Dynamic Perfluorinated Gas MRI Shows Improved Lung Ventilation in People with Cystic Fibrosis after Elexacaftor/Tezacaftor/Ivacaftor: An Observational Study.

The availability of highly effective CFTR modulators is revolutionizing the treatment of cystic fibrosis (CF) and drastically improving outcomes. MRI-based imaging modalities are now emerging as highly sensitive endpoints, particularly in the setting of mild lung disease. Adult CF patients were recruited from a single center prior to starting treatment with E/T/I. The following studies were obtained before and after one month on treatment: spirometry, multiple breath nitrogen washout (MBW), 1H UTE MRI (structural images) and 19F MRI (ventilation images). Changes between visits were calculated, as were correlations between FEV1, lung clearance index (LCI), MRI structural scores, and MRI-based ventilation descriptors. Eight subjects had complete datasets for evaluation. Consistent with prior clinical trials, FEV1 and LCI improved after 28 days of E/T/I use. 1H UTE MRI detected improvements in bronchiectasis/airway wall thickening score and mucus plugging score after 28 days of therapy. 19F MRI demonstrated improvements in fractional lung volume with slow gas washout time (FLV↑tau2) and ventilation defect percentage (VDP). Improvements in FLV↑tau2 and VDP correlated with improvement in FEV1 (r = 0.81 and 0.86, respectively, p < 0.05). This observational study establishes the ability of 19F MRI and 1H UTE MRI to detect improvements in lung structure and function after E/T/I treatment. This study supports further development of 19F MRI and 1H UTE MRI as outcome measures for cystic fibrosis research and drug development.

Utilization of computed tomography imaging in the pediatric emergency department.

BACKGROUND: In recent years, there has been a movement toward more judicious use of computed tomography (CT) imaging in an attempt to limit exposure of pediatric patients to ionizing radiation. The Image Gently Alliance and like-minded movements began advocating for safe and high-quality pediatric imaging worldwide in the late 2000s. OBJECTIVE: In the context of these efforts, we evaluate CT utilization rates in the pediatric emergency department at a major academic medical center. MATERIALS AND METHODS: We tracked utilization in several categories of CT, magnetic resonance imaging (MRI) and ultrasonography (US) between July 2008 and June 2017 and compared them with utilization rates from 2000 to 2006. RESULTS: A total of 4,955 pediatric patients underwent a total of 5,973 CT scans, 2,775 US studies and 293 MRI scans while in the pediatric emergency department during the 2008-2017 study period. We observed decreases in CT scans across all categories, ranging from a 19% decrease in abdominal CT to a 66% decrease in chest CT. Relatively greater decreases in CT scans were observed in patients younger than 3 years of age as compared to older children and adolescents. Abdominal and pelvic US increased. Brain MRI also increased over the final two years of the study. CONCLUSION: CT utilization decreased throughout the 2008-2017 study period.

MRI of acute appendicitis.

Appendicitis is the most common cause of acute abdominal pain resulting in surgery. While historically ultrasound (US) and computed tomography (CT) have been used to evaluate for appendicitis and its related complications, magnetic resonance imaging (MRI) has become a highly accurate and increasingly utilized modality in the last two decades, particularly in the pediatric and pregnant patient populations in whom ionizing radiation is used reluctantly. This article discusses the advantages and disadvantages of MRI as a modality to evaluate for acute appendicitis, summarizes studies of the diagnostic performance relative to CT and US, provides a standard MR protocol, and describes MRI findings typical of acute appendicitis, common complications, and other differential diagnoses. Level of Evidence: 2 Technical Efficacy Stage: 2 J. Magn. Reson. Imaging 2019;50:1367-1376.

Initial clinical evaluation of stationary digital chest tomosynthesis in adult patients with cystic fibrosis.

OBJECTIVE: The imaging evaluation of cystic fibrosis currently relies on chest radiography or computed tomography. Recently, digital chest tomosynthesis has been proposed as an alternative. We have developed a stationary digital chest tomosynthesis (s-DCT) system based on a carbon nanotube (CNT) linear x-ray source array. This system enables tomographic imaging without movement of the x-ray tube and allows for physiological gating. The goal of this study was to evaluate the feasibility of clinical CF imaging with the s-DCT system. MATERIALS AND METHODS: CF patients undergoing clinically indicated chest radiography were recruited for the study and imaged on the s-DCT system. Three board-certified radiologists reviewed both the CXR and s-DCT images for image quality relevant to CF. CF disease severity was assessed by Brasfield score on CXR and chest tomosynthesis score on s-DCT. Disease severity measures were also evaluated against subject pulmonary function tests. RESULTS: Fourteen patients underwent s-DCT imaging within 72 h of their chest radiograph imaging. Readers scored the visualization of proximal bronchi, small airways and vascular pattern higher on s-DCT than CXR. Correlation between the averaged Brasfield score and averaged tomosynthesis disease severity score for CF was -0.73, p = 0.0033. The CF disease severity score system for tomosynthesis had high correlation with FEV1 (r = -0.685) and FEF 25-75% (r = -0.719) as well as good correlation with FVC (r = -0.582). CONCLUSION: We demonstrate the potential of CNT x-ray-based s-DCT for use in the evaluation of cystic fibrosis disease status in the first clinical study of s-DCT. KEY POINTS: • Carbon nanotube-based linear array x-ray tomosynthesis systems have the potential to provide diagnostically relevant information for patients with cystic fibrosis without the need for a moving gantry. • Despite the short angular span in this prototype system, lung features such as the proximal bronchi, small airways and pulmonary vasculature have improved visualization on s-DCT compared with CXR. Further improvements are anticipated with longer linear x-ray array tubes. • Evaluation of disease severity in CF patients is possible with s-DCT, yielding improved visualization of important lung features and high correlation with pulmonary function tests at a relatively low dose.

Granulomatous-Lymphocytic Interstitial Lung Disease in 22q11.2 Deletion Syndrome: a Case Report and Literature Review.

PURPOSE OF REVIEW: Granulomatous-lymphocytic interstitial lung disease (GLILD) has classically been associated with common variable immune deficiency (CVID), but is increasingly being reported in other immunodeficiencies. We describe the second reported case of GLILD in a patient with 22q11.2 deletion syndrome (22q11.2DS) and review the recent literature surrounding GLILD. RECENT FINDINGS: GLILD is characterized by granulomata and lymphoproliferation. Consensus statements and retrospective and case-control studies have better elucidated the clinicopathological and radiographic manifestations of GLILD, allowing for its differentiation from similar conditions like sarcoidosis. Gaps of knowledge remain, however, particularly regarding optimal management strategies. Combination therapies targeting T and B cell populations have recently shown favorable results. GLILD is associated with poorer outcomes in CVID. Its recognition as a rare complication of 22q11.2DS and other immunodeficiencies therefore has important therapeutic and prognostic implications. Additional research is needed to better understand the natural history and pathogenesis of GLILD and to develop evidence-based practice guidelines.

Clinical and imaging considerations in primary immunodeficiency disorders: an update.

Primary immunodeficiencies are a group of genetically determined disorders with diverse presentations. The purpose of this review is to provide a practical and brief description of a select number of these diseases and to discuss the important role the radiologist can have in making an early diagnosis and in detecting and following disease complications. The role of diagnostic imaging and informed performance and interpretation are vital in the diagnosis, surveillance and management of all primary immunodeficiency disorders.

Novel Computed Tomography Scoring System for Sinus Disease in Adults With Cystic Fibrosis.

OBJECTIVE: There is no easy to use scoring system for computed tomography (CT) scans of the sinuses that is specific to cystic fibrosis (CF). We propose a simple and easily implemented scoring system to quantify severity of sinus disease in adults with CF. STUDY DESIGN: Case series with chart review. SETTING: Academic tertiary-care referral center. SUBJECTS: Sixty-nine adult patients with CF and 50 age-matched controls. METHODS: We validated a scoring system for CF sinus disease. The CT scans were interpreted by 3 physicians on 2 separate sittings. Parameters include maxillary opacification, nasal obstruction, lateral nasal wall displacement, uncinate process absence/demineralization, and presence/absence of mucocele. RESULTS: Patients with CF aged 21 to 30 years (mean = 24.7 ± 2.49). In CF cohort (n = 69), intrarater reliability for the 10 CT categories ranged from .70 to 1.00. Twenty-six (87%) were in the excellent range, and the remaining 4 (13%) were evaluated as good. In the non-CF cohort (n = 50), reliabilities ranged from .44 to 1.00. Twenty-seven (90%) were in the excellent range. For interrater reliability, in the CF cohort, 10 CT categories across the 3 raters ranged from .55 to 1.00. Excellent reliability was achieved in 15 (50%) of the observations. In the non-CF cohort, reliabilities ranged from .44 to 1.00. CONCLUSION: A novel and easy to use CT scoring system for CF sinus disease in adults was validated with inter- and intrarater reliability. This new CF sinus disease-specific scoring system can be used by clinicians, surgeons, and radiologists.

Influence of sex and active muscle mass on renal vascular responses during static exercise.

During exercise, reflex renal vasoconstriction helps maintain blood pressure and redistributes blood flow to the contracting muscle. Sex and muscle mass have been shown to influence certain cardiovascular responses to exercise. Whether sex and/or muscle mass influence renal vasoconstrictor responses to exercise is unknown. We studied healthy men (n = 10) and women (n = 10) matched for age and body mass index during handgrip (HG, small muscle mass) and quadriceps contraction (QC, large muscle mass) as beat-to-beat changes in renal blood flow velocity (RBV; duplex ultrasound), mean arterial pressure (MAP; Finapres), and heart rate (ECG) were monitored. Renal vascular resistance (RVR) index was calculated as MAP / RBV. Responses to HG vs. QC were compared in 13 subjects. We found that 1) RVR responses to short (15-s) bouts and fatiguing HG were similar in men and women (change in RVR during 15-s HG at 70% of maximum voluntary contraction = 23 +/- 4 and 31 +/- 4% in men and women, respectively, P = not significant); 2) post-HG circulatory responses were similar in men and women; and 3) HG and QC were similar during short (15-s) bouts (change in RVR during HG at 50% of maximum voluntary contraction = 19 +/- 3 and 18 +/- 5% for arm and leg, respectively, P = not significant). Our findings suggest that muscle reflex-mediated renal vasoconstriction is similar in men and women during static exercise. Moreover, muscle mass does not contribute to the magnitude of the reflex renal vasoconstrictor response seen with muscle contraction.

Renal vascular response to static handgrip exercise: sympathetic vs. autoregulatory control.

Static exercise causes activation of the sympathetic nervous system, which results in increased blood pressure (BP) and renal vascular resistance (RVR). The question arises as to whether renal vasoconstriction that occurs during static exercise is due to sympathetic activation and/or related to a pressure-dependent renal autoregulatory mechanism. To address this issue, we monitored renal blood flow velocity (RBV) responses to two different handgrip (HG) exercise paradigms in 7 kidney transplant recipients (RTX) and 11 age-matched healthy control subjects. Transplanted kidneys are functionally denervated. Beat-by-beat analyses of changes in RBV (observed via duplex ultrasound), BP, and heart rate were performed during HG exercise in all subjects. An index of RVR was calculated as BP/RBV. In protocol 1, fatiguing HG exercise (40% of maximum voluntary contraction) led to significant increases in RVR in both groups. However, at the end of exercise, RVR was more than fourfold higher in control subjects than in the RTX group (88 vs. 20% increase over baseline; interaction, P < 0.001). In protocol 2, short bouts of HG exercise (15 s) led to significant increases in RVR at higher workloads (50 and 70% of maximum voluntary contraction) in the control subjects (P < 0.001). RVR did not increase in the RTX group. In conclusion, we observed grossly attenuated renal vasoconstrictor responses to exercise in RTX subjects, in whom transplanted kidneys were considered functionally denervated. Our results suggest that renal vasoconstrictor responses to exercise in conscious humans are mainly dependent on activation of a neural mechanism.

Different vasodilator responses of human arms and legs.

Forearm vascular responses to intra-arterial infusions of endothelium-dependent and -independent vasodilators have been thoroughly characterized in humans. While the forearm is a well-established experimental model for studying human vascular function, it is of limited consequence to systemic cardiovascular control owing to its small muscle mass and blood flow requirements. In the present study we determined whether these responses could be generalized to the leg. Based upon blood pressure differences between the leg and arm during upright posture, we hypothesized that the responsiveness to endothelium-dependent vasodilators would be greater in the forearm than the leg. Brachial and femoral artery blood flow (Q, ultrasound Doppler) at rest and during intra-arterial infusions of endothelium-dependent (acetylcholine and substance P) and -independent (sodium nitroprusside) vasodilators were measured in eight healthy men (22-27 years old). Resting blood flows in the forearm before infusion of acetylcholine, substance P or sodium nitroprusside were 25 +/- 4, 30 +/- 7 and 29 +/- 5 ml min(-1), respectively, and in the leg were 370 +/- 32, 409 +/- 62 and 330 +/- 30 ml min(-1), respectively. At the highest infusion rate of acetylcholine (16 microg (100 ml tissue)(-1) min(-1)) there was a greater (P < 0.05) increase in Q to the forearm (1864 +/- 476%) than to the leg (569 +/- 86%). Similarly, at the highest infusion rate of substance P (125 pg (100 ml tissue)(-1) min(-1)) there was a greater (P < 0.05) increase in Q to the forearm (911 +/- 286%) than to the leg (243 +/- 58%). The responses to sodium nitroprusside (1 microg (100 ml tissue)(-1) min(-1)) were also greater (P < 0.05) in the forearm (925 +/- 164%) than in the leg (326 +/- 65%). These data indicate that vascular responses to both endothelium-dependent and -independent vasodilator agents are blunted in the leg compared to the forearm.

Effect of aging on renal blood flow velocity during static exercise.

During exercise, activation of the sympathetic nervous system causes reflex renal vasoconstriction. The effects of aging on this reflex are poorly understood. This study evaluated the effects of age on renal vasoconstrictor responses to handgrip. Seven older (65 +/- 9 yr) and nine younger (25 +/- 2 yr) subjects were studied. Beat-by-beat analyses of changes in renal blood flow velocity (RBV; duplex ultrasound) were performed during two handgrip paradigms. Arterial blood pressure (BP) and heart rate were also measured, and an index of renal vascular resistance (RVR) was calculated (BP/RBV). In protocol 1, fatiguing handgrip [40% of maximal voluntary contraction (MVC)] caused a greater increase in RVR in the older subjects (old 90% +/- 15 increase, young 52% +/- 4 increase; P = 0.03). During posthandgrip circulatory arrest (isolates muscle metaboreflex), the increases in RVR were only approximately 1/2 of the increase seen at end grip. In protocol 2, 15-s bouts of handgrip at graded intensities led to increases in RVR in both subject groups. This effect was not seen until 50% MVC workload (P < 0.05). RVR responses occurred early and were greater in older than in younger subjects at 50% MVC (32 +/- 6% vs. 16 +/- 5%; P = 0.02) and 70% MVC (39 +/- 11% vs. 24 +/- 8%; P = 0.02). Static exercise-induced renal vasoconstriction is enhanced with aging. Because the characteristics of this response suggest a predominant role for mechanoreceptor engagement, we hypothesize that mechanoreceptor responses are augmented with aging.

Renal vascular responses to static handgrip: role of muscle mechanoreflex.

During exercise, the sympathetic nervous system is activated, which causes vasoconstriction. The autonomic mechanisms responsible for this vasoconstriction vary based on the particular tissue being studied. Attempts to examine reflex control of the human renal circulation have been difficult because of technical limitations. In this report, the Doppler technique was used to examine renal flow velocity during four muscle contraction paradigms in conscious humans. Flow velocity was divided by mean arterial blood pressure to yield an index of renal vascular resistance (RVR). Fatiguing static handgrip (40% of maximal voluntary contraction) increased RVR by 76%. During posthandgrip circulatory arrest, RVR remained above baseline (2.1 +/- 0.2 vs. 2.8 +/- 0.2 arbitrary units; P < 0.017) but was only 40% of the end-grip RVR value. Voluntary biceps contraction increased RVR within 10 s of initiation of contraction. This effect was not associated with an increase in blood pressure. Finally, involuntary biceps contraction also raised RVR. We conclude that muscle contraction evokes renal vasoconstriction in conscious humans. The characteristic of this response is consistent with a primary role for mechanically sensitive afferents. This statement is based on the small posthandgrip circulatory arrest response and the vasoconstriction that was observed with involuntary biceps contraction.