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  • Book
    [edited by] Muhammad Saad, Timothy J. Vittorio.
    Summary: "Everything you need to know to date about COVID-19 and how it affects the heart"-- Provided by publisher.

    Contents:
    Introduction to COVID-19 and Cardiovascular Disease / Nikee Shrestha, Niel Shah
    COVID-19 and Acute Coronary Syndrome (ACS) / Nisha Ali
    COVID-19 and Valvular Heart Disease / Rishi Shrivastava, Amandeep Singh
    COVID-19 and Cardiac Arrythmias / Jeirym Tijada Miranda, Timothy J. Vittorio
    COVID-19 and Myopericardial Disease / Niel Shah, Timothy J. Vittorio
    COVID-19 and Heart Failure / Miguel Rodriguez Guerra, Muhammad Khurram Gujjar
    COVID-19 and Cardiogenic Shock / Angel De La Cruz, Amandeep Singh
    COVID-19 and Thromboembolism / Maleeha Zahid
    COVID-19 and Hypertension / Fareeha Alavi, Hitesh Gurjar
    COVID-19 Management Strategies / Sarthak Kulshreshtha, Muhammad Hassan.
    Digital Access
    Provider
    Version
    AccessCardiology
    2022
    AccessMedicine
    2022
  • Article
    Meijer AE, Israël DE.
    Histochemistry. 1978 Aug 15;57(1):23-31.
    The reliability of enzyme histochemical semipermeable membrane techniques for the demonstration of acid hydrolases was investigated with a combined histochemical and biochemical study. In part 1 the histochemical findings were presented. In this communication the biochemical findings are reported and compared with the histochemical findings. In m. soleus, m. plantaris, m. gastrocnemius and diaphragm of vitamin E deficient rabbits the activity of the lysosomal acid hydrolases, cathepsin D, acid maltase, acid phosphatase and beta-glucuronidase is significantly increased. This increase in activity of the investigated acid hydrolases was equal for muscles with an aerobic or an anaerobic metabolism. By means of statistical calculations the activity of the enzymes demonstrated with histochemical techniques was compared with the enzyme activity determined with biochemical techniques. From the results of this investigation it can be concluded that the histochemical semipermeable membrane techniques for the demonstration of activity of acid hydrolases are very reliable. Considering the fact that these techniques are also tissue-saving, they are therefore extremely suitable for the study of catabolic wasting processes in skeletal muscle tissues of patients with inherited or acquired muscular diseases.
    Digital Access Access Options