| Literature DB >> 23616755 |
Diana Frasca1, Jennifer Tomaszczyk, Bradford J McFadyen, Robin E Green.
Abstract
OBJECTIVES: While a growing number of studies provide evidence of neural and cognitive decline in traumatic brain injury (TBI) survivors during the post-acute stages of injury, there is limited research as of yet on environmental factors that may influence this decline. The purposes of this paper, therefore, are to (1) examine evidence that environmental enrichment (EE) can influence long-term outcome following TBI, and (2) examine the nature of post-acute environments, whether they vary in degree of EE, and what impact these variations have on outcomes.Entities:
Keywords: adult; environmental enrichment; moderate to severe; post-acute decline; post-discharge; transition home; traumatic brain injury
Year: 2013 PMID: 23616755 PMCID: PMC3628363 DOI: 10.3389/fnhum.2013.00031
Source DB: PubMed Journal: Front Hum Neurosci ISSN: 1662-5161 Impact factor: 3.169
Numerical summary of articles reviewed.
| Beneficial effects of EE | 123: animals—55; humans—68 | Healthy and brain-injured animals, humans | |
| Post-discharge experiences | 19 | Qualitative, observational, correlational, reviews, case study | Brain-injured humans |
Detailed summary of articles included in “Brain-injured animals and EE” and “Brain-injured humans and EE” scoping review.
| Hamm et al., | Brain-injured and sham-injured rats in EE and standard environment (SE) | (1) Determine whether exposure to EE would promote recovery of cognitive function; (2) Brain-injured rats in EE vs. SE: EE rats showed more improvement in Morris Water Maze task; Brain-injured rats in EE vs. sham-injured: performed at same level. |
| Johansson and Ohlsson, | Brain-injured rats randomly assigned to EE, social-stimulation only or physical-stimulation only environment | (1) Determine relative importance of social and physical activity to EE; (2) No difference in infarct size between groups. EE group performed better than physical group in all tests, better than social group on rotating pole. With time EE group performed better than social group in limb placement, climbing, inclined plane. Social group performed better than physical group on inclined plane and in climbing at all times, by 13 weeks also in limb placement test and on beam. |
| Passineau et al., | Brain-injured and sham-injured rats randomly assigned to EE and SE | (1) Examine effect of EE on behavior and on histological integrity of brain tissue selectively vulnerable to brain trauma; (2) Injured animals in EE showed shorter latencies to find platform in Morris Water Maze task vs. injured/SE animals on day 12 post-TBI. Both injured groups showed deficits vs. sham groups. At 14 days post-TBI, EE animals had approximately 2× smaller lesion areas in regions of cerebral cortex posterior to injury epicenter compared to injured/SE animals. Overall lesion volume for entire injured cortical hemisphere was smaller in animals recovering in EE. |
| Dobrossy and Dunnett, | Brain-injured rodents; review | (1) Review degree to which housing conditions or behavioral training can modify survival, integration or function of transplanted tissue; (2) Behavioral training experience can promote behavioral, and functional compensation, and influence neuroplasticity at cellular, and systems levels of neuronal reorganization. |
| Johansson, | Brain-injured rats; review | (1) Review influence of post-ischemic environmental factors, possible clinical implications; (2) EE improves functional outcome, increases dendrite branching, number of dendritic spines in contralateral cortex, influences expression of many genes, modifies lesion-induced stem cell differentiation in hippocampus. |
| Dobrossy and Dunnett, | Brain-injured rats with and without neural grafts randomly assigned to EE and SE | (1) Examine effects of differential housing conditions on striatal graft morphology and functional recovery; (2) Functional recovery accompanied by reduction in infarct size and more afferent connections. |
| Will et al., | Brain-injured rats; review | (1) Compare three main non-invasive therapeutic strategies for achieving rehabilitation after brain damage: EE, physical exercise, specific formal training; (2) EE increased neurogenesis in hippocampus and up-regulation of neurotropic factors (e.g., NGF) that result in decreased spontaneous apoptosis and increased neuronal survival. |
| Gobbo and O'Mara, | Brain-injured rats housed under EE or SE, 6 weeks before, 4 weeks after surgery | (1) Investigate if EE can protect rats against the cognitive and neurological consequences of transient ischemia; (2) EE improved learning and memory; does not protect against actual loss of CA1 pyramidal cells. Brain-derived neurotrophic factor levels were increased. |
| Lippert-Gruener et al., | Brain-injured and sham-injured rats assigned to EE, EE + multi-modal early onset stimulation (MEOS), or SE | (1) Investigate effects of EE, EE+ MEOS, and SE on cognitive and motor function, and cortical lesion volume; (2) Rats in EE and EE+MEOS demonstrated improvement over SE, but no change in lesion size. |
| Pereira et al., | Brain-injured and sham-injured rats randomly assigned to EE and SE | (1) Examine effects of daily EE on memory deficits in water maze and cerebral damage; (2) Spatial reference, working memory impairments were completely reversed by EE; Reduction of both hippocampal volume and cortical area, ipsilateral to arterial occlusion, no EE effect on morphological measurements. |
| Hoffman et al., | Brain-injured and sham-injured rats randomly assigned to early EE, delayed EE, continuous EE or no EE | (1) Examine whether EE-mediated benefits are dependent on exposure to EE during neurobehavioral training; (2) A3 cell loss significantly attenuated in TBI + continuous EE group vs. TBI + no EE group. Beam-walking was facilitated in TBI groups that received early or continuous EE vs. those receiving delayed or no EE. Cognitive training enhanced in TBI groups that received continuous or delayed EE vs. early or no EE groups. |
| Sozda et al., | Brain-injured and sham-injured rats assigned to typical EE, EE –social, EE –stimuli, SE, SE +stimuli | (1) Investigate effects of typical EE, EE –social, EE –stimuli, SE, SE +stimuli on motor and cognitive function, lesion volume, brain volume loss; (2) Typical EE groups performed same as sham group, and showed most improvement compared to other TBI groups in terms of spatial learning and memory retention, lesion size reduction. |
| Sun et al., | Brain-injured rats randomly assigned to EE or SE | (1) Investigate effects of EE on cognitive impairment, levels of BDNF and NMDA receptor subunit 1 (NR1) and subunit 2B (NR2B) in hippocampus; (2) EE exposure improved spatial cognitive performance and non-spatial memory performance. EE increased levels of BDNF and NR1 protein in hippocampus. |
| Matter et al., | Brain-injured or sham-injured rats randomly assigned to 8 groups receiving continuous, early or delayed EE with either 1 or 2 weeks of exposure | (1) Further assess effects of time of initiation and duration of EE on neurobehavioral recovery by evaluating and directly comparing all the temporal permutations; (2) Motor ability was enhanced in TBI groups that received early EE (i.e., during testing) vs. standard housing. Acquisition of spatial learning facilitated in groups receiving delayed EE (i.e., during training). |
| De Witt et al., | Brain-injured and sham-injured rats randomly assigned to EE, EE (2 h), EE (4 h), EE (6 h), or SE | (1) Determine whether abbreviated EE (i.e., rehab-relevant dose response) confers benefits similar to typical EE; (2) TBI + EE (2 h) and TBI + EE (4 h) groups not different from TBI + STD group in behavioral assessment. TBI + EE (6 h) group exhibited enhancement of motor and cognitive performance when compared with TBI + STD group, TBI + EE (2 h) and TBI + EE (4 h) groups, and did not differ from TBI + EE (typical) group. |
| Cheng et al., | Brain-injured and sham-injured rats randomly assigned to 3 weeks of EE or SE. In phase 2: half of rats in EE transferred to SE conditions (TBI + EE + SE and sham + EE + SE; re-assessed 1/month for 6 months) | (1) Determine whether EE-mediated motor and cognitive benefits persist after its withdrawal; (2) TBI + EE and TBI + EE + STD groups performed better in the water maze than the TBI + STD group, did not differ from one another. Data replicate several studies showing that EE enhances recovery after brain injury, and extend by demonstrating that cognitive benefits are maintained for at least 6 months post-rehabilitation. |
| Shin et al., | Brain-injured and sham-injured rats assigned to EE or SE | (1) Investigate effects of EE on substantia nigra gene expression; (2) EE-induced gene alterations after TBI included genes important for signal transduction, in particular calcium signaling pathways, membrane homeostasis, and metabolism. |
| Monaco et al., | Brain-injured and sham-injured rats assigned to EE or SE | (1) Assess effect of EE on functional and histological outcome in female rats after TBI; (2) EE improved motor function and spatial learning; reduced lesion size and increased hippocampal cell survival. |
| Blackerby, | Acute moderate-severe TBI ( | (1) Investigate effects of different levels of rehabilitation intensity on length of stay in two hospital-based coma and acute rehabilitation populations; (2) After increasing treatment intensity and changes in case management, patients were discharged an average of 1.5 months earlier than before changes. |
| Toglia, | Brain injury; concept paper | (1) Review literature on learning and generalization and direct applications to treatment; (2) Five components identified in cognitive psychology literature as critical to process of generalization: (a) use of multiple environments, (b) identification of criteria for transfer, (c) meta-cognitive training, (d) emphasis on processing strategies, and (e) use of meaningful activities. |
| Spivack et al., | Acute moderate-severe TBI ( | (1) Examine effects of intensity of treatment and length of stay during inpatient rehabilitation hospitalization; (2) Patients with longer length of stay (LOS) made more progress across all outcome variables than patients with shorter LOS; In long LOS group, two treatment-intensity groups initially equivalent, and at discharge high-intensity treatment group surpassed low-intensity treatment group. |
| Willer et al., | Post-acute/chronic severe TBI ( | (1) Compare outcomes of a post-acute residential rehabilitation program with a matched sample receiving limited services in their homes or on an outpatient basis; (2) Individuals who received intensive rehabilitation services in community-based residential program exhibited considerable improvement in functional abilities (cognitive skills, motor skills). Treatment group showed greater improvement in community integration. |
| Sohlberg et al., | Chronic moderate-severe TBI, ABI ( | (1) Compare attention processing training with an educational and support method; (2) 10 weeks of brain injury education seemed most effective in improving self-reports of psychosocial function. Attention process training influenced self-reports of cognitive function, had stronger influence on performance of executive attention tasks. Vigilance, orienting networks showed little specific improvement. |
| Cicerone et al., | TBI/Stroke; review | (1) Establish evidence-based recommendations for clinical practice of cognitive rehabilitation from methodical review of scientific literature concerning effectiveness of cognitive rehabilitation; (2) Attention deficits: limited evidence exists for generalization of benefits attributable to attention remediation, tendency to observe gains on tasks most closely related to training tasks; Multi-modal interventions: can significantly improve neuropsychological performance in many skill areas. Maintenance, generalization of benefits from cognitive rehabilitation greatest when treatment is provided for appropriately long periods of time, when efforts are made by clinician and patient to identify and apply interventions to personally relevant areas of functioning, when patients are able to assume responsibility for using compensatory strategies in everyday functioning. |
| De Weerdt et al., | Acute stroke ( | (1) Observe how stroke patients spend their time in a rehabilitation unit; (2) Patients most frequently involved in therapeutic activities, Belgium: 28% of day, Switzerland: 45%. Belgian patients: 27% of day in own room, Swiss: 49% of day. Swiss patients spent nearly 1.5 h per day more in therapy. Differences between two settings could only partially be explained by more favorable patient-staff ratios in Swiss setting. |
| Fasotti et al., | Post-acute/chronic severe TBI ( | (1) Compare the effectiveness of Time Pressure Management (TPM) training with concentration training in which verbal instruction was the key element; (2) TPM produces greater gains than concentration training and appears to generalize to other measures of speed and memory function. |
| Zhu et al., | Post-acute moderate-severe TBI ( | (1) Evaluate effects of different levels of intensive rehabilitation treatment on functional outcome; (2) Increasing amount of rehabilitation from conventional 2–4 h/day improved functional outcome as measured by GOS. More patients in intensive group returned to gainful work, either original or modified job. Improvement most significant in early post-injury period at 2–3 months. |
| Shiel et al., | Moderate-severe TBI ( | (1) Investigate effect of increased intensity of rehabilitation on rate at which independence was regained and duration of hospital admission; (2) Increasing hours per week of therapy can accelerate rate of recovery of personal independence and result in being discharged from hospital sooner. No evidence of ceiling effect of therapeutic intensity beyond which no further response observed. |
| Park and Ingles, | ABI; meta-analysis | (1) Examine the efficacy of attention rehabilitation; (2) Direct-retraining methods produced only small non-significant improvements in performance. Few studies that attempted to rehabilitate specific skills requiring attention showed statistically significant improvements after training and had considerably larger effect sizes. Results suggest learning that occurs as a function of training is specific, does not tend to generalize or transfer to tasks that differ considerably from those used in training. |
| Powell et al., | Post-acute/chronic severe TBI ( | (1) Evaluation of multidisciplinary community based outreach rehabilitation; (2) Outreach participants significantly more likely to show gains on Barthel Index, BICRO-39 total score, self-organization, psychological well-being subscales. Strong trends for BICRO personal care and mobility, on FIM+FAM for personal care and cognitive functions. |
| Slade et al., | Acute stroke/TBI ( | (1) Examined if increased intensity of therapy would decrease length of stay; (2) Accounting for impairment/disability mix, and consequent response of therapy, enhanced levels of physiotherapy and occupational therapy led to benefits for experimental group, resulting in decrease length of stay. |
| Cifu et al., | Moderate-severe TBI ( | (1) Identify factors relating to intensity of rehabilitation services received and to ascertain relation between injury outcomes, demographics, types of therapy, and intensity of rehabilitation services provided; (2) Findings support assertions that increased therapy intensity, particularly physical and psychological therapies, enhances functional outcomes. |
| Rath et al., | Chronic mild-severe TBI ( | (1) Compare efficacy of a group-treatment protocol using a remedial programme that aims to reduce difficulties in emotional self-regulation, and to facilitate steps used in problem solving with a conventional neuropsychological rehabilitation programme; (2) Participants in innovative group improved in problem solving as assessed using a variety of measures, including (i) executive function, (ii) problem-solving self-appraisal, (iii) self-appraised emotional self-regulation and clear thinking, (iv) objective observer ratings of role-played scenarios. Improvements were maintained at follow-up. |
| Boman et al., | Mild-moderate TBI ( | (1) Examine efficacy of cognitive rehabilitation in the patient's home or vocational environment; (2) Positive effect on some measures on impairment level, no differences on activity or participation levels at follow-up; indicates home-based cognitive training improves some attentional and memory functions and facilitates learning of strategies. |
| Cicerone et al., | Post-acute/chronic moderate-severe TBI ( | (1) Evaluate effectiveness of an intensive cognitive rehabilitation program (ICRP) compared with standard neurorehabilitation (SRP); (2) ICRP participants over twice as likely to show clinical benefit on Community Integration Questionnaire. ICRP participants showed improvement in overall neuropsychological functioning; participants with clinically significant improvement on Community Integration Questionnaire showed greater improvement of neuropsychological functioning. Satisfaction with cognitive functioning made significant contribution to post-treatment community integration. |
| De Wit et al., | Stroke ( | (1) Identify differences in use of time by stroke patients in 4 rehabilitation centers in 4 countries; (2) Patients in Belgium and UK spent more time in passive behavior, in rooms, without any interaction compared with patients in Germany and Switzerland. Latter centers had more structured rehabilitation program. May have resulted in more therapy time, more challenging environment for patients, physically and mentally. |
| Turner-Stokes et al., | Mild-severe ABI; Cochrane review | (1) Assess effects of multi-disciplinary rehabilitation in adults aged 16–65 years; (2) For patients with moderate- severe ABI already in therapy, there was strong evidence that more intensive programmes are associated with earlier functional gains, and “moderate evidence” that continued outpatient therapy could help to sustain gains made in early post-acute rehabilitation. |
| Cicerone et al., | TBI, stroke; review | (1) Update previous evidence-based recommendations of the Brain Injury Interdisciplinary Special Interest Group of the American Congress of Rehabilitation Medicine for cognitive rehabilitation; (2) Consensus that cognitive rehabilitation should focus on reducing disability, helping restore social role functioning, rather than exclusively on remediation of impairments. Most studies evaluated outcome of interventions at impairment level rather than effect on performance of activities or changes in social participation. |
| Zhu et al., | Acute/post-acute moderate-severe TBI ( | (1) Evaluate the effects of an increase in the intensity of rehabilitation on functional outcome; (2) More patients in the high intensity group than in the control group who achieved a maximum FIM total score at the third month and a maximum Glasgow Outcome Scale score at the second and third months. |
| Kleim and Jones, | Healthy adult/TBI; review | (1) Review 10 principles of experience-dependent neural plasticity and considerations in applying them to the damaged brain; (2) Optimism that the nature of brain plasticity can be capitalized upon to improve rehabilitation efforts and to optimize functional outcome. |
| Kennedy et al., | TBI; Systematic review, meta-analysis | (1) Review studies that focused on executive functions of problem solving, planning, organizing and multitasking; (2) Compelling evidence from 10 intervention studies that using step-by-step meta-cognitive strategy instruction improves problem solving, etc. for personally relevant activities or problem situations; Changes more likely to be observed at level of activities and participation in daily living than on standardized tests (i.e., impairment outcomes). |
| Spikman et al., | ABI ( | (1) Evaluate the effects of a treatment for dysexecutive problems on daily life functioning; (2) Experimental patients resumed previous roles significantly more than before treatment. From post-treatment to follow-up, only experimental group showed further improvement over time; DEX showed decrease of executive complaints similar for both groups. On DEX-therapist, significantly less executive problems after treatment for experimental group. Executive abilities observed by professionals improved more in experimental group. |
| Toglia et al., | Chronic moderate TBI ( | (1) Refine, explore and provide preliminary testing of the multi-context approach in promoting strategy use across situations and increasing self-regulation, awareness and functional performance; (2) Participants demonstrated positive changes in self-regulatory skills and strategy use across tasks. Examination of individual participants revealed important, varying patterns of change in strategy use, learning transfer and self-awareness across intervention. |
| Cernich et al., | Review; TBI | (1) Review of available evidence of cognition following TBI; (2) Recommendations: (i) Access to sub-acute rehabilitation that is holistic in nature and involves multi-disciplinary team to in work in an integrated fashion to support physical, cognitive and social skill retraining is vital to support positive outcome following TBI; (ii) Trials of medication to assist with attention, memory impairment appear well-supported by the available evidence; (iii) RCTs demonstrate utility of specific rehabilitation approached to attention retraining and retraining of executive function; (iv) Training in use of supportive devices to support individual's daily activities remains central to independent function. |
| Leon-Carrion et al., | Acute severe TBI ( | (1) Explore the course and timing of functional recovery in patients who have emerged from coma; (2) To achieve a good response and outcome nearing normalcy, a patient needs over 300 h of intensive rehabilitation. |
| Hayden et al., | Acute-chronic mild-severe TBI ( | (1) Evaluate functional improvement after admission to post-acute rehabilitation; (2) Improved functioning after post-acute rehabilitation, regardless of severity of impairment or time since injury to admission to program. Rate of improvement greater for those admitted within 3 months of injury. Individuals with severe impairment demonstrated less improvement when admitted later in time after injury. |
Acute, 0–3 months post-injury; post-acute, 3–12 months post-injury; chronic, greater than 12 months post-injury.
Detailed summary of articles included in “Post-discharge experiences and EE” scoping review.
| Corrigan et al., | Chronic mild-severe TBI ( | (1) Provide population-based estimates of perceived needs following TBI and the prevalence of unmet needs; (2) Many reported still requiring help managing cognitive changes, emotional changes, and managing finances. |
| Staudenmayer et al., | Post-acute severe TBI ( | (1) Determine whether there are specific types of functional deficits that disproportionately affect ethnic minorities after TBI; (2) Minorities demonstrated worse long-term functional outcome, less social and financial resources suggested as related/causal variables. |
| Shafi et al., | Post-acute severe TBI ( | (1) Analyze whether racial or ethnic disparities exist in trauma care, specifically related to access to rehabilitation services and functional outcomes of patients with TBI; (2) Ethnic minorities less likely to be insured; more likely to have moderate- severe disability at follow-up. Data suggest insured patients less likely to be disabled, relationship strongest for private insurance. |
| Till et al., | Post-acute moderate -severe TBI ( | (1) Assess prospectively degree of post-acute long-term cognitive decline after TBI; (2) Amount of therapy received at 5 months post-injury significantly higher in group of non-decliners vs. decliners; individuals who were insured received more hours of therapy after discharge than those not insured. |
| Sander et al., | Post-acute mild-severe TBI ( | (1) Determine contribution of race/ethnicity and income to community integration at approximately 6 months following TBI; (2) After controlling for age, education, injury severity, race/ethnicity, income made a significant contribution to variance in social integration, total score and scores on Belonging and Independent Participation scales of the Community Integral Measure. Lower income was associated with worse community integration. |
| Keightley et al., | TBI, ABI + caregivers ( | (1) Explore barriers and enablers surrounding transition from health care to home community settings for Aboriginal clients recovering from ABI in northwestern Ontario; (2) Lack of awareness, education and resources acknowledged as key challenges to successful transitioning by clients and healthcare providers. |
| Sander et al., | Post-acute mild-severe TBI ( | (1) Investigate meaning of community integration in an ethnically diverse sample; (2) Financial issues, such as home ownership and insufficient funds, were perceived as contributing to decreased participation in the community. |
| Turner et al., | Post-acute mild-severe TBI, ABI + caregivers ( | (1) Explore people's lived experiences of reengagement in meaningful occupations during hospital-to-home transition phase after ABI; (2) Not being able to participate in desired occupations was source of stress and frustration. Many family caregivers reported participation in meaningful occupations was fundamental element of recovery gains. Other key elements: establishing routines or schedules and occupying one's time. Participation in meaningful occupations perceived to enhance functional recovery during transition. |
| Freeman, | Severe TBI; Concept paper | (1) Explore methods used to establish a rehabilitation program in the home, the initial moves, the family dynamics, the advantages, and some of the programs required for the restoration of function of sensory, cognitive and motor abilities; (2) Family environment provides wide variety of activities, which are inclusive of person, guarantees provision of stimulation over a wide spectrum of inputs and activities. |
| Rotondi et al., | Chronic moderate-severe TBI + caregivers ( | (1) Determine expressed needs of persons with TBI and their primary family caregivers; (2) Inadequate preparation of primary support persons and persons who experienced TBI for personality and behavioral sequelae prior to discharge from the hospital appeared to be a common complaint. |
| McCormack and Liddiard, | Chronic severe TBI ( | (1) Examines a model of community rehabilitation; (2) Supportive and effective familial care system and specialist community interdisciplinary rehabilitation was effective in facilitating recovery. |
| Keightley et al., | TBI, ABI + caregivers ( | (1) Explore barriers and enablers surrounding transition from health care to home community settings for Aboriginal clients recovering from ABI in north western Ontario; (2) Lack of awareness, education and resources acknowledged as key challenges to successful transitioning by clients and healthcare providers. |
| Sander et al., | Post-acute mild-severe TBI ( | (1) Investigate meaning of community integration in an ethnically diverse sample; (2) Feeling integrated into the community relates to aspects of the environment as much as to involvement in specific activities. |
| Turner et al., | Post-acute mild-severe TBI, ABI + caregivers ( | (1) Explore service and support needs of individuals with ABI and family caregivers during transition phase from hospital to home; (2) Individuals with ABI experience a range of service and support needs during the early transition phase, many of which are currently unmet. Findings also indicated that support for family caregivers and access to early community rehabilitation were the two areas in which participants most commonly reported experiencing unmet needs. |
| Rusconi and Turner-Stokes, | Post-acute/chronic TBI, ABI, SCI ( | (1) Evaluate aftercare of patients discharged from specialist rehabilitation unit with respect to use of equipment and follow-up by therapy and care services and to assess change in dependency and care needs; (2) Many patients observed they were ill-prepared for sudden change from an intensive therapy programme on unit to a much less frequent and more self-reliant programme in community. |
| Rittman et al., | Post-acute stroke + caregivers ( | (1) Evaluate the transition from hospital to home during the first month after discharge following acute stroke; (2) When routines are not re-established, survivors and caregivers experience more chaos, disruption during the transition. When talking about ways days are spent, most survivors describe problems with boredom and not having meaningful activities in their lives. |
| Turner et al., | Chronic TBI, ABI + caregivers ( | (1) Explore transition experiences from hospital to home of a purposive sample of individuals with ABI; (2) Many participants found it difficult to locate and access suitable post-discharge therapy services. Friendship and social networks played important role during transition process. Post-discharge boredom, particularly during first 1–2 months at home, commonly expressed. |
| Turner et al., | Post-acute mild-severe TBI, ABI + caregivers ( | (1) Explore people's lived experiences of reengagement in meaningful occupations during hospital-to-home transition phase after ABI; (2) Not being able to participate in desired occupations was source of stress, frustration for many participants. Many family caregivers reported participation in meaningful occupations was fundamental element of recovery gains. Other key elements of transition success included establishing routines or schedules and occupying one's time. Results demonstrated participation in meaningful occupations was perceived to enhance functional recovery during transition; underscores importance of encouraging and facilitating participation in meaningful occupations. |
| Hoogerdijk et al., | Chronic mild-severe TBI ( | (1) Better understand how individuals with TBI make sense of adaptation process and their performance of occupations within this process; (2) Results indicate adaptation process following TBI is a necessary struggle to gain new identity; facilitated by engagement in familiar occupations in familiar environments; a protracted learning process that continues long after rehabilitation ends; individual, situated. |
| Turner et al., | Post-acute mild-severe TBI, ABI + caregivers ( | (1) Explore perspectives of individuals with ABI and their family caregivers concerning recovery and adjustment during the early transition phase from hospital to home; (2) Findings highlight that while returning home was typically perceived to facilitate ongoing recovery, process of adjusting emotionally to life at home posed significant challenge for many participants during transition phase. |
| Nalder et al., | Post-acute moderate -severe TBI + caregivers ( | (1) Identify factors associated with perceived success of transition from hospital to home after TBI; (2) Greater perceived success of transition associated with higher levels of health-related quality of life, level of community integration, more severe injury. Sentinel events (e.g., returning to work, independent community access, changing living situation) associated with greater perceived success; financial strain, difficulty accessing therapy services associated with less success. |
| Nalder et al., | Post-acute moderate -severe TBI + caregivers ( | (1) Describe timing and factors associated with occurrence of sentinel events (financial strain, difficulty accessing therapy, return to work, accommodation change and independent transport use) during transition to community for individuals with TBI; (2) General positive sentinel events (e.g., regaining independence, returning to work) more likely experienced by individuals with higher levels of global functioning and psychosocial integration. Individuals with lower levels of functioning at greater risk of experiencing more negative sentinel events (e.g. financial strain). Individuals with more severe injury and poorer adjustment more likely to report difficulty accessing therapy. |
Acute, 0–3 months post-injury; post-acute, 3–12 months post-injury; chronic, greater than 12 months post-injury.