Treatments & Services Archives - Page 3 of 4 - Michigan Head & Spine Institute Blog

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Neurosurgeons at Michigan Head and Spine Institute have begun using Optune for the treatment of newly diagnosed and recurrent glioblastoma (GBM). Richard Veyna, M.D., is certified to prescribe this wearable and portable medical device, the first FDA-approved therapy in more than a decade for newly diagnosed GBM.

“Our goal at Michigan Head & Spine Institute is to treat cancer patients with the latest, approved therapies available, so we welcome the opportunity to provide Optune as part of a combination treatment for those fighting GBM,” said Richard Veyna, M.D. “We want our patients to have the best possible quality of life. With Optune as a therapy patients are able to go about their daily activities with minimal disruption to their lives.”

For newly diagnosed patients, Optune is used with the chemotherapy temozolomide (TMZ) after surgery and radiation with TMZ. In a clinical trial, adding Optune to TMZ was proven to delay GBM tumor growth and extend survival in newly diagnosed patients compared with TMZ alone. For recurrent patients, it can be used alone when surgery and radiation treatment options have been exhausted. Optune is approved for the treatment of adult patients (22 years of age or older) with GBM. In a clinical trial, adding Optune to TMZ provided an unprecedented five-year survival advantage in patients with newly diagnosed GBM.

About Glioblastoma Multiforme

Glioblastoma, also called glioblastoma multiforme, or GBM, is the most aggressive type of primary brain tumor. While GBM is rare, it is the most common type of primary brain cancer in adults. Approximately 12,500 new cases of GBM or brain tumors that may progress to GBM are diagnosed in the United States each year. (Watch Pamela’s story)

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Optune creates low-intensity electric fields—called Tumor Treating Fields (TTFields)—which potentially slow or stop cell division leading to cancer cell death. Because TTFields do not enter the bloodstream like a drug, they did not significantly increase TMZ-related side effects for newly diagnosed patients. In clinical trials the most common device related adverse events were scalp irritation from device use and headache.

For the treatment of recurrent GBM, Optune is indicated following histologically–or radiologically–confirmed recurrence in the supratentorial region of the brain after receiving chemotherapy. The device is intended to be used as a monotherapy, and is intended as an alternative to standard medical therapy for GBM after surgical and radiation options have been exhausted.

Guidelines for Use of Optune

Optune should not be used if the patient has an active implanted medical device, a skull defect (such as, missing bone with no replacement), or bullet fragments. Use of Optune with implanted electronic devices has not been tested and may theoretically lead to malfunctioning of the implanted device.

Use of Optune together with skull defects or bullet fragments has not been tested and may possibly lead to tissue damage or render Optune ineffective. Do not use Optune if you are known to be sensitive to conductive hydrogels. In this case, skin contact with the gel used with Optune may commonly cause increased redness and itching, and rarely may even lead to severe allergic reactions such as shock and respiratory failure.

Warnings and Precautions

Optune should only be used after receiving training from qualified personnel, such as your doctor, a nurse, or other medical personnel who have completed a training course given by Novocure™ (the device manufacturer).

Optune should not be used if the patient is pregnant, or thinks she might be pregnant or are trying to get pregnant. It is not known if Optune is safe or effective in these populations.

The most common (≥10%) adverse events involving Optune, in combination with temozolomide, were low blood platelet count, nausea, constipation, vomiting, fatigue, scalp irritation from device use, headache, convulsions, and depression.

The most common (≥10%) adverse events seen when using Optune alone were scalp irritation from device use and headache.

Scalp irritation from device use, headache, malaise, muscle twitching, fall and skin ulcer is considered an adverse reaction related to Optune when using the device alone.

Cautions:

All servicing procedures must be performed by qualified and trained personnel, like Dr. Veyna.

Do not use any parts that do not come with the Optune Treatment Kit, or that were not sent to you by the device manufacturer or given to you by your doctor.

Do not wet the device or transducer arrays.

If you have an underlying serious skin condition on the scalp, discuss with your doctor whether this may prevent or temporarily interfere with Optune treatment.


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Patients arrive at Michigan Head & Spine Institute with many different conditions and injuries.  We hear from our patients that learning about conditions other than what you might be experiencing often helps family members or friends. So this month the MHSI Health Education Series will discuss trigeminal neuralgia.

Robert Johnson, M.D., MHSI neurosurgeon explains, “Pressure or damage to the trigeminal nerve can cause malfunction of the nerve which leads to the pain in the face known as trigeminal neuralgia.” Trigeminal neuralgia usually affects more women than men, and those over 50 years of age. Doctors may use medications, and sometimes surgery to relieve the pain and release the pressure on the nerve.

Some Possible Causes:

  • Contact between a normal blood vessel and an artery/vein
  • Aging
  • Multiple Sclerosis or other movement disorders
  • Brain lesion
  • Stroke or facial trauma
  • Abnormal position of blood vessel related to the nerve

Symptoms of Trigeminal Neuralgia

There are many symptoms of trigeminal neuralgia which could include one of these patterns:

  • Extremely painful, sharp electric-like spasms that may last a few seconds to a few minutes.
  • Spontaneous attacks of pain while doing regular daily activities such as talking, brushing your teeth, or chewing.
  • Pain that is triggered by sounds, wind or touch.
  • Pain that affects one side of the face, rarely does it affect both sides of the face.
  • Constant aching or burning pain.
  • Pain is usually in the areas that are supplied by the trigeminal nerve: cheek, jaw, teeth, gums, or lips. Pain in the eyes and forehead are less common.
  • Attacks become more frequent and increase in intensity.
  • Pain, for an unknown reason, isn’t usually felt while sleeping. Knowing this may help physicians pinpoint if it could be a migraine or toothache rather than trigeminal neuralgia.
  • In atypical trigeminal neuralgia, a severe migraine in addition to the sharp electric like spasms may be present.

Treatment for Trigeminal Neuralgia

Medication, which may include muscle relaxers, anti-seizure drugs, and antidepressants to target the inflamed nerve, may be prescribed to those diagnosed with trigeminal neuralgia. In some cases, surgery may be needed to relieve the pressure that is causing the nerve disruption. These surgical options may include:

  • Microvascular decompression – relocating or removing a blood vessel that is in contact with the trigeminal nerve. This is done with a small incision behind the ear on the side of your pain
  • Tumor Removal
  • Gamma Knife Radiosurgery
  • Glycerol injection – the sterile glycerol damages the trigeminal nerve and blocks pain signals
  • Balloon compression

Robert Johnson, M.D., Jeffrey Jacob, M.D., and Daniel Michael, M.D., are all MHSI neurosurgeons who specialize in treating trigeminal neuralgia.  If you identified these symptoms as those you may be experiencing, please call MHSI for an appointment, 248-784-3667.


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The two main blood vessels in the neck that supply blood to the brain are called the carotid arteries. When these arteries narrow, blood flow to the brain is reduced. This is called carotid artery stenosis. The gradual buildup of fatty substances and cholesterol deposits is called plaque.  Plaque occurs as we age, engage in unhealthy lifestyles and don’t manage risk factors, like high cholesterol.

Often, there are often no symptoms until a stroke occurs. So it is important to seek regular physical exams. If your doctor hears an abnormal sound in these arteries a carotid duplex or Doppler ultrasound may be required to examine the blood flow and look for plaque or blood clots.

Medication may be prescribed if less than 50% of the artery is blocked. If more than a 70% blockage is present a carotid endarterectomy or a carotid angioplasty / stenting procedure can improve blood flow to the brain.  Both procedures are usually conducted by a neurosurgeon. In the carotid endarterectomy, an incision is made in the neck and the plaque and diseased portions of the artery are removed to increase blood flow to the brain.

Richard Fessler, M.D., an endovascular neurosurgeon at MHSI explains, “In a carotid angioplasty, a catheter is inserted into the groin, through the aorta (the main blood vessel of your heart) in an attempt to clear the blockage and open up the artery. Sometimes a stent is inserted into the artery to keep the artery open and the blood flowing.”

For all patients, “These are much less invasive procedures than open surgery for all patients, but especially elderly patients,” adds Dr. Fessler.

If you find yourself in an emergency situation, like having a stroke that requires a carotid endarterectomy or angioplasty, or your doctor says you need one of these procedures ask for an MHSI neurosurgeon. To schedule an appointment, call 248-784-3667 or online at MHSI.us


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Dr. Veyna
Dr. Veyna

Everyday, the neurosurgeons at Michigan Head & Spine Institute see patients who arrive with head injuries at area hospital Emergency Departments. For Dr. Richard Veyna, it may have all been in a day’s work, but for 13-year-old Drew Pelkowski and his parents it was a life-changing event when Drew was involved in a golf cart accident.

See the entire story on WXYZ-TV as told by Drew’s parents at Beaumont Hospital in Royal Oak.

A GO FUND ME account has been set up to help the Pelkowski’s with medical expenses.


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Over two-thirds of individuals experience chronic low back pain (LBP) in their lifetime, according to the New England Journal of Medicine. Some of the most common causes of low back pain include the biochemical degeneration of the intervertebral disc (IVD), spinal stenosis, and disc herniation. For these individuals, posterolateral and interbody fusion techniques are frequently considered for those with one- or two-level degenerative disc disease whose symptoms are unresponsive to conservative treatment. Nevertheless, pre-operative diagnostic techniques that may identify those patients with degenerative disc disease without significant neurological compression who may benefit from surgical intervention remain elusive.

Henry C. Tong, M.D. of MHSI and his colleague at Oakland University William Beaumont School of Medicine, Mengqiao Alan Xi, BSc, recently published their research that re-evaluated the effectiveness of lumbar discography with post-discography CT.

Their study results indicate that discography with post-discography CT can be an effective method to evaluate patients with discogenic back pain refractory to non-operative treatments. Those patients with one- or two-level high concordant pain scores with associated annular tears and negative control disc represent good surgical candidates for lumbar interbody spinal fusion.

To read the full study, click this link.


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Every 40 seconds someone has a stroke, and every four minutes someone in the U.S. dies from a stroke. Stroke is the leading cause of disability in the U.S. and the #5 cause of death. One out of six people will suffer a stroke in his or her lifetime. Are these statistics enough to make you ask – “what would I do if my loved one was having a stroke?”

The American Heart and Stroke Associations say to remember the signs of a stroke this way: F=face drooping, A=arm weakness, S=speech difficulty and T=time to call 911. Remembering FAST could make the difference between life and death or the difference between a full recovery and a permanent disability.

What is a Stroke?

There are three types of stroke:

1. Ischemic stroke occurs when a blood clot obstructs a blood vessel supplying blood to the brain and deprives the brain of blood flow. It is accounts for 87% of stroke cases.
2. Intracranial hemorrhage occurs when a weakened blood vessel ruptures, usually due to high blood pressure. The mass of blood from the ruptured artery pushes on the normal brain, reducing its blood flow and can directly damage the brain.
3. Subarachnoid Hemorrhage is a type of hemorrhagic stroke in which a weakness in the wall of a blood vessel dilates and bursts. These weakened blood vessels are called aneurysms and arteriovenous malformations or AVMs. Intracranial and subarachnoid hemorrhage account for about 13% of stroke cases.
4. A Transient Ischemic Attack (TIA) is often referred to as a “mini-stroke” and is caused by a temporary clot that prevents blood flow to the brain. They can be a predictor of a more serious stroke to occur in the future.

How is a Stroke Treated?

The good news is that most strokes can be treated if bystanders recognize the symptoms and react quickly to get the stroke victim to the emergency room. Richard Fessler, M.D., neurosurgeon at Michigan Head & Spine Institute, knows the importance for patients to seek treatment from stroke experts – quickly.

Richard Fessler, MD

Dr. Fessler developed several statewide programs to provide state-of-the-art point of access care to stroke and aneurysm patients using tele-medicine. Doctors in areas where stroke specialists are not on-site use the tools of the Stroke Network to connect with stroke experts as they treat patients in their emergency rooms. This provides the patient with the best possible outcome.

Dr. Fessler, director and originator of the Ascension of Michigan Stroke Network and the Trinity Michigan Stroke Network, explains “the goal of treating a stroke is to restore blood flow to the brain as quickly as possible to prevent damage to the brain. For an Ischemic stroke that treatment might include tissue plasminogen activator (tPA).”

tPA is a clot busting drug which must be given within 3 to 4.5 hours from the first signs of a stroke. If the drug does not reduce the clots, minimally invasive surgery is required to remove the clots. This is generally performed by a neurosurgeon, like Dr. Fessler, who is a neuroendovascular specialist. Dr. Fessler removes clots or repairs ruptures from a stroke by guiding a catheter through a major artery to remove the clot or repair the aneurysm or AVM. These endovascular procedures are minimally invasive and often the patient is home anywhere from the same day to two days later. “Surgical options for stroke and aneurysms have significantly advanced in the last decade. The critical factor is seeking treatment immediately. It’s important everyone knows what to look for and then reacts quickly,” explains Dr. Fessler

Rehabilitation After A Stroke

Patients who do suffer a stroke can require physical rehabilitation. At Michigan Head & Spine Institute, physiatrists – physical medicine and rehabilitation doctors have the expertise to work with stroke patients to return each person to being able to function to the fullest extent possible.

Dr. Fessler often sees stroke patients in the emergency room during a stroke. He also treats patients for other neurosurgical conditions, including diagnosis and treatment of unruptured aneurysms. For those who require rehabilitation, a consult with an MHSI physiatrist for stroke rehabilitation can be scheduled by calling 248-784-3667.



Chiari MalformationIn her early thirties, Amy experienced very bad and massive migraine headaches. At that time, she went to see a neurosurgeon and was diagnosed with Chiari I malformation. Amy was told she could have brain surgery, but it was an elective surgery. She was told if it’s not bothering you – you shouldn’t fix it. Fast forward to now at age 43.

Amy is a kindergarten teacher of 27 students in her classroom. She would be exhausted and fight to stay awake. Everyday would be a challenge because of fatigue, headaches, and continuous scratching herself to stay awake. Five minutes driving in the car would be very stressful for her and falling asleep at the wheel was becoming a serious issue for Amy.

Chiari malformations are structural defects that occur in the cerebellum, the part of the brain that controls coordination and muscle movement. Previous estimates were that malformations occur in about one in every 1,000 births, but increased use of diagnostic imaging indicates that the disorder may be more common than once thought.

What is Chiari Malformation?

Holly Gilmer, M.D., neurosurgeon and a leading expert in Chiari malformation explains that older children experience headaches, dizziness, ringing in the ears, and problems with vision. One of the most frequent presentations is scoliosis with none of these symptoms except infrequent headaches. Some children may not have noticeable symptoms until adolescence or adulthood. In teen and adult years, problems can include persistent headaches, neck pain, and weakness and/or numbness and tingling in the arms and legs.

Adult symptoms include neck pain, balance problems, muscle weakness, numbness or other abnormal feelings in the arms or legs, dizziness, vision problems, difficulty swallowing, ringing or buzzing in the ears, hearing loss, vomiting, insomnia, or headache made worse by coughing, laughing, or straining. Hand-eye coordination and fine motor skills may be affected. Symptoms can change over time depending on the build-up of cerebrospinal fluid and pressure on the brain, spinal cord, and nerves.

Dr. Gilmer says that “surgical treatment to correct the compression involves removing a portion of the skull and usually part of the C1 vertebra. The cerebellar tonsils are usually partially removed. We always open the covering of the brain (dura) and use an expansion graft to make the dura larger and give the brain more room to expand.”

“It only takes one person to change your life and I’m very grateful to Dr. Gilmer and Michigan Head & Spine Institute,” says Amy.

To refer a patient for diagnosis of Chiari malformation or evaluation for decompression surgery, call 248-784-3667.


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by Daniel B. Michael, M.D., Ph.D., Emeritus and Retired Neurosurgeon

Everyone forgets, from the day we are born until we die. Memory is one of the most important functions our brains provide. When we forget or cannot recall an event, person or thing it can be frustrating. When such memories can never be recalled it can be life threatening.  Alzheimer Disease (AD) is the progressive loss of certain types of memory due to specific degenerative changes in the brain. Twelve years following the diagnosis, over 95% of AD patients are dead. Alzheimer Disease is fatal and currently there is no effective treatment. In 2012 there were 5.4 million estimated cases of AD with approximately 36 million cases worldwide. The incidence is expected to quadruple by 2050. In 2012 US the cost to care for AD patients was estimated to be $200 Billion; in 2050 the cost will increase to an estimated, $1.2 Trillion, 70% paid for by Medicare. Unless effective treatments for AD can be found we face an unprecedented healthcare crisis. Dr. James Fontanesi, a noted radiation oncologist then on staff at William Beaumont Hospital (WBH), Royal Oak, MI, observed that relatively low doses of external radiation had been used to treat abnormal deposits of amyloid in parts of the body other than the brain. Amyloid deposition in the brain has been thought to play an important role in the development of AD. He hypothesized that radiation could be used to reduce amyloid in the brains of AD patients and lead to improved memory function. Over the past five years Dr. Fontanesi gathered a team of radiation oncologists, radiobiologists, and behavioral psychologists to design and carry out animal laboratory studies to see if radiation would reduce amyloid in the brain, improve memory, and if so by what mechanisms this treatment worked. Daniel Michael, M.D., MHSI neurosurgeon and neuroscientist, was part of this team, providing help in experimental design and analysis. The MHSI board of directors voted to provide grant money to support this research.alzheimer The research used a transgenic mouse model of AD.  Early experiments subjecting one half of the mouse’s brain to radiation demonstrated in dramatic fashion that amyloid could be reduce using this treatment (see figure). Subsequent studies suggested the best dose of radiation to use and possible mechanisms by which the radiation reduced amyloid. Whole brain radiation mouse studies then provided evidence that radiation improved memory in the AD mice. The results of these studies have been reported at radiation oncology, AD and neuroscience meetings worldwide. In November 2015, the results of these experiments were reported in the peer reviewed journal, Radiotherapy and Oncology (Marples B, McGee M, Callan S, Bowen SE, Thibodeau BJ, Michael DB, Wilson GD, Maddens ME, Fontanesi J, Martinez AA: Cranial irradiation significantly reduces beta amyloid plaques in the brain and improves cognition in a murine model of Alzheimer's Disease (AD). Radiother Oncol. 2015 Nov 23. pii: S0167-8140(15)00568-X. doi: 10.1016/j.radonc.2015.10.019. [Epub ahead of print] PMID: 26615717). These animal studies have provided the basis for a Phase 1 human safety trial of radiation in AD patients.  This trial has been developed in cooperation with the FDA.  It is currently undergoing institutional review board scrutiny and is expected to enroll the first AD subjects in 2016. In addition to members of the team from Beaumont Hospitals and 21st Century Oncology, Mary Martin, RN, Dr. David Lustig, M.D., neurologist, and Dr. Michael all from MHSI will be participating in this exciting study. MHSI is proud to continue its support of research which we hope will lead to an effective treatment for AD.



Zeke and DebParents are very intuitive to the developmental growth of their children and how they progress as a baby, toddler, pre-schooler, to elementary age. Since an infant, Zeke’s mom, Deb, knew something was wrong for a longtime.

He walked on his toes constantly – he never walked on his flat feet. He felt no hot or cold. Zeke had periods of rage and irritability. And as may Chiari patients, his speech was impeded by a thick tongue. Then one day during lunchtime, he had a one pupil that was dilated very large. A visit to the eye doctor indicated that there was extreme pressure on Zeke’s retina – pressure that was coming from the brain. An emergency trip was made to the ER and it was then doctors diagnosed Zeke as having Chiari malformation.

Zeke’s mom did extensive research about Chiari malformation. She communicated with many patients who had great surgical outcomes and one name kept coming up, Dr. Gilmer, located in Royal Oak, Mich.

“She found me on the internet,” says Holly Gilmer, M.D., neurosurgeon.  “She did her research, searching all opportunities, and was very particular about what she wanted for Zeke She found that I specialize in Chiari malformation surgery.”

Deb says, “Zeke and his family traveled from Maine and we’re so glad we found Dr. Gilmer.”

What is Chiari Malformation

Chiari malformations are structural defects that occur in the cerebellum, the part of the brain that controls coordination and muscle movement. Previous estimates were that malformations occur in about one in every 1,000 births, but increased use of diagnostic imaging indicates that the disorder may be more common.

Normally the cerebellum and parts of the brain stem sit in the posterior fossa of the skull, above the foramen magnum, or the opening to the spinal canal. In individuals with Chiari malformations, the posterior fossa is abnormally small and misshapen. It presses on the brain, forcing it downward and causing the cerebellar tonsils to protrude into the spinal canal. This blocks the flow of cerebrospinal fluid to the brain, which can lead to hydrocephalus and/or increased intracranial pressure. It also causes direct pressure on the brain stem and upper spinal cord.

Chiari malformation is diagnosed by MRI. When deciding if surgery is an option, the extent of the herniation of the brain into the spine is not as important as the symptoms the patient experiences. For some adults, symptoms are not severe and they do not require surgery. Chiari malformation is also sometimes an incidental finding on MRI, and the person is asymptomatic.