Israel Medical Association Journal

A 42-year-old healthy man collapsed suddenly in the street while walking. The patient received 2 minutes of basic life support until an automatic external defibrillator was brought and detected ventricular fibrillation (VF), which was successfully terminated by a single shock. The patient regained consciousness and was transferred to the hospital.

The patient’s physical examination was normal with no neurologic deficit. Blood pressure was 147/102 mmHg. Brain computed tomography showed normal findings. The first troponin I measurement within 1 hour of the event was in the normal range (19.6 ng/L, normal < 20 ng/L) and rose to 99.9 ng/L after 3 hours.

Background: Aerodigestive clinics are run by interdisciplinary medical and surgical teams, and provide complex care coordination and combined endoscopies.

Objectives: To describe the design and patient population of the first pediatric aerodigestive center in Israel.

Methods: A retrospective single-center cohort study was conducted describing patients followed in the aerodigestive clinic of Schneider Children’s Medical Center of Israel, a tertiary pediatric hospital, between its inception in January 2017 and June 2020.

Results: During the study period, 100 patients were seen at the combined respiratory and digestive (NoAM) clinic, with a total of 271 visits. Median age at first assessment was 29.5 months (range 3–216). Fifty-six patients (56%) had esophageal atresia and tracheoesophageal fistula. Thirty-nine patients had an identified genetic disorder, 28 had a primary airway abnormality, 28 were oxygen dependent, and 21 were born premature. Fifty-two patients underwent triple endoscopy, consisting of flexible bronchoscopy, rigid bronchoscopy, and gastroscopy. In 33 patients, esophageal dilatation was necessary. Six patients underwent posterior tracheopexy at a median of 6 months of age (range 5 days to 8 years) all with ensuing symptom improvement. The total mean parental satisfaction score on a Likert-type scale of 1–5 (5 = highest satisfaction) was 4.5.

Conclusions: A coordinated approach is required to provide effective care to the growing population of children with aerodigestive disorders. The cross fertilization between multiple disciplines offers a unique opportunity to develop high quality and innovative care. Outcome measures must be defined to objectively measure clinical benefit.

Background: Previous studies have demonstrated the utility of exercise hemodynamics during right heart catheterization (RHC) in the diagnosis of diastolic dysfunction (DD). Little data exists regarding exercise hemodynamics during RHC in symptomatic systemic sclerosis (SSc) patients. 

Objectives: To assess the added diagnostic value of using exercise hemodynamics during RHC in assessment of patients with symptomatic SSc.

Methods: We performed 22 RHCs in 17 SSc patients with dyspnea and/or pulmonary arterial hypertension (PAH). Exercise was performed in 15 RHCs using isotonic arm exercises while holding a 1 kg weight in each hand. Measurements of pulmonary arterial pressure (PAP), pulmonary arterial wedge pressure (PAWP), and cardiac output (CO) were taken at rest and during peak exercise. 

Results: Normal resting RHC (PAP 22 ± 3 mmHg, PAWP 11 ± 3 mmHg) was found in seven cases. Of these, exercise induced elevation in PAP was found in three (38 ± 7 mmHg), and exercise induced elevation in PAWP was found in four (24 ± 6 mmHg). Elevated resting PAP was found in 15 (41 ± 11 mmHg) with minor changes in exercise. Of the 22 RHCs, elevation of the PAWP was found in 11 (50%), half of which were in response to exercise. 

Conclusions: In symptomatic SSc patients, exercise hemodynamics provides important information on diastolic dysfunction that is not available with non-invasive testing. Findings on exercise RHC can explain patient symptoms in up to 50% of cases. Earlier and more accurate diagnosis of patient symptoms can aid in tailoring the correct therapy for each.

Ventricular remodeling and heart failure are the inevitable consequences of myocardial infarction. Current options to cure myocardial infarction and subsequent heart failure suffer from specific limitations. Thus, alternative, additional long-term therapeutic strategies are needed to cure this costly and deadly disease. Cardiac regeneration is a promising new therapeutic option. Through cellular and molecular therapies, the concept of in situ "growing" heart muscle, vascular tissue and manipulating the extracellular matrix environment promises to revolutionize the approach of treating heart disease. Recent studies have suggested that stem cells resident within the bone marrow or peripheral blood can be recruited to the injured heart. The regeneration of damaged heart tissue may include the mobilization of progenitor or stem cells to the damaged area or stimulation of a regenerative program within the organ. There is now evidence accumulating that the heart contains resident stem cells that can be induced to develop into cardiac muscle and vascular tissue. The present review aims to describe the potential, the current status and the future challenges of myocardial regeneration by adult stem cells.