implemented. The supervisor should be immediately notified and the person should
seek medical evaluation to document the event. Although there is no validated prospective
study assessing the efficacy of postexposure prophylaxis, recommendations include skin
decontamination with 1 mol/L NaOH or 20% sodium hypochlorite followed by copious rinsing.
For accidents with penetrating injuries and/or contamination of open skin wounds, one source
suggests surgical excision of the site of inoculation, followed by oral prednisolone 60 mg daily
for 7 days, then 45 mg daily for a further 7 days accompanied by gastric protection with an H2
antagonist (or a proton pump blocker) and antibiotics according to the nature of the inoculation
(rationale for this post-exposure prophylaxis treatment lies in
the experimental finding that immunosuppression antagonizes the neuroinvasiveness of
Extensive requirements in terms of specialized autopsy facilities must be in place to ensure
adequate protection from prion infected tissue.
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References Aguzzi, A., and Calella, A.M. (2009). Prions: protein aggregation and infectious diseases. Physiol Rev 89, 1105-1152. Aguzzi, A., and Collinge, J. (1997). Post-exposure prophylaxis after accidental prion inoculation. Lancet 350, 1519-1520. Aguzzi, A., and Polymenidou, M. (2004). Mammalian prion biology: one century of evolving concepts. Cell 116, 313-327. Bell, J.E., and Ironside, J.W. (1993). How to tackle a possible Creutzfeldt-Jakob disease necropsy. J Clin Pathol 46, 193-197. Budka, H., Aguzzi, A., Brown, P., Brucher, J.M., Bugiani, O., Collinge, J., Diringer, H., Gullotta, F., Haltia, M., Hauw, J.J., et al. (1995). Tissue handling in suspected Creutzfeldt-Jakob disease (CJD) and other human spongiform encephalopathies (prion diseases). Brain Pathol 5, 319-322. Ironside, J.W., and Bell, J.E. (1996). The 'high-risk' neuropathological autopsy in AIDS and Creutzfeldt- Jakob disease: principles and practice. Neuropathol Appl Neurobiol 22, 388-393. Klein, M.A., Frigg, R., Flechsig, E., Raeber, A.J., Kalinke, U., Bluethmann, H., Bootz, F., Suter, M., Zinkernagel, R.M., and Aguzzi, A. (1997). A crucial role for B cells in neuroinvasive scrapie. Nature 390, 687-690. Martinez-Lage, J.F., Poza, M., Sola, J., Tortosa, J.G., Brown, P., Cervenakova, L., Esteban, J.A., and Mendoza, A. (1994). Accidental transmission of Creutzfeldt-Jakob disease by dural cadaveric grafts. J Neurol Neurosurg Psychiatry 57, 1091-1094. Table 1: Potential routes of prion transmission during autopsies
Route of transmission Typical incident Reference
1977 Feb 26;1(8009): 478-9. Danger of accidental person-to-person transmission of Creutzfeldt-Jakob disease by surgery. Bernoulli C, Siegfried J, Baumgartner G, Regli F, Rabinowicz T, Gajdusek DC, Gibbs CJ Jr.
Vet Microbiol. 1993 Apr;34(4):305-9. Conjunctival instillation of scrapie in mice can produce disease. Scott JR, Foster JD, Fraser H.
Intracerebral
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Robert Owen Newbury, M.D. Curriculum Vitae CURRICULUM VITAE PERSONAL DATA: Canadian, permanent resident of the United EDUCATION: POSTGRADUATE EDUCATION: Resident, Pathology (Anatomic and Clinical Robert Owen Newbury, M.D. Curriculum Vitae PROFESSIONAL EXPERIENCE: Children’s Hospital & Health Center Robert Owen Newbury, M.D. Curriculum Vitae Walw
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