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PAIN MANAGEMENT LANDING PAGE

Introduction content block (title: Center for Pain Management) Control your pain. Don’t let your pain control you. The Tallahassee Memorial Center for Pain Management is a state-of-the-art surgical facility offering a comprehensive pain management program to help patients cope with the debilitating effects of chronic pain.

Featured Area (title: Our Services) Feature One Photo: senior playing tennis.jpg Feature One Title: Neck and arm pain Feature One Caption: Cervical epidural steroid injection

>>Read more (new page—2 column wide right wireframe): Page Title: Cervical Epidural Steroid Injection Additional Copy Content: The cervical epidural steroid injection is a procedure to help relieve neck and arm pain. It works by reducing inflammation of irritated nerves within the spinal canal. These nerves can be irritated as a result of a herniated cervical disc or because of degeneration of the spine. The discs are "cushions" between the vertebrae that can degenerate as a result of injury or advanced age. When a disc loses its integrity, it can spill irritating chemicals onto spinal nerves and it can also cause direct pressure effects. Degeneration causes nerve irritation because this degenerating process narrows the canals where the nerves lie. The benefits This procedure is very safe with the potential benefits of decreased pain, decreased numbness/tingling, and increased mobility. As with any procedure, there are risks involved including infection, bleeding, nerve injury, and worsened pain. Side effects are rare due to the small doses of steroids used. Possible side effects include: increases in blood sugar, weight gain, water retention, and suppression of the body's own production of cortisone. The procedure The procedure itself is performed at an outpatient surgery center. Usually, an IV (intravenous) line is started preoperatively in order to give the patient mild sedation.

The patient is then brought to the procedure suite and placed in the prone (face down) position.

The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field.

To be as precise as possible, the physician uses an x-ray machine to visualize the spinal anatomy.

Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic.

An epidural needle is then inserted and advanced to the area surrounding the spinal cord and the nerves coming out of it, which is called the epidural space.

Contrast "dye" may be used to assure proper needle position as it outlines the intended target.

During the injection of steroid, the patient may feel slight discomfort from the pressure effects of the injected solution.

This entire procedure may take 10-15 minutes.

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After the procedure is over, the patient is taken to the recovery area for approximately 30 minutes before being discharged.

After the procedure After the procedure, there may be some slight discomfort from the mechanical process of needle insertion or from pressure effects from the solution. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The steroid takes approximately 1-2 days to take effect, so patients should not expect any immediate benefit. It is not infrequent that it takes 2 to 3 epidural steroid injections to obtain the most benefit.

Feature Two Photo: marathon.jpg Feature Two Title: Lower back and leg pain Feature Two Caption: Lumbar epidural steroid injection

>>Read more (new page—2 column wide right wireframe): Page Title: Lumbar Epidural Steroid Injection Additional Copy Content: A lumbar epidural steroid injection is a procedure to help relieve low back and leg pain. It works by reducing inflammation of irritated nerves within the spinal canal. These nerves can be irritated as a result of a herniated lumbar disc or because of degeneration of the spine. The discs are "cushions" between the vertebrae that can degenerate as a result of injury or advanced age. When a disc loses its integrity, it can spill irritating chemicals onto spinal nerves and it can also cause direct pressure effects. Arthritis causes nerve irritation because this degenerating process narrows the canals where the nerves lie. The benefits An epidural steroid injection is very safe with potential benefits of decreased pain, decreased numbness/tingling, and increased mobility. As with any procedure, there are risks involved including infection, bleeding, nerve injury, and worsened pain. There are also possible side effects relating to the steroid itself including: increases in blood sugar, weight gain, water retention, and suppression of the body's own production of cortisone. The procedure The procedure itself is performed at an outpatient surgery center. Usually, an IV (intravenous) line is started preoperatively in order to give the patient mild sedation.

The patient is then brought to the procedure suite and placed in the prone (face down) or seated position.

The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field.

To be as precise as possible, the physician uses an x-ray machine to visualize the spinal anatomy.

Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic (lidocaine).

An epidural needle is then inserted and advanced to the area surrounding the spinal cord and the nerves coming out of it, which is called the epidural space.

Contrast "dye" may be used to assure proper needle position as it outlines the intended target.

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During the injection of steroid, the patient may feel slight discomfort from the pressure effects of the injected solution.

This entire procedure may take 10-15 minutes.

After the procedure is over, the patient is taken to the recovery area for approximately 30 minutes before being discharged.

After the procedure After the procedure, there may be some slight discomfort from the mechanical process of needle insertion or from pressure effects from the solution. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The steroid takes approximately 24-48 hours to take effect, so patients should not expect any immediate benefit. It is not infrequent that it takes 2 to 3 epidural steroid injections to obtain the most benefit.

Feature Three Photo: concerned woman.jpg Feature Three Title: Chronic widespread pain Feature Three Caption: Spinal cord stimulation

>>Read more (new page—2 column wide right wireframe): Page Title: Spinal Cord Stimulators Additional Copy Content: A spinal cord stimulator is an advanced treatment for chronic pain. With this therapy, a small implanted device generates electrical signals within the spinal cord. Pain messages are then changed before they are sent to the brain. Previous areas of pain are replaced with a different sensation. Usually patients describe this is a tingling feeling. Candidates for the procedure A potential candidate for spinal stimulation will undergo a trial procedure. The trial determines if a patient is a candidate for surgical implantation. The patient should obtain good pain relief and feel comfortable with the sensations of stimulation. During the trial, the patient will be:

Placed face down (prone) on a procedure table and will be given light sedation.

The patient has to be awake enough to communicate with the surgeon.

The surgeon will use an x-ray machine to visualize the spinal anatomy.

Next, local anesthetic will be given to numb the skin and subcutaneous tissues.

After that, a special needle will be placed just outside the spinal cord.

A wire or lead will then be threaded through the needle along the spinal canal.

The patient will then tell the surgeon where stimulation is felt and the wire/lead will be adjusted appropriately.

The needle is then pulled out, leaving the wire/lead in place. Thus, there will be a wire coming out of the skin which will be taped down. This will be attached to an external battery and stimulator generator.

The patient will then go home for several days to assess the amount of pain relief.

Upon return to the doctor's office, the trial wire/lead will be pulled out. Treatment decisions At this point, a decision will be made on whether or not to proceed to implantation based on the results of the trial. Should the decision be made to do an implantation, the procedure will be done at Tallahassee Memorial Hospital. Spinal cord stimulators can significantly decrease pain, but as with any surgical procedure, there are risks involved. These include infection, bleeding,

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injury to the spinal cord, equipment failure, or future lack of benefit. It should also be noted that after implantation the patient will no longer be able to have a MRI. Prior to implantation, the patient will also be referred to a psychologist. The psychologist will assess the patient's understanding and expectations of the procedure. The procedure For implantation, the wire/lead will be placed just as during the trial. However, the lead will be connected to a small battery placed underneath the skin. The battery is placed in either the upper buttock or abdomen. The patient will also have a remote device that controls the generator. Today, most batteries implanted are rechargeable. From time to time, the patient will have to recharge the battery at home using a remote control device. The remote control device is placed on top of the skin, overlying the implanted battery, and the battery's energy is restored over a few hours.

Feature Four Photo: painful joints.jpg Feature Four Title: Focal neck and back pain Feature Four Caption: Radiofrequency lesioning

>>Read more (new page—2 column wide right wireframe): Page Title: Radiofrequency lesioning Additional Copy Content: Radiofrequency lesioning is a procedure in which sensory nerves are purposefully altered by a heated probe. This technique is usually performed for focal back or neck pain caused by degenerative facet joints. Facet joints are true synovial joints which connect the posterior spinal column. They are subject to degeneration and inflammation and become a very common cause of pain, especially in the elderly. Each facet joint is innervated by 2 sensory nerves and their location is predictable along the bony spine. A diagnostic block of each nerve with local anesthetic will determine if the presumed facet joint is the cause of pain. If the patient obtains pain relief after the diagnostic block, then the patient will return for the radiofrequency lesioning procedure.

The aim of radiofrequency lesioning is improved pain and function. The procedure is not permanent however with recent literature stating an average pain relief of 9 months and in some cases a longer period of time. As with any procedure, there are potential risks including: infection, bleeding, nerve injury, and worsened pain. The procedure is performed at the outpatient surgery center. An IV (intravenous) line is started preoperatively in order to give the patient mild sedation. The patient is then brought to the procedure suite and placed in the prone (face down) position. The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field. The physician uses an x-ray machine to visualize the spinal anatomy and intended targets. Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic. A special needle is then inserted and placed next to the sensory nerve. Sensory and motor testing is then performed by a special machine which informs the physician of his proximity to the sensory nerve. When appropriate, the physician will give some local anesthetic prior to heating the needle. The lesioning (heating) process itself only takes 90 seconds.

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After the procedure, there may be some slight discomfort from the process of needle insertion. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The full effect can take several days, so the patient may not perceive any immediate benefit. Radiofrequency lesioning can be repeated on an as needed basis.

Optional Text Block Area Tab One Title: About Us At the Tallahassee Memorial Center for Pain Management, our goal is to improve the quality of life of those who needlessly suffer from acute and/or chronic pain. Our physicians specialize in the treatment of:

Back pain

Neck and shoulder pain

Knee pain

Sciatica

Arthritis pain

Osteoporosis pain

Phantom pain

Cancer pain

Pain from auto accident injuries

Regional pain syndromes Our specially-equipped outpatient surgery center enables us treat a wide range of painful conditions on-site both safely and effectively, while our team of professional personnel and their passion for our patients helps us provide the highest quality care. Tab Two Title: Our History Born out of a need for specialty pain management services in our community, Tallahassee Memorial HealthCare became part-owner of Tallahassee Neurosurgery Pain Management in 2005, founding the Tallahassee Memorial Center for Pain Management. Tab Three Title: Contact Us Tallahassee Memorial Center for Pain Management Mahan Oaks Center 2824-2 Mahan Dr., Tallahassee, FL 32308 (850) 558-1270 (Google map pictured, hyperlinked, right aligned)

Static Feature Area (title: Meet the Physicians) Feature One Photo: Dr. Mullin headshot Feature One Title: Dr. Vildan Mullin Feature One Caption: Pain management specialist

>>Read more (new page—2 column wide right wireframe): Page Title: About Vildan Mullin, M.D. Additional Copy Content: (Dr. Mullin’s headshot left-aligned, text wrapped) Dr. Vildan Mullin comes to us from the University of Michigan where he was the founder and Director of the Pain Center. This was the first pain center in the Midwest and has become one of the country’s top pain treatment facilities. He was appointed to the Advisory Board of the Governor in Michigan where he assisted in establishing regulations for pain management.

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He completed his undergraduate studies and medical degree at the University of Istanbul, followed by an internship at Henry Ford Hospital in Detroit, Michigan. He subsequently did a year of surgical residency at Sinai Hospital of Detroit, his anesthesia residency at the University of Michigan and his Pain Clinic Fellowship at the University of Virginia in Charlottesville. Dr. Mullin joined Tallahassee Neurological Clinic’s Division of Pain Management in August 2003. Dr. Mullin is Board Certified by the American Board of Anesthesiology and is Board Certified in Pain Management.

Feature Two Photo: Dr. Fuhrmeister headshot Feature Two Title: Dr. Joshua Fuhrmeister Feature Two Caption: Pain management specialist

>>Read more (new page—2 column wide right wireframe): Page Title: About Joshua Fuhrmeister, M.D. Additional Copy Content: (Dr. Fuhrmeister’s headshot left-aligned, text wrapped) Dr. Joshua Fuhrmeister joined the Tallahassee Neurological Clinic Division of Pain Management in July 2006. Born and raised in Iowa City, IA, he completed his undergraduate education in Engineering at the University of Iowa. He then graduated from the University of Iowa College of Medicine in May 2001 and went on to complete his Internship and Residency at the University of Florida. Dr. Fuhrmeister completed his Fellowship in Pain Medicine at the Mayo Clinic of Jacksonville in June 2006. Dr. Fuhrmeister is Board Certified by the American Board of Anesthesiology and is Board Certified in Pain Management.

Feature Three Photo: Dr. Mastaw headshot Feature Three Title: Dr. Gerald Mastaw Feature Three Caption: Pain management specialist

>>Read more (new page—2 column wide right wireframe): Page Title: About Gerald Mastaw, M.D. Additional Copy Content: (Dr. Mastaw’s headshot left-aligned, text wrapped) Dr. Jerry Mastaw joined Tallahassee Neurological clinic in August 2011. He was born and raised in Southeast Michigan and obtained his medical degree from the University of Michigan. Upon graduation, he chose to stay at the University of Michigan Medical Center to complete his anesthesia residency. Following completion of his residency program, Dr. Mastaw joined the U.S. Navy and was stationed at Cherry Point Marine Corp Air Station and Naval Hospital Rota, Spain. In 2005, he deployed to Iraq for 8 months as an anesthesiologist in support of Operation Iraqi Freedom. Dr. Mastaw left the Navy as Lieutenant Commander in 2009 and returned to the University of Michigan to complete a one-year fellowship in Pain Medicine. He is a board certified anesthesiologist and a board certified pain management physician.

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ORIGINAL COPY Control your pain, don’t let your pain control you. The Tallahassee Memorial Center for Pain Management offers a comprehensive pain management program to help patients cope with the debilitating effects of pain. Our goal is to improve the quality of life for people who needlessly suffer from chronic pain. The physicians at the Tallahassee Memorial Center for Pain Management specialize in the treatment of acute and chronic pain, including:

Back pain

Neck and shoulder pain

Knee pain

Sciatica

Arthritis pain

Osteoporosis pain

Phantom pain

Cancer pain

Pain from auto accident injuries

Regional pain syndromes We are able to provide treatment for a wide range of painful conditions using a variety of approaches. Many procedures can be performed on-site in our specially equipped outpatient surgery center. About Us—The Tallahassee Center for Pain Management is an ambulatory surgical facility established to provide surgical services in a safe, efficient, cost effective and user-friendly environment. Mission—Provide quality elective ambulatory surgical care to promote the health and optimal function required to lead active lives. Vision—The Tallahassee Memorial Center for Pain Management will provide excellent ambulatory surgical care in our community. We will be an ambulatory surgery healthcare provider of choice. We will have a team of professional personnel who are passionate about patient care and committed to continuously improving our services to our patients. A spirit of collaboration and trust is evident among medical staff, nursing staff, administrative staff and ancillary personnel. Corporate history—In 2003 neurologists and neurosurgeons in the Tallahassee Neurological Clinic met to discuss the availability of pain management services within the Tallahassee community. Their patients had experienced difficulty in obtaining such services and the physicians were seeking a solution. Dr. Christopher Rumana felt that a facility dedicated to the delivery of pain management would also be beneficial. In July 2003 the building process began for the Tallahassee Neurosurgery Pain Management, an ambulatory surgery center. In 2005 Tallahassee Memorial Healthcare became a 51% owner and the surgery center is now called the Tallahassee Center for Pain Management. The Tallahassee Memorial Center for Pain Management is AHCA and Medicare certified. Cervical Epidural Steroid Injection A cervical epidural steroid injection is a procedure to help relieve neck and arm pain. It works by reducing inflammation of irritated nerves within the spinal canal. These nerves can be irritated as a result of a herniated cervical disc or because of degeneration of the spine. The discs are "cushions" between the vertebrae that can degenerate as a result of injury or advanced age. When a disc loses its integrity, it can spill irritating chemicals onto spinal nerves and it can also cause direct pressure effects.

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Degeneration causes nerve irritation because this degenerating process narrows the canals where the nerves lie. An epidural steroid injection is very safe with potential benefits of decreased pain, decreased numbness/tingling, and increased mobility. As with any procedure, there are risks involved including infection, bleeding, nerve injury, and worsened pain. Side effects are rare due to the small doses of steroids used. Possible side effects include: increases in blood sugar, weight gain, water retention, and suppression of the body's own production of cortisone. The procedure itself is performed at an outpatient surgery center. Usually, an IV (intravenous) line is started preoperatively in order to give the patient mild sedation. The patient is then brought to the procedure suite and placed in the prone (face down) position. The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field. To be as precise as possible, the physician uses an x-ray machine to visualize the spinal anatomy. Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic. An epidural needle is then inserted and advanced to the area surrounding the spinal cord and the nerves coming out of it, which is called the epidural space. Contrast "dye" may be used to assure proper needle position as it outlines the intended target. During the injection of steroid, the patient may feel slight discomfort from the pressure effects of the injected solution. This entire procedure may take 10-15 minutes. After the procedure is over, the patient is taken to the recovery area for approximately 30 minutes before being discharged. After the procedure, there may be some slight discomfort from the mechanical process of needle insertion or from pressure effects from the solution. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The steroid takes approximately 1-2 days to take effect, so patients should not expect any immediate benefit. It is not infrequent that it takes 2 to 3 epidural steroid injections to obtain the most benefit. Lumbar Epidural Steroid Injection A lumbar epidural steroid injection is a procedure to help relieve low back and leg pain. It works by reducing inflammation of irritated nerves within the spinal canal. These nerves can be irritated as a result of a herniated lumbar disc or because of degeneration of the spine. The discs are "cushions" between the vertebrae that can degenerate as a result of injury or advanced age. When a disc loses its integrity, it can spill irritating chemicals onto spinal nerves and it can also cause direct pressure effects. Arthritis causes nerve irritation because this degenerating process narrows the canals where the nerves lie. An epidural steroid injection is very safe with potential benefits of decreased pain, decreased numbness/tingling, and increased mobility. As with any procedure, there are risks involved including infection, bleeding, nerve injury, and worsened pain. There are also possible side effects relating to the steroid itself including: increases in blood sugar, weight gain, water retention, and suppression of the body's own production of cortisone. The procedure itself is performed at an outpatient surgery center. Usually, an IV (intravenous) line is started preoperatively in order to give the patient mild sedation. The patient is then brought to the procedure suite and placed in the prone (face down) or seated position. The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field. To be as precise as possible, the physician uses an x-ray machine to visualize the spinal anatomy. Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic (lidocaine). An epidural needle is then inserted and advanced to

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the area surrounding the spinal cord and the nerves coming out of it, which is called the epidural space. Contrast "dye" may be used to assure proper needle position as it outlines the intended target. During the injection of steroid, the patient may feel slight discomfort from the pressure effects of the injected solution. This entire procedure may take 10-15 minutes. After the procedure is over, the patient is taken to the recovery area for approximately 30 minutes before being discharged. After the procedure, there may be some slight discomfort from the mechanical process of needle insertion or from pressure effects from the solution. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The steroid takes approximately 24-48 hours to take effect, so patients should not expect any immediate benefit. It is not infrequent that it takes 2 to 3 epidural steroid injections to obtain the most benefit. Spinal Cord Stimulators A spinal cord stimulator is an advanced treatment for chronic pain. With this therapy, a small implanted device generates electrical signals within the spinal cord. Pain messages are then changed before they are sent to the brain. Previous areas of pain are replaced with a different sensation. Usually patients describe this is a tingling feeling. A potential candidate for spinal stimulation will undergo a trial procedure. The trial determines if a patient is a candidate for surgical implantation. The patient should obtain good pain relief and feel comfortable with the sensations of stimulation. During the trial, the patient will be placed face down (prone) on a procedure table and will be given light sedation. The patient has to be awake enough to communicate with the surgeon. The surgeon will use an x-ray machine to visualize the spinal anatomy. Next, local anesthetic will be given to numb the skin and subcutaneous tissues. After that, a special needle will be placed just outside the spinal cord. A wire or lead will then be threaded through the needle along the spinal canal. The patient will then tell the surgeon where stimulation is felt and the wire/lead will be adjusted appropriately. The needle is then pulled out, leaving the wire/lead in place. Thus, there will be a wire coming out of the skin which will be taped down. This will be attached to an external battery and stimulator generator. The patient will then go home for several days to assess the amount of pain relief. Upon return to the doctor's office, the trial wire/lead will be pulled out. At this point, a decision will be made on whether or not to proceed to implantation based on the results of the trial. Should the decision be made to do an implantation, the procedure will be done at Tallahassee Memorial Hospital. Spinal cord stimulators can significantly decrease pain, but as with any surgical procedure, there are risks involved. These include infection, bleeding, injury to the spinal cord, equipment failure, or future lack of benefit. It should also be noted that after implantation the patient will no longer be able to have a MRI. Prior to implantation, the patient will also be referred to a psychologist. The psychologist will assess the patient's understanding and expectations of the procedure. For implantation, the wire/lead will be placed just as during the trial. However, the lead will be connected to a small battery placed underneath the skin. The battery is placed in either the upper buttock or abdomen. The patient will also have a remote device that controls the generator. Today, most batteries implanted are rechargeable. From time to time, the patient will have to recharge the battery at home using a remote control device. The remote control device is placed on top of the skin, overlying the implanted battery, and the battery's energy is restored over a few hours. Radiofrequency Procedure

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Radiofrequency lesioning is a procedure in which sensory nerves are purposefully altered by a heated probe. This technique is usually performed for focal back or neck pain caused by degenerative facet joints. Facet joints are true synovial joints which connect the posterior spinal column. They are subject to degeneration and inflammation and become a very common cause of pain, especially in the elderly. Each facet joint is innervated by 2 sensory nerves and their location is predictable along the bony spine. A diagnostic block of each nerve with local anesthetic will determine if the presumed facet joint is the cause of pain. If the patient obtains pain relief after the diagnostic block, then the patient will return for the radiofrequency lesioning procedure. The aim of radiofrequency lesioning is improved pain and function. The procedure is not permanent however with recent literature stating an average pain relief of 9 months and in some cases a longer period of time. As with any procedure, there are potential risks including: infection, bleeding, nerve injury, and worsened pain. The procedure is performed at the outpatient surgery center. An IV (intravenous) line is started preoperatively in order to give the patient mild sedation. The patient is then brought to the procedure suite and placed in the prone (face down) position. The skin is cleansed with an antiseptic solution and drapes are placed to keep a sterile field. The physician uses an x-ray machine to visualize the spinal anatomy and intended targets. Next, the skin and subcutaneous tissues are anesthetized with a local anesthetic. A special needle is then inserted and placed next to the sensory nerve. Sensory and motor testing is then performed by a special machine which informs the physician of his proximity to the sensory nerve. When appropriate, the physician will give some local anesthetic prior to heating the needle. The lesioning (heating) process itself only takes 90 seconds. After the procedure, there may be some slight discomfort from the process of needle insertion. Usually the procedure is very well tolerated and patients can resume their normal activities the next day. The full effect can take several days, so the patient may not perceive any immediate benefit. Radiofrequency lesioning can be repeated on an as needed basis. Vildan Mullin, M.D. Dr. Vildan Mullin comes to us from the University of Michigan where he was the founder and Director of the Pain Center. This was the first pain center in the Midwest and has become one of the country’s top pain treatment facilities. He was appointed to the Advisory Board of the Governor in Michigan where he assisted in establishing regulations for pain management. He completed his undergraduate studies and medical degree at the University of Istanbul, followed by an internship at Henry Ford Hospital in Detroit, Michigan. He subsequently did a year of surgical residency at Sinai Hospital of Detroit, his anesthesia residency at the University of Michigan and his Pain Clinic Fellowship at the University of Virginia in Charlottesville. Dr. Mullin joined Tallahassee Neurological Clinic’s Division of Pain Management in August 2003. Dr. Mullin is Board Certified by the American Board of Anesthesiology and is Board Certified in Pain Management. Joshua Fuhrmeister, M.D. Dr. Joshua Fuhrmeister joined the Tallahassee Neurological Clinic Division of Pain Management in July 2006. Born and raised in Iowa City, IA, he completed his undergraduate education in Engineering at the

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University of Iowa. He then graduated from the University of Iowa College of Medicine in May 2001 and went on to complete his Internship and Residency at the University of Florida. Dr. Fuhrmeister completed his Fellowship in Pain Medicine at the Mayo Clinic of Jacksonville in June 2006. Dr. Fuhrmeister is Board Certified by the American Board of Anesthesiology and is Board Certified in Pain Management. Albert Lee, M.D. Dr. Albert Lee joined Tallahassee Neurological Clinic in May, 2004. Born and raised in Providence, RI, he completed his undergraduate education in biology at Harvard University in Cambridge, MA. After completing three years of basic science research at Massachusetts General Hospital in Boston, MA, he graduated with honors from Boston University School of Medicine. Dr. Lee then completed his internship in general surgery and residency in neurosurgery at Massachusetts General Hospital, a Harvard Medical School teaching hospital in Boston. He remained there on staff for six months after serving as chief resident in the residency program. Dr. Lee then entered practice in neurosurgery in Naples, FL for two and a half years before being recruited to join the group here in Tallahassee. On June 14, 2005 Dr. Lee successfully completed the certification exam and is fully Board Certified by the American Board of Neurological Surgery. Christopher Rumana, M.D. Dr. Christopher Rumana joined the Tallahassee Neurological Clinic practice in 1998. He was interviewed and selected by Dr. Mark Vogter as a neurosurgeon who would make an immediate contribution to quality healthcare in this community. Dr. Rumana earned his Undergraduate and Medical School degrees from Northwestern University. He completed his neurosurgical residency training at Baylor College of Medicine in Houston, Texas. During his residency he received the distinguished Mayfield Award for Research. On November 22, 2000, Dr. Rumana successfully completed the certification exam and is considered Board Certified by the American Board of Neurological Surgery and is a fellow of the American College of Surgeons. Matthew Lawson, M.D. Dr. Matthew Lawson joined the Tallahassee Neurological Clinic in 2012, after working as a Neurosurgeon at the University of Florida. For his undergraduate studies, Dr. Lawson attended Harvard University and graduated magna cum laude with a degree in biochemical sciences in 2000. He then attended the University of Florida and received his medical degree cum laude in 2004. During medical school he was inducted into the Alpha Omega Alpha (AOA) honor society. In July 2006, Dr. Lawson became a resident in Neurosurgery following several years of training in a combined general surgery/plastic and reconstructive surgery program. During his Neurosurgical training at UF he completed an 18-month dedicated fellowship in Endovascular Neurosurgery under the direction of Drs. Brian Hoh, J Mocco, and Chris Firment. This specialized training qualifies Dr. Lawson to treat complex cerebrovascular disorders such as intracranial aneurysms, arteriovenous malformations (AVMs), and acute stroke. After residency, he remained on staff at UF for six months as a Neurosurgeon. In addition to General Neurosurgery, Dr. Lawson provides subspecialized care in Endovascular and Cerebrovascular Surgery. Dr. Lawson performs many neurosurgical procedures, including: Diagnostic Cerebral Angiography, Endovascular Interventions, Intracranial Aneurysm Coiling, AVM Embolization, Tumor Embolization, Intracranial Angioplasty and Stent Placement, Carotid Artery Angioplasty and Stent Placement and Emergent Intervention for treatment of acute stroke.

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Gerald Mastaw, M.D. Dr. Jerry Mastaw joined Tallahassee Neurological clinic in August 2011. He was born and raised in Southeast Michigan and obtained his medical degree from the University of Michigan. Upon graduation, he chose to stay at the University of Michigan Medical Center to complete his anesthesia residency. Following completion of his residency program, Dr. Mastaw joined the U.S. Navy and was stationed at Cherry Point Marine Corp Air Station and Naval Hospital Rota, Spain. In 2005, he deployed to Iraq for 8 months as an anesthesiologist in support of Operation Iraqi Freedom. Dr. Mastaw left the Navy as Lieutenant Commander in 2009 and returned to the University of Michigan to complete a one-year fellowship in Pain Medicine. He is a board certified anesthesiologist and a board certified pain management physician.