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Treatment of Parkinsons disease with deep brain stimulation (DBS) and implantation of neurostimulator (295290) | University Hospital Carl Gustav Carus Dresden - BookingHealth
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After that, you will undergo the necessary additional examination, such as the laboratory blood and urine tests, MRI or CT scan. Based on the results of an additional examination, the physician will clarify the localization of&nbsp;foci of pathological electrical activity in the brain. After that, the preparation according to the preoperative standard will begin.<\/p>\n\n<p style=\"text-align: justify;\">The first stage of treatment is the <strong>implantation of stimulating electrodes into the brain<\/strong>. The operation is performed under local anesthesia, through a small opening in the skull. You will be awake and communicating with your surgeon, so that he will be able to assess the correctness of the brain electrodes placement.<\/p>\n\n<p style=\"text-align: justify;\">The second stage of treatment is the <strong>implantation of a neurostimulator<\/strong>, which will generate electrical impulses that regulate the work of the brain. 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After setting up the neurostimulator, the attending physician will schedule the date of discharge from the hospital and give you detailed recommendations for further follow-up and treatment.<\/p>\n<\/div><div class=\"program_required_documents mt-4\"><h4>Required documents<\/h4><ul>\n\t<li style=\"text-align: justify;\">Medical records<\/li>\n\t<li style=\"text-align: justify;\">MRI\/CT scan (if available)<\/li>\n<\/ul>\n<\/div>","program_full_story_crm":"<ul>\n\t<li>Initial presentation in the clinic<\/li>\n\t<li>clinical history taking<\/li>\n\t<li>review of medical records<\/li>\n\t<li>physical examination<\/li>\n\t<li>laboratory tests:\n\t<ul>\n\t\t<li>complete blood count<\/li>\n\t\t<li>general urine analysis<\/li>\n\t\t<li>biochemical analysis of blood<\/li>\n\t\t<li>inflammation indicators (CRP, ESR)<\/li>\n\t\t<li>TSH, fT3, fT4<\/li>\n\t\t<li>L-Dopa-Test<\/li>\n\t\t<li>indicators of blood coagulation<\/li>\n\t<\/ul>\n\t<\/li>\n\t<li>neurological examination<\/li>\n\t<li>CT\/MRI scan<\/li>\n\t<li>neuropsychological tests (if indicated):\n\t<ul>\n\t\t<li>ENMG (electroneuromyography)<\/li>\n\t\t<li>EEG (electroencephalography)<\/li>\n\t\t<li>SEPs (somatosensory evoked potentials)<\/li>\n\t\t<li>VEPs (visually evoked potentials)<\/li>\n\t\t<li>BAEP tests (brainstem auditory evoked potentials)<\/li>\n\t<\/ul>\n\t<\/li>\n\t<li>stationary EEG monitoring<\/li>\n\t<li>preoperative care<\/li>\n\t<li>surgical treatment of Parkinson&#39;s disease with deep brain stimulation and implantation of<br \/>\n\tneurostimulator (including the cost of neurostimulator)<\/li>\n\t<li>1-day intensive care unit stay<\/li>\n\t<li>postoperative MRI control<\/li>\n\t<li>symptomatic treatment<\/li>\n\t<li>control examinations<\/li>\n\t<li>the cost of essential medicines and materials<\/li>\n\t<li>nursing services<\/li>\n\t<li>full hospital accommodation<\/li>\n\t<li>developing of further guidance<\/li>\n<\/ul>\n<div class=\"program_how_program_going mt-4\"><h4>How program is carried out<\/h4><p style=\"text-align: justify;\"><strong>During the first visit<\/strong>, the physician will conduct a clinical examination and neurological examination, and go through the results of the available diagnostic tests. After that, you will undergo the necessary additional examination, such as the laboratory blood and urine tests, MRI or CT scan. Based on the results of an additional examination, the physician will clarify the localization of&nbsp;foci of pathological electrical activity in the brain. After that, the preparation according to the preoperative standard will begin.<\/p>\n\n<p style=\"text-align: justify;\">The first stage of treatment is the <strong>implantation of stimulating electrodes into the brain<\/strong>. The operation is performed under local anesthesia, through a small opening in the skull. You will be awake and communicating with your surgeon, so that he will be able to assess the correctness of the brain electrodes placement.<\/p>\n\n<p style=\"text-align: justify;\">The second stage of treatment is the <strong>implantation of a neurostimulator<\/strong>, which will generate electrical impulses that regulate the work of the brain. Depending on the anatomical peculiarities, the surgeon will place the neurostimulator under the collarbone or in the abdomen and attach the brain electrodes to it. Typically, this operation is performed under general anesthesia.<\/p>\n\n<p style=\"text-align: justify;\"><strong>After the completion of the operation<\/strong>, you will stay in the intensive care unit, under the round-the-clock supervision of physicians and nurses. When the condition becomes stable, you will be transferred to a regular ward.<\/p>\n\n<p style=\"text-align: justify;\">Your physician will evaluate the results of the postoperative MRI and program the neurostimulator according to your individual needs. You will be able to turn the device on and off yourself. 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Treatment of Parkinsons disease with deep brain stimulation (DBS) and implantation of neurostimulator in University Hospital Carl Gustav Carus Dresden

University Hospital Carl Gustav Carus Dresden

Dresden, Germany
Program id # 295290
Doctor photo
Prof. Dr. med. Gabriele Schackert
Department of Adult and Pediatric Neurosurgery, Epilepsy Surgery, Spinal Surgery
Specialized in: adult and pediatric neurosurgery, epilepsy surgery, spinal surgery

The program includes:

  • Initial presentation in the clinic
  • clinical history taking
  • review of medical records
  • physical examination
  • laboratory tests:
    • complete blood count
    • general urine analysis
    • biochemical analysis of blood
    • inflammation indicators (CRP, ESR)
    • TSH, fT3, fT4
    • L-Dopa-Test
    • indicators of blood coagulation
  • neurological examination
  • CT/MRI scan
  • neuropsychological tests (if indicated):
    • ENMG (electroneuromyography)
    • EEG (electroencephalography)
    • SEPs (somatosensory evoked potentials)
    • VEPs (visually evoked potentials)
    • BAEP tests (brainstem auditory evoked potentials)
  • stationary EEG monitoring
  • preoperative care
  • surgical treatment of Parkinson's disease with deep brain stimulation and implantation of
    neurostimulator (including the cost of neurostimulator)
  • 1-day intensive care unit stay
  • postoperative MRI control
  • symptomatic treatment
  • control examinations
  • the cost of essential medicines and materials
  • nursing services
  • full hospital accommodation
  • developing of further guidance

How program is carried out

During the first visit, the physician will conduct a clinical examination and neurological examination, and go through the results of the available diagnostic tests. After that, you will undergo the necessary additional examination, such as the laboratory blood and urine tests, MRI or CT scan. Based on the results of an additional examination, the physician will clarify the localization of foci of pathological electrical activity in the brain. After that, the preparation according to the preoperative standard will begin.

The first stage of treatment is the implantation of stimulating electrodes into the brain. The operation is performed under local anesthesia, through a small opening in the skull. You will be awake and communicating with your surgeon, so that he will be able to assess the correctness of the brain electrodes placement.

The second stage of treatment is the implantation of a neurostimulator, which will generate electrical impulses that regulate the work of the brain. Depending on the anatomical peculiarities, the surgeon will place the neurostimulator under the collarbone or in the abdomen and attach the brain electrodes to it. Typically, this operation is performed under general anesthesia.

After the completion of the operation, you will stay in the intensive care unit, under the round-the-clock supervision of physicians and nurses. When the condition becomes stable, you will be transferred to a regular ward.

Your physician will evaluate the results of the postoperative MRI and program the neurostimulator according to your individual needs. You will be able to turn the device on and off yourself. After setting up the neurostimulator, the attending physician will schedule the date of discharge from the hospital and give you detailed recommendations for further follow-up and treatment.

Required documents

  • Medical records
  • MRI/CT scan (if available)

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About the department

The Department of Adult and Pediatric Neurosurgery, Epilepsy Surgery, Spinal Surgery at the University Hospital Carl Gustav Carus Dresden offers the full range of diagnostics and surgical treatment of diseases of the brain, spinal cord and peripheral nerves at the highest international level of modern medicine. The department has four high-tech operating rooms, in which more than 2,400 surgical interventions are performed annually. Surgery to treat tumors of the nervous system in childhood and adulthood is of particular interest to the department's specialists. In addition, the department's medical team has unique clinical experience in the surgical treatment of epilepsy, spinal pathologies and deformities, as well as neurovascular pathologies. The department's doctors have a perfect command of advanced surgical techniques, for example, navigational surgery, intraoperative neuromonitoring, hybrid surgical techniques, which are the basis of successful clinical practice. State-of-the-art computer-assisted systems allow neurosurgeons to plan each stage of surgical intervention as accurately as possible, thereby guaranteeing its high efficiency and safety. The Head Physician of the department is Prof. Dr. med. Gabriele Schackert.

The department has state-of-the-art medical equipment, including systems for transcranial magnetic stimulation, pre- and intraoperative neuromonitoring. The department is also equipped with modern microscopes. The doctors of the medical facility perform resection procedures using fluorescence and neuronavigation. In addition, a 3 Tesla intraoperative MRI system has been available here since October 2018. This system allows surgeons to control the degree of tumor resection during surgery, clearly see the rest of the resected tumor and thus achieve the best result, avoiding neurological disorders. All these features provide the highest safety for the patient. The department also has a hybrid operating room where cerebrovascular interventions and epilepsy surgery are performed. The department also specializes in spinal surgery and neuromodulation with deep brain stimulation.

An important focus of the department's clinical practice is the treatment of benign and malignant tumors of the nervous system. The department's neurosurgeons successfully perform surgical interventions to resect gliomas, meningiomas, brain metastases, skull base tumors, pituitary adenomas, acoustic neuromas, lymphomas and germ cell tumors. Each clinical case is considered during regular tumor boards with the participation of neurologists, oncologists, radiation therapists and other specialists. The patients with head tumors are most often indicated to have a surgical intervention. When performing surgery, doctors use advanced surgical microscopes, intraoperative monitoring systems, navigation systems and other advanced technologies to avoid damage to vital anatomical structures of the brain. With the tumor localized in hard-to-reach places, radiation therapy is the first-line therapy. Chemotherapy, targeted therapy and other therapies are also used when clinically indicated.

Another priority focus of the department's neurosurgeons is epilepsy surgery. In most cases, special drugs are used to deal with epileptic seizures, and operations are performed only if conservative treatment is ineffective. Accurate diagnostics and determination of the causes of the development of pathology plays a decisive role in the treatment success. The team of the department's neurosurgeons offers epilepsy patients the following surgical procedures: anterior temporal lobe resection, selective amygdalohippocampectomy, lezionectomy, topectomy and callosotomy. In addition, the department carries out vagus nerve stimulation. Such a therapeutic manipulation is indicated for patients with contraindications for surgery, or if the patient refuses the operation for his own reasons. Doctors carefully study the patient's diagnostic results, his anamnesis and information about previous epileptic seizures in order to select the best treatment option.

The department is a certified Spine Surgery Center (certificate of the German Spine Society, DWG). Special attention is paid to the surgical treatment of spinal disc herniation, spinal stenosis, spondylolisthesis, spinal tumors and metastases, inflammatory diseases, congenital spinal malformations. Most spinal surgical procedures are performed using sparing minimally invasive surgical techniques. Should open surgery be required, microsurgical techniques are used. Reconstructive surgery to treat spinal instability is performed in a hybrid operating room with the use of an intraoperative computed tomography system and computer navigation.

In the field of pediatric neurosurgery, special attention is paid to the treatment of malignant brain tumors. The team of neurosurgeons annually performs more than 40 brain tumor resection interventions in children. The doctors from the Department of Neuropediatrics are involved in the therapeutic process. The department's specialists have vast experience in the surgical treatment of hydrocephalus. The classical treatment method for hydrocephalus is ventriculoperitoneal shunting, but recently the department's surgeons have been increasingly performing endoscopic ventriculocysternostomy, which is less traumatic. In addition, neurosurgeons along with pediatric surgeons and maxillofacial surgeons of the university hospital, have been performing surgery to repair developmental anomalies of the skull bones in children for more than 14 years.

The department's surgical range of services includes:

  • Surgical treatment of nervous system tumors in adults and children
    • Gliomas
    • Meningiomas
    • Brain metastases
    • Skull base tumors
    • Pituitary adenoma
    • Acoustic neuroma
    • Lymphoma
    • Germ cell tumors
  • Surgical treatment of spinal pathologies
    • Spinal stenosis
    • Spinal disc herniation
    • Spondylolisthesis
    • Intramedullary spinal tumors
    • Extramedullary spinal tumors
    • Vascular spinal pathologies
    • Spinal injuries
    • Inflammatory spinal processes
  • Neurosurgical pain therapy / neuromodulation
    • Spinal cord electrical stimulation 
    • Nerve ending electrical stimulation 
    • Placement of special pumps with drugs for the treatment of severe chronic pain
  • Deep brain stimulation
    • Idiopathic Parkinson's disease (Parkinson's disease)
    • Essential tremor
    • Dystonia
    • Tourette syndrome
  • Interventions on the vessels of the brain and spinal cord
    • Stroke
    • Aneurysms
    • Arteriovenous malformations
    • Vascular spinal pathologies
    • Cavernomas
    • Dural arteriovenous fistulas
  • Surgical treatment of epilepsy
    • Anterior temporal lobe resection
    • Selective amygdaloghippocampectomy
    • Topectomy
    • Callosotomy
    • Vagus nerve stimulator implantation (for example, for patients with refractory epilepsy)
  • Surgical treatment of peripheral nerve pathologies
    • Carpal tunnel syndrome
    • Cubital tunnel syndrome
    • Rare compression syndromes (tarsal tunnel syndrome, Bernhardt-Roth syndrome)
    • Peripheral nerve revision surgery, also in combination with reconstructive surgery
    • Peripheral nerve lesions
    • Peripheral nerve tumors (schwannomas, neurofibromas)
    • Brachial plexus injuries
    • Brachial plexus injury during childbirth
    • Hypoglossal nerve stimulation
  • Pediatric neurosurgery
    • Brain tumors
    • Hydrocephalus
    • Skull malformations (for example, premature fusion of cranial sutures)
  • Other neurosurgical disorders in children and adults, other treatment methods

Curriculum vitae

University Education and Professional Career

  • 1971 - 1977 Study of Human Medicine at the Ruprecht Karl University of Heidelberg; state examination and admission to medical practice.
  • 1977 Doctoral thesis defense.
  • 1978 - 1984 Preparation for board certification in Neurosurgery, Department of Neurosurgery, University of Erlangen-Nuremberg and Heidelberg University.
  • 1984 Board certification in Neurosurgery.
  • 1986 - 1988 Research internship in the Department of Cell Biology, University of Texas MD Anderson Cancer Center, Houston, USA.
  • 1990 Habilitation in Neurosurgery.
  • 1991 Venia legendi in Neurosurgery.
  • Since 1993 Head of the Department of Adult and Pediatric Neurosurgery, Epilepsy Surgery, Spinal Surgery at the University Hospital Carl Gustav Carus Dresden.
  • 1995 Additional qualification in Neurosurgical Intensive Care.
  • 1999 Invitation to the position of C4 Professor of Neurosurgery at the University Medical Center Hamburg-Eppendorf.
  • 2001 Order of Merit of the Free State of Saxony.
  • 2009 Additional specialization in Neurosurgical Oncology.

Memberships in Professional Societies

  • Since 1984 German Society of Neurosurgery (DGNC).
  • Since 1994 German Society of Neuro-Oncology.
  • Since 1995 European Association of Neuro-Oncology (EANO).
  • Since 1996 German Academy of Neurosurgery.
  • Since 1997 German Research Group for Gene Therapy.
  • Since 1999 European Skull Base Society (ESBS).
  • Since 1999 German Society of Skull Base Surgery.
  • 1999 - 2002 Neurosurgical Research Foundation.
  • Since 2000 German Academy for Education and Advanced Training in Neurosurgery.
  • 2000 - 2003 Consultant (Expert Reviewer) of the German Research Foundation (DFG).
  • Since 2002 Reemtsma Foundation, Max Planck Society.
  • 2002 - 2008 Karl Heinz Beckurts Foundation, Max Planck Society.
  • 2002 - 2008 Co-Editor of the Zentralblatt für Neurosurgery.
  • Since 2001 Representative of the Cancer Society, Section of Neuro-Oncology.
  • 2003 - 2008 Re-elected as Press Secretary of the Cancer Society, Section of Neuro-Oncology.
  • Since 2003 Corresponding Member of the American Academy of Neurological Surgery.
  • 2004 Organization of a joint meeting of the American Academy of Neurological Surgeons, the German Society of Neurosurgery and the German Academy of Neurosurgery, Dresden, Germany.
  • 2004 - 2007 Scientific Committee of the German Medical Association.
  • Since 2009 Member of the Academia Eurasiana Neurochirurgica.
  • Since 2010 2nd Chairman of the Standing Committee for Science and Research of the German Society of Neurosurgery.
  • Since 2014 Member of the European Academy of Sciences and Arts.

Clinical Focuses

  • Cancer surgery (in children and adults).
  • Skull base surgery.
  • Acoustic neuroma.
  • Intramedullary tumors.

Research Focuses

  • Experimental neuro-oncology: gliomas and metastases.
  • Molecular analysis of brain tumors.
  • Pre- and intraoperative neuroimaging.

Photo: (с) depositphotos


About hospital

According to the reputable Focus magazine, the University Hospital Carl Gustav Carus Dresden ranks among the top five German hospitals!

The hospital is the benchmark for modern high-quality medicine. Positioning itself as a maximum care medical facility, the hospital represents all medical fields. There are 26 specialized departments, 6 institutes and 17 interdisciplinary centers, which cooperate closely with the clinical and scientific facilities of the Faculty of Medicine. The basis of successful practice is excellent equipment, which is regularly updated, as well as highly qualified, experienced medical personnel: world famous doctors and professors work here for the benefit of patients.

In addition to its main goal of caring for patients, the hospital is also active in training and professional development of medical personnel, as well as in the field of public health care. The priority focus of the work is research activity, which allows the doctors to introduce the innovative diagnostic and therapeutic techniques into clinical practice.

A special feature of the hospital is also the diagnostics and treatment of rare diseases. State-of-the-art equipment and well-coordinated work of doctors of various medical specialties make it possible to timely recognize pathologies rarely encountered in medical practice and select the most effective therapy. Specialization in rare diseases include neurology, endocrinology, hematology/oncology, and rare autoimmune diseases.

The hospital has 1,410 beds for patient hospitalization. About 55,900 inpatients and more than 233,975 outpatients undergo treatment here annually. A large medical team, consisting of about 1,000 highly qualified doctors, as well as over 2,000 nursing staff take care of the patients' health. Each patient is guaranteed an individual approach and the most effective treatment in accordance with current clinical protocols.

It should be noted that the university hospital enjoys an impeccable reputation not only in Germany, but also far beyond its borders, including Arab countries, post-Soviet states, Great Britain and the United States. Patients from different parts of the world come here for high-quality treatment for diseases of any severity. The highest credit of patient confidence is the main indicator of the fruitful work of doctors.

Photo: (с) depositphotos

Accommodation in hospital

Patients rooms

The patients of the University Hospital Carl Gustav Carus Dresden live in comfortable rooms made in bright colors and equipped with everything necessary. The standard patient room includes an automatically adjustable bed, a bedside table with a sliding table, a wardrobe, a telephone and a TV. There is also Wi-Fi (free) in the patient rooms.

If desired, patients may live in enhanced comfort patient rooms. These patient rooms have a more sophisticated design, upholstered furniture and a safe for storing valuables.

Meals and Menus

The patients of the hospital are offered a tasty, healthy and varied three meals a day. The menu is based on local cuisine and seasonal food. If you for some reason do not eat certain products, please inform the medical staff of the hospital in advance, and you will be offered an individual menu. The nutrition provided in the hospital is certified in accordance with the quality standards of the German Nutrition Society (DGE) for catering in German hospitals.

Further details

Standard rooms include:

Shower
Toilet
TV

Religion

The religious services are available upon request.

Accompanying person

Your accompanying person may stay with you in your patient room or at the hotel of your choice during the inpatient program.

Hotel

You may stay at the hotel of your choice during the outpatient program. Our managers will support you for selecting the best option.

The hospital offers a full range of laboratory diagnostic procedures (general, hormonal, tests for tumor markers, infections, antibodies, etc.), genetic tests, various modifications of ultrasound scans, CT scans, MRI and PET / CT, angiography, myelography, biopsy and other examinations. Treatment with medications, endoscopic and robotic operations, stereotaxic interventions is carried out here, modern types of radiation therapy are also used. The hospital offers patients all the necessary therapeutic techniques.

  • Cochlear implantation
  • Deep brain stimulation
  • Treatment of benign prostatic hyperplasia with green laser
  • Da Vinci prostatectomy
  • Bone marrow transplantation

These are head and neck tumors, hearloss, amyotrophic lateral sclerosis, epilepsy, Parkinson disease, infertility, malignant tumors of the reproductive system, congenital anomalies of the genital organs and the urinary system, urinary incontinence, blood clotting disorders, leukemia and other pathologies.

  • Otolaryngology (Center for Cochlear Implantation)
  • Neurology and Epileptology
  • Urology
  • Oncology
  • Gastroenterology and Hepatology

About 1,000 highly qualified doctors work at the hospital.