Procure a wide-mouth, MRI-compatible plastic container with an air- and water-tight screw-on lid that is large enough to hold a whole human brain, but small enough to fit inside a MRI head coil.¹ We have had excellent results using 1-gallon (3.8 L) Coleman Water Jugs (model No. 3000000865; exterior dimensions: 8″ × 8.25″ × 12.8″), which: (1) comfortably accommodated full-sized adult human brains, (2) were MRI-compatible, (3) fit inside a standard 12-channel Siemens head coil, and (4) did not produce any noticeable image artifacts.

If the lid of the MRI-compatible container has an opening or spout, this should be permanently sealed with plastic epoxy to avoid any accidental leaks or spills in subsequent steps. Please note that proper safety precautions should be followed while mixing and handling epoxy (e.g., working in a well-ventilated area and wearing disposable latex/nitrile gloves and safety goggles to avoid contact with your skin or eyes).

Obtain a rectangular, water-tight plastic bucket that is at least as wide, approximately twice as deep, and at least 9″ taller than the brain container described above in Section 1.1. This will give sufficient room for the experimenters to place the smaller container into the larger bucket (and open/close the lid) inside of the larger bucket.

(Note: this step is only necessary for scanning ex vivo brains in formalin during subsequent steps, and is not necessary if scanning in water or saline.) Wrap the small, MRI-compatible brain container described in Section 1.1 (without brain or formalin in it) with a large polyethylene (garbage/yard waste) bag, and place it inside the larger bucket. Then spray one layer (~3–4″ deep) of expanding polyurethane-based insulating foam sealant into the bottom of the larger bucket (i.e., around the smaller polyethylene-wrapped container) and wait for the polyurethane foam to fully expand and cure (~3–4 h) before adding another layer. Repeat this process until the expanding polyurethane foam has filled the larger bucket to a depth of 1–2″ below the top of the smaller polyethylene-wrapped brain container (approximately three layers total × 3–4 h/layer = 9–12 h). In this way, the brain container serves as its own mold, while the expanding foam insulation fills the voids between the smaller and larger buckets (i.e., to reduce the amount of wasted formalin in subsequent steps). The polyethylene bag is necessary in order to get the brain container out of the larger bucket after the foam dries and hardens. For the expanding polyurethane foam insulation, we used Great Stuff ™ Gaps & Cracks Insulating Foam Sealant (Dow Chemicals Product Number: 157911). As noted, it is highly recommended that the sealant be applied in layers in order to give ample time to expand and dry between subsequent rounds of application. Also, proper safety precautions should always be used while handling the polyurethane foam insulation (e.g., working in a well-ventilated area and wearing disposable latex/nitrile gloves and safety goggles to avoid contact with your skin or eyes). Then, once the shape is molded and the expanding foam has completely hardened, remove the polyethylene-covered brain container from the larger bucket. The whole objective of this step is to occupy volume inside of the large bucket so that less formalin will be wasted while filling the smaller bucket in subsequent steps.

Before procuring any ex vivo brain samples, it is essential to obtain proper research ethics approval and coordinate with local neuropathologists to acquire postmortem materials in an ethical and timely fashion.

Discuss all study inclusion/exclusion criteria so that the neuropathologists can screen and select appropriate cases based on clinical history, cause of death, etc.

If possible, it is advised that the MRI researcher wait in (or immediately outside of) the autopsy room in order to minimize the interval between brain removal and formalin immersion and/or the initial MRI scan.

Attach a MRI-specific fiducial marker on either the left or right hemisphere (and note the location) to enable proper orientation of the brain during subsequent image acquisition (Figure 1A). The fiducial marker can typically be secured with one to two stitches around a flap of remaining dura matter (if present) or one of the major superficial cerebral veins.

Make sure that the larger bucket from steps 1.3 and 1.4 above – i.e., without or with the expanding foam insulation molding, depending on whether the subsequent preparation will be performed using water or formalin – is available for subsequent steps (Figure 1B).

Attach a 5-lb barbell weight plate to the bottom of the small, MRI-compatible brain container with duct tape (Figure 1C). The diameter should be less than or equal to the diameter of the container. Because the container is made of plastic and tends to float in water/formalin, attaching a weight will keep the container submerged. Then wrap the container (with the weight attached) in a large polythene (garbage or yard waste) bag and place it inside the corresponding mold in the larger bucket.

Cut two pieces of thick cotton and place one of them inside the bottom of the brain container to create a protective layer that is ~1–1.5″ thick (Figure 2A). The second piece of cotton will be used later to protect the brain from the lid (and will be added in step 3.11, before the lid of the container is secured).

Slowly pour water or formalin into the small, MRI-compatible brain container, and continue filling until the water/formalin level overflows into the larger container and is ~1″ above the top of the smaller container. Note: for this study, 10% phosphate-buffered formalin solution was used, which is widely available for routine histopathology (32). Caution: proper safety precautions should always be strictly adhered to while handling/pouring formalin (e.g., working in a fume hood while wearing closed-toe shoes, long pants, a lab coat or surgical gown, a face shield, and shoulder-length, chemical-resistant gloves), and a formaldehyde spill response kit (e.g., Fisher Scientific Product Number: 19-314634) should be readily accessible.

Squeeze the cotton at the bottom of the MRI-compatible container under the water/formalin for ~1 min to get rid of any air bubbles, and then splay it out in the bottom of the container. A freshly extracted brain is jelly like and can be easily deformed, so using cotton at the bottom of the container minimizes the risk of tissue damage.

Very gently, place the brain inside of the small, MRI-compatible brain container (i.e., carefully with both hands). In our experience, the orientation of the brain in the container does not matter, so either the anterior or posterior portion of the brain can be oriented toward the lid. Nonetheless, we recommend being consistent across subjects and/or time-points within a study. Note: in order to reduce the chances of having large air bubbles trapped in the lateral ventricles, water or formalin can be injected with a syringe directly into the ventricles (e.g., through the occipital lobe) to displace trapped air. However, it is highly recommended to perform this step only after consultation with the collaborating neuropathologist (i.e., to avoid compromising or interfering with subsequent clinical examinations, etc.).

Continue pouring water or formalin until the level is at least a few inches (i.e., greater than the depth of the lid of the MRI-compatible brain container) above the opening of the brain container (Figure 2B). Note: especially if using formalin, the experimenter should use his/her judgment to estimate the minimum amount of overflow necessary to complete the remaining steps and seal the container beneath the fluid level. This will minimize formalin waste, and more can always be added later if necessary.

The brain should then be slowly and gently agitated by hand (e.g., rotated left/right on its anterior/posterior axis) – while constantly submerged within the MRI-compatible container – for 2–3 min in order to ensure that no air bubbles are trapped along the cortical surface or under the cerebellum. The experimenter should use their judgment to agitate the sample enough to remove any visible bubbles, while ensuring that the brain specimen is not damaged in the process.

The second piece of cotton should then be submerged in the water or formalin, squeezed for ~1 min to remove any air bubbles, and then splayed out (while constantly submerged) over the brain at the top of the MRI-compatible container.

The lid of the MRI-compatible container should then be completely submerged and manipulated (if it has not been already) to remove any bubbles before closing it tightly beneath the level of the water or formalin (Figure 2C). Make sure that no cotton is stuck in the threads, and that the lid is not cross-thread before tightening. Note: screwing the lid on tightly is essential to prevent leaks in later steps; however, over-tightening may strip or distort the threads, so do not apply too much force.

After ensuring that the lid is secure, slowly and gently pull the MRI-compatible container out of the water or formalin in the larger bucket (i.e., using the handle if possible). Then detach the duct tape and the weight from the bottom and use paper and/or cotton towel to completely dry the exterior of the container before examining for any potential leaks (around the lid, or otherwise). Note: if leaks are identified, check to ensue that the lid is tight (but not over-tight), and if leaks persist, re-submerge the entire container, remove the lid, and try again (ensuring that no cotton gets caught between the threads).

Especially, if formalin was used to fill the brain container, it is recommended to heat-seal the entire MRI-compatible container inside of a heavy-duty (4 or 6 mil) polypropylene bag or tubing to catch any potential drips or minor leaks (and to act as a safeguard in the unlikely event that the container is dropped or damaged during transport). Make sure to squeeze the bag before sealing to reduce the amount of air trapped inside the bag as much as possible. If too much air is in the bag, it may not fit in the MRI head coil in later steps. Note: carefully check the sealed bag and, if in doubt, either repeat the previous step or add another layer of heat-sealed polypropylene tubing.

Finally, the brain container (whether heat-sealed in polypropylene bags/tubing or not) should be placed in two layers of large polyethylene (garbage/yard waste) bags – with the ends tied securely – to add an additional safeguard from potential drips or leaks during transport and/or MRI scanning. Again, make sure to squeeze as much air out of the bags as possible before tying (so that everything will fit inside of the MRI head coil).

Following step 3.14 above, the brain specimen is ready to be transported to the MRI facility, placed in the head coil, and scanned using the desired MRI pulse sequences.

The water or formalin waste (still in the larger bucket following step 3.13 above) can either be saved for later or properly disposed of. Note: water can likely be poured down any sink or autopsy table in the pathology department (check with a pathologist or pathology technologist), but formalin will need to be disposed of more carefully (see steps 3.17–3.19 below).

If formalin was used, it should be poured slowly and carefully (using a funnel) out of the polyethylene bag (in the large bucket) into a chemical Baritainer that has been specifically marked for formalin waste. Once there is very little formalin left in the polyethylene bag, carefully remove it from the large container and cut one of the bottom corners with scissors to drain any remaining formalin into the Baritainer. Then add the proper amount of formalin-neutralizing compound to the Baritainer and wait the specified amount of time before discarding the neutralized formalin. Note: the duct tape, polyethylene bags, and any paper towels, etc., with formalin on them should be placed into a garbage bag (which should then be securely tied) before removing from the fume hood and placing into an appropriate disposal bin (check with a pathologist or pathology technologist).

Leave the large bucket, 5-lb weight and shoulder-length, chemical-resistant gloves in the fume hood until the formalin has completely evaporated.

Finally, remove latex/nitrile gloves, safety glasses or face shield, and lab coat or surgical gown, and wash hands thoroughly.

If using a two-part head coil for scanning, install the posterior elements of the head coil.

Out of an abundance of caution, we recommend taping a large polyethylene sheet or bag over top of the posterior head coil elements and patient table in case of small drips or leaks. Note: although the possibility of a leak or spill is extremely unlikely if all of the aforementioned procedures are strictly adhered to, in case of emergency, a second formaldehyde spill response kit should be purchased and stored at the MRI facility if formalin is being used.

Place the MRI-compatible brain container (sealed in multiple layers of plastic bags) with the handle/lid-side facing outward on a folded sheet or cylindrical foam pad to reduce vibrations and keep the container in position during the MRI scanning session.

Install the anterior elements of the head coil around the MRI-compatible brain container (Figure 3). Note: if possible (i.e., if the MRI facility has a large flex coil and the system has enough receiver channels to accommodate it in addition to the head coil), we have found that it is also beneficial to strap, tape, and/or brace a large 4-channel (knee) flex coil over any potions of the brain container extending beyond the inferior portion of the head coil (i.e., since the lid and handle extend slightly beyond our 12-channel Siemens head coil).

Acquire a series of localizer scans to: (1) check for severe artifacts arising from bubbles in the brain and/or MRI-compatible container, (2) properly orient the brain, and (3) assign slice positions for subsequent data acquisition.

Acquire high-resolution, whole-brain, ex vivo MRI data (hopefully without magnetic susceptibility artifacts from air bubbles).

Bring the container from the MRI center back to the formalin changing facility and put on proper safety equipment (see above in step 3.4).

In the fume hood, remove the polyethylene and polypropylene bags surrounding the MRI-compatible brain container with sharp scissors.

Following the procedures outlined in step 3.2, attach a 5-lb weight to the bottom of the MRI-compatible brain container, place it in a large polyethylene bag, and then gently insert it into the corresponding mold in the large bucket.

Slowly unscrew the lid of the container and remove the cotton from the top of the container.

If removing the brain for long-term storage or follow-up histopathology, very gently lift it (with two hands) into a larger, long-term storage bucket that has been filled with fresh formalin and dispose of the used formalin according to steps 3.16–3.18 above.

If changing the formalin and keeping the brain in the MRI-compatible container, please follow steps 5.7–5.9 below.

Carefully pour the used formalin (using a funnel) into a chemical Baritainer that has been specifically marked for formalin waste. Note: if two people are involved, this can be done without removing the brain from the MRI-compatible container (i.e., while one person pours the formalin, the other one gently holds the brain from sliding out of the container). However, if working alone, the brain should be temporarily removed from the MRI-compatible container and placed into a separate bucket of formalin.

Once all of the used formalin has been removed, new formalin can be poured into the MRI-compatible brain container following the procedures outlined in steps 3.4–3.19.

Then, add the proper amount of formalin-neutralizing compound to the Baritainer, and wait for the specified amount of time before discarding the neutralized formalin, according to steps 3.16–3.19 above.