14 research outputs found
Improving uptake of perinatal autopsy
PURPOSE OF REVIEW: Uptake of perinatal autopsy has declined in the West over the past 30 years, largely because of reduced parental acceptance of a traditional invasive autopsy. Several studies have recently investigated the decline to identify the key factors and how they may be mitigated. RECENT FINDINGS: Three main themes were identified that have been found to improve uptake of perinatal autopsy: improved communication, in particular ensuring the consent process was conducted as a conversation with time spent talking through the procedure and allowing time for questions; health professional training to ensure staff discussing autopsy with parents have adequate understanding of the procedure and are able to convey confidence and empathy; and availability of less invasive autopsy, including noninvasive as well as minimally invasive options. These should be offered alongside standard autopsy, which some parents may still prefer. SUMMARY: This review highlights that the discussions that take place, and the options that are available to parents, can profoundly impact whether or not they consent to autopsy investigation. Further research should focus on the impact of offering less invasive options as well as evaluating the training and support materials that have recently been developed
Human fetal whole-body postmortem microfocus computed tomographic imaging
Perinatal autopsy is the standard method for investigating fetal death; however, it requires dissection of the fetus. Human fetal microfocus computed tomography (micro-CT) provides a generally more acceptable and less invasive imaging alternative for bereaved parents to determine the cause of early pregnancy loss compared with conventional autopsy techniques. In this protocol, we describe the four main stages required to image fetuses using micro-CT. Preparation of the fetus includes staining with the contrast agent potassium triiodide and takes 3–19 d, depending on the size of the fetus and the time taken to obtain consent for the procedure. Setup for imaging requires appropriate positioning of the fetus and takes 1 h. The actual imaging takes, on average, 2 h 40 min and involves initial test scans followed by high-definition diagnostic scans. Postimaging, 3 d are required to postprocess the fetus, including removal of the stain, and also to undertake artifact recognition and data transfer. This procedure produces high-resolution isotropic datasets, allowing for radio-pathological interpretations to be made and long-term digital archiving for re-review and data sharing, where required. The protocol can be undertaken following appropriate training, which includes both the use of micro-CT techniques and handling of postmortem tissue
Less-invasive autopsy for early pregnancy loss
Autopsy investigations provide valuable information regarding fetal death that can assist in the parental bereavement process, and influence future pregnancies, but conventional autopsy is often declined by parents because of its invasive approach. This has led to the development of less-invasive autopsy investigations based on imaging technology to provide a more accessible and acceptable choice for parents when investigating their loss. Whilst the development and use of more conventional clinical imaging techniques (radiographs, CT, MRI, US) are well described in the literature for fetuses over 20Â weeks of gestational age, these investigations have limited diagnostic accuracy in imaging smaller fetuses. Techniques such as ultra-high-field MRI (>3T) and micro-focus computed tomography have been shown to have higher diagnostic accuracy whilst still being acceptable to parents. By further developing and increasing the availability of these more innovative imaging techniques, parents will be provided with a greater choice of acceptable options to investigate their loss, which may in turn increase their uptake. We provide a narrative review focussing on the development of high-resolution, non-invasive imaging techniques to evaluate early gestational pregnancy loss
Micro-CT yields high image quality in human fetal post-mortem imaging despite maceration
Background
Current clinical post-mortem imaging techniques do not provide sufficiently high-resolution imaging for smaller fetuses after pregnancy loss. Post-mortem micro-CT is a non-invasive technique that can deliver high diagnostic accuracy for these smaller fetuses. The purpose of the study is to identify the main predictors of image quality for human fetal post-mortem micro-CT imaging.
Methods
Human fetuses were imaged using micro-CT following potassium tri-iodide tissue preparation, and axial head and chest views were assessed for image quality on a Likert scale by two blinded radiologists. Simple and multivariable linear regression models were performed with demographic details, iodination, tissue maceration score and imaging parameters as predictor variables.
Results
258 fetuses were assessed, with median weight 41.7 g (2.6–350 g) and mean gestational age 16 weeks (11–24 weeks). A high image quality score (> 6.5) was achieved in 95% of micro-CT studies, higher for the head (median = 9) than chest (median = 8.5) imaging. The strongest negative predictors of image quality were increasing maceration and body weight (p < 0.001), with number of projections being the best positive imaging predictor.
Conclusions
High micro-CT image quality score is achievable following early pregnancy loss despite fetal maceration, particularly in smaller fetuses where conventional autopsy may be particularly challenging. These findings will help establish clinical micro-CT imaging services, addressing the need for less invasive fetal autopsy methods
A pragmatic evidence-based approach to post-mortem perinatal imaging
Post-mortem imaging has a high acceptance rate amongst parents and healthcare professionals as a non-invasive method for investigating perinatal deaths. Previously viewed as a 'niche' subspecialty, it is becoming increasingly requested, with general radiologists now more frequently asked to oversee and advise on appropriate imaging protocols. Much of the current literature to date has focussed on diagnostic accuracy and clinical experiences of individual centres and their imaging techniques (e.g. post-mortem CT, MRI, ultrasound and micro-CT), and pragmatic, evidence-based guidance for how to approach such referrals in real-world practice is lacking. In this review, we summarise the latest research and provide an approach and flowchart to aid decision-making for perinatal post-mortem imaging. We highlight key aspects of the maternal and antenatal history that radiologists should consider when protocolling studies (e.g. antenatal imaging findings and history), and emphasise important factors that could impact the diagnostic quality of post-mortem imaging examinations (e.g. post-mortem weight and time interval). Considerations regarding when ancillary post-mortem image-guided biopsy tests are beneficial are also addressed, and we provide key references for imaging protocols for a variety of cross-sectional imaging modalities
Investigation of optimal sample preparation conditions with potassium triiodide and optimal imaging settings for microfocus computed tomography of excised cat hearts
OBJECTIVE:
To determine optimal sample preparation conditions with potassium triiodide (I2KI) and optimal imaging settings for microfocus CT (micro-CT) of
excised cat hearts.
SAMPLE
7 excised hearts (weight range, 10 to 17.6 g) obtained from healthy adult
cats after euthanasia by IV injection of pentobarbital sodium.
PROCEDURES:
Following excision, the hearts were preserved in 10% formaldehyde solution. Six hearts were immersed in 1.25% I2KI solution (n = 3) or 2.5% I2KI
solution (3) for a 12-day period. Micro-CT images were acquired at time 0
(prior to iodination) then approximately every 24 and 48 hours thereafter
to determine optimal sample preparation conditions (ie, immersion time
and concentration of I2KI solution). Identified optimal conditions were then
used to prepare the seventh heart for imaging; changes in voltage, current, exposure time, and gain on image quality were evaluated to determine
optimal settings (ie, maximal signal-to-noise and contrast-to-noise ratios).
Images were obtained at a voxel resolution of 30 mm. A detailed morphological assessment of the main cardiac structures of the seventh heart was
then performed.
RESULTS:
Immersion in 2.5% I2KI solution for 48 hours was optimal for sample preparation. The optimal imaging conditions included a tube voltage of 100 kV,
current of 150 mA, and exposure time of 354 milliseconds; scan duration
was 12 minutes.
CONCLUSIONS AND CLINICAL RELEVANCE:
Results provided an optimal micro-CT imaging protocol for excised cat
hearts prepared with I2KI solution that could serve as a basis for future
studies of micro-CT for high resolution 3-D imaging of cat hearts
Post-mortem micro-CT for non-invasive autopsies: Experience in > 250 human fetuses
BACKGROUND: Non-invasive 'imaging' autopsy alternatives for fetuses weighing <500g are limited. Micro-CT has been reported as a viable option in small case series with the potential to avoid an invasive autopsy. Implementation of post-mortem micro-CT in a large cohort, as part of routine clinical service has yet been unreported and realistic 'autopsy prevention rates' are unknown. OBJECTIVE: To describe the range of abnormalities detectable on fetal micro-CT in a clinical setting, additional findings identified over the antenatal ultrasound, and to estimate the invasive 'autopsy avoidance rate' (i.e. cases where imaging was sufficient to deem autopsy unnecessary). STUDY DESIGN: A prospective observational case series was conducted over 3 years (2016 - 2019), of all fetuses referred for micro-CT imaging at a single institution. Imaging was reported by two paediatric radiologists prior to autopsy, with "decision to proceed" based on specialist perinatal pathologists' judgement and parental consent. Agreement rates between micro-CT and antenatal ultrasound were evaluated, and where feasible, diagnostic accuracy for micro-CT was calculated using autopsy as reference standard. RESULTS: 268 fetuses were included (2-350g weight; 11 - 24 weeks gestation), with cause for demise in 122/268 (45.5%). Of these, 64/122 (52.5%) demonstrated fetal anomalies. Although 221/268 (82.5%) had consent for invasive autopsy, only 29/221 (13.1%) underwent this procedure giving an 'autopsy avoidance rate' of 192/221 (86.9%). Complete agreement was present for all brain, thoracic and abdominal pathologies, whilst sensitivity and specificity for cardiac anomalies were 66.7% and 91.7% respectively. Micro-CT and antenatal ultrasound agreement was found in 219/266 (81.9%) cases, with partial agreement in 21/266 (7.9%) and disagreement in 26/266 (10.5%), mostly due to additional cardiac, soft tissue or genito-urinary findings by micro-CT, not seen at ultrasound. CONCLUSIONS: Fetal micro-CT imaging is a viable and useful tool for imaging early gestational fetuses, and can avoid the need for invasive autopsy. Confirmation of antenatal diagnoses are achieved in the majority, and additional anomalies may also be detected
Early clinical applications for imaging at microscopic detail: microfocus computed tomography (micro-CT)
Microfocus CT (micro-CT) has traditionally been used in industry and preclinical studies, although it may find new applicability in the routine clinical setting. It can provide high-resolution three-dimensional digital imaging data sets to the same level of detail as microscopic examination without the need for tissue dissection. Micro-CT is already enabling non-invasive detailed internal assessment of various tissue specimens, particularly in breast imaging and early gestational fetal autopsy, not previously possible from more conventional modalities such as MRI or CT. In this review, we discuss the technical aspects behind micro-CT image acquisition, how early work with small animal studies have informed our knowledge of human disease and the imaging performed so far on human tissue specimens. We conclude with potential future clinical applications of this novel and emerging technique
Shape Analysis and Computational Fluid Simulations to Assess Feline Left Atrial Function and Thrombogenesis
In humans, there is a well-established relationship between atrial fibrillation (AF), blood flow abnormalities and thrombus formation, even if there is no clear consensus on the role of left atrial appendage (LAA) morphologies. Cats can also suffer heart diseases, often leading to an enlargement of the left atrium that promotes stagnant blood flow, activating the clotting process and promoting feline aortic thromboembolism. The majority of pathological feline hearts have echocardiographic evidence of abnormal left ventricular filling, usually assessed with 2D and Doppler echocardiography and standard imaging tools. Actually, veterinary professionals have limited access to advanced computational techniques that would enable a better understanding of feline heart pathologies with improved morphological and haemodynamic descriptors. In this work, we applied state-of-the-art image processing and computational fluid simulations based on micro-computed tomography images acquired in 24 cases, including normal cats and cats with varying severity of cardiomyopathy. The main goal of the study was to identify differences in the LA/LAA morphologies and blood flow patterns in the analysed cohorts with respect to thrombus formation and cardiac pathology. The obtained results show significant differences between normal and pathological feline hearts, as well as in thrombus vs non-thrombus cases and asymptomatic vs symptomatic cases, while it was not possible to discern in congestive heart failure with thrombus and from non-thrombus cases. Additionally, in-silico fluid simulations demonstrated lower LAA blood flow velocities and higher thrombotic risk in the thrombus cases