key: cord-0019588-flv4lboo authors: Lee, Keng Siang; Yordanov, Stefan; Stubbs, Daniel; Edlmann, Ellie; Joannides, Alexis; Davies, Benjamin title: Integrated care pathways in neurosurgery: A systematic review date: 2021-08-02 journal: PLoS One DOI: 10.1371/journal.pone.0255628 sha: 0c564acecaf85729c7666c9c222962947cff10a8 doc_id: 19588 cord_uid: flv4lboo INTRODUCTION: Integrated care pathways (ICPs) are a pre-defined framework of evidence based, multidisciplinary practice for specific patients. They have the potential to enhance continuity of care, patient safety, patient satisfaction, efficiency gains, teamwork and staff education. In order to inform the development of neurosurgical ICPs in the future, we performed a systematic review to aggregate examples of neurosurgical ICP, to consider their impact and design features that may be associated with their success. METHODS: Electronic databases MEDLINE, EMBASE, and CENTRAL were searched for relevant literature published from date of inception to July 2020. Primary studies reporting details of neurosurgical ICPs, across all pathologies and age groups were eligible for inclusion. Patient outcomes in each case were also recorded. RESULTS: Twenty-four studies were included in our final dataset, from the United States, United Kingdom, Italy, China, Korea, France, Netherlands and Switzerland, and a number of sub-specialties. 3 for cerebrospinal fluid diversion, 1 functional, 2 neurovascular, 1 neuro-oncology, 2 paediatric, 2 skull base, 10 spine, 1 for trauma, 2 miscellaneous (other craniotomies). All were single centre studies with no regional or national examples. Thirteen were cohort studies while 11 were case series which lacked a control group. Effectiveness was typically evaluated using hospital or professional performance metrics, such as length of stay (n = 11, 45.8%) or adverse events (n = 17, 70.8%) including readmission, surgical complications and mortality. Patient reported outcomes, including satisfaction, were evaluated infrequently (n = 3, 12.5%). All studies reported a positive impact. No study reported how the design of the ICP was informed by published literature or other methods CONCLUSIONS: ICPs have been successfully developed across numerous neurosurgical sub-specialities. However, there is often a lack of clarity over their design and weaknesses in their evaluation, including an underrepresentation of the patient’s perspective. a1111111111 a1111111111 a1111111111 a1111111111 a1111111111 Integrated care pathways (ICPs) are a pre-defined framework of evidence based, multidisciplinary practice for specific patients. They aim to ensure patients move more effectively through a clinical experience [1] . lCPs outline care processes for the management of a specific condition [2] . As such they can define the patient's journey through a bounded health system and may, in certain disciplines, transcend organisational boundaries. Their overall aim is to ensure delivery of timely and efficient care to maximise patient outcomes. ICP can thus seamlessly integrate evidence-based practice into day-to-day care, whilst providing a framework for ongoing clinical audit. Process steps within an ICP may be incorporated for other reasons including to mitigate points of system risk and ensure continuity of care, patient safety and satisfaction, efficiency gains, teamwork, and staff education [3] [4] [5] . ICPs are therefore best suited, to well defined patient populations with common and consistent care requirements [6, 7] . A well-known example driven by clear national guidance is the care framework for patients with a fractured neck of femur. Local adoption of such processes has been shown to reduce morbidity and mortality as well as hospital length of stay [8, 9] . Due to the success of such initiatives, national reporting infrastructures such as the National Hip Fracture Database (NHFD) have been created to enable ongoing audit and facilitate payment of a best-practice-tariff [10] . Despite the impact of this framework its development was not reached in a systematic way but an increasing body of literature advocates for the coordinated design and engineering of healthcare systems in order to minimise risk and improve outcomes, with such a 'systems approach' endorsed by various medical royal colleges [11] [12] [13] . The overarching aim of this study is to identify how ICPs have been employed in neurosurgery for patients of any age. In so doing we will identify: • The areas of neurosurgical practice where ICPs have been adopted • To identify the impact of ICPs in published studies and the criteria by which this is judged • Identify how ICPs were developed • Identify common themes across ICPs that may be related to successful ICP adoption. To the best of our knowledge this is the first systematic review to aggregate published data on ICPs for neurosurgical diseases. This review was conducted in accordance to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines (S1 Checklist) [14] . PROSPERO registration was obtained (registration number CRD42020199650). A search string was developed to identify original research studies reporting ICPs in neurosurgery (see S1 Table) . The following databases were searched on the 20 th July 2020: Ovid Medline, Embase and Cochrane Central Register of Controlled Trials (CENTRAL). The medical literature is inconsistent over the core or minimum features of an ICP. Multiple synonyms-clinical pathways, critical pathways, care maps, care protocols, and multidisciplinary plans-have been used [15] . One review identified 84 different definitions for ICPs in a Medline search between 2000 and 2003 [15] . For the purposes of this systematic review, an ICP was defined in accordance with the definition developed by the European Pathway Association (EPA) [6] . This definition has been used in other reviews of ICPs [16, 17] . From this definition, key characteristics of an ICP must include: 1. An explicit statement of the goals and key elements of care based on evidence, best practice and patient expectations. And should include: 2. The facilitation of communication, coordination of roles, and sequencing of activities of the multidisciplinary care team, patients and their relatives. Whilst enabling: 3. The documentation, monitoring, and evaluation of variances and outcomes. 4. The identification of the appropriate resources. All titles and abstracts were independently screened by two reviewers (KSL and SY) against a set of pre-defined eligibility criteria (S2 Table) . Potentially eligible studies were selected for full-text analysis. Disagreements were resolved by consensus or appeal to a third senior reviewer (BD). Agreement among the reviewers on study inclusion was evaluated using Cohen's kappa [18] . All original studies reporting the details of the ICPs and outcomes of patients with any neurosurgical disease were included in our systematic review. Case series were included. Studies of small sample sizes were included per recommendations by the Cochrane Statistical Methods Group and in accordance with methodologies of previously published meta-analyses [19] [20] [21] . Other exclusion criteria included non-English articles, non-original research papers, laboratory-based and epidemiological studies, and non-human research subjects as these were deemed to not provide relevant information needed in this paper (see S2 Table) . If data from the same patient population was published several times or overlaps in more than one article from the same institution, the publication that reported the largest sample size data was selected. Risk of bias assessment. The quality of included studies was assessed using the Joanna Briggs Institute (JBI) checklist for non-randomised experimental studies [22] . Full details are in S3 Table (S3 Table) . In summary, these tools rated the quality of selection, measurement and comparability for all studies and gave a score for experimental studies (maximum of 9) and case series (maximum of 10). Two researchers (KSL and SY) assessed the quality of all included studies and discussed discrepancies until consensus was reached. Data were extracted on the following variables: study details, sample size, patient demographics, type of neurosurgical diseases ICP was used for, components of ICP, outcome measures, factors for success/failure of ICP. Data were organised and tabulated to allow inspection and investigation of patterns within the data. Given their heterogeneity, formal meta-analysis of studies was not possible. Data is therefore reported narratively, with descriptive statistics only. Number of articles screened and selected for inclusion are shown in Fig 1. Using the designated search terms, a total of 1769 unique articles were identified and 24 were included in the final dataset . Reliability of study selection between observers was substantial at both the title and abstract screening stage (Cohen's κ = 0.79) and the full-text review stage (Cohen's κ = 0.87) [18] . The characteristics of the studies are shown in Table 1 . Thirteen studies were from the United States (US), five from the United Kingdom (UK), and one each from China, Korea, Italy France, Netherlands and Switzerland. Sub-specialities represented in these studies included skull base, neurovascular, neuro-oncology, and spinal neurosurgery. These are shown graphically in Fig 2. All studies were non-randomised. We included 13 cohort studies with a control group and 11 case series without a control group. All 13 cohort studies [23] [24] [25] [26] [27] [28] [29] [30] [31] [32] [33] [34] [35] , attained a score of 9 out of 11 on the JBI checklist for cohort studies (see S3 Table) , whilst 10 of the 11 case series [36] [37] [38] [39] [40] [41] [42] [43] [44] [45] [46] , attained a full score of 10 on the JBI checklist for case series, with one study scoring 8 (S4 Table) . We observed that the majority of the primary studies (18 of 24 (75%)) included were published from year 2010 onwards. Fig 3 illustrates this trend, with a rise in cohort studies (comparator design) and case series (no comparator) published. Eligible participants for inclusion in this systematic review were patients in secondary and tertiary care settings which includes the coordination and continuity of healthcare as patients transfer between different locations or different levels of care. A total of 8128 patients (median number of participants per study: 125, 17-3693) were included and 6345 were exposed to the ICP. Of these, mean ages ranged from 42 to 75.9±7.4 years. The interventions had been developed locally for a range of purposes, in either hospital secondary or tertiary settings: improving service coordination, increasing service efficiency, supporting practice change, improving patient outcomes, ensuring adherence to best practice guidelines. Most had been implemented in order to achieve multiple aims ( Table 2 ). The ICPs were considered a complex intervention [47] [48] [49] , as they comprise a number of separate essential elements. None of the studies included in the review were underpinned by explicit theories of ICPs' active ingredients or their generative effects. Moreover, the information provided on ICP development and implementation processes was varied and in no case was any evidence Integrated care pathways in neurosurgery provided for the selection of any ICP component of the intervention to be assessed. In several cases it was possible to make inferences about authors' implicit assumptions. Only 10 of the 25 ICPs were presented in detail as a flow diagram figure. The interventions described by the studies in the review varied in terms of their key components which we summarise in Table 3 , using the definition developed by the European Pathway Association (EPA) [6] . Hence, we were also unable to meet our objectives of defining 'active ingredients' (setting, context, and population) for ICPs to be successful or factors contributing to the ineffectiveness of ICPs. We identified an extensive range of outcomes (Table 2 ). These outcome measures were considered and categorised into three main areas: those relating to the patient, those relating to personnel working experience and finally those relating to system. The most frequently measured patient outcomes were complications (n = 9), readmission rates (n = 5), discharge destinations (n = 5) need for medication/devices/social services (n = 4), mortality (n = 3), patient satisfaction (n = 3), functional outcomes (n = 3), return to independence (n = 3), duration of surgery (n = 3). Patient satisfaction was measured subjectively via phone survey (n = 3). Other reported patient outcomes included need for repeat surgery (n = 2), morbidity (n = 2) and patient/family education (n = 1). Professional outcomes such as team satisfaction and communication were not reported in the included studies. Length of stay (LOS) (n = 11) was the most commonly used indicator for system level outcomes. Other system level indicators reported were timeliness/avoidable delays to care or assessment (n = 4), costs (n = 3), and finally pathway compliance and variance (n = 2) Three studies reported the function of ICP related to CSF flow pathologies, although relating to different parts of the patient journey [28, 36, 39] . Two were case series without a control group [36, 39] , and one was a cohort study [28] . Two studies used ICPs in the setting of suspected shunt malformation. Akhunbay-Fudge et al. evaluated the use of an assessment pathway utilising a digital retinal camera system to assess for papilloedema remotely but reported no outcome measures [36] . Chern et al. designed a cohort study to evaluate the fast track preoperative protocol where eligible patients at risk of shunt failures entered the ICP for further workup [28] . The ICP was compared with preprotocol periods as control. Outcome metrics to evaluate its effectiveness included admission rate, LOS, need for repeat shunt surgery, and timeliness. Allali et al. determined the feasibility of a protocol using cognitive and gait quantification to identify normal pressure hydrocephalus in elderly patients, distinguishing it from its mimics such as Parkinson's disease or vascular dementia [39] . Functional. The use of ICP in functional neurosurgery was reported in one case series. Cohen et al. evaluated the effectiveness of a multidisciplinary rehabilitation model for Parkinson's disease patients who had undergone DBS. Outcome was assessed using 'return to independence' as judged by the Functional Independence Measure (FIM) and Unified Parkinson's Disease Rating Scale (UPDRS) scores [41] . Neuro-oncology. Wang et al. established a neurosurgical enhanced recovery after surgery (ERAS) programme in a Chinese tertiary care medical centre, for patients undergoing elective craniotomy for primary brain tumours [35] . This ERAS protocol appeared to have significant benefits over its comparator-conventional perioperative management. Outcome measures Table 3 . ICP checklist regarding implementation, reporting and delivery. Define aim/problem to address and set objectives (goals) in the beginning. State field or subspecialty (e.g. neurovascular surgery, tumour surgery, spinal surgery etc.) Yes No Define areas of improvement (may include more than one) e.g. clinical outcomes, facilitation of communication (patient-clinician or clinician-family, or both), cost-savings, educational, etc. Define element of patient care pathway that is addressed e.g. pre-operative, post-operative, full patient journey, diagnostic, follow up, etc. Details of the process of ICP development and implementation maturity e.g pilot, under review/ investigation, implemented etc. Define choice of evidence in use to support decision making (best practice, best evidence, expert advise, etc) Yes were adverse events (30 day readmission rates, both surgical and non-surgical complications, LOS, morbidity, mortality), functional recovery and patient satisfaction. Neurovascular. Two cohort studies reported the function of ICP related to neurovascular surgery [24, 33] . Bapat and colleagues, together with a multidisciplinary team of neurosurgeons, neuroanaesthetists and rehabilitation therapists developed a ICP for elderly patients with chronic subdural haemorrhage (CSDH), to enhance preoperative optimisation and reduce time to surgery [24] . Outcome metric assessed and reported were adverse events (LOS, complications, mortality, recurrence), discharge destinations, timing of surgery, use of anticoagulant of antiplatelet agents. Pritchard et al. assessed the cost effectiveness of an enhanced Specialist Liaison Nurse (SLN) service which sought to reduce dysfunctional psychosocial stress in sufferers of aneurysmal subarachnoid haemorrhage (aSAH) [33] . The only outcome measure was cost effectiveness. Paediatric. The use of ICP function neurosurgery was reported in one case series, 4 and one cohort study [31] . Aldana and colleagues set up a comprehensive multidisciplinary clinic to better assess spinal defects such as meningocoele, myelocystocoele spina bifida occulta syringomyelia amongst many others [38] . Outcome measures were parents' knowledge of child's medical condition, care plans, need for medical and prosthetic devices, reduction in physician and allied health care contacts, and transportation costs. Kurlander et al. performed a cohort study to assess quality improvement blood conservation protocol for craniosynostosis [31] . It resulted in a 66% transfusion-free rate at time of discharge compared to 0% in the group without any conservation protocol. Skull base. Two cohort studies reported the function of ICP related to postoperative management following transsphenoidal surgery for sellar lesions [25, 27] . Common outcome measures reported in these skull base studies were readmission, surgical and endocrinological complications, LOS, postoperative inpatient sodium levels, and need for preoperative or postoperative hydrocortisone. Spine. Ten studies reported the function of ICP related to spinal surgeries for lumbar pathologies or adult scoliosis [23, 29, 32, 34, 40, [42] [43] [44] [45] [46] . Four involved a control group whereas six were case series. The specific interventions regarding the pathways described in the included studies showed considerable variation. The studies mainly focused on ICPs for surgical care or perioperative phase in order to guide surgical management and reduce its delay, whilst one study investigated pain management. Common outcome measures reported complications, ICU admission, delays to assessment MRI report, duration of surgery, estimated blood loss, LOS, costs, return to dependence and ADL, patient satisfaction (assessed by phone survey), destination after discharge, ICP compliance and variance pattern. Trauma. Jin et al. introduced a streamlined workflow concept that included direct computed tomography (CT) scanning in the trauma room in patients with severe traumatic brain injury (TBI) [30] . The cohort study measured TBI related mortality and functional outcomes. To the best of our knowledge, this is the first systematic review to identify and assess ICPs for neurosurgical diseases. Twenty-four original articles were identified across a range of neurosurgical pathologies and settings. All ICP were based on a single centre experience and 13 of 24 compared practice before and after adoption, to evaluate added benefit. Few studies utilised patient perspective in their evaluation, preferring often isolated performance metrics such as length of hospitalisation. Approaches to the design and iteration of ICPs upon implementation were not reported. ICPs are considered a road map for care, which rely on multi-disciplinary involvement such as doctors, nurses, physiotherapists and occupational therapists, and other healthcare professionals. ICPs aim to improve quality and efficiency. They have been adopted in a variety of health care specialties and settings often with positive results, as seen in orthopaedics [3] [4] [5] 8] . ICPs are therefore likely to benefit Neurosurgery given its requirements for multi-disciplinary cooperation both within a tertiary centre but also across a region. The examples identified in this review indicate their relevance and value across sub-specialities of Neurosurgery, for example to ensure patients receive relevant clinical assessments or interventions in a timely and efficient fashion, to reduce variation in practice or readmissions, and improve length of stay and patient satisfaction. Reassuringly this review also demonstrate clinicians are increasingly engaged in initiatives to improve the delivery of care through the redesign of existing services [3] [4] [5] 50] , including the use of ICPs as seen in Fig 3. However, there were notable omissions both in the design and evaluation of identified studies. For example, the identified ICP focus on service delivery by the tertiary centre, and do not incorporate regional care pathways, which will be relevant in the delivery of an emergency tertiary service for example. Furthermore, there is an underrepresentation of the patient voice in these included studies. We identified surprisingly little evidence regarding the impact of ICPs on patient experiences of services, beyond measures of reported patient satisfaction. Measurement of patient satisfaction were limited only to phone surveys which may be highly subjected to detection bias. Outcome measures such as LOS may be effective surrogates, but any such use should follow their validation. As highly complex interventions, ICP challenge linkage of particular elements of initiatives to effects [47] [48] [49] , and these aforementioned omissions limit the thorough evaluation of reported ICPs, and potentially their wider adoption. Process evaluation of ICPs is complex and requires a combination of quantitative and qualitative methods to inform policy and practice [51] . Whilst RCTs are considered a gold-standard, their delivery in this setting is more difficult as interventions are often multifaceted and harder to separate between arms [52] . Variants including cluster randomised or step-wedge trials are potential alternatives [53] . The UK Medical Research Council guidance [47] [48] [49] , outlines that evaluation requires good working relationships with all stakeholders involved in ICP development. Problems that are identified during implementation can be adjusted, as per a quality improvement process, but not at the point at which the ICP is being evaluated [54] . Active correction is therefore more appropriate at the development or feasibility trial stage [55] . The MRC recommendations also include the development and evaluation of for complex interventions through iterative phases, to ensure the relevance of each intervention [47] [48] [49] . An ICP should therefore be a work in progress that can be further improved on through repeated quality improvement cycles [56] . The use of pre-specified targets and timepoints for evaluation, including a control group for comparison, may allow a team to know if the project goals have been achieved and consider what interventions to retain, improve, or discard in future cycles of ICP development [57] [58] [59] . Reflecting on the data omissions in this review and the implications for study interpretation, a reporting framework would be of benefit [60, 61] . Table 3 outlines a proposed checklist for Neurosurgical ICPs regarding its implementation, reporting and delivery based on wider experience and findings in this review [16, 17] . This checklist is intentionally generic, representing a minimum set of critically important outcomes to report in all studies evaluating the introduction and evaluation of ICPs and should not restrict investigators in their reporting of additional relevant outcomes. In future, this could be further refined by a Delphi consensus of various stakeholders-neurosurgeons, radiologists, oncologists, nurses, allied healthcare professionals, health-economists. This review employed a pre-specified, registered protocol and variations to the protocol have been explicitly stated. The literature search was comprehensive, identifying relevant studies from three databases, and the reporting of this review follows PRISMA guidelines [14] . Limitations of this review are that we were only able to include publications written in English, due to resource constraints. However, international publications were included which may reduce selection bias. We also acknowledge a potential issue of publication bias, with studies reporting fewer positive outcomes almost certainly underrepresented in the review. Further well established ICPs such as the metastatic cord compression and head injury pathways, published by the UK National Institute for Health and Care Excellence (NICE) were not identified using the literature database searches [62, 63] . NICE pathways are not indexed on the academic databases we searched as their recommendations are generally formed using expert consensus based on available evidence, and adoption or effectiveness not routinely evaluated in scientific papers. An awareness that national ICPs exist supports but would not have changed the result of this SR. We highlight the challenges inherent when defining models of integrated care, given the lack of agreed definition and clear boundaries to the term. This limitation may have resulted relevant work being excluded from this review. During the selection of studies, it was particularly challenging to discern between new models of care that are 'integrated' from those that are not, as numerous terms were used interchangeably to describe the management of clinical care processes within the literature. However, rigorous and blinded screening, together with consensus discussion helps to mitigate this issue. ICPs in Neurosurgery have been developed and may have a beneficial role in neurosurgical care. However, examples so far are limited to single institutions, have an uncertain development process and longer-term legacy, whilst appear to lack patient perspective both in design and evaluation. This limits firm conclusions on its effectiveness. Moreover, evaluation has used an audit change cycle, precluding evaluation of single measures (if complex interventions) and open to performance bias. Experiences from parallel fields, suggest these areas must be overcomed, to ensure a generalisable and sustainable ICP. 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