Traumatic brain injury (TBI) causes two injury types: primary and secondary. In infants and young children, nonaccidental TBI is an important etiology of brain injury and is commonly a repetitive insult. TBI is by far the most common cause of acquired brain injury (ABI) in children and is the most common cause of death in cases of childhood injury. In 2009, the Pediatric Emergency Care Applied Research Network (PECARN) issued validated prediction rules to identify children at very low risk of clinically important TBI, which is defined as TBI requiring neurosurgical intervention or leading to death. The range of outcomes in pediatric TBI is very broad, from full recovery to severe physical and/or intellectual disabilities. Children and adolescents who have suffered a TBI are at increased risk of social dysfunction. Studies show that these patients can have poor self-esteem, loneliness, maladjustment, reduced emotional control, and aggressive or antisocial behavior.
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This book provides school personnel with information on how concussion (mild traumatic brain injury) can affect learning, mental health, and social-emotional functioning, skills in developing and leading a school-based concussion support team, tools for school-based concussion assessment, and information on a safe, gradual process of returning to the academic environment. It explains what happens to the brain at the moment of impact, terminology, prevalence rates, causes, risk factors, and issues related to underreporting of concussions. Educators will learn about developmental effects, how concussions can affect students of different ages, as well as difficulties that can result from concussions such as postconcussion syndrome and second impact syndrome. This book presents a school-based concussion team model, including the specific responsibilities of the concussion team leader (CTL), and a discussion of maintaining student privacy through regulations like the Health Insurance Portability and Accountability Act of 1996. Readers are familiarized with checklists that can be used within the school and assessment tools such as Acute Concussion Evaluation (ACE) and neuropsychological assessment. Readers are also familiarized with how physical and cognitive rest can be balanced with a return to activity during the recovery period. This book also book gives concussion team members guidance on the selection of appropriate strategies, as well as decision making during a student’s return to academics, and discusses concussion prevention information by providing guidance on how readers might train others on concussion recognition and response. Case studies are integrated throughout the chapters.
This chapter includes information related to the clinical evaluation of a concussion that a child might receive in a medical setting. It discusses guidelines for appropriate use of smartphone concussion evaluation apps. This chapter examines a brief section on the future of concussion assessment. The Acute Concussion Evaluation (ACE) can help the school concussion team obtain information regarding the injury, including the cause, severity, any amnesia, loss of consciousness (LOC), and any early signs. The computerized neurocognitive assessment typically measures player symptoms, verbal/visual memory, attention span, working memory, processing speed, response variability, nonverbal problem solving, and reaction time. Neurocognitive tests, sideline assessments, and smartphone apps can help district staff and parents determine the severity of a student’s symptoms. A neuropsychological assessment to assess cognitive functioning, memory, speed, and processing time may also be administered.
The electrical discharge of neurons associated with seizure activity stimulates a marked rise in cerebral metabolic activity. Estimates from animal experiments indicate that energy utilization during seizures increases by more than 200", while tissue adenosine triphosphate (ATP) levels remain at more than 95" of control, even during prolonged status epilepticus. The brain generally withstands the metabolic challenge of seizures quite well because enhanced cerebral blood flow delivers additional oxygen and glucose. Mild to moderate degrees of hypoxemia that commonly accompany seizures are usually harmless. However, severe seizures and status epilepticus can sometimes produce an imbalance between metabolic demands and cerebral perfusion, especially if severe hypotension or hypoglycemia is present. A marked increase in glutamate release, which occurs during a prolonged seizure, is likely to result in the activation of all types of glutamate receptors. Although kainic acid produces seizures in the immature brain, it produces little cytotoxicity.
- Go to chapter: Stabilization Phase of Trauma Treatment: Introducing and Accessing the Ego State System
This chapter aims to help clinicians learn stabilization interventions for use in the Preparation Phase of eye movement desensitization and reprocessing (EMDR) treatment. Using these interventions will aid clients in developing readiness for processing trauma, learning how to manage symptoms of dissociation, dealing with affect regulation, and developing the necessary internal cohesion and resources to utilize the EMDR trauma-processing phase. Earlier negative experiences stored dysfunctionally increase vulnerability to anxiety disorders, depression, and other diagnoses. When assessing a client with a complex trauma history, clinicians need to view current symptoms of post-traumatic stress disorder (PTSD) or depression as reflections of the earlier traumas. The chapter outlines the strategies dealing with dissociative symptoms, ego state work, and internal stability that help clinicians to develop an individualized treatment plan to successfully guide the client through the EMDR phases of treatment.
- Go to chapter: ACT-AS-IF and ARCHITECTS Approaches to EMDR Treatment of Dissociative Identity Disorder (DID)
This chapter describes key steps, with scripts, for the phases of therapy with a dissociative identity disorder (DID) client, and for an eye movement desensitization and reprocessing (EMDR) session with a DID client. In brief, the method employs the artful use of EMDR and ego state therapy for association and acceleration, and of hypnosis, imagery, and ego state therapy for distancing and deceleration within the context of a trusting therapeutic relationship. It is also endeavoring to stay close to the treatment guidelines as promulgated by the International Society for the Study of Trauma and Dissociation. The acronym ACT-AS-IF describes the phases of therapy; the acronym ARCHITECTS describes the steps in an EMDR intervention. Dual attention awareness is key in part because it keeps the ventral vagal nervous system engaged sufficiently to empower the client to sustain the painful processing of dorsal vagal states and sympathetic arousal states.
One way of thinking about procrastination is to regard it as a form of addiction; an addiction to putting things off. As with other addictive patterns, the client will choose a short-term gratification instead of going for a long-term result that might, in the end, be more satisfying or empowering. As with other addictions, a procrastinating client often suffers ongoing erosion of her self-esteem. Quite often, procrastination may function as a defense as a way to avoid other life issues that are disturbing. With this type of problem, we can use a variation of Popky’s addiction protocol, and the level of urge to avoid (LoUA) procedure. It is also important to use resource installation procedures to help the client develop an image of the benefits that would come with being free of this problem.
The important elements of the Eye Movement Desensitization and Reprocessing (EMDR) and Phantom Pain Research Protocol are client history taking and relationship building, targeting the trauma of the experience, and targeting the pain. This protocol is set up to follow the eight phases of the 11-Step Standard Procedure. This chapter presents a case series with phantom limb patients obtained a few before and after EMDR magnetoencephalograms (MEGs) at the University of Tübingen, Germany on arm amputees that show the presence of phantom limb pain (PLP) in the brain images before EMDR and the absence of it after EMDR. In these case series, it is found that PLP in leg amputations is much easier to treat than arm amputations, likely due to the much more extensive and complex arm and hand representation in the sensory-motor cortex compared to the leg and foot representation.
The “Image Director Technique” was developed to target recurring nightmares or bad dreams and those targets that are directly related to a traumatic experience. This technique is a special module that is embedded in the Standard Eye Movement Desensitization and Reprocessing (EMDR) Protocol. The technique begins with the worst image of the dream and then accesses and measures it as in Phase 3 of the Standard EMDR Protocol that includes the image, cognitions, emotions, and sensations. Clients are more likely to work with short clips or films if the subjective units of disturbance (SUD) of the target image is low. This technique can also be considered an imagery exposure method that is based in systematic desensitization, a behavioral approach. Often, clients prefer the tactile bilateral stimulation (BLS) because they can close their eyes in order to be visually undisturbed during the creation of the new images.
This chapter focuses on office automation and systems that are useful in the mental health field, along with principles to be aware of when considering the use or purchase of such systems. Most managers have to rely on input from outside in order to form an opinion about how to resolve complex issues. The complexity of the issue increases significantly when the current federal health care laws are incorporated into the task of choosing appropriate clinical information management software. The significance of Health Insurance Portability and Accountability Act (HIPAA) would seem to dictate at least a brief foray into its content because it lays the foundation for virtually everything that is happening in the clinical information management (CIM) realm. The information provided in the chapter can give a backdrop by which current practices can be examined for goodness of fit with the available client information management systems.