SEA•md Hospitales HIMA•San Pablo

Doctor’s Center Hospital Bayamón & Santurce

Médicos invitados: • Iván del Toro, MD • Director Médico HIMA•San Pablo Caguas • Centro de Neurociencias • Mario Polo, MD - Neuroradiólogo • Luis Almodóvar, MD - Neurocirujano Oncólogo • Ulises Nobo, MD - Neurólogo Vascular

• Ignacio Pita, MD • Neurólogo Especialista en Epilepsia

• Cardiología Intervencional • Carlos Nieves, MD • Cardiólogo Invasivo

• Centro de Quemaduras • Amin Jaskille, MD – Cirujano e Intesivista • Especialidades Pediátricas y Adolescentes •Marcos Pérez-Brayfield, MD – Urólogo •Aurelio Segundo, MD – Cirujano General

Mario Polo, MD Interventional & Diagnostic Neuroradiology Neurointerventional Surgery Board Certified by the American Board of Radiology

Neurointerventional Surgery at HIMA•San Pablo

Our Neurovascular Team

Bi-Planar Angiography Suite

Subarachnoid Hemorrhage

Clinical Presentation • Sudden Onset Severe Headache – “the worst headache of my life” – Nausea – Vomiting – Seizures – Loss of consciousness – Neck pain and/or rigidity – Coma

Imaging Modalities • ? SAH  Head CT • Negative CT  LP • Causes of SAH – CTA – MRA – DSA

Initial Management •

ABC – GCS <8, intubation and sedation – Cardiac monitor: arrythmia – CBC, PT, PTT, CMP, CXR.

• If severe hydrocephalus, no neurosurgeon, may consider lumbar puncture – Gradual, avoid overdrainage.

• CTA with 3-D reconstruction • MRA • Cerebral angiogram: Gold standard. – In institution with endovascular neurosurgery.

Luis Almod贸var, MD

Neurocirujano Onc贸logo Director de Neurolog铆a Oncol贸gica

• Neurocirugía Endovascular & Vascular – Dra. María M. Toledo • Neurocirugía Pediátrica/Neurocirugía de Espina/ Epilepsia – Dr. Iván Sosa • Neurocirugía Oncológica & Cyberknife – Dr Luis Almodóvar • Neurocirugía General – Dr. José Santos Picó • Neuroradiología Endovascular & Intervencional – Dr. Mario Polo

History • The first recognized resection of a primary brain tumor in history was performed by Mr. Rickman Godless in London, England, November 25, 1884 • On February 25, 1886, in San Francisco, California the first documented resection of a primary brain tumor in the United States was performed by Drs. Hirschfelder and Morse

History • More than 50 years ago the first cases of awake craniotomy for brain tumor resection were done in Montréal, Quebec • Refinement in surgical techniques and outcomes in last decades due to – – – – –

Improved surgical instrumentation Development of microsurgical techniques Better understanding of the disease process Advances in medical therapy Use of sereotactic approaches – neuronavigation, etc

Primary Brain Tumors • Incidence - 14 cases per 100,000 people per year – 35,000 new cases per year in the US

• Prevalence – 130.8 per 100,000 living (year 2000) • 48-60% are neuroepithelial tumors – Mostly glial tumors

• 1.4% of all cancers, 2.4% of cancer-related deaths

Primary Brain Tumors • Increased tumor incidence in the elderly – Improved diagnostic procedures (CT/MRI) – More availability of neurosurgeons – Evolving strategies to treat the elderly

• Age – median age at onset is 57 years – Duration of exposure required for malignant transformation – Genetic alterations leading to clinical disease – Poorer immune surveillance with advancing age

Primary Brain Tumors • Sex – Gliomas - more common in males – Meningiomas – female to male ratio is 2:1 – Sellar tumors and cranial / spinal nerve tumors – equal incidence

• Ethnic Variations – Gliomas – affect Caucasians more than african americans – Meningiomas – affect Caucasians and african americans equally

Survival and Prognostic Factors • 5-year survival rate in US – 20% (All ages and tumor types) – Primary malignant brain tumors in children <14 y/o- 72% 5-year survival

• Survival strongly related to age and tumor type – GBM patients → poorest survival in all age groups – For any given tumor type – younger do better than older • Exception – medulloblastoma, poorer prognosis if < 3y/o

Survival and Prognostic Factors • In Europe – Slightly better 5-year survival for women (20% vs. 17% for men)

• Prognostic factors – Age – Histologic type – Location – Extent of Resection

Preoperative Imaging • MRI – gold standard for detecting brain tumors • MRS (magnetic Resonance Spectroscopy) – Measures metabolite levels in a brain “voxel” – Helps differentiate neoplasm from inflammatory or demyelinating conditions – Aids in detecting progression of disease

MR Spectroscopy

Preoperative Imaging • Functional MRI (fMRI) – Detects small changes in blood volume and T2 signal that occur in eloquent cortex during physiologic activation – Allows preoperative functional mapping – Helps tailoring resection in individual patients

• MR Tractography – Allows visualization of white matter tracts in relationship to a tumor

MR Tractography

MR Tractography

Surgical Management • Goals of surgical management – Biopsy – to obtain histologic diagnosis – Cytoreduction – maximize removal of the tumor with optimal preservation of neurological function – Symptomatic relief – Optimization of oncologic benefit by minimizing tumor burden to increase effectiveness of adjuvant therapies

Biopsy • Most often a closed stereotactic procedure • Can be frame-based or frameless • Associated with low complication rate – 6% morbidity – 2% mortality – 8% failed biopsy due to insufficient tumor

• Limited mostly to a small portion of patients with suspected gliomas – Deep, diffuse, multiple or patient in poor condition

Stereotactic Biopsy Techniques

Biopsy • Incorrect pathological diagnosis in up to 30% – Most common misdiagnosis: undergrading a malignant astrocytoma – Reduced by serial sampling along the radius of a tumor – Best if examined by experienced neuropathologist

Computer-Assisted Stereotactic Resection • Allows for precise location of the tumor in three-dimensional space • Helpful for technically challenging tumor locations • Minimizes injury and exposure of critical brain areas

Neuronavigation • Allows a three-dimensional stereotactic correlation between the lesion of interest, neuroimaging studies and the patient’s anatomy • Components – – – – –

Immobilization frame Computer system Localization device and registration process Transmission of real-time data Input from specially-acquired neuroimages

Neuronavigation • Helps the surgeon better plan the surgery and approach to the tumor • Allows better assessment of the extent of resection intraoperatively • Aids in the surgeon to localize the tumor even when anatomical landmarks have been displaced by tumor or edema • Disadvantages – does not take into account brain shift during the surgery

Neuronavigation

Intraoperative Imaging • Sonography – Advantages • Generates real-time images • Easy to use • Allows for assessment of cyst drainage, tumor resection and allows • Can be integrated with navigational systems to mathematically calculate brain shift

– Disadvantages • Cannot reliably discern normal from abnormal tissue • Blood products in surgical cavity may lead to misinterpretation of images

Intraoperative Imaging • Intraoperative MRI – Advantages • Enables imaging of the patient during the resection • Allows re-registration of the patient’s data to account for the resected tumor • Eliminates the inaccuracies created by brain shift • May help detect residual tumor not clearly visible and that may warrant further resection

Intraoperative MRI

Intraoperative MRI • Disadvantages – Needs MRI-compatible instrumentation, anesthesia machine and monitoring equipment – Expensive – Contrast extravasation due to surgical insult to blood brain barrier may be misinterpreted as tumor

Awake craniotomy • Goal – Maximize extent of resection while minimizing neurologic morbidity

• Indications – Tumors in eloquent cortex • Motor cortex • Near speech eloquent areas

Awake craniotomy

Stimulation Mapping Techniques • Involves stimulation of cortical and subcortical structures to identify functional tissue in and around the tumor – Minimizes the risk of permanent postoperative deficits – Only method for identifying descending subcortical motor, sensory and language tracts

Intraoperative Motor Mapping • Indications: – Gliomas located within or adjacent to: • Rolandic cortex • Supplementary motor area • Corona radiata • Internal capsule • uncinate fasciculus

Cortical Language Localization • Traditional cortical speech areas – Broca’s area – posterior portion of inferior frontal cortex – Wernicke’s area – perisylvian temporoparietal cortex

• Cortical language localization is variable in each individual – Does not follow a reproducible pattern in the population • Standard dominant temporal lobe resections > permanent post-op speech deficits

Surgical Preparation and Technique • Patient placed in appropriate position for exposure • Extremities and pressure points padded • Core temperature kept within 1°C of normal with heating blanket • General anesthesia induced/maintained – Propofol or alfentanil drip used for sedation – Foley placed, IV antibiotics given

• Area shaved, cleaned, incision marked and local anesthesia infiltrated – May define tumor borders with neuronavigation

Surgical Preparation and Technique • Surgical Access – Incision opened and flap raised – Wide craniotomy done to expose tumor and surrounding brain • Ensures availability of enough cortical sites for testing

– Dura infiltrated with xylocaine/marcaine • Dura is pain sensitive • Minimize discomfort while patient is awake

– Tumor located with ultrasound or navigation

Identification of Motor Cortex and Subcortical Pathways • Identify the motor cortex – Use bipolar electrode (5mm separation) for 2-3 secs. – Stimulation parameters: • 2 to 16 mA, 60Hz biphasic square-wave pulse, 1.25 msec pulse

– Use EMG recordings and visual observation of movement to increase sensitivity and reduce stimulation • Not necessary to go beyond 16 mA

– Have ice-cold Ringer’s lactate to irrigate if focal seizure – Identify lower motor cortex (face/hand movements) – Place strip electrode along falx to evoke leg movements • Safe – lack of bridging veins at leg motor cortex

Identification of Motor Cortex and Subcortical Pathways • Identify subcortical tracts – Similar stimulation parameters – Very important due to • Possible presence of functional motor, sensory or language eloquent tissue within or surrounding the macroscopically obvious tumor • Presence of functional tissue in infiltrated brain

• Do post-resection stimulation – The patient will likely recover from post-op deficits if stimulation reveals intact tracts

Identification of Language Sites • Keep the patient awake • Stimulate with bipolar electrode with electrocorticography in progress – If after-discharge potentials seen on monitor decrease until no after-discharge seen

• Ask the patient to count from 1 to 50 while stimulating near inferior motor strip – Complete speech arrest signifies location of Broca’s area

Identification of Language Sites • Present the patient with object-naming slides – Patient asked to name objects during stimulation – All sites essential for naming are marked – Sites checked three times

• Distance of resection to language site is the most important factor predicting post-op deficits – Ideal distance from language site is 1 cm or more

Prognostic Significance of Surgery • Low grade gliomas – Controversial but evidence favors a positive effect in outcome after extensive resection

• High grade gliomas – Statistically significant impact on survival (survival advantage) seen if ≥ 98% of tumor removed

Brain Metastases • More than 100,000 new cases of brain metastases each year in the US – 30-60% originate from a lung primary • Non-small cell lung cancer (80%) • Small-cell lung cancer • 33% of non-small cell lung cancer present with brain mets

– 14-20% originate from a breast primary

Brain Metastases • Indications for resection – Single metastatic lesions – improved survival compared to whole-brain radiotherapy (WBRT) alone, to establish a diagnosis • 8-9 months with resection +WBRT vs. 3-4 months for WBRT alone

– Multiple lesions – palliative for relief of mass effect of dominant lesions • Consider extent of systemic disease, tolerability for surgery and comorbidities • Can result in survival outcomes similar to single mets

Approaches By Tumor Location

Trans-Sphenoidal

• Indications

– Tumors in the sellar/pituitary region – – – – – – –

Microadenomas Macroadenomas Meningiomas Craniopharyngiomas Rathke’s cleft cyst Metastasis Etc…

• Contraindications – Aberrant carotid artery – Extensive suprasellar extension

Trans-sphenoidal • Preop work-up – Pituitary hormonal panel – – – – – – –

Prolactin Growth hormone ACTH TSH Cortisol IGF-1 FSH, LH

– Evaluation by endocrinologist – Ophthalmologic evaluation for visual field testing

Trans-Sphenoidal

Trans-sphenoidal

Transcranial Approaches

Subfrontal • Indications – Tumors in the anterior cranial base – Midline tumors in the suprachiasmatic / suprasellar region with significant suprasellar extension

• Common lesions in this location • Olfactory groove or planum sphenoidale meningiomas • Large pituitary tumors • craniopharyngiomas

Subfrontal

Subfrontal - Orbital Bar Removal

Subfrontal

Pterional • Based on the pterion • Indications – Tumors in the sphenoid ridge – Midline tumors near the carotid artery or optic nerves – Frontotemporal tumors

• Very versatile approach – Can be modified or extended to allow access to a large portion of the cranial base

Pterional

Pterional

Pterional

Interhemispheric

Interhemispheric Approach • Indications – Midline hemispheric tumors – Intraventricular tumors, including third ventricular tumors

• Common tumors resected by this approach – Colloid cysts – Intraventricular meningiomas – Central neurocytomas – Hypothalamic hamartomas

Parasagittal

Retromastoid • Indications – Tumors in the cerebellopontine angle and lateral aspect of the cerebellum

• Common tumors treated by this approach – Acoustic schwannomas – Meningiomas – Epidermoid tumors – Metastasis

Retromastoid

Suboccipital • Indications – Posterior fossa tumors of the midline or cerebellar hemispheric tumors – Tumors of the fourth ventricle

• Tumors commonly treated by this approach • • • • • •

Pilocytic astrocytomas Medulloblastomas Ependymomas Hemangioblastomas meningiomas metastasis

Suboccipital

CYBERKNIFE

DR. ULISES NOBO Stroke Unit Director Board Certified Psychiatry & Neurology Board Certified Neurology & Vascular Neurology

STROKE CENTER WHY? 3RD CAUSE OF DEATH 1ST CAUSE OF DISABILITY IN ADULTS OVER 65 BILLION DOLLARS IN COSTS IT CAN BE PREVENTED

IT CAN BE TREATED PUERTO RICO IS IN DESPERATE NEED FOR THIS KIND OF RESOURCES

1 IN 3 ADULTS HAS SOME FORM OF CARDIOV.DISEASE

EVERY

26

SECONDS SOMEBODY SUFFERS A HEART ATTACK

EVERY

40

SECONDS SOMEBODY SUFFERS A STROKE

MOST OF THESE EVENTS CAN BE PREVENTED !

TIME IS BRAIN QUANTIFIED NEURONS LOST

SYNAPSES LOST

MYELINATED FIBERS LOST

ACCELERATED AGING

PER STROKE

1.2 BILLION

8.3 TRILLION

7140 KM

36 YEARS

PER HOUR

120 MILLION

830 BILLION

714 KM

3.6 YEARS

PER MINUTE

1.9 MILLION

14 BILLION

12 KM

3.1 WEEK

PER SECOND

32, 000

230 MILLION

200 METERS

8.7 HOURS

STROKE CENTER 2007

PATIENT

2011

NEUROLOGY

NEUROSURGERY

Dr. Ulises Nobo Dr. Abiezer Rodriguez

STROKE CENTER

VASCULAR & ENDOVASCULAR NEUROSURGERY

Dra. Yadira Dacosta

MS CENTER

NEUROSURGERY& ONCOLOGY

EPILEPSY UNIT

BACK NEUROSURGERY & PEDIATRICS

Dr. Ignacio Pita Dr. Horacio Dauvon

NEURO-INTENSIVE UNIT Dra. Gloria Rodriguez Dra. Rosangela Fernandez

Dra. Marimerce Toledo

Dr. Luis Almodovar

Dr. Ivan Sosa

LARGE TRIALS OF IV TPA AND STREPTOKINASE MULTI-MERCI PROACT-II ECASS-III

NINDS 1 – 2 0

1

2

3

ASK ATLANTIS ECASS 1 ECASS 2 MAST - E MAST - I

4

5

6

7

8

9 HS

CURRENT TPA USE IN THE USA

97% NO TPA

0%

20%

40%

60%

80%

100%

TPA use at HIMA Caguas: 60 Patients 12.7% of admitted Ischemic Stroke Patients

STROKE - MRI

HEMORRHAGIC STROKE SAH

STROKE MEASURES

AHA SAVES LIVES

Ignacio Pita, MD Director del Centro de Epilepsia Neur贸logo Especialista en Epilepsia

CENTRO DE EPILEPSIA

Epilepsy • Epilepsy is a disorder of brain function characterized by the occurrence of periodic or unpredictable seizures1 • Epilepsy and seizures affect 2.5 million Americans of all ages2 • 315,000 children ≤14 years have epilepsy • 600,000 persons ≥65 years have epilepsy • Approximately 181,000 new cases of epilepsy and seizures occur each year2 • In 1995, it was estimated that epilepsy cost the nation approximately $12.5 billion annually2

1. Mattson. Neurology. 1998;51(suppl 4):S15-S20. 2. Epilepsy Foundation. Epilepsy and seizure statistics. Available at: http://www.epilepsyfoundation.org/answerplace/statistics.cfm.

93

pregabalin

94

Success of AEDs in 470 previously untreated patients • Response to first drug • Response to second drug • AED #1 failure 20 efficacy • AED #1 failure 20 toxicity • Response to third drug or multiple drugs

Kwan and Brodie. NEJM (2000) 342: 314-319.

• • • • •

47% 13% 11% 41% 4%

95

96

Intractable Epilepsy • Early Referral for EEG – Video monitoring – Diagnostic evaluation – Intractable versus Pseudointractable epilepsy – Pre-surgical Evaluation • Seizure semiology • Interictal EEG • Ictal EEG localization • Further testing 97

Seizure Surgery Depends on Congruence of Test Findings • • • • • • • • •

EEG-Video monitoring-ictal and interictal MRI Positron Emission Tomography Neuropsychological Testing WADA Test (Localize memory / language) Ictal Spect Magnetic Resonance Spectroscopy fMRI MEG 98

Comprehensive Epilepsy Program • • • • • •

Epilepsy Monitoring Unit Epileptologist Epilepsy Neurosurgeon Endovascular Neurosurgeon Neuropsychologist Specialized Nurses and EEG Technicians

VIDEO/EEG • Simultaneous recording of clinical and electrographic findings in patients with history or suspected epilepsy

Epilepsy Monitorin Unit • Diagnostic procedure. • In hospital procedure • Duration: 3-7 days

Epilepsy Monitoring Unit • Facilities: – Six (6) private bedroom – 360 degree camera with infrared light for nocturnal recording – Continuous monitoring by trained EEG tech and nurses

Indications • Diagnosis – epileptic versus non-epileptic events • Classification – Characterize the epileptic event • Intractable epilepsy • Localization of the ictal focus for presurgical evaluation

Advantages • By confirming the diagnosis, classifying the epilepsy type and indentifying the ictal focus a well developed treatment plan can be established to better utilize health care services and improve quality of life

Insurance Coverage • 450 patients evaluated • Current waiting list 2-3 weeks • Insurance with contract – – – – – – –

SSS SSS OPTIMO MEDICARE MCS MCS CLASSICARE HUMANA HUMANA REFORMA

Patient Distribution

32%

ADULT

68%

Younger patient – 8 months Older patient – 64 years old

PEDS

12%

37% FOCAL

31%

MULTIFOCAL GENERALIZED 11%

9%

PNES

NES

40 35

12

30

10

25

8

20 6 15 4 10 2

5 0

0 FOCAL

MULTIFOCAL

GENERALIZED

Resective Surgery

VNS

Surgical Treatment of Epilepsy Curative

Palliative

MTS TLE Non-MTS TLE Lesional Frontal Lobe epilepsy - Low Grade Glioma SMA/cingulate epilepsy - Cav. Malformation Malformations of cortical development Procedures Lesionectomy Lobectomy

Hemispherectomy MST’s

Modified from McKhann G.M. and Howard M.A.: Epilepsy Surgery: Disease Treatment and Investigative Opportunity, in Diseases of the Nervous System: Clinical Neurobiology, 2002.

Disconnection (Callosotomy) Devices 109

Seizure Surgery Outcome • Mayo – MTS MRI with concordant interictal/ictal EEG had 90% SZ-Free rate – MTS MRI with EEG discordant had 60% SZ-free rates – Neocortical Lesional had 50-70% SZ-free rate – Neocortical non-lesional had 20-30% SZ-free rate with additional 25% having SZ reduction of at least 80% 110

Practice Parameter: Temporal Lobe and Localized Neocortical Resections for Epilepsy

• Level A evidence for temporal lobectomy in pharmacoresistant patients • Insufficient evidence to make recommendations for extratemporal resections

Neurology 2003: 60:538-547

111

Vagus Nerve Stimulation

Reprinted with permission.

112

FURTHER DEVELOPMENT

114

Deep Brain Stimulation

115

Responsive Neurostimulation

116

Carlos Nieves, M.D.,F.A.C.C. Director de Cardiología HIMA•San Pablo Bayamón Cardiólogo Intervencional

Overview of Cardio Vascular Services at HIMA San Pablo Hospital • • • • • •

General and Non-Invasive Cardiology Invasive and Interventional Cardiology Cardiovascular Surgery Vascular Surgery Endovascular Interventions Electrophysiology

Non Invasive Cardiology • • • • • •

20 Clinical Cardiologists Telemetry monitoring beds ICU Transthoracic Echocardiography Transesophageal Echocardiography (24) Myocardial Perfusion Imaging /Exercise and Pharmacologic Stress Testing and MUGA • CTA of Coronaries

Interventional Cardiologists • • • •

Rene Perez Rios, M.D., Director CCL Humberto Quintana Irazola, M.D. Steven Rivas Marquez, M.D. Carlos M. Nieves La Cruz, M.D.

Invasive and Interventional Cardiology 2010 • Right Heart Catheterization (183) • Coronary Angiography, Lt. Heart Cath (2,298) • PCI: Coronary Stenting : DES > BMS (1,073) Laser Coronary Atherectomy • Aspiration Thrombectomy • IABP: Intraortic Balloon Pump • IVUS: Intravascular Ulrasound for intermediate lesions and complex coronary interventions.

Electrophysiology • Single and Dual Chamber Permanent Pacemakers (121) • ICD Implantable Cardioverter Defibrillator (56) • Bi-Ventricular Pacing for patients with CHF and LBBB or wide QRS (29) • Implantable prolonged monitoring device • Electrophysiologists: Daniel Arzola M.D. • Near future: Ablation (SVT, WPW, Afib, VT) • EPS

Cardiovascular Surgery (2010) • • • •

Coronary Bypass Surgery (366) Aortic Valve Replacement (28) Mitral Valve Replacement and repair (3) Thoracic Aortic Aneurysm/Dissection Graft Repair • Carotid Endarterectomy • Peripherovascular Surgery (162) • Thoracic Surgery (39)

Vascular Surgery/Endovascular Interventions (2010) • Peripherovascular Surgery (162) • Aorto -Fem and FemPop Bypass • Carotid Endarterectomy • Aortic Aneurysm and Aortic Dissection repair

• PTA, Stenting and Laser Atherectomy (48) • Carotid Stenting • EVAR: Endovascular Aortic Repair (14) • Renal artery stenting • IVC Filter

LAD Stenosis

LAD post Sent

IVUS

IWMI post t-PA

IWMI RCA Occlusion

AWMI Occluded LAD

LAD Guidewire

Post PTCA

LAD Post PTCA

LAD Post Stent

STEMI Interventions • • • • • • • • • •

Pre-Hospital 12 Lead ECG Primary Percutaneous Coronary Intervention Door to Balloon < 90 min Fibrinolysis → Pharmaco-Invasive Strategy CCL On call team → 24 hour coverage Radial acces for Pharmacoinvasive Strategy and PPCI Thrombus Aspiration Bivalirudin +/- GP-IIBIIIA inhibitors Stenting IABP

Cardiovascular Solutions at HIMA•San Pablo Hospital • HIMA San Pablo provides a wide variety of therapeutic options for patients with complex and advanced cardiovascular disease. • A multi-disciplinary team is involved in the cardiovascular care of the patient often with the collaboration of multiple cardiovascular and other specialists.

AmĂ­n Jaskille Mujica, MD Director Centro Cirujano e Intensivista

Manejo Inicial • 100% oxígeno humidificado • Entubar?

• Acceso intravenoso – Adultos: 500mL/hr – Niños > 5 años: 250 mL/hr – Niños < 5 años: no se recomienda suero ABA. Advanced Burn Life Support Providers Manual. Chicago, IL. 2005

Manejo Inicial • Remover agente – Ropa – Joyería

• Agua directo al área – Nunca hielo

Evaluación Secundaria • Historial – Fuego: ropa, gasolina, explosión, adentro vs afuera – Escaldadura: qué líquido, temperatura, abuso? – Química: agente, duración, explosión – Eléctrica: Voltaje, caída?, pérdida de conocimiento

Evaluación Secundaria • Resto del historial y físico • Severidad de la quemadura –Profundidad –Extensión

Laboratorios - pruebas iniciales • • • • • •

H/H, electrolitos, U/A ABG Carboxyhemoglobin Glucosa (niños < 12) CXR EKG

Profudidad • Primer Grado – Sol – Epidermis – Roja y dolorosa – No se usa para %TBSA

Profundidad • Segundo Grado – Epidermis y parte de dermis – Ampollas – Dolorosa

• Tercer Grado – “Full Thickness” – Dermis y epidermis – Cuero – “No duele”

Extensión • Líquidos – (%TBSA)(wt Kg)4 – ½ primeras 8 hrs • Metas – U/O = 30-50 mL/Hr – MAP > 70 mmHg

Referido a Centro Quemaduras • • • • • • • • •

Parciales (segundo grado) de > 10% TBSA Cara, manos, pies, genitalia, perineo o articulaciones Tercer grado Eléctricas Químicas Inhalación Comorbilidades Trauma asociado No se sienten cómodos

Transporte • Sábana seca • Transportación – Tierra – Helicóptero: 30-150 millas o condición en rápido deterioro

Centro de Quemaduras • Director – Cirujano – Intensivista • Sala de emergencia – Estabilización inicial • Sala de operaciones – 24/7 • Intensivo

Centro de Quemaduras • Rehabilitación – Adultos – Niños – Intensivo

Consideraciones Especiales • Constricción por escara de tercer grado – Extremidades – Pecho – Cuello

CASOS

Quemadura QuĂ­mica

Marcos P茅rez-Brayfield, MD Ur贸logo Board Certified by the American Board of Urology

Hydrocele

Intravaginal Torsion

Reflujo Vesicoureteral (VUR)

The Deflux System 9.5 Fr. “off-set lens” integral scope

3.7 Fr. needle

1.0 mL Deflux

(O’Donnell & Puri, 1980)

Hydrodistention Implantation Technique (Kirsch, 2003)

“Volcano”

“Mountain range”

Classic STING

Optimal Coaptation / Decreased Migration / Better Results!!

Submucosal Intraureteric Injection Technique

Rest

HD+

HD-

Maximizes coaptation and decreases migration

Undescended Testis

Undescended Testis

Laparoscopy for UDT

10 y/o female with adrenal mass

Path: Teratoma

NEFRECTOMIA TRANSPERITONEAL POSICIÓN PACIENTE / TROCAR

DAVINCI CIRUGíA ROBÓTICA

Cirug铆a Rob贸tica

Aurelio Segundo, M.D., F.A.C.S. Cirujano Pediรกtrico

Pediatric Neck Masses “Lumps and Bumps”

Pediatric Neck Mass

Congenital

Thyroglossal Duct Cyst

Branchial cleft cyst

Cystic hygroma Dermoid cyst

Acquired

Infectious/ Inflammatory

Neoplasms

Neck Masses • Midline Neck Masses – – – – –

Thyroid nodules Cervical Lymphadenopathy Thyroglossal Duct cyst Thymus gland anomalies Plunging ranula

• Lateral Neck Masses – Branchial cleft anomalies – Laryngoceles – Dermoid and Teratoid Cysts

– Sternocleidomastoid Pseudotumor of Infancy

Pearls: Hypertrophic Pyloric Stenosis • Non-bilious projectile vomiting; 3-8 weeks • Most common: first born males • Hypokalemic, Hypochloremic metabolic alkalosis with paradoxical aciduria. • Not a surgical emergency- fix electrolytes with NS boluses, D5 0.5 NS maintenance. Add K+ once baby is urinating. • OR when Chloride > 98; HCO3 <26 • Treatment: pyloromyotomy; babies often vomit postopjust keep feeding!

Intussusception • Most common cause of intestinal obstruction in children 6 months to 3 years. • Ileum usually intussuscepts into cecum. • Severe crampy abdominal pain with lethargic intervals. Currant jelly stool usually not present. • Diagnosed with US or contrast enema • Treated with contrast enema >80% of time. air pressure to 120 mmHg, barium to 100 cm H2O – 10% recurrence, often within hours • Lead points (meckels, polyp) more common in older children.

Pathophysiology •

Types – Ileocolic – Colo-colic – Ileo-ileal

• • • • •

Compression of mesentery Venous engorgement Edema Ischemia of intestinal mucosa Gangrene and perforation

“Neonatal bilious emesis is a surgical emergency until proven otherwise�

MALROTATION • Must consider in every infant with bilious emesis • Many subtle variations of malrotation/ nonfixation • 30% present within first week of life • 50% within first month • Midgut volvulus with necrosis disastrous • Can lead to SBS, intestinal tx, death

Malrotation

Abdominal Pain • Perhaps the most common reason for urgent consultation with a surgeon is the child with acute abdominal pain.

• Most episodes of abdominal pain are self-limited and short-lived. • While viral illness, UTI, intussusception, Meckel’s, pneumonia, pancreatitis, and a variety of other conditions can lead to abdominal pain, persistent acute abdominal pain in the childhood years must raise consideration of appendicitis.

• Missed appendicitis is a major source of liability claims against pediatricians and family physicians.

Incidence Most common cause of acute surgical abdomen in children  Lifetime risk: 

 



Peak Incidence between 12 and 18 years 



8.67% for boys 6.7% for girls Rare under the age of 5

Genetic predisposition, especially in children with appendicitis before age 6

Classic Description Anorexia, then

vague periumbilical pain Pain migrates to Right Lower Quadrant Nausea and Vomiting follow pain Diarrhea may occur Fever, if present, is low grade Appendix commonly ruptures 24-48 hours after onset of symptoms

Imaging Plain 







films

Sentinel loops (localized ileus)‫‏‬ Mild scoliosis (Psoas spasm)‫‏‬ Fecolith (10-15% perforated appendicitis)‫‏‬ Low sensitivity = not recommended

Imaging Ultrasound 

Specificity 90%, Sensitivity 5092%



Normal appendix must be seen to exclude appendicitis



Positive criteria 

Noncompressible tubular structure 6mm or greater



Complex mass in RLQ



Fecolith

Imaging CT scan 

>95% sensitivity and specificity



Thickened appendix



Periappendiceal fat stranding



Fecalith



Abscess or phlegmon

CT scans Highly

accurate, but are they necessary?



More expensive than ultrasound



May require contrast administration



Exposure to ionizing radiation





One CT equivalent to 100 plain abdominal films



Single CT scan carries average 1/1000 lifetime mortality risk from radiation-induced malignancy

Imaging has not changed negative appendectomy rate

Treatment Intravenous

fluids

Antibiotics Appendectomy

Non-operative

therapy may be considered for those with perforated appendicitis 



Children who fail to improve in 24-72 hours will need appendectomy High failure rate if significant bandemia in differential

Treatment Immediate 

 

vs. Delayed Appendectomy

No need to operate in middle of night with hemodynamically stable child with appendicitis No change in perforation rate or complications Findings seem to be more indicative of initial presentation

Definitions • Hernia • A general term referring to a protrusion of a tissue through the wall of the cavity in which it is normally contained • Incarceration • the contents of the hernia cannot be returned to the cavity from which they came • Strangulation • The blood supply to the herniated tissue is disrupted causing ischemia and tissue death

INCARCERATED INGUINAL HERNIA

• Most common in first year of life • 30% of infant hernias present with incarceration most manually reducible • Dx by physical examination alone