Exquisite Goods

Tag: Craniocervical Instability

  • The Petra Johansson Story – A Chiari Warrior’s Journey [English Version]

    The Petra Johansson Story – A Chiari Warrior’s Journey [English Version]

    “We need to perform surgery on your brain, and we need to do it now!”

    What would you do if someone said that to you? Your brain – that thing on the top of your head that is all that is you. Someone needs to cut into it and fix what is wrong and there is no time to think. How are you supposed to say, ”Stop, I need to think. There are questions without answers and I need answers.” Well, I do hope that once you have read this – that is exactly what you will do and you will do it with confidence and a strong voice. Why? Because if you are reading this, chances are you are a warrior too, and to fight this fight successfully, you will need to see yourself as a POWERFUL WARRIOR!

    It was spring 2017 and I was the happiest gal in the world. We had planned and longed for years and we were finally becoming a family. I could not have been happier. At that time, I was used to getting headaches when I coughed or sneezed, but I figured this happened to everyone. I would never have thought that something was wrong, but all of a sudden I started getting real headaches and I went to the doctor’s office. They said that it was just the pregnancy and that I didn’t need to worry so I went on with my life. However, the symptoms were escalating fast and I was losing my balance, strength, and coordination, and I had major issues with remembering and focusing. When I finally went to the doctor again, they sent me straight to the ER to get an MRI to rule out a stroke.

    As we sat there in that tiny room, we were laughing and giggling. My boyfriend tried to keep my spirits up and with ADHD, he was pretty much bouncing off the walls. I looked at us and thought ” We will be the happier family. Him, me and our little baby.” An intern doctor came in through the door and gave me a weird look. ”How are you doing?” he said. I said I was doing my best to not think about the pain. He started doing some tests, but he didn’t really say much. When he was done, he looked at me again and said ”You have a malformation in your brain. That is what is causing your pain and symptoms.” He explained that my cerebellum was pinched and that I couldn’t go home until he had conferred with specialists at another hospital, and then he admitted me. I had no clue about the journey I was about to take and I honestly didn’t even understand what it was I had. I tried Googling that night and I was wondering what the future would hold in store for us.

    The next day the head of the department came to see me and told me that my cerebellum was protruding 13 mm from my skull and that they would have wanted me to have an operation immediately, but because of the baby – they would have to wait. Outside my hospital window, the world was getting ready for summer and the calendars now read, ”June 2017.”

    They told me I had something called ”Arnold Chiari” (Chiari Malformation Type 1) and Google explained to me why I had been feeling the way I did. Everything fit and I felt a bit safer going home, armed with the knowledge that I could be helped. Browsing Facebook, I found a group of likeminded people and my world suddenly expanded and I felt like I belonged. But the one thing that kept me going was the thought that I was doing this for someone. Not me, but for our tiny family. I had no idea what was coming. One day I was going in for a scheduled ultrasound in our second trimester and the next I was no longer going to be a mom. The doctors told us that our baby wasn’t developing as it should and that they had to let my body reject it. I fell into a deep depression and I honestly can’t remember much of what happened during that time. Dealing with the loss of our dream and my own illness was too much to bear, and I just shut down. The world was a cruel and harsh place.

    It was October when I got to meet my first neurosurgeon and I was told that what they had found was considered an important finding. They really wanted me to get on that table as soon as possible. Sitting in front of this highly ranked doctor, I tried to remember all the things that I was supposed to ask. Things I had learned in the group and on Facebook. The retroflexed odontoid, connective tissue disorder connections and unstable necks. But my mind felt like a non-stick surface and I couldn’t remember any of it. It wasn’t that I didn’t think it applied to me – actually the opposite. But every possible idea that I shared with my new neurosurgeon fell on deaf ears, as he would sternly tell me, ”all you have is Chiari and surgery is going to fix that.” I felt intimidated and was afraid to rock the boat. If I had a connective tissue disorder, they would have known, right? I needn’t worry about knowing this, I just needed a duraplasty and decompression and all would be fine. In hindsight, this turned out to be a pivotal point in my fight (and I hope those reading pay particular attention to this point). This is the point where I should have stopped and stood up for myself. Nobody knows our bodies better than we do, we know when something is wrong. I should have listened to my body and trusted my gut. I should have not agreed to brain surgery without additional testing to rule out the possibility of comorbids pathological to Chiari, and not just assume that the only cause of my tonsillar descent was an underdeveloped posterior fossa. Many surgeons say this and are unwilling to test us for any other pathologies before they alter our cranial anatomy. As patients, we believe our surgeons, even when we know that they are simply unwilling to test any further. They believe what is in their textbooks and I am here to tell you that sometimes, they’re wrong and their assumptions are just not correct. I know we want to believe them, but the complications that can arise if we’re right and they’re wrong are not worth it in the end. Believe me, and if you don’t, please just keep reading.

    They removed 2.5 cm of my skull bone and 2 cm of the lamina from my atlas vertebra (C1) in March 2018. For two weeks I was fine until I developed chemical meningitis and was hospitalized. Well, fine is maybe an overstatement since they did forget to close my eye before the operation and it actually dried up and stuck to the operating table, scarring my cornea for life (yes, that is a thing). I waited and waited for that moment when I was supposed to feel good again. But it never came. I couldn’t lay down on my back or the back of my head without feeling like I was going to faint, my head pain was awful and I had several neurological symptoms. The doctors tried different medicines and painkillers but nothing worked or it gave me bizarre side effects. No matter what they tried, the pain wouldn’t subside.

    ”In Sweden, you have to be a year post-operative before we can make any kind of decisions on your health.” This is something I was told so many times and it was so frustrating. I was told that I was an addict to opioids and that I was imagining my pain. ”It isn’t real, you just think it is going to hurt.” Or, ”You are cured and there is no reason you should be in all this pain.” I was fed so many misconceptions and lies during this period, but I had to keep fighting in hopes of getting my life back. Giving up was not an option. After having new MRIs done to look at my retroflexed odontoid and the possibility of instability, I was told I was fine. The pictures were perfect and I wasn’t sick. I was told that an investigation to look into Ehlers-Danlos would take to long and my doctors didn’t think it was important to do before my year was up. They considered me ”well” and I felt worse than ever. If I was cured, why did I feel like I was dying?

    In December I wrote to my doctor ”Please help me, I feel like I am about to die.” That must have triggered something in him because he called me on the phone and we talked for a long time. He told me there were no reasons he could see to explain my symptoms. I had a small herniated disc and an arachnoid cyst. Nothing that would cause my pain and symptoms. Even so – he said he would check with some colleagues to see if there was something that could be done, but he was adamant about not touching my brain until I was a year out from my first surgery.

    Time was my worst enemy. I couldn’t believe how slowly it went by. February 2019 came and it was 11 months after I first lay on that table. I couldn’t manage the day to day life, I slept all through the day and I was in grave pain. If I tried laying on my back, I would pass out. My boyfriend took care of our house and me, and life was not a life worth living. Once again I tried contacting my doctor. This time I simply wrote a goodbye letter, I knew I was dying. He called me right away and told me that they were going to open me up again. There were still no indications in the images that something was wrong so they asked me to perform some tests before they would schedule me. I did neurological tests, a lumbar puncture, and a new MRI. I had to be put to sleep during the MRI because of my issues and the tests did show my pressure was a bit too high. However, the neurologist thought I had a couple of extra kilos for my height and attributed everything to me being slightly overweight. My second surgery was scheduled in April 2019.

    ”Had I seen these images on someone else, I wouldn’t have done anything. There is really no visible problem.” My doctor told me this when I was admitted for my surgery. He told me they would remove the herniated disc and the arachnoid cyst, extend the duraplasty and transfer a titanium plate to combat the decompression effect I had of lying on my back. I didn’t really care what he told me they would do – I would have let them put horns on my skull if he thought it would’ve helped. My life wasn’t a life – it was a passage to death’s door, and I didn’t even know how right I was.

    ”Petra, this is the worst case I have ever seen” – the words out of his mouth when he saw me in the ICU after surgery shocked me. He continued to tell me that I had massive scar tissue that wasn’t visible in the images and that it was the worst case he had seen in his entire career. Had they waited to perform the surgery, I would have become brain dead. I had no pulse frequency in my brain at all and my CSF did not flow. The scar tissue and the herniated disc were now blocking cerebrospinal fluid and it had all grown together like a giant lump of bad juju. Membranes, cerebellum and the spinal canal were like a big jumble.

    I was once again cured and sent off to go home and heal. Despite having major issues with pain control that could not even be managed in the hospital, they figured I was fixed and ready to go. I wish I could tell you that it has gotten better, that the doctors finally started listening to me and realized that scar tissue can go back, but they still don’t. Most of them feel like I am now cured and should be fine. I am 6 months out and am starting to feel the same way I felt before surgery last time. I’m in immense pain, losing neurological functions and my day to day life is nonexistent. My pain management is all that is on my schedule and I am functioning on a day-to-day basis. My neurosurgeon called to check up on me a while ago and when I told him how I was doing he said that they didn’t dare to perform any more surgeries on me now. So I asked him about my thoughts on a connective tissue disorder. I was ready for him to give the go-ahead for an investigation. But to my surprise, he said, ”But you don’t have any more issues than your Chiari, do you?” I was done. For two year I had tried to convey what I thought was going on and told him about me and he hadn’t heard or registered a word of what I said. Enough was enough, and I told him that he needed to listen to me and start helping me feel better and find out what was wrong. I am now waiting to look further into my connective tissues and Ehlers-Danlos Syndrome (EDS).

    Nobody really knows what is wrong with me and how to handle it. I am a great enigma with my doctors and I can not trust anyone to be my advocate and do the research, so I do it myself. I’ve learned to ask tough questions and not give up and I have also learned to ask for help from people in my position. What are they doing and how can I apply that to my life. Without the community, I would be lost. I would not know what to do when I get to yet another doctor or nurse who asks, ”You have WHAT?” I don’t think I would have had the strength to keep on fighting if I didn’t know that I wasn’t alone. I am pretty sure nothing else can happen now that I haven’t already been through. I have more knowledge and experience, but I am also more worn out, exhausted and sometimes just jaded from having to constantly fight. To go through two major surgeries without any relief is not easy peasy. Sometimes it just sucks – I am supposed to get better from treatments, not worse. Right?

    So, I commend you for reading through to this point and hope that by doing so, you now know how important it is for you to suit up for battle. You need to be the warrior from the get-go. No matter if they tell you it needs to get done yesterday – you make sure you have your answers before you agree. Get every answer from your list: Could it be from a spinal leak? A cranial leak? Do I have a connective tissue problem? Could my pressure be causing it? Could it be something else than a congenital malformation that is causing your brain to escape your skull? Study and learn all you can, ask for help and be the pain in the *ss patient if you need to be. I know you don’t want to. I know it is rough and that some days you just wanna lay down and give up. So do that – for a day – and then stand up and fight again! We wait for a lot of things. We wait for urgent care. We wait for prescriptions. We wait for testing. We wait for imaging. We wait for a doctor who will believe us and when one finally does and promises some relief with surgery, we figure we’re done waiting. But THAT IS THE TIME TO WAIT and get all the data before you’re on the other side of surgery, where your anatomy has forever changed and they are telling you that you are healed. I know you think that you are pressed for time, but take time and make sure you have all your ducks in a row and do your very best to make sure that nothing is missed, so you can spend time healing and living life again!

  • A Mother’s Story

    A Mother’s Story

    Today is 11th April, 2019. Spring is in the air, yet I struggle to appreciate its presence. My daughters are at school, my son is at home in bed yet again. Like so many other days he is unable to get up. My son is 19 years old and looks just like any other 19 year old. You would never guess that this 19 year old is fighting a tremendously unfair battle every single day and has done so for several years.

    Let me rewind.

    My son was around 9 years old when he first complained of a lack of feeling on his right side and regular headaches. Doctors in Ireland, where we were living at the time, told him to drink more fluids after his daily soccer practice and put the numbness down to a trapped nerve. When he was 14 years old and living in Canada, he was told exactly the same by doctors there. However, when I finally insisted on him being referred to a neurologist, this very neurologist laughed at my son for wasting his time. He was told that it was all in his head. I vividly remember telling him off myself in the carpark on our way home.

    I also remember being disappointed about his worsening school reports, blaming the onset of teenage years for his inability to concentrate and retain information. Blurred vision was also dismissed when his eye test came back just fine. Doctors didn’t grow concerned until he was 16 years old and living in France when a routine soccer medical check-up showed a sudden scoliosis deterioration from 8 degrees to 40 degrees. Subsequent MRIs showed Chiari Malformation (CM) with extensive Syringomyelia.

    Neurosurgeons were quick to reassure him that all should be fine after a decompression surgery. Nevertheless, I spent hours researching these unknown rare conditions and found two experienced neurosurgeons, one in England and one in Belgium, for second opinions. Whereas surgeons in France took a more traditional approach and talked about inserting a shunt, both these surgeons warned strongly against this and so we made the decision to go to Belgium for the surgery. We felt well informed and were full of hope when my son embarked on his healing process 3 years ago.

    Let me tell you where we are now.

    Doctors in Europe tell us that my son is one of the unlucky few as his health has drastically deteriorated. Scar tissue has attached itself to his brain tonsils but that only explains part of his deteriorated health. So I embarked on a mission to get to the bottom of these problems. Surely there was hope to be found in the health system in France, one of the best in the world! After countless appointments with multiple health professionals, we were dumbfounded by the complete lack of understanding, knowledge and pure arrogance in relation to CM and its associated conditions, which resulted in my son’s mental health being questioned yet again.

    I started carrying out my own research, which clarified the distinct link between brain disorders and compromised immune/digestive systems. Whereas his doctors are reluctant to make that link, the evidence is clear. 18 months after surgery, my son got struck down by glandular fever. Again, we were hopeful that this would only be a temporary setback. Today however, my son suffers from chronic fatigue syndrome as well as dysautonomia.

    At our wits end last summer, we turned to a hospital in the United States that specialized in Chiari Malformation. Our first consultation with its Managing Director turned out to be an eye opener. This neurosurgeon could literally finish our sentences. My son was finally understood. It turns out that doctors in Europe had failed to diagnose another condition, Ehlers-Danlos Syndrome (EDS), which caused craniocervical instability. This in itself can be a debilitating condition but the combination of craniocervical instability with brain decompression surgery can be a death sentence. He further explained that such patients are deemed to benefit from Occipitocervical Fixation (OC) Fusion surgery. However, this surgery has not yet received the green light for these conditions from Health Services in Europe.

    Armed with a diagnosis of Complex Chiari, we faithfully returned to my son’s French doctors, only to be met, yet again, by a lack of understanding. My request for an upright flexion/extension MRI was seen as outlandish and peculiar. Turns out, an upright MRI is not yet available in France. Instead they still rely on flexion/extension X-ray images which fail to adequately detect craniocervical instability.

    In recent discussions, our son’s Belgian neurosurgeon cautiously recognizes the link between CM and EDS. However, as these studies are in their infancy in Europe, doctors still carry out decompression surgeries without checking for EDS. He also questions the durability of an OC Fusion but agrees that much more extensive research needs to be carried out in Europe and that my son is extremely unfortunate this hasn’t happened yet.

    So where does this leave my son? In the land of limbo. Knowing that Europe is trailing some 10 years behind the States in this field. France, with its inherent reluctance to change, probably closer to 15 years. School is no longer an option for my son as his brain fog and memory loss have become more and more of a problem, his fatigue too debilitating and his headaches too frequent.

    We are tired of fighting the system, tired from having to spell out the name of his conditions to health professionals, tired of being misunderstood. There are days I avoid going out as I don’t want to answer people’s well-meant questions. There are days I am ashamed of the anger that wells up inside me when friends air their worries about their children’s school results. There are days I feel like I am being punched in the stomach when I see his friends play a soccer match. People tell me I am strong. I don’t agree. I wish I had been strong all those years ago and believed my son over his doctors.

    My son is my hero. My son is a fighter. My son has generally done what health professionals told him to do, taken every medication health professionals told him to take, followed the advice health professionals told him to take, yet the system continues to let him down. When I look into my son’s eyes, I still see this steadfast determination but I now also see pain and disillusionment. My son believed me when I told him we would overcome this together. My son believed me when I told him the worst would be over soon. My son doesn’t believe me anymore. I feel that I have failed him.

    Complex Chiari diagnosed so late is a life sentence. It has brought pain, sadness and isolation, not only to my son but to my entire family. My husband and I are learning to compartmentalize, enjoy moments. We live in hope that our son’s better periods will begin to lengthen and pick ourselves up every time these come to an abrupt end. We have to. We owe it, not only to our son but to our daughters too.

    We continue our journey through the unknown, thankful for the sources of information coming from the United States, usually met with skepticism and resistance by French health professionals. However, one thing I have learned from our journey so far is that we cannot fight these conditions and health services alone. Surely there must be more people out there in Europe. Surely, as a group we can start making a difference. Let’s unite! Let’s educate! Let’s raise awareness! Our children deserve so much better! Our children deserve to be heard, supported, and at the very least, understood!

  • Overview: Chiari Treatment Options & Potential Pitfalls

    Overview: Chiari Treatment Options & Potential Pitfalls

    Once diagnosed, you will usually be referred to a specialist (not a Chiari Specialist, but an everyday, run-of-the-mill neurologist or neurosurgeon). They tend to come in one of two types: Either they are very passive and just want to wait and see how bad it gets, or they are very pro-surgery and while they will still usually give you a 50% chance of helping your symptoms, they will tell you how decompression surgery really is your best option. Both are problematic.

    FOR THE ASYMPTOMATIC CHIARIAN:
    Without a doubt, the passive approach is by far the best plan of action for the asymptomatic Chiari patient. Approximately 30% of those with a Chiari 1 malformation can go their entire lives without having symptoms (in fact, many remain undiagnosed and don’t even know they have it because they have no symptoms).[1] The Chiari is often discovered while looking for something else entirely and is therefore considered an “Incidental Finding.” While there is a chance that the Chiarian will become symptomatic one day, the risks of surgical complications exceed the potential benefit on something that has not and might not ever affect their life.

    FOR THE SYMPTOMATIC CHIARIAN:
    If the Chiarian is symptomatic, however, “Decompression Surgery is the only treatment available [at this time] to correct functional disturbances or halt the progression of damage to the central nervous system. Most individuals who have surgery see a reduction in their symptoms and/or prolonged periods of relative stability. More than one surgery may be needed to treat the condition.”[2] Despite the reasons for haste however, we do recommend slowing down and making sure that adequate testing is done to ensure that the Chiari is a “Congenital Chiari” formed only by a small posterior fossa, with no other etiological/pathological co-factors that could make it an “Acquired Chiari Malformation.” If not identified and addressed, these etiological/pathological co-factors can cause complications and even lead to a failed decompression surgery. (Note: most are told at diagnosis that it is a “congenital defect.” However, that is usually a presumption on their part, stemming from a lack of knowledge of Chiari and its comorbidities, and them giving too much credence to the paragraph or two on Chiari malformations in their medical school textbooks. That is not the reality that many are dealing with; so, testing is imperative!)

    TESTING:
    If you have been diagnosed with a Chiari malformation or a tonsillar ectopia (regardless of the size of tonsillar descent), you should have the following tests/images done.

    1. A sleep study to check for Sleep Apnea.

    • Central Sleep Apnea (CSA) is more common with Chiari, especially when there has been damage to the brainstem or Vagus Nerve.

    • Obstructive Sleep Apnea (OSA) is commonly linked with obesity in the general population, it is also very common amongst those with Connective Tissue Disorders (such as Ehler’s-Danlos Syndrome).

    • Both CSA and OSA can be present in the Chiarian with a Connective Tissue Disorder. When both are causing apnea, it becomes known as “Complex Sleep Apnea.”

    • Sleep Apnea, regardless of the type, is a common “killer” amongst Chiarians.


    2. A brain and full spine MRI (upright recommended) with and without contrast.

    What they should be looking for in these MRIs:

    a) Do you have a syrinx (Syringomyelia or Syringobulbia)?

    • If you have either, that is proof that the blockage of CSF is significant enough to cause these potentially serious complications.

    b) Is any part of your brainstem below the foramen magnum?

    • If it is, you have a variant of Type 1, known as a Chiari 1.5[3] or Type 2, both indicate that there is something else going on causing the brainstem to herniate along with the cerebellar tonsils. 

    c) Do you have a cyst/tumor causing increased intracranial pressure that is pushing the cerebellar tonsils down?

    • If you have either, and they are operable, there is a chance that surgically removing it could decrease the intracranial pressure and allow the cerebellar tonsils (and brainstem if it is below the foramen magnum at all) to go to proper position. Furthermore, if the cyst/tumor is not addressed before, during, or soon after decompression surgery, the chances of your tonsils herniating again after decompression are high.[4]

    d) Do you have Hydrocephalus causing increased intracranial pressure that is pushing the cerebellar tonsils down?

    • If you do, there is a chance that the placement of a Ventriculoperitoneal Shunt could decrease the intracranial pressure enough to allow the cerebellar tonsils (and brainstem if it is below the foramen magnum at all) to go to their proper position. Furthermore, if the Hydrocephalus is not addressed before, during, or soon after decompression surgery, the chances of your tonsils herniating again after decompression are high.[5]

    e) Do you have signs/symptoms of Idiopathic Intracranial Hypertension (often shows as excessive fluid above the lateral ventricles, with small, “slit-like” lateral ventricles; usually accompanied by Papilledema and/or Empty Sella Syndrome), which can cause enough cranial pressure that it can push your cerebellar tonsils down?

    • If you do, there is a chance that a prescription for Diamox or Topamax, or the surgical placement of a Ventriculoperitoneal Shunt, could reduce the pressure enough to allow the cerebellar tonsils (and brainstem if it is below the foramen magnum at all) to go into proper position. Studies exist both in favor of shunting first and doing the decompression first; there are documented cases where unresolved IH has led to failed decompression surgeries, while other cases attribute a Chiari decompression as being that which resolved IH symptoms.[6/7]

    f) Do you have signs/symptoms of Tethered Cord Syndrome that could be pulling on the spine from below?

    • If you do, there is a chance that a less invasive surgery known as a Tethered Cord Release, could stop the downward pulling of the spinal cord and allow the cerebellar tonsils (and brainstem if it is below the foramen magnum at all) to go into proper position. Furthermore, if the Tethered Cord is not addressed before, during, or soon after decompression surgery, the chances of your tonsils herniating again after decompression are high. (Note: not all Tethered Cords are easily visible by MRI, when they are not visible, it is called Occult Tethered Cord (OTC) and surgery on a OTC remains controversial.)[8]

    g) Do you have signs/symptoms of Intracranial Hypotension (CSF Leak) that could be pulling or creating a suctioning effect from below?

    • If you do, there is a chance that a less invasive blood patch or a Dural Tear Repair Surgery, could stop the downward pulling/suctioning effect on the spinal cord and allow the cerebellar tonsils (and brainstem if it is below the foramen magnum at all) to go into proper position. Furthermore, if the leak(s) are not addressed before, during, or soon after decompression surgery, the chances of your tonsils herniating again after decompression are high. (Note: not all leaks are easily visible by MRI.)[9]

    h) Do you have signs of Spina Bifida (Myelomeningocele, Meningocele, or Spina Bifida Occulta)?

    • While it is important to know if any of these exist, a Myelomeningocele would put you at an increased risk of having a Chiari Type 2. While all Chiari Malformations with a Myelomeningocele do not meet the standards for Type 2, 90% of those with a Myelomeningocele have a Chiari Type 2. Most neurosurgeons will not perform a decompression on someone with a Myelomeningocele because of the risk of further complications.[10]

    i) Do you have signs/symptoms of disc degeneration problems and/or stenosis, especially in the cervical spine where it can damage the Vagus Nerve?

    • If you do, these could be another sign of a connective tissues disorder. If you have a syrinx above a herniated/bulging disc, there is a good chance that the disc is attributing to it. Herniated/bulging discs in the cervical spine can be quite troublesome. They can usually be addressed by a second procedure called an Anterior Cervical Discectomy and Fusion (ACDF), but if there are multiple cervical problems and Craniocervical Instability, some surgeons will opt to do a fusion at the time of decompression.[11]

    j) Do you have signs and symptoms of a cervicomedullary syndrome[12], which are often the result of Craniocervical Instability (CCI), Atlantoaxial Instability (AAI), or both. (CCI and AAI can be confirmed with: An upright c-spine MRI with flexion, extension, and neutral views or a 3D cervical CT with rotational views.)

    • CCI/AAI can produce many of the same symptoms as Chiari 1 malformation, including occipital or craniocervical junction headaches made worse by Valsalva maneuvers. It has been theorized that CCI/AAI may also be capable of causing or worsening a herniation of the cerebellar tonsils, and it has been demonstrated that CCI can cause ventral brainstem compression and deformative stress injury to the brainstem.[13] Failure to diagnose and treat CCI before or along with decompression has also been linked to decompression failure. CCI and AAI, while rare in the general population, are relatively common in patients with HDCT’s (Heritable Disorders of Connective Tissue), such as Ehlers-Danlos Syndrome. CCI, when identified to be the root cause of significant symptoms, can be treated conservatively, and in the short term, with the use of a hard-cervical collar, physical therapy and, possibly, traction. More permanent treatment in the form of a fusion and stabilization surgery (fusing the occiput to C1, C2, and sometimes additional vertebrae).[12/13]

    3. A preliminary check for connective tissue disorder (especially Ehler’s-Danlos Syndrome). If preliminary results indicate the presence of a connective tissue disorder, genetic testing should be done to rule out more serious types.


    IF NONE OF THESE PROBLEMS APPEAR TO EXIST: 
    Some doctors and patients prefer to wait and just treat the symptoms medically. That is your choice to make and you should never let anyone try to bully you or manipulate you into having surgery or not; although it is important to know that statistics show that those who have had a shorter duration of onset of symptoms and surgery tend to have a better surgical outcome.[14]

    Statistics show that 80% of decompressed patients report some relief from some of their symptoms; headaches are the most commonly reported symptom to gain relief (81%).

    Most surgeons will give a 50% chance of relieving each symptom individually, with the exception of pain associated with damaged nerves.

    While some surgeons prefer a conservative approach to surgery such as a “bone only” decompression or a “Minimally Invasive Subpial Tonsillectomy,”[15] a full decompression usually consists of:

    Craniectomy: removal of part of the sub-occipital skull.

    Laminectomy of C1 (and sometimes C2): removal of the lamina from the vertebra.

    Duraplasty: opening of the dura (the outermost membrane enveloping the brain and spinal cord) and patching it so there is more room.

    Cerebellar Tonsillectomy: removal/cauterization of the cerebellar tonsils.


    IS DECOMPRESSION SURGERY A CURE FOR A CHIARI MALFORMATION? 
    There is a fundamental problem with the question and what many neurologists and neurosurgeons believe about decompression surgery. For the patient, the symptoms are synonymous with the condition. If we continue to struggle living our lives because of these symptoms, having a doctor that refuses to validate that struggle, can add insult to injury. Decompression surgery should NEVER be considered a cure to the symptoms of a Chiari malformation, it is merely the only treatment available [at this time] to correct functional disturbances or halt the progression of damage to the central nervous system. The likelihood of continued symptoms is almost absolute, Decompression is only a means of reestablishing the flow of CSF between the brain and spinal canal (which is imperative). Once flow is restored, there should be some relief from many of the symptoms. Complications such as Syringomyelia should be reduced or resolved, so the possibility of paralysis is significantly reduced. With as bad as the pain and symptoms are, it really can get worse if left untreated. Finding a specialist that is not only experienced with decompression surgeries, but who fully understands the correlation and treatment of etiological/pathological co-factors and co-morbid conditions, substantially increases the likelihood of a positive surgical outcome.

     

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    References:

    1 Elster, A D, and M Y Chen. “Chiari I Malformations: Clinical and Radiologic Reappraisal.”Radiology., U.S. National Library of Medicine, May 1992, <www.ncbi.nlm.nih.gov/pubmed/1561334>.

    2 “Chiari Malformation Fact Sheet.” National Institute of Neurological Disorders and Stroke, U.S. Department of Health and Human Services, June 2017, <www.ninds.nih.gov/Disorders/Patient-Caregiver-Education/Fact-Sheets/Chiari-Malformation-Fact-Sheet>.

    3 Kim, In-Kyeong, et al. “Chiari 1.5 Malformation : An Advanced Form of Chiari I Malformation.”Journal of Korean Neurosurgical Society, The Korean Neurosurgical Society, Oct. 2010, <www.ncbi.nlm.nih.gov/pmc/articles/PMC2982921/>.

    4 Wang, J, et al. “Acquired Chiari Malformation and Syringomyelia Secondary to Space-Occupying Lesions: A Systematic Review.” World Neurosurgery., U.S. National Library of Medicine, Feb. 2017, <www.ncbi.nlm.nih.gov/pubmed/27894943>.

    5 Graham, A, et al. “An Unusual Cause of Neck Pain: Acquired Chiari Malformation Leading to Brainstem Herniation and Death.” The Journal of Emergency Medicine., U.S. National Library of Medicine, Dec. 2012, <www.ncbi.nlm.nih.gov/pubmed/21215551>.

    6 Fagan, L H, et al. “The Chiari Pseudotumor Cerebri Syndrome: Symptom Recurrence after Decompressive Surgery for Chiari Malformation Type I.” Pediatric Neurosurgery., U.S. National Library of Medicine, 2006, <www.ncbi.nlm.nih.gov/pubmed/16357496>.

    7 Park, Michael S., et al. “Coexistent Chiari Malformation and Idiopathic Intracranial Hypertension: Which Should Be Treated First?- Case Report and Review.” JSM Neurosurg Spine, vol. 2, no. 3, ser. 1025, 20 Mar. 2014. 1025, <www.jscimedcentral.com/Neurosurgery/neurosurgery-2-1025.pdf>.

    8 Milhorat, T H, et al. “Association of Chiari Malformation Type I and Tethered Cord Syndrome: Preliminary Results of Sectioning Filum Terminale.” Surgical Neurology., U.S. National Library of Medicine, July 2009, <www.ncbi.nlm.nih.gov/pubmed/19559924>.

    9 Atkinson, J L, et al. “Acquired Chiari I Malformation Secondary to Spontaneous Spinal Cerebrospinal Fluid Leakage and Chronic Intracranial Hypotension Syndrome in Seven Cases.” Journal of Neurosurgery., U.S. National Library of Medicine, Feb. 1998, <www.ncbi.nlm.nih.gov/pubmed/9452230>.

    10 Vandertop, William P., et al. Surgical Decompression for Symptomatic Chiari II Malformation in Neonates with Myelomeningocele. Oct. 1992, <www.thejns.org/doi/abs/10.3171/jns.1992.77.4.0541>.

    11 Dahdaleh, Nader S., and Arnold H. Menezes. Incomplete Lateral Medullary Syndrome in a Patient with Chiari Malformation Type I Presenting with Combined Trigeminal and Vagal Nerve Dysfunction. 2008, <www.thejns.org/doi/pdf/10.3171/PED.2008.2.10.250>.

    12 Henderson, Fraser C., et al. “Neurological and Spinal Manifestations of the Ehlers–Danlos Syndromes.” American Journal of Medical Genetics Part C: Seminars in Medical Genetics, 21 Feb. 2017, <www.onlinelibrary.wiley.com/doi/10.1002/ajmg.c.31549/full>.

    13 Henderson, FC, et al. “Deformative Stress Associated with an Abnormal Clivo-Axial Angle: A Finite Element Analysis.” Surgical Neurology International, 16 July 2010, <www.europepmc.org/articles/PMC2940090/>.

    14 Ma, J, et al. “Cerebellar Tonsillectomy with Suboccipital Decompression and Duraplasty by Small Incision for Chiari I Malformation (with Syringomyelia): Long Term Follow-up of 76 Surgically Treated Cases.” Turkish Neurosurgery., U.S. National Library of Medicine, 2012, <www.ncbi.nlm.nih.gov/pubmed/22664992>.

    15 Beecher, Jeffrey S., et al. “Minimally Invasive Subpial Tonsillectomy for Chiari I Decompression.” Acta Neurochirurgica, Springer Vienna, 5 July 2016, <www.ncbi.nlm.nih.gov/pmc/articles/PMC4980444/>.

  • Overview: Craniocervical Instability and Related Disorders

    Overview: Craniocervical Instability and Related Disorders

    Craniocervical Instability and related pathologies of the craniocervical junction are an important topic for anyone diagnosed with Chiari 1 malformation. “Complex Chiari,” or the presence of craniovertebral abnormalities or instability in addition to the presence of cerebellar tonsillar herniation, is present in approximately one fourth of all cases of Chiari 1 malformation[1]. These cases usually involve the presence of a genetic connective tissue disorder and are thought by experts to be the cause of most Chiari decompression failures[2]. When the doctor and patient alike are not knowledgeable about these conditions and the additional symptoms that often accompany them, these more complex cases are often treated with a standard decompression, which can actually weaken the stability of the craniocervical junction more, and result in an increase of symptoms rather than a clinical improvement. Understanding what signs and symptoms to look for that may indicate that your Chiari is more complex, is vital in receiving the appropriate treatment the first time. This is especially important considering that, according to Chiari expert Paolo Bolognese, M.D., “[with revision surgeries], the results are not as good as if you had done the posterior decompression well the first time.”[3]

    Punjabi and White define instability as the “loss of the ability of the spine under physiological loads to maintain relationships between vertebrae in such a way that there is no damage or subsequent irritation of the spinal cord, (brain stem) or nerve roots, and in addition that there is development of deformity or incapacitating pain due to structural changes.”[4] This means that the ligaments and muscles that normally hold the spine together, are too weak or damaged to handle the normal range of motion and weight of anatomic structures. For example, in Craniocervical Instability, the neck is not strong enough to support the normal weight of the head, without elements of the spine moving in such a way that it causes pain or damage to the nervous system (spinal cord, brain stem, and even cranial nerves). The result is that the bones that make up the lower skull and upper spine get pushed out of their normal anatomic location and begin to impinge on or cause stretching of these parts of the nervous system.

    Craniocervical Instability can result from or be exacerbated by a trauma, such as a severe whiplash injury. However, many cases of CCI are associated with some sort of connective tissue disorder, such as a heritable disorder of connective tissue (HDCT, like Ehlers-Danlos Syndrome or Marfan’s), or an autoimmune condition that affects the connective tissue (such as Rheumatoid Arthritis), or a few other rarer conditions that affect the integrity of bony structures in the skull and spine. Instability can result either from lax ligaments and other connective tissues, soft bones (also seen in HDCTs) or from something like pannus formation, where repeated rubbing together of the joints causes a build-up of granulated tissue around bony structures and changes the way certain bones lie in relationship to one another[5]. Craniocervical Instability can also result as a complication of Chiari decompression surgery, when too much bone is removed from the skull, resulting in the instability of the skull on the top of the spine[6].

    In the patient community, the term “CCI” is often used in reference to both Craniocervical Instability and Atlantoaxial Instability (AAI). CCI is often used to refer to the commonly seen combination of issues with the craniocervical junction, that include the instability of the joints where the skull meets the C1 vertebrae (which is true CCI), the instability of the joints between C1 and C2 (true AAI), a retroflexed odontoid, pannus formation, and a kyphotic clivo-axial angle (which are all forms of basilar impression/invagination). But CCI really should refer to the movement of the skull with respect to the spine. This sliding is referred to as “translation” and is measured on dynamic imaging in millimeters. The pathological threshold for the degree of translation of the basion with respect to the odontoid process between flexion and extension is 2mm, and any amount of translation greater than 1mm is capable of producing symptoms7. Likewise, at the C1-C2 joint, instability in the form of AAI can cause an excessive uncovering of the joint facets. Facets are the surfaces of the vertebrae that articulate with next vertebra. An uncovering of the facets that exceeds 20% is considered pathological.

    The occipito-atlantic joint allows for about half of the cervical spine’s ability to flex and extend (tilt forward and backward). Likewise, the atlantoaxial joint [the articulation between C1 (atlas) and C2 (axis)] accounts for about half of the cervical spine’s ability to rotate the head. Because of this, these vertebrae lack the same amount of stability as the remainder of the spine, and ligaments are largely responsible for their stability[8]. Therefore, ligamentous laxity, as seen in connective tissue disorders, make these areas of the spine particularly prone to pathologic instability. Symptoms of AAI may include visual changes, syncope (fainting) or near-syncopal episodes, dizziness, nausea, facial pain, difficulty swallowing, choking, respiratory issues, and upper cervical tenderness. These symptoms will usually improve with the use of a neck brace[9]. For patients with connective tissue disorders, as are seen in 12-20% of patients diagnosed with Chiari, dynamic imaging is very important in identifying potential instability. The ideal tests to diagnose CCI and AAI are an upright MRI with flexion and extension and a 3D CT with rotational views, respectively[10]. It is important to note that ventral brain stem compression may not be seen on traditional supine MR imaging, while it may be very evident on dynamic imaging.

    Basilar Invagination and Basilar Impression are also often seen with instability. They are almost identical to one another, and refer to upward displacement of the bones of the spine. However, technically, Basilar Invagination is caused by this deformation with normal bone, while Basilar Impression results from softening of bone[11]. For our purposes, this distinction is less important, but we will discuss any displacement in terms of “Basilar Invagination,” or “BI” for short. Forms of Basilar Invagination now include the prolapse of the odontoid process through the foramen magnum (the original condition described by the term), cranial settling, a kyphotic clivo-axial angle, and a retroflexed odontoid[12]. The kyphotic clivo-axial angle is an important and relatively easy measurement to indicate potential deformative stress on the brain stem. The clivus is a wedge-shaped bone that normally lies above and ventral to the top of spine. When it lies more horizontally, it creates a sharp angle that results in a bending of the brainstem. The odontoid peg (also called the odontoid process or the dens) is the part of the C2 vertebrae, or Axis, that the skull pivots upon, so named because of its tooth-like shape. A retroflexed odontoid occurs when the odontoid is bent backwards, often compressing the front of the brain stem. Other important measurements involving ventral brain stem compression for a kyphotic clivo-axial angle and/or retroflexed odontoid include the Grabb-Oakes and Harris measurements.

    • The clivoaxial angle is measured by drawing a line along the posterior (back, or when lying more horizontal, the top) side of the lower clivus and intersecting that line with a line drawn on the posterior side of the axis.  If the angle created is less than 135°, it is considered pathological.  Like instability, a kyphotic clivoaxial angle is often seen in patients with connective tissue disorders and degenerative rheumatoid disease[13]See figure 1 below.
    Left – Clivoaxial Angle (CXA). Right – Grabb-Oakes measurement.

    For the Grabb-Oakes measurement, a line is drawn from the basion (the midpoint of the anterior margin of the foramen magnum) to the inferior posterior C2. A perpendicular line is then drawn from the center of this line to the dura of the brain stem. A Grabb-Oakes measurement greater than 9 mm denotes a form of basilar invagination. This is a very helpful measurement for determining how much a retroflexed odontoid is compressing the brain stem. See Figure 2 above.

    The Harris measurement is the distance between the basion and the Posterior Axial Line. This distance should not be more than 12 mm. A measurement of more than 12 mm also denotes instability. This measurement can also be used to measure the translation between flexion and extension in dynamic imaging[14]. See Figure 3.

    Harris measurement

    Symptoms of ventral brain stem compression can occur with various types of BI and instability. They may be referred to together as a “cervicomedullary syndrome” and may include[15]:

    • A heavy headache (often referred to as feeling like a “bobblehead” or feeling like the head is a “bowling ball”)
    • A Chiari-type pressure headache aggravated by Valsalva maneuvers (because these conditions, like Chiari, can also cause flow issues)
    • Dysautonomia (including tachycardia, heat intolerance, orthostatic intolerance, syncope (fainting), polydipsia (extreme thirst), delayed gastric emptying, chronic fatigue)
    • Neck pain (often severe)
    • Central or mixed sleep apnea
    • Facial pain or numbness – Occasionally, including Trigeminal Neuralgia
    • Balance and coordination impairment
    • Muscle weakness
    • Dizziness and vertigo
    • Vision problems, including double vision and downward nystagmus
    • Reduced gag reflex and dysphagia (difficulty swallowing)
    • Tinnitus (ringing in the ears) and hearing loss
    • Nausea and vomiting
    • Paralysis
    • In more severe cases, non-epiform seizures have also been documented

    In addition to producing significant pain and neurological symptoms, the compression and kinking of the brain stem can cause significant injury to the brain stem neurons by stretching the axons of the nerves to the point that they break and recoil, producing what are called “axon retraction bulbs” that can be seen on microscopic examination of the cells. The stress placed on the brain stem by both compressing and stretching simultaneously is much greater than the mere sum of these two mechanisms. Interestingly, during the flexion of the normal spine, it stretches 17% of its length. Research has shown that the axon of a giant squid fails when stretched to 20% if its length. Therefore, the normal motion of the human neck brings us very close to injuring our brain stem. Consequently, it only takes a slight alteration of our normal anatomy to cause injury to these delicate nervous tissues[16].

    Treatment of Craniocervical Instability typically begins with more conservative medical management, such as neck bracing, activity limitation, physical therapy (including isometrics, sagittal balance, core strengthening and cardio), and pain management. Other causes of symptoms such as co-morbid conditions, multiple sclerosis, dystrophy, mitochondrial disorders, vitamin deficiencies and Lyme disease should be ruled out or treated. However, surgical intervention via a craniocervical fusion is indicated when the following criteria are met:

    Severe headache or neck pain >7/10
    AND cervicomedullary syndrome
    AND neurological deficits referable to the craniocervical junction
    AND radiological findings indicative of instability

    Surgeons and patients alike should consider surgery after medical management has been maximized and the patient has shown a positive response to neck bracing[10].

    Various specific surgical techniques are applied in craniocervical fusions. A more common technique is the open reduction and fusion stabilization procedure. This procedure involves stabilizing the head with screws, making an incision that exposes the occiput through C2, and fixing plates to the occiput which attach to the C1 and C2 (and sometimes C3) vertebrae with rods. A newer technique adapted by Dr. Paolo Bolognese is using a less invasive Chiari decompression surgery known as MIST (minimally invasive subpial tonsillectomy) along with a fusion using screws placed in the occipital condyles. Although the dura is opened to partially resect the tonsils, a duraplasty is not done. Advantages of this procedure include a smaller incision, smaller hardware, less bone removal, and a thicker bone for which to insert screws in the occiput. Risks of both methods include vertebral artery injury, and a slightly increased risk for segmental instability below the fusion, along with the standard risks of any surgical procedure, such as bleeding, infection, and complications from anesthesia. Both procedures demand the hands of a very skilled and experienced surgeon because vital structures lie in and around the area. Using condylar screws may increase the risk of injury to major vessels, particularly in the hands of a less experienced surgeon. An important cranial nerve also lies just deep to the occipital condyles, making precise screw placement extremely important. This may limit the procedure in becoming more widely used, but the resulting fusion may be stronger, despite the reduced amount of hardware[17].

    In the presence of a retroflexed odontoid, an open reduction, fusion and stabilization procedure may be enough to relieve ventral brain stem compression. However, in more severe cases, a further surgery called an odontoidectomy may be needed to remove the odontoid process. This surgery may be done through the mouth or the nose[18].

    Every Chiari patient should be aware of hereditary connective tissue disorders and the signs and symptoms of Craniocervical Instability and Basilar Invagination. Many neurosurgeons do not evaluate their patients for these conditions prior to performing Chiari decompression surgery, often resulting in the need for revision surgeries and poor results. Being an educated patient can help you ask the right questions and insist on the proper evaluation and testing to avoid the pitfalls that many other patients have faced.

    References:

    1 Bolognese, Paolo A, director. Surgical Techniques for Chiari MalformationsYouTube, American Syringomyelia Chiari Alliance Project, 16 Mar. 2015, <www.youtu.be/KfYmJnB6sPQ>.

    2 Bolognese, Paolo A. “Modern Classification and Subclassification of Chiari Malformations.”YouTube, American Syringomyelia Chiari Alliance Project, 16 Mar. 2015, <www.youtu.be/ZQ9ZmquN-M0>.

    3 Bolognese, Paolo A. “2016 ASAP CM/SM Conference – ‘Complex Posterior Fossa’ – Bolognese.” YouTube, American Syringomyelia Chiari Alliance Project, 7 Dec. 2016, <www.youtu.be/3jKH_DHadO8>.

    4 Augustus A. White III, Manohar M. Panjabi, et al. “Clinical Biomechanics of the Spine.” By Augustus A. White III<www.leomed.at/listhoscan/white_90.pdf>

    The Pain Relief Foundation, The Pain Relief Foundation, <www.thepainrelieffoundation.com/craniocervical-instability/>.

    6 Bolognese, Paolo. Complex Posterior Fossa revisions. YouTube. December 7, 2016. <www.youtu.be/3jKH_DHadO8>.

    7 Menezes, Arnold H. “Craniovertebral Junction Anomalies: Diagnosis and Management.”Seminars in Pediatric Neurology, vol. 4, no. 3, Sept. 1997, <www.sempedneurjnl.com/article/S1071-9091(97)80038-1/fulltext>.

    Yang, Sun Y., et al. “A Review of the Diagnosis and Treatment of Atlantoaxial Dislocations.”Global Spine Journal, Georg Thieme Verlag KG, Aug. 2014, <www.ncbi.nlm.nih.gov/pmc/articles/PMC4111952/>.

    9 Henderson, Fraser C., et al. “Neurological and Spinal Manifestations of the Ehlers–Danlos Syndromes.” American Journal of Medical Genetics Part C: Seminars in Medical Genetics, <www.onlinelibrary.wiley.com/doi/10.1002/ajmg.c.31549/full>.

    10 Henderson, Sr. , Fraser C. “Neurological Management of Hereditary Disoders of Hypermobility Connective Tissue Disorders.” Ehlers-Danlos Society Annual Conference 2015. Ehlers-Danlos Society Annual Conference 2015, 14 Aug. 2015, Baltimore, <www.ehlers-danlos.com/2015-annual-conference-files/Henderson_0.pdf>.

    11 Hain, Timothy C. “Basilar Invagination, Basilar Impression and Atlantoaxial Subluxation.”Basilar Invagination, Basilar Impression and Atlantoaxial Subluxation, 19 Apr. 2013, <https://dizziness-and-balance.com/disorders/central/cerebellar/basilar_invagination.htm>.

    12 Kim, Louis J., et al. “JNS JOURNAL OF Neurosurgery OFFICIAL JOURNALS OF THE AANS since 1944.” Treatment of Basilar Invagination Associated with Chiari I Malformations in the Pediatric Population: Cervical Reduction and Posterior Occipitocervical Fusion | Journal of Neurosurgery: Pediatrics, Vol 101, No 2, Nov. 2004, <www.thejns.org/doi/abs/10.3171/ped.2004.101.2.0189?url_ver=Z39.88-2003&rfr_id=ori%3Arid%3Acrossref.org&rfr_dat=cr_pub%3Dpubmed>.

    13 Henderson, Sr. , Fraser C. “Cranio-Cervical Instability in Patients with Hypermobility Connective Disorders.” OMICS International, OMICS International, 18 Apr. 2016, <www.omicsgroup.org/journals/craniocervical-instability-in-patients-with-hypermobility-connective-disorders-2165-7939-1000299.php?aid=71754#11>.

    14 Bono, C M, et al. “Measurement Techniques for Upper Cervical Spine Injuries: Consensus Statement of the Spine Trauma Study Group.” Spine., U.S. National Library of Medicine, 1 Mar. 2007, <www.ncbi.nlm.nih.gov/pubmed/17334296>.

    15 Henderson, Sr. , Fraser C. “Diagnosis and Treatment of Craniocervical Instability in the Chiari Patient.” Chiari and Syringomyelia Foundation Educational Lecture. 20 July 2011, Greater Metropolitan Washington Area, Greater Metropolitan Washington Area, <www.youtu.be/U33T8JFXvk0>.

    16 Henderson, F C, et al. “Neuropathology of the Brainstem and Spinal Cord in End Stage Rheumatoid Arthritis: Implications for Treatment.” Annals of the Rheumatic Diseases, U.S. National Library of Medicine, Sept. 1993, <www.ncbi.nlm.nih.gov/pmc/articles/PMC1005138/>.

    17 Bolognese, Paolo A. “Surgical Techniques for Chiari Malformations.” YouTube, American Syringomyelia Chiari Alliance Project, 16 Mar. 2015, <www.youtube.com/watch?v=KfYmJnB6sPQ>.

    18 Hwang, Steven W., et al. “C1–C2 Arthrodesis after Transoral Odontoidectomy and Suboccipital Craniectomy for Ventral Brain Stem Compression in Chiari I Patients.”European Spine Journal, Springer-Verlag, Sept. 2008, <www.ncbi.nlm.nih.gov/pmc/articles/PMC2527411/>.