Baryon breakdown in black hole

According to relativity theory, a black hole is a distinct region in spacetime; according to astronomical observations, it is a celestial body transforming matter into high-energy jets. We propose that a black hole is, indeed, a star, where particles transform into photons through a specific nuclear reaction, besides radiative accretion disk processes. Our reasoning draws from statistical physics of open quantized systems. The many-body theory describes elementary particles comprising quanta of actions and their reactions as conversions of matter-bound quanta into vacuum quanta. The proposed transformation details the annihilation of neutrons into gamma rays. This reaction, characteristic of a black hole, begins when the strength of gravitation exceeds the strength of the strong force. Then gluons detach from quarks and attach to surrounding high-energy quanta of the gravitational field. Without gluons, the tightly packed neutrons cannot hold up their SU(3) symmetry. The tetrahedral structures flatten out so that quarks of opposite charges end up pairwise on top of each other and annihilate into rays of light quanta as electrons and positrons do. Finally, the quanta jet out along the black hole spinning axis, where the gravitation due to the collapsing core gives in most. Over the eons, these episodic effluxes from a precessing supermassive black hole amass into Fermi bubbles.Peer reviewe

Quantification of MRI-derived myocardial motion in specified cardiac disorders

Several cardiac diseases affect myocardial function, with local myocardial deformation receiving much attention over the past few years. This work aimed to examine whether globally and locally analyzed quantitative cardiovascular magnetic resonance imaging-derived strain, rotation, and torsion of the heart would bring additional value and deeper understanding to myocardial mechanics in specified cardiovascular disorders. Patients with rheumatoid arthritis, tetralogy of Fallot, hereditary gelsolin amyloidosis, and hypertrophic cardiomyopathy, together with healthy controls, were investigated. A non-rigid registration-based software solution for myocardial tagging and feature tracking analysis was used for the quantification of left ventricular and right ventricular global and regional strain in different directions. Quantitative motion analysis showed that early treatment of rheumatoid arthritis was useful in retaining the diastolic function of the left ventricle. In adolescents with tetralogy of Fallot, right ventricular circumferential strain was increased relative to healthy controls. Tetralogy of Fallot subjects with increased pulmonary regurgitation had higher right ventricular longitudinal strain than subjects with less pulmonary regurgitation; this has been considered a compensation mechanism. Hereditary gelsolin amyloidosis showed local myocardial changes focused on the basal plane of the left ventricle and differing from the more common light-chain cardiac amyloidosis. The non-rigid registration-based technique was compared with the harmonic phase-based method with Gabor filtering in the analysis of myocardial tagging-derived rotation and torsion in subjects with hypertrophic cardiomyopathy. The absolute values obtained with the two software methods were significantly different, however, neither software showed significant differences in patients with hypertrophic cardiomyopathy relative to healthy controls. Motion parameters of both ventricles were associated with other quantitative cardiac magnetic resonance imaging parameters, such as volumetric measurements and T1 relaxation times, in the studies of this thesis. Tagging and feature tracking-derived motion parameters showed significant findings in local myocardial motion in rheumatoid arthritis, tetralogy of Fallot,and hereditary gelsolin amyloidosis. Software-based reference values are required when comparing motion parameters between study subjects. Currently, no standardization for measuring different deformation parameters, such as strain, rotation, or torsion exists, and several software solutions are available for analyzing these parameters. Variability between different software solutions and individual observers should be recognized.Useat sydänsairaudet vaikuttavat sydänlihaksen paikalliseen liikkeeseen, jonka vuoksi sydänlihaksen liikkeen tutkiminen on herättänyt paljon mielenkiintoa muutaman viime vuoden aikana. Tämän työn tavoitteena oli tutkia magneettikuvauksessa määritettyjä sydänlihaksen globaaleja ja paikallisia kvantitatiivisia liikeparametrejä eri sydänsairauksissa. Väitöskirjan osatöissä tutkittiin nivelreumapotilaita, Fallotin tetralogia -potilaita, Meretojantautipotilaita ja hypertrofisen kardiomyopatian omaavia potilaita, yhdessä terveiden verrokkien kanssa. Elastisen kuvarekisteröinnin omaavaa ohelmistoratkaisua käytettiin sydänlihaksen kvantitatiivisen venymän mittaamiseen eri suunnissa sydämen vasenta ja oikeaa kammiota. Kvantitatiivinen liikeanalyysi osoitti, että varhaisen nivelreuman lääkehoito kannattaa, jotta sydämen vasemman kammion diastolinen funktio saadaan ylläpidettyä. Teini-ikäisillä Fallotin tetralogia -potilailla oikean kammion kehän suuntainen venymä oli selvästi voimakkaampaa kuin terveillä verrokeilla. Lisäksi Fallotin tetralogia -potilailla, joilla oli suuri pulmonaaliläpän vuoto, oli voimakkaampi oikean kammion pitkittäissuuntainen venymä, kuin potilailla, joilla vuoto oli pienempää; tämän ajateltiin olevan sydänlihaksen kompensaatiomekanismi. Meretojantautipotilailla havaittiin paikallisia sydänlihaksen liikkeen ja kudoskoostumuksen muutoksia erityisesti sydämen vasemman kammion basaalitasossa. Elastisen kuvarekisteröinnin menetelmää verrattiin harmoniseen Gabor -suodatettuun menetelmään sydänlihaksen vasemman kammion kiertymän ja väännön analysoinnissa. Näillä kahdella menetelmällä määritetyt absoluuttiset kiertymän ja väännön arvot erosivat merkittävästi toisistaan, mutta kummallakaan menetelmällä määritetyt kiertymän ja väännön arvot eivät eronneet merkittävästi hypertrofisen kardiomyopatian omaavien potilaiden ja terveiden verrokkien välillä. Sydämen vasemman ja oikean kammion liikeparametrejä verrattiin muihin kvantitatiivisiin sydämen magneettikuvauksen parametreihin, kuten kammioiden volumetrisiin mittauksiin ja sydänlihaksen T1 relaksaatioaikoihin, väitöskirjan eri osatöissä. Sydämen magneettikuvauksessa määritetyt kvantitatiivisen liikeanalyysin eri parametrit osoittivat merkittäviä löydöksiä sydänlihaksen toiminnassa nivelreumassa, Fallotin tetralogiassa ja Meretojantaudissa. Ohjelmistokohtaiset referenssiarvot ovat tarpeen, kun absoluuttisia liikeparametriarvoja vertaillaan eri yksilöiden välillä. Tällä hetkellä ei ole olemassa standardeja eri liikekomponenttien mittaamiselle ja eri ohjelmistoratkaisuja on useita erilaisia. Vaihteluväli erilaisia ohjelmistoratkaisuja käytettäessä, ja eri tarkkailijoiden välinen vaihtelu, on syytä tiedostaa

Myocardial tissue characterization in patients with hereditary gelsolin (AGel) amyloidosis using novel cardiovascular magnetic resonance techniques

Gelsolin (AGel) amyloidosis is a hereditary condition with common neurological effects. Myocardial involvement, especially strain, T1, or extracellular volume (ECV), in this disease has not been investigated before. Local myocardial effects and possible amyloid accumulation were the targets of interest in this study. Fifty patients with AGel amyloidosis were enrolled in the study. All patients underwent cardiovascular magnetic resonance imaging, including cine imaging, T1 mapping, tagging, and late gadolinium enhancement (LGE) imaging at 1.5 T. Results for volumetry, myocardial feature-tracking strain, rotation, torsion, native T1, ECV, and LGE were investigated. The population mean native T1 values in different segments of the left ventricle (LV) varied between 1003 and 1080 ms. Myocardial mean T1 was 1031 ± 37 ms. T1 was highest in the basal plane of the LV (1055 ± 40 ms), similarly to ECV (30.0% ± 4.4%). ECV correlated with native T1 in all LV segments (p Peer reviewe

Inter- and intra-scanner variations in four magnetic resonance imaging image quality parameters

Peer reviewe

Reducing cardiac implantable electronic device-induced artefacts in cardiac magnetic resonance imaging

Objectives Cardiac implantable electronic device (CIED)-induced metal artefacts possibly significantly diminish the diagnostic value of magnetic resonance imaging (MRI), particularly cardiac MR (CMR). Right-sided generator implantation, wideband late-gadolinium enhancement (LGE) technique and raising the ipsilateral arm to the generator during CMR scanning may reduce the CIED-induced image artefacts. We assessed the impact of generator location and the arm-raised imaging position on the CIED-induced artefacts in CMR. Methods We included all clinically indicated CMRs performed on patients with normal cardiac anatomy and a permanent CIED with endocardial pacing leads between November 2011 and October 2019 in our institution (n = 171). We analysed cine and LGE sequences using the American Heart Association 17-segment model for the presence of artefacts. Results Right-sided generator implantation and arm-raised imaging associated with a significantly increased number of artefact-free segments. In patients with a right-sided pacemaker, the median percentage of artefact-free segments in short-axis balanced steady-state free precession LGE was 93.8% (IQR 9.4%, n = 53) compared with 78.1% (IQR 20.3%, n = 58) for left-sided pacemaker (p < 0.001). In patients with a left-sided implantable cardioverter-defibrillator, the median percentage of artefact-free segments reached 87.5% (IQR 6.3%, n = 9) using arm-raised imaging, which fell to 62.5% (IQR 34.4%, n = 9) using arm-down imaging in spoiled gradient echo short-axis cine (p = 0.02). Conclusions Arm-raised imaging represents a straightforward method to reduce CMR artefacts in patients with left-sided generators and can be used alongside other image quality improvement methods. Right-sided generator implantation could be considered in CIED patients requiring subsequent CMR imaging to ensure sufficient image quality.Peer reviewe

Rotation and torsion of the left ventricle with cardiovascular magnetic resonance tagging : comparison of two analysis methods

Background Left ventricle rotation and torsion are fundamental components of myocardial function, and several software packages have been developed for analysis of these components. The purpose of this study was to compare the suitability of two software packages with different technical principles for analysis of rotation and torsion of the left ventricle during systole. Methods A group of hypertrophic cardiomyopathy (HCM) patients (N = 14, age 43 +/- 11 years), mutation carriers without hypertrophy (N = 10, age 34 +/- 13 years), and healthy relatives (N = 12, age 43 +/- 17 years) underwent a cardiovascular magnetic resonance examination, including spatial modulation of magnetization tagging sequences in basal and apical planes of the left ventricle. The tagging images were analyzed offline using a harmonic phase image analysis method with Gabor filtering and a non-rigid registration-based free-form deformation technique. Left-ventricle rotation and torsion scores were obtained from end-diastole to end-systole with both software. Results Analysis was successful in all cases with both software applications. End-systolic torsion values between the study groups were not statistically different with either software. End-systolic apical rotation, end-systolic basal rotation, and end-systolic torsion were consistently higher when analyzed with non-rigid registration than with harmonic phase-based analysis (p <0.0001). End-systolic rotation and torsion values had significant correlations between the two software (p <0.0001), most significant in the apical plane. Conclusions When comparing absolute values of rotation and torsion between different individuals, software-specific reference values are required. Harmonic phase flow with Gabor filtering and non-rigid registration-based methods can both be used reliably in the analysis of systolic rotation and torsion patterns of the left ventricle.Peer reviewe

MRI-derived cardiac washout is slowed in the left ventricle and associated with left ventricular non-compaction in young patients with cryptogenic ischemic stroke

To elucidate underlying disease mechanisms, we compared transition of gadolinium-based contrast agent bolus in cardiac chambers in magnetic resonance imaging between young patents with cryptogenic ischemic stroke and stroke-free controls. We included 30 patients aged 18-50 years with cryptogenic ischemic stroke from the prospective Searching for Explanations for Cryptogenic Stroke in the Young: Revealing the Etiology, Triggers and Outcome (NCT01934725) study and 30 age- and gender-matched stroke-free controls. Dynamic contrast-enhanced T1-weighted first-pass perfusion images were acquired at 1.5 T and analyzed for transit time variables, area under curves, relative blood flow, and maximum and minimum enhancement rates in left atrial appendage, left atrium, and left ventricle. These data were compared with previously published left ventricular non-compaction data of the same study population. Arrival time of contrast agent bolus in superior vena cava was similar in patients and controls (6.7[2.0] vs. 7.1[2.5] cardiac cycles, P = 0.626). Arrival and peak times showed comparable characteristics in patients and controls (P > 0.535). The minimum enhancement rate of the left ventricle was lower in patients than in controls (- 28 +/- 11 vs. - 36 +/- 13 1/(cardiac cycle), P = 0.012). Area under curves, relative blood flow, and other enhancement rates showed no significant differences between patients and controls (P > 0.107). Relative blood flow of cardiac chambers correlated with non-compacted left ventricular volume ratio (P < 0.011). Our results indicate slower washout of contrast agent and blood flow stagnation in the left ventricle of young patients with cryptogenic ischemic stroke. The washout was associated with left ventricular non-compaction, suggesting conditions favoring formation of intraventricular thrombosis.Peer reviewe

Rotation and torsion of the left ventricle with cardiovascular magnetic resonance tagging : comparison of two analysis methods

Background Left ventricle rotation and torsion are fundamental components of myocardial function, and several software packages have been developed for analysis of these components. The purpose of this study was to compare the suitability of two software packages with different technical principles for analysis of rotation and torsion of the left ventricle during systole. Methods A group of hypertrophic cardiomyopathy (HCM) patients (N = 14, age 43 +/- 11 years), mutation carriers without hypertrophy (N = 10, age 34 +/- 13 years), and healthy relatives (N = 12, age 43 +/- 17 years) underwent a cardiovascular magnetic resonance examination, including spatial modulation of magnetization tagging sequences in basal and apical planes of the left ventricle. The tagging images were analyzed offline using a harmonic phase image analysis method with Gabor filtering and a non-rigid registration-based free-form deformation technique. Left-ventricle rotation and torsion scores were obtained from end-diastole to end-systole with both software. Results Analysis was successful in all cases with both software applications. End-systolic torsion values between the study groups were not statistically different with either software. End-systolic apical rotation, end-systolic basal rotation, and end-systolic torsion were consistently higher when analyzed with non-rigid registration than with harmonic phase-based analysis (p <0.0001). End-systolic rotation and torsion values had significant correlations between the two software (p <0.0001), most significant in the apical plane. Conclusions When comparing absolute values of rotation and torsion between different individuals, software-specific reference values are required. Harmonic phase flow with Gabor filtering and non-rigid registration-based methods can both be used reliably in the analysis of systolic rotation and torsion patterns of the left ventricle.Peer reviewe

Cardiac manifestations in Finnish gelsolin amyloidosis patients

Introduction Finnish gelsolin amyloidosis (AGel amyloidosis) is an inherited systemic amyloidosis with well-known ophthalmological, neurological and cutaneous symptoms. Additionally, cardiomyopathies, conduction disorders and need of cardiac pacemakers occur in some patients. This study focuses on electrocardiographic (ECG) findings in AGel amyloidosis and their relation to cardiac magnetic resonance (CMR) changes. We also assessed whether ECG abnormalities were associated with pacemaker implantation and mortality. Materials and methods In this cohort study, 51 genetically verified AGel amyloidosis patients (mean age 66 years) without cardiac pacemakers underwent 12-lead ECG and CMR imaging with contrast agent in 2017. Patients were followed-up for 3 years. Results Conduction disturbances were found in 22 patients (43%). Nine (18%) presented with first-degree atrioventricular block, six (12%) with left anterior hemiblock, seven (14%) with left or right bundle branch block and two (4%) with non-specific intraventricular conduction delay. Low QRS voltage was present in two (4%) patients. Late gadolinium enhancement (LGE) concentrating on the interventricular septum and inferior parts of the heart was present in 19 (86%) patients with conduction abnormalities. During the follow-up, only one patient received a pacemaker, and one patient died. Discussion Conduction disorders and septal LGE are common in AGel amyloidosis, whereas other ECG and CMR findings typically observed in most common cardiac amyloidosis types were rare. Septal pathology seen in CMR may interfere with the cardiac conduction system in AGel amyloidosis, explaining conduction disorders, although pacemaker therapy is rarely required.Peer reviewe

Left ventricular non-compaction as a potential source for cryptogenic ischemic stroke in the young : A case-control study

Background Up to 50% of ischemic strokes in the young after thorough diagnostic work-up remain cryptogenic or associated with low-risk sources of cardioembolism such as patent foramen ovale (PFO). We studied with cardiac magnetic resonance (CMR) imaging, whether left ventricular (LV) non-compaction-a possible source for embolic stroke due to sluggish blood flow in deep intertrabecular recesses-is associated with cryptogenic strokes in the young. Methods Searching for Explanations for Cryptogenic Stroke in the Young: Revealing the Etiology, Triggers, and Outcome (SECRETO; NCT01934725) is an international prospective multicenter case-control study of young adults (aged 18-49 years) presenting with an imaging-positive first-ever ischemic stroke of undetermined etiology. In this pilot substudy, 30 cases and 30 age- and sex-matched stroke-free controls were examined with CMR. Transcranial Doppler (TCD) bubble test was performed to evaluate the presence and magnitude of right-to-left shunt (RLS). Results There were no significant differences in LV volumes, masses or systolic function between cases and controls; none of the participants had non-compaction cardiomyopathy. Semi-automated assessment of LV non-compaction was highly reproducible. Non-compacted LV mass (median 14.0 [interquartile range 12.6-16.0] g/m(2)vs. 12.7 [10.4-16.6] g/m(2), p = 0.045), the ratio of non-compacted to compacted LV mass (mean 25.6 +/- 4.2% vs. 22.8 +/- 6.0%, p = 0.015) and the percentage of non-compacted LV volume (mean 17.6 +/- 2.9% vs. 15.7 +/- 3.8%, p = 0.004) were higher in cases compared to controls. In a multivariate conditional logistic regression model including non-compacted LV volume, RLS and body mass index, the percentage of non-compacted LV volume (odds ratio [OR] 1.55, 95% confidence interval [CI] 1.10-2.18, p = 0.011) and the presence of RLS (OR 11.94, 95% CI 1.14-124.94, p = 0.038) were independently associated with cryptogenic ischemic stroke. Conclusions LV non-compaction is associated with a heightened risk of cryptogenic ischemic stroke in young adults, independent of concomitant RLS and in the absence of cardiomyopathy.Peer reviewe