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Chủ Nhật, 22 tháng 2, 2015
PLEURAL ULTRASOUND
Conclusions
US is a very important diagnostic method for pleural pathology, providing high resolution images, useful in all kinds of clinical scenarios – emergency, diagnostic and interventional ultrasonography. It is superior to chest radiography for the diagnosis of pneumothorax and characterization of pleural effusions. US represents the best method for guiding fluid aspiration and transthoracic biopsy of pleural-based lesions. It is also a reliable method for evaluating the parietal infiltration of the lung tumors, but CT is superior providing more information concerning all parts of the pleura. The limit of this method is the inability to visualize the mediastinal pleura, and the lesions obscured by subcutaneous emphysema and the bony structures of the thorax – scapulae, sternum and the spine. US can provide useful information for almost all pleural pathology and it should be use more extensively for all these reasons, being also accessible, cheap and widely available for many medical specialties.
Thứ Sáu, 13 tháng 2, 2015
CAROTID PI and CV DISEASE
Discussion
In this population of aging Australian women, the ICA PI is
demonstrated to be associated with cardiovascular disease. It was significantly
correlated to aortic PWV and the Framingham 10-year cardiovascular risk. The
ICA PI was significantly predicted by cardiovascular risk factors including
age, systolic blood pressure, MAP, BMI, smoking and diabetes. The CCA PI was
also significantly related to the Framingham risk score and femPWV, though this
relationship was not as strong as for the ICA. Neither CCA nor ICA PI was a
significant predictor of ischaemic heart disease over age and systolic blood
pressure. Reasons for the stronger relationship of the ICA PI to cardiovascular
risk over the CCA may include the following: 1 The normal cerebral circulation
is maintained in a constant flow due to a well-developed system of
autoregulation, where acute falls in perfusion pressure can have potentially
disastrous consequences to cerebral function.16 It can be expected that
arteriosclerotic changes will increase flow impedance and should be readily
detectable in the ICA.17 2 Readings taken in the common carotid will be
influenced by the external carotid artery, which supplies the high resistance
vascular beds of the muscles and skin of the face and scalp. Assessment of the
PI of the internal carotid is noninvasive and relatively easy to acquire. Only
one patient (0.6%) could not be assessed due to high positioning of the carotid
bifurcation. The intra- and inter-operator repeatability of this potential cardiovascular
health measure is still to be established at this site. Reports are varied for
the reliability of PI measures in other applications including trans-cranial
Doppler assessment of the cerebral vessels19 and intrauterine assessment of
foetal vessels,20,21 with both intra-operator repeatability and technician
experience having a significant impact on results.
The main limitations
of this study include the following: 1 This is a cross-sectional analysis, and
it therefore does not imply causality. 2 The delay between evaluation of PWV
and PIs approached 2 years in some participants. 3 The rate of ischaemic heart
disease was low relative to the population sample size, making estimates of the
true effect size and odds ratio or risk measures more unreliable.22 4 We were
unable to assess the relationship of PI to the prevalence of stroke as no
participants had experienced either an ischaemic or haemorrhagic event.
In summary, the PI, as measured by carotid Doppler
ultrasound, was significantly related to the Framingham 10-year cardiovascular
risk and aortic stiffening as measured by carotid–femoral PWV. Of the two PIs
measured, the ICA had the strongest relationship to cardiovascular risk factors
and may relate more closely to cardiovascular disease progression. Neither
index significantly contributed to prediction of ischaemic heart disease in
this analysis.
Thứ Hai, 9 tháng 2, 2015
Thứ Sáu, 6 tháng 2, 2015
PRP for ROTATOR CUFF TENDINOPATHY: US-Guided INJECTIONS
PRP has been increasingly used in recent years to treat musculoskeletal injuries such as tendinopathy. While a number of studies have assessed the effectiveness of the therapy, researchers have primarily evaluated the clinical symptoms and functions of the treated patient. Furthermore, the studies have produced ambiguous and sometimes conflicting results, Arrigoni said.
As a result, the Italian team sought to evaluate
the effectiveness of ultrasound-guided PRP injection of the supraspinatus
tendon and compare it with medical and physical therapy alone. Patients were
included in the study if they had a diagnosis of tendinosis or a focal tear of
the supraspinatus tendon with a diameter of 1 cm or less. The researchers
evaluated the success of each method based on morphological changes as seen on
MRI and four years of follow-up.
Half of the 240 patients in the study were
treated with ultrasound-guided PRP injection, while the other half received
only medical and physical therapy. The hospital's blood transfusion department
prepared the PRP. After being given local anesthesia with mepivacaine
hydrochloride in the subacromial bursa, patients received one of two PRP
injections under ultrasound guidance in the supraspinatus tendon. The second injection
was provided 21 days later. Patients were immobilized with a soft brace for
three days after injection.
Patients with a history of trauma or surgery
during the four-year follow-up period were excluded, Arrigoni noted. MRI exams
were performed on each patient before and four years after PRP injection, as
well as on the group of patients who received medical and physical therapy.
Based on the MRI results, patients were
classified as showing improvement, having stationary findings, or worsening. In
addition, all patients were given a clinical and functional evaluation before
therapy and after the four-year follow-up period. Pain was assessed using
scores based on a visual analogue scale (VAS), while shoulder joint function
was evaluated with Constant function scores.
"PRP injection in fact delays the degenerative changes of the tendons, and this is documented by the pain relief and functional improvement," Arrigoni said.
Thứ Sáu, 30 tháng 1, 2015
Thứ Năm, 29 tháng 1, 2015
Thứ Bảy, 24 tháng 1, 2015
Thứ Hai, 19 tháng 1, 2015
HEPATIC HEMODYNAMICS DURING VALSALVA MANEUVER
The Valsalva maneuver is a widely used physiologic technique for the non-invasive evaluation of heart murmurs and ventricular function [1-3]. The Valsalva maneuver consists of forceful expiration against a closed glottis, resulting in an increase in both intra-thoracic and intra-abdominal pressure, and activation of autonomic nervous function [4-6]. Although the hemodynamic changes during Valsalva maneuver have been well documented, these have been focused on cardiac chambers, aorta and systemic large veins [4,7-10]. Anatomically, venous return consists of systemic and hepatic venous return, and systemic venous return decreased markedly during the Valsalva maneuver [8,11]. However, it was not well defined that hemodynamic changes focused on the liver during Valsalva maneuver.
Clinically, the Valsalva maneuver is considered as main cause of defecation syncope and surgery Hepatic hemodynamics during Valsalva maneuver performed in a patient with functional suprahepatic inferior vana cava (IVC) obstruction during the Valsalva maneuver [12]. Collapsed IVC showed during the maneuver in normal healthy subjects using ultrasonography study, but IVC howed angular appearance and not collapsed during the maneuver in the venography study [10,11]. The change of IVC during the maneuver is ambiguous and hemodynamic contribution of hepatic vein and portal vein during the maneuver has not been studied in normal healthy subjects. Duplex Doppler ultrasonography of the liver provides important information about liver condition [11,13]. Hepatic vein flow depends on hepatic parenchymal compliance, thoracoabdominal pressure, and right atrial pressure. It is known that hepatic vein Doppler waveform is triphasic pattern which is composed of two anterograde flow peaks toward the heart and one retrograde flow peak toward the liver in healthy subjects [14]. Recently, volume flow measurement has been used for quantification of blood flow and it showed good correlation with magnetic resonance in quantification of cerebral blood flow [15-17]. Therefore, analysis of flow pattern and quantification of liver flow can be helpful to understand liver
condition under the Valsalva maneuver. Even the liver hemodynamic changes during the Valsalva maneuver in healthy volunteers have been studied in previous reports, its contribution to venous return is not focused enough [18,19]. We hypothesized that the hepatic circulation might be an important role to maintain venous return to the heart during Valsalva maneuver.
The aim of our study was to assess the hemodynamic change of liver including hepatic vein and portal vein during the Valsalva maneuver.
Thứ Tư, 14 tháng 1, 2015
B-mode ultrasound spots subclinical atherosclerosis
B-mode ultrasound spots subclinical atherosclerosis
By Erik L. Ridley, AuntMinnie staff writer
January 13, 2015 -- Thanks to advances in automation and improved imaging capabilities, B-mode ultrasound can be used to assess subclinical atherosclerotic disease and better identify those patients who would benefit from medical intervention prior to symptom onset, according to research published in Global Heart.
For the study, a multi-institutional, multinational research team examined two cohorts from India with automated B-mode ultrasound and compared the results with those of two cohorts from North America. Automated ultrasound of the carotid and iliofemoral arteries could feasibly provide rapid screening for subclinical atherosclerotic disease in a range of settings, the researchers found.
They also concluded that adding B-mode examination of the iliofemoral arterial beds to carotid ultrasound screening identifies additional subjects who would benefit from prophylactic medical intervention for atherosclerotic cardiovascular disease (ASCVD)-related events.
"Surely, such a simple approach merits adoption on a wide scale as a modern approach to a modern scourge of rapidly rising ASCVD-related events worldwide," wrote the authors, led by Ram Bedi, PhD, of the University of Washington's department of bioengineering, and senior author Dr. Jagat Narula, PhD, from Icahn School of Medicine.
Asymptomatic subjects
Doppler-based ultrasound systems are commonly used to assess carotid stenosis in symptomatic patients to identify those who would benefit from surgical intervention. The researchers believed that recent image quality improvements and advances in automation could enable B-mode systems to be similarly used for assessing subclinical atherosclerosis in the asymptomatic population to determine subjects who would benefit from prophylactic medical intervention (Global Heart, December 2014, Vol. 9:4, pp. 367-378).
To test their theory, the researchers used B-mode ultrasound to calculate the prevalence of atherosclerotic disease in 941 asymptomatic volunteers (mean age, 44.27 ± 13.76 years) from two underserved communities in India where ASCVD risk factor information was unknown. While one community was from an urban city (Jaipur), the other community -- from the semiurban town of Sirsa -- consisted of devout followers of a local spiritual leader, and the subjects had undergone aggressive lifestyle changes.
The results were compared with reference data gathered from two primary care clinics in North America: one was in Toronto, and the other was in Richmond, TX. The 481 subjects in this part of the study had a mean age of 59.68 ± 11.95 years; most were office workers in mid- to high-income brackets and few engaged in regular physical activity, according to the researchers.
Automated bilateral B-mode ultrasound studies of the carotid and iliofemoral arteries were performed at two health camps in India, using a CardioHealth Station (Panasonic Healthcare) ultrasound system, by one of eight radiology residents. The residents did not have prior experience in vascular ultrasound but received two hours of training. Ultrasound exams were performed by trained vascular sonographers at the two North American clinics in the study.
While conventional 2D imaging was considered satisfactory for identifying focal lesions, 3D imaging data for the arterial segment of interest were acquired to automate the process of plaque identification and quantification. To present the clinical findings in an easy-to-understand manner, the researchers developed an index called the Fuster-Narula (FUN) score, which summarizes the intima-media volume for the scanned peripheral arteries.
The researchers found that 224 (24%) of the participants from India had plaque in at least one of the four arterial sites. Furthermore, 107 (11%) had plaque only in the carotid arteries, 70 (7%) had plaque in both the carotid and iliofemoral arteries, and 47 (5%) had plaque only in the iliofemoral arteries. The presence of plaque was associated with older age and the male gender, but not with systolic blood pressure, the group noted.
Thứ Bảy, 3 tháng 1, 2015
ULTRASOUND IMPLEMENTATION on LEARNING and TEACHING for the 1st Year of Medical Education
Discussion
We found that the
introduction of a pilot ultrasound curriculum integrated with the physical
diagnosis course at our institution did not worsen year 1 medical student
physical examination skills and may be potentially beneficial when compared to historic
controls. Students who had the ultrasound curriculum had better overall
associated OSCE scores
compared to students in the historic control group.
Students and
faculty predominantly had positive responses to the course, and most agreed or
strongly agreed that ultrasound has a valuable role in medical education. Faculty
gave constructive feedback on how to improve ultrasound implementation. Other
studies have shown that point-of-care ultrasound training can enhance
ultrasound skills and specific physical examination skills such as abdominal
and cardiac examinations.18,26 We believe that
no previous study has shown that implementation of a point-of-care ultrasound
curriculum in the year 1 medical student curriculum may have substantial
benefits to the overall traditional physical examination.
Previous work has
shown that ultrasound curricula for medical students and residents, during
their respective training, can improve their ultrasound skills20,26–31 when compared to control groups without
ultrasound training.6,32,33 It inherently
makes sense that learners who are taught any skill should outperform learners
who are naive to that skill. Specific physical examination skills have also
been shown to improve with introduction of ultrasound training.
One study found
that ultrasound improves year 1 medical students’ abdominal examination.17 However, only the abdominal
examination was assessed in that study. Other studies have shown that medical
students could more accurately diagnose cardiac diseases using ultrasound even when
compared to a trained cardiologist using auscultation alone.32–34 Most of these studies used ultrasound defined
end points; hence, the effect of ultrasound on traditional physical examination
skills remained unknown.
By not using any
ultrasound end points, our study was unique in demonstrating that year 1
medical students with point-of-care ultrasound training had improved overall
traditional OSCE scores and a trend toward improved physical examination skills
in almost all organ systems when compared to students with no point-of-care
ultrasound training. This finding suggests that point-of-care ultrasound does
not worsen the overall physical examination skills of year 1 medical students
but may actually improve their physical examination skills. The concern that
technology may impede critical thinking and tactile skills is a valid point.21–24,35 The purpose of point-of-care
ultrasound must be differentiated from the use of CT, MRI, and comprehensive
ultrasound scans.
In point-of-care ultrasound,the clinical sonographer is the actual practitioner
with a focused question regarding the patient being treated. The goal of
point-of-care ultrasound would be to confirm or refute a diagnosis as a result
of the practitioner’s physical examination.36 Point-of-care
ultrasound may actually promote critical thinking because the sonographer knows
what condition is of concern before performing the ultrasound examination rather
than haphazardly performing an ultrasound examination looking for incidental
findings, as may occur with CT, MRI, and comprehensive ultrasound examinations.
Ultrasound curriculum implementation into medical schools has been shown to be feasible.1–7,37 However,many of these institutions have ample point-of-care ultrasound faculty experts and considerable industry support for numerous ultrasound machines. We piloted a curriculum with minimal resources, using only 4 ultrasound machines, 1 point-of-care ultrasound expert, and 8 ultrasound-naïve faculty to train a group of 163 year 1 medical students. We found that it was feasible to implement this curriculum through faculty development and student peer teaching. Another concern is the addition of time for ultrasound training into medical students’ already demanding schedules.
Incorporating
ultrasound directly into the required physical diagnosis course obviated the
need to add more time to the overall students’ curriculum. Furthermore, having
open ultrasound lab sessions allowed students to practice their physical
examination and ultrasound skills on their own. Given the limited availability
of point-of-care ultrasound experts an institution may have, we believe that
most schools will need to use ultrasound-naive faculty members for ultrasound
curriculum implementation. The feedback from the faculty members in this study
raises many important points when implementing an ultrasound curriculum.
Dedicated faculty
development must be performed on a longitudinal basis, so faculty will feel
comfortable with the basic ultrasound skills. Some faculty members may have years
of clinical experience but might not see the direct benefits of point-of-care
ultrasound if they do not use it in their own clinical practice. However, with
more residencies requiring ultrasound competency for residency completion,8–11 medical students with comprehensive
ultrasound training may have a considerable advantage when they enter residency
training. Previous studies have shown that medical students and residents
already have a strong interest in ultrasound and believe it is important to
their medical training.4,38,39 The importance of
this emerging technology should also be emphasized to all faculty involved with
ultrasound teaching.40,41
We realize that
integration of ultrasound is difficult because each school has a unique
curriculum that has been in place for many years. An additional problem with
ultrasound is that it can be a substantial financial burden to administrators
and requires added student time and faculty commitment. Another concern may be
that most schools may not have an ultrasound expert to adequately implement a
curriculum.We found that a curriculum can be feasibly developed with minimal
resources. Students in our study strongly agreed that peer teaching was useful
for learning point-of-care ultrasound. Peer teaching has also been used successfully
at other institutions.42-44 Further research
needs to be done on the barriers to ultrasound implementation in medical
schools and how implementation can be facilitated with limited resources.
There were
several limitations to our study. The control group was a historic control, and
the students from both groups may have been inherently different, which could
have caused the difference in OSCE scores. There were no notable curriculum or
faculty changes between the 2 years, except for the point-of-care ultrasound
implementation.
Twenty-five
student data points were missing from the historic controls, which may have
affected the mean pre-ultrasound group scores. This study could have been
improved if the groups were randomized, but we thought that all students would
benefit from the ultrasound curriculum. There is no current recommended
standardized curriculum, and the ultrasound curriculum we implemented may have
had different results if we had more intense ultrasound training for students
and faculty. The effect of ultrasound training on medical student proficiency in
the clinical setting needs further investigation.
We conclude that
implementing an ultrasound curriculum into
a physical diagnosis course is feasible with limited resources and may increase
the physical examination skills of year 1 medical students. Overall, students
and faculty had a positive response to the ultrasound curriculum. Despite the
controversy that introducing ultrasound may decrease time for learning
traditional physical examination skills and may cause reliance on such
technology, our study found that by using ultrasound synergistically to learn
the physical examination, there seems to be an overall benefit to the
introduction of ultrasound into medical education.
Dinh
et al—Ultrasound Effects on Physical Examination in Medical Education, J
UltrasoundMed 2015; 34:43–50.
Thứ Sáu, 2 tháng 1, 2015
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