Storytelling of Myocarditis

In 1900, Fiedler first reported autopsy cases with peculiar inflammation of the myocardium, which he named interstitial myocarditis. He postulated an isolated cardiac inflammation of the myocardium in the absence of multiorgan involvement and with a poor prognosis due to invisible microorganisms, which years later would have been identified as viruses. The revision of original histologic sections by Schmorl showed cases with lymphocytes and others with giant-cell inflammatory histotypes. The in vivo diagnosis of myocarditis became possible thanks to right cardiac catheterization with endomyocardial biopsy (EMB). The gold standard for diagnosis was achieved with the employment of immunohistochemistry and molecular investigation by Polymerase Chain Reaction (PCR), which allows for the detection of viruses as causal agents. Both RNA and DNA were revealed to be cardiotropic, with a common receptor (CAR). A protease, coded by coxsackie virus, disrupts the cytoskeleton and accounts for cell death. Unfortunately, vaccination, despite having been revealed to be effective in animal experiments, has not yet entered the clinical field for prevention. Cardiac Magnetic Resonance turned out to be a revolutionary tool for in vivo diagnosis through the detection of edema (inflammatory exudate). Myocarditis may be fulminant in terms of clinical presentation but not necessarily fatal. The application of ExtraCorporeal Membrane Oxygenation (ECMO) allows for relieving the overloaded native heart.


Introduction
The history of non-ischemic inflammation of the heart muscle dates back when the study of morbid anatomy moved from a gross view of organs by the naked eye (Figure 1) to cell pathology studied through a microscope.
Robert Hooke (1635-1703) (Figure 2), in 1665, invented the microscope, using magnifying glasses to see minute bodies within the organs [1].He observed thin slices of cork identifying empty spaces, which he called "cells" because they were similar to the cells of monks.The title of his book was quite meaningful (Figure 2).
The use of the microscope became routine in Germany in the 19th century with the Berlin School, which had supremacy in pathology.The discovery of cells as elementary units of organs was a fundamental step forward compared to the methods of Giovanni Battista Morgagni (1682-1771) and Karl von Rokitansky (1804-1878) (both organ pathologists), and the title of Rudolf Virchow's (1821-1902) book was a paradigm (Figure 3).Within cellular pathology, with the origin of each cell coming from another cell, Virchow put an end to the Hippocratic and Galenic theories of the humors.
The microscope allowed for the discovery of microorganisms (bacteria) (called "seminaria" by Fracastoro)-the cause of contagious diseases.This was similar to the efforts of Robert Koch (1843Koch ( -1910)), who discovered tuberculosis (Figure 4).
In 1900, Carl Ludwig Alfred Fiedler (1835-1921) (Figure 5) reported an acute heart failure in young people who died suddenly with fulminant, malaria-like fever in the absence of coronary, valve, pericardial disease, and he called it interstitial myocarditis [2].Through a microscope, interstitial inflammatory infiltrates of the myocyte were observed, which spared other organs (isolated myocarditis).He believed it was the consequence of an atypical infection like scarlet, diphtheria, or typhus, different from acute rheumatic fever or syphilis.The prognosis was severe and lethal within 5-17 days.Oddly enough, the visionary Fiedler advanced the possibility of recovery of cardiac contractility because, despite the severe inflammatory phenomenon, the myocardial injury appeared potentially reversible because of the absence of significant cardiomyocyte death.In 1900, Carl Ludwig Alfred Fiedler (1835-1921) (Figure 5) reported an acute heart failure in young people who died suddenly with fulminant, malaria-like fever in the absence of coronary, valve, pericardial disease, and he called it interstitial myocarditis [2].Through a microscope, interstitial inflammatory infiltrates of the myocyte were observed, which spared other organs (isolated myocarditis).He believed it was the consequence of an atypical infection like scarlet, diphtheria, or typhus, different from acute rheumatic fever or syphilis.The prognosis was severe and lethal within 5-17 days.Oddly enough, the visionary Fiedler advanced the possibility of recovery of cardiac contractility because,  In 1900, Carl Ludwig Alfred Fiedler (1835-1921) (Figure 5) reported an acute heart failure in young people who died suddenly with fulminant, malaria-like fever in the absence of coronary, valve, pericardial disease, and he called it interstitial myocarditis [2].Through a microscope, interstitial inflammatory infiltrates of the myocyte were observed, which spared other organs (isolated myocarditis).He believed it was the consequence of an atypical infection like scarlet, diphtheria, or typhus, different from acute rheumatic fever or syphilis.The prognosis was severe and lethal within 5-17 days.Oddly enough, the visionary Fiedler advanced the possibility of recovery of cardiac contractility because, An autopsy case of similar myocardial inflammation had been published three years earlier by Abramov [3].
In 1905, Saltykow questioned the distinction between parenchymatous (diphtheric) and interstitial myocarditis and dictated the definition of myocarditis as a non-ischemic disease of the myocardium with inflammatory infiltrates [4].
A revision of Fiedler's original histologic slides, performed by Christian Georg Schmorl (1861-1932) (Figure 6), showed either a lymphocytic or giant-cell inflammatory histotype, which years later would be interpreted as viral or immune myocarditis.Since then, the latter has been labeled with the eponym "Giant Cell Myocarditis".despite the severe inflammatory phenomenon, the myocardial injury appeared potentially reversible because of the absence of significant cardiomyocyte death.An autopsy case of similar myocardial inflammation had been published three years earlier by Abramov [3].
In 1905, Saltykow questioned the distinction between parenchymatous (diphtheric) and interstitial myocarditis and dictated the definition of myocarditis as a non-ischemic disease of the myocardium with inflammatory infiltrates [4].
A revision of Fiedler's original histologic slides, performed by Christian Georg Schmorl (1861-1932) (Figure 6), showed either a lymphocytic or giant-cell inflammatory histotype, which years later would be interpreted as viral or immune myocarditis.Since then, the latter has been labeled with the eponym "Giant Cell Myocarditis".An autopsy case of similar myocardial inflammation had been published three years earlier by Abramov [3].
In 1905, Saltykow questioned the distinction between parenchymatous (diphtheric) and interstitial myocarditis and dictated the definition of myocarditis as a non-ischemic disease of the myocardium with inflammatory infiltrates [4].
A revision of Fiedler's original histologic slides, performed by Christian Georg Schmorl (1861-1932) (Figure 6), showed either a lymphocytic or giant-cell inflammatory histotype, which years later would be interpreted as viral or immune myocarditis.Since then, the latter has been labeled with the eponym "Giant Cell Myocarditis".Another type of myocarditis was rheumatic "pancarditis", first observed by Karl Albert Ludwig Aschoff (1866-1942) [5] (Figure 7).It was not an infective disease, since the culture of valve vegetations ("verrucae") turned out to be sterile.Granulomatous myocardial inflammation was observed by Aschoff with "bodies" consisting of owl's eye cells (Aschoff cells) and caterpillar cells (Anitschkow cells) (Figure 7).The concept of an auto-immune disease, triggered by a streptococcus pharyngeal infection, was proven later.
Another type of myocarditis was rheumatic "pancarditis", first observed by Karl Albert Ludwig Aschoff (1866Aschoff ( -1942) ) [5] (Figure 7).It was not an infective disease, since the culture of valve vegetations ("verrucae") turned out to be sterile.Granulomatous myocardial inflammation was observed by Aschoff with "bodies" consisting of owl's eye cells (Aschoff cells) and caterpillar cells (Anitschkow cells) (Figure 7).The concept of an autoimmune disease, triggered by a streptococcus pharyngeal infection, was proven later.On the other side of the ocean, Carlos Chagas (1879-1934), a Brazilian physician, reported severe myocarditis in the setting of a systemic infective disease by the protozoan Trypanosoma cruzi [6] (Figure 8).Despite working in primitive conditions, Chagas described a previously unknown infectious disease in detail (pathogen, vector, host, clinical manifestations, epidemiology, and demographics) and observed the infective organism in the inflamed myocardium under the microscope.On the other side of the ocean, Carlos Chagas (1879-1934), a Brazilian physician, reported severe myocarditis in the setting of a systemic infective disease by the protozoan Trypanosoma cruzi [6] (Figure 8).Despite working in primitive conditions, Chagas described a previously unknown infectious disease in detail (pathogen, vector, host, clinical manifestations, epidemiology, and demographics) and observed the infective organism in the inflamed myocardium under the microscope.In 1929, Mitchell Bernstein wrote of the heart's involvement in sarcoidosis [7], focusing on non-caseous granulomatous giant-cell myocarditis, quite different from tuberculosis and most probably immune in nature.This typically involves the right ventricle and triggers ventricular arrhythmias, mimicking arrhythmogenic cardiomyopathy (Figure 9).In 1929, Mitchell Bernstein wrote of the heart's involvement in sarcoidosis [7], focusing on non-caseous granulomatous giant-cell myocarditis, quite different from tuberculosis and most probably immune in nature.This typically involves the right ventricle and triggers ventricular arrhythmias, mimicking arrhythmogenic cardiomyopathy (Figure 9).Unlike the latter, it may also involve the ventricular septum and is easily and pathognomonically diagnosed in vivo through right-ventricular endomyocardial biopsy.In 1929, Mitchell Bernstein wrote of the heart's involvement in sarcoidosis [7], focusing on non-caseous granulomatous giant-cell myocarditis, quite different from tuberculosis and most probably immune in nature.This typically involves the right ventricle and triggers ventricular arrhythmias, mimicking arrhythmogenic cardiomyopathy (Figure 9).Unlike the latter, it may also involve the ventricular septum and is easily and pathognomonically diagnosed in vivo through right-ventricular endomyocardial biopsy.Myocarditis has various etiologies and mechanisms (infectious, immune, allergic, or still idiopathic).Viral infection is the main cause of lymphocytic myocarditis in the Western world.
For years, the diagnosis of viral myocarditis had been based on serology, by revealing high levels of antiviral antibodies, or by culturing blood or pericardial effusion.
In 1948 a small RNA enterovirus was identified as cardiotropic by Gilbert Dallford (1900-1979) (Figure 10) at the Department of Health, Albany, within the feces of children in a village named Coxsackie, New York State [8].Myocarditis has various etiologies and mechanisms (infectious, immune, allergic, or still idiopathic).Viral infection is the main cause of lymphocytic myocarditis in the Western world.
For years, the diagnosis of viral myocarditis had been based on serology, by revealing high levels of antiviral antibodies, or by culturing blood or pericardial effusion.
In 1948 a small RNA enterovirus was identified as cardiotropic by Gilbert Dallford (1900-1979) (Figure 10) at the Department of Health, Albany, within the feces of children in a village named Coxsackie, New York State [8].
Memorable reviews were accomplished by Otto Saphir in 1941 on 240 cases of postmortem myocarditis [9] and by Jack Woodruff in 1980 on animal experiments of viral myocarditis, with particular emphasis on coxsackie B enterovirus [10].
For years, the diagnosis of viral myocarditis had been based on serology, by revealing high levels of antiviral antibodies, or by culturing blood or pericardial effusion.
In 1948 a small RNA enterovirus was identified as cardiotropic by Gilbert Dallford (1900-1979) (Figure 10) at the Department of Health, Albany, within the feces of children in a village named Coxsackie, New York State [8].As far as etiology is concerned, myocarditis can be due to infective microorganisms (Table 1), allergens, drugs, toxic agents, and immune reactions.Signs and symptoms as phenotypical expressions of myocarditis are heart failure, cardiogenic shock, myocardial infarction-like, chest pain, arrhythmias, syncope, and sudden death (Figure 11).It may even be asymptomatic.1 reports a panel of infective agents (viruses, bacteria, mycobacteria, fungi, protozoa, rickettsiae, chlamydia, . ..).The microorganisms may be visible inside the cardiomyocytes (Figure 12).mortem myocarditis [9] and by Jack Woodruff in 1980 on animal experiments of viral myocarditis, with particular emphasis on coxsackie B enterovirus [10].
As far as etiology is concerned, myocarditis can be due to infective microorganisms (Table 1), allergens, drugs, toxic agents, and immune reactions.Signs and symptoms as phenotypical expressions of myocarditis are heart failure, cardiogenic shock, myocardial infarction-like, chest pain, arrhythmias, syncope, and sudden death (Figure 11).It may even be asymptomatic.Table 1 reports a panel of infective agents (viruses, bacteria, mycobacteria, fungi, protozoa, rickettsiae, chlamydia, …).The microorganisms may be visible inside the cardiomyocytes (Figure 12).Autoimmune myocarditis, occurring in systemic lupus erythematosus (SLE), does not lead to a rapid decline in contractility because the main target is conducting tissue, with the onset of sino-atrial and atrioventricular blocks.Classifications according to the inflammatory histotype are: lymphocytic, neutrophilic, eosinophilic, granulomatous, and giant-cell myocarditis (Figure 13).Parvovirus B19 is mostly a vasculotropic virus, and herpes virus infects mesenchymal cells.
Autoimmune myocarditis, occurring in systemic lupus erythematosus (SLE), does not lead to a rapid decline in contractility because the main target is conducting tissue, with the onset of sino-atrial and atrioventricular blocks.
Classifications according to the inflammatory histotype are: lymphocytic, neutrophilic, eosinophilic, granulomatous, and giant-cell myocarditis (Figure 13).Classifications according to the inflammatory histotype are: lymphocytic, neutrophilic, eosinophilic, granulomatous, and giant-cell myocarditis (Figure 13).As far as therapy is concerned, immunosuppressive therapy is effective in immune myocarditis and more rarely in viral myocarditis (Figure 14).In the original WHO classification of cardiomyopathies of 1980, myocarditis was put within secondary myocardial diseases, like amyloidosis.In the WHO's revised classification of 1996, myocarditis was definitively put within primary cardiomyopathies [12], and this has been maintained.
Ventricular arrhythmias (VAs) are frequently associated with myocarditis.Polymorphic VAs are more common during active inflammation, while monomorphic VAs are associated with healed myocarditis [13].As far as therapy is concerned, immunosuppressive therapy is effective in immune myocarditis and more rarely in viral myocarditis (Figure 14).As far as therapy is concerned, immunosuppressive therapy is effective in immune myocarditis and more rarely in viral myocarditis (Figure 14).In the original WHO classification of cardiomyopathies of 1980, myocarditis was put within secondary myocardial diseases, like amyloidosis.In the WHO's revised classification of 1996, myocarditis was definitively put within primary cardiomyopathies [12], and this has been maintained.
Ventricular arrhythmias (VAs) are frequently associated with myocarditis.Polymorphic VAs are more common during active inflammation, while monomorphic VAs are associated with healed myocarditis [13].
The rate of myocarditis among juveniles (<35 years old) as a cause of sudden cardiac In the original WHO classification of cardiomyopathies of 1980, myocarditis was put within secondary myocardial diseases, like amyloidosis.In the WHO's revised classification of 1996, myocarditis was definitively put within primary cardiomyopathies [12], and this has been maintained.
Ventricular arrhythmias (VAs) are frequently associated with myocarditis.Polymorphic VAs are more common during active inflammation, while monomorphic VAs are associated with healed myocarditis [13].
The rate of myocarditis among juveniles (<35 years old) as a cause of sudden cardiac death was 14% in the prospective study of the Veneto region (Figure 15).Arrhythmogenic triggers are the cytokines released by inflammatory cells, myo necrosis, interstitial edema, and fibrosis following healing [10,14].A defibrillator jack recommended for a few months to prevent SD and protect patients.
The pathophysiological process of viral myocarditis may be divided into three ph (Figure 16): (1) Direct viral myocardial injury.
Myocardial inflammation is frequently associated with genetically determined diomyopathies, even at the onset of the disease.
Myocarditis has been one of the mechanisms postulated in the pathophysiolog AC since its origin [15].
Virus-negative, probably autoimmune myocarditis was found at EMB in the called "hot phase" of arrhythmogenic cardiomyopathy (AC), especially in children [1 Transgenic mice overexpressing desmocollin-2 were found to develop AC associa with myocardial inflammation [17].Arrhythmogenic triggers are the cytokines released by inflammatory cells, myocyte necrosis, interstitial edema, and fibrosis following healing [10,14].A defibrillator jacket is recommended for a few months to prevent SD and protect patients.
The pathophysiological process of viral myocarditis may be divided into three phases (Figure 16): (1) Direct viral myocardial injury.
Myocardial inflammation is frequently associated with genetically determined cardiomyopathies, even at the onset of the disease.
Myocarditis has been one of the mechanisms postulated in the pathophysiology of AC since its origin [15].
Virus-negative, probably autoimmune myocarditis was found at EMB in the so-called "hot phase" of arrhythmogenic cardiomyopathy (AC), especially in children [16].
Transgenic mice overexpressing desmocollin-2 were found to develop AC associated with myocardial inflammation [17].In 1962, the technique of transvenous EMB was introduced in Japan by Shigeru S kakibara   [20] (Figure 18).At that time, investigating the myocardium was fe sible only during an autopsy, since in vivo muscle biopsy was possible only at the skelet level.As far as diagnosis, endomyocardial biopsy (EMB) is nowadays an essential tool.In this storytelling article, must recall the mythical first right-ventricular catheterism by Werner Forssmann (1904-1979) [19], who, in 1929, inserted a urological catheter into his own RV ventricle through the left radial vein (Figure 17).As far as diagnosis, endomyocardial biopsy (EMB) is nowadays an essential tool.In this storytelling article, we must recall the mythical first right-ventricular catheterism by Werner Forssmann (1904-1979) [19], who, in 1929, inserted a urological catheter into his own RV ventricle through the left radial vein (Figure 17).In 1962, the technique of transvenous EMB was introduced in Japan by Shigeru Sakakibara (1910Sakakibara ( -1979) ) [20] (Figure 18).At that time, investigating the myocardium was feasible only during an autopsy, since in vivo muscle biopsy was possible only at the skeletal level.In 1962, the technique of transvenous EMB was introduced in Japan by Shigeru Sakakibara (1910Sakakibara ( -1979) ) [20] (Figure 18).At that time, investigating the myocardium was feasible only during an autopsy, since in vivo muscle biopsy was possible only at the skeletal level.EMB via a transdermal approach can also be accomplished in the left ventricle without risk [21].
At the start, renowned scientists raised concerns about the endomyocardial biopsy procedure, both in terms of risk and sensitivity and whether the biopsy specimens could represent the state of the whole heart [22].
Conversely, EMB has been found to be effective in achieving the diagnosis of active myocarditis, since the inflammation is widespread in the myocardium with negligible error (Figure 19), if the number of samples is adequate.EMB via a transdermal approach can also be accomplished in the left ventricle without risk [21].
At the start, renowned scientists raised concerns about the endomyocardial biopsy procedure, both in terms of risk and sensitivity and whether the biopsy specimens could represent the state of the whole heart [22].
Conversely, EMB has been found to be effective in achieving the diagnosis of active myocarditis, since the inflammation is widespread in the myocardium with negligible error (Figure 19), if the number of samples is adequate.
Diagnostic histologic criteria were put forward in 1985 by the Society for Cardiovascular Pathology in Dallas, based upon the microscopic observation of inflammatory infiltrates associated with myocardial necrosis ("Dallas Criteria") [23] (Figure 20).However, myocardial necrosis can be absent, despite a severe inflammatory infiltrate (Figure 21), and the Dallas Criteria have recently been "sentenced to death" [24].Inflammatory infiltrates and interstitial edema are the diagnostic "condition sine qua non".
Equally important is the evidence of viral cause found through Polymerase Chain Reaction (PCR), invented by Kary Mullis (1944-2019) (Figure 22) in 1986 [25], who was rewarded with the Nobel Prize in 1993.
A few years later, in 1986, N.E.Bowles et al., applying an in situ molecular hybridization technique, identified the coxsackie virus in human biopsy samples of active myocarditis and dilated cardiomyopathy [26].EMB with histology, immunohistochemistry, and molecular analysis is nowadays the diagnostic gold standard of viral myocarditis [27].
represent the state of the whole heart [22].
Conversely, EMB has been found to be effective in achieving the diagnosis of acti myocarditis, since the inflammation is widespread in the myocardium with negligible ror (Figure 19), if the number of samples is adequate.Diagnostic histologic criteria were put forward in 1985 by the Society for Cardiovascular Pathology in Dallas, based upon the microscopic observation of inflammatory infiltrates associated with myocardial necrosis ("Dallas Criteria") [23] (Figure 20).However, myocardial necrosis can be absent, despite a severe inflammatory infiltrate (Figure 21), and the Dallas Criteria have recently been "sentenced to death" [24].Inflammatory infiltrates and interstitial edema are the diagnostic "condition sine qua non".
Equally important is the evidence of viral cause found through Polymerase Chain Reaction (PCR), invented by Kary Mullis (1944-2019) (Figure 22) in 1986 [25], who was rewarded with the Nobel Prize in 1993.Cardiac Magnetic Resonance (CMR) with contrast enhancement was found to be a revolutionary tool for the non-invasive diagnosis of myocarditis; it is able to detect myocardial inflammation by evidence of "edema" (fluid exudate) with a sensitivity of around 70% [28].However, EMB remains needful to achieve the diagnosis with precise etiology and histotype for appropriate therapy with prognostic implications (for example, lymphocytic for viral etiology; granulomatous non-caseous and giant cells for the immune mechanism; and eosinophilic for the allergic mechanism).As for the outcome, viral myocarditis shows the worst prognosis [29].
Myocardial damage of myocarditis in animals was proven to be the consequence of direct cytotoxicity and/or humoral or cell-mediated immune reaction [14].
The results of a myocarditis molecular study in EMB showed a rate of viral cause of 58% in children and 71% in adults, with a prevalence of enterovirus in both (Figure 23).A few years later, in 1986, N.E.Bowles et al., applying an in situ molecular hybridization technique, identified the coxsackie virus in human biopsy samples of active myocarditis and dilated cardiomyopathy [26].EMB with histology, immunohistochemistry, and molecular analysis is nowadays the diagnostic gold standard of viral myocarditis [27].
Cardiac Magnetic Resonance (CMR) with contrast enhancement was found to be a revolutionary tool for the non-invasive diagnosis of myocarditis; it is able to detect myocardial inflammation by evidence of "edema" (fluid exudate) with a sensitivity of around 70% [28].However, EMB remains needful to achieve the diagnosis with precise etiology    Even in juvenile sudden death due to viral myocarditis, in our experience, enterovirus (coxsackie) accounted for 50% of causative viruses (Figures 24 and 25).Fulminant myocarditis in the past was considered lethal.Nowadays, with the employment of ECMO (ExtraCorporeal Membrane Oxygenation) and corticosteroid therapy, a good prognosis is feasible, despite the fact that specific antiviral drug therapy is still missing.
A ventricular assistance device using ECMO was introduced by Robert Bartlett (1939-) (Figure 26) and may temporarily supply myocardial contractility until spontaneous recovery.
The clinical presentation may be fulminant; however, spontaneous resolution may occur.The application of ECMO allows for temporary native heart rest, supplying cardiac contractile and respiratory functions.Fortunately, lymphocytic viral myocarditis is not necessarily associated with severe irreversible myocyte necrosis (Figure 21).
Since 1991, fulminant myocarditis with severe subitaneous onset and pump failure has been proven to be frequently solved [30], most probably because of less or reversible myocardial damage.
A contractile recovery with survival in patients with fulminant myocarditis and ECMO varied from 60% to 80% (Figure 27), suggesting that aggressive temporary support achieves an excellent outcome.
Coxsackievirus B (RNA virus) and Adenovirus (DNA virus) share the same cell membrane receptor: CAR [32] (Figure 29).Fulminant myocarditis in the past was considered lethal.Nowadays, with the employment of ECMO (ExtraCorporeal Membrane Oxygenation) and corticosteroid therapy, a good prognosis is feasible, despite the fact that specific antiviral drug therapy is still missing.
A ventricular assistance device using ECMO was introduced by Robert Bartlett (1939-) (Figure 26) and may temporarily supply myocardial contractility until spontaneous recovery.The latter can represent a lifesaving therapeutic option, although giant-cell immune myocarditis may relapse in the graft donor heart [35].Cardiac transplants can be accomplished either electively in chronic heart failure or during the emergency of cardiogenic shock by acute myocarditis.The clinical presentation may be fulminant; however, spontaneous resolution may occur.The application of ECMO allows for temporary native heart rest, supplying cardiac contractile and respiratory functions.Fortunately, lymphocytic viral myocarditis is not necessarily associated with severe irreversible myocyte necrosis (Figure 21).
Since 1991, fulminant myocarditis with severe subitaneous onset and pump failure has been proven to be frequently solved [30], most probably because of less or reversible myocardial damage.
A contractile recovery with survival in patients with fulminant myocarditis and ECMO varied from 60% to 80% (Figure 27), suggesting that aggressive temporary support achieves an excellent outcome.
Coxsackievirus B (RNA virus) and Adenovirus (DNA virus) share the same cell membrane receptor: CAR [32] (Figure 29).The latter can represent a lifesaving therapeutic option, although giant-cell immune myocarditis may relapse in the graft donor heart [35].Cardiac transplants can be accomplished either electively in chronic heart failure or during the emergency of cardiogenic shock by acute myocarditis.From [40], modified.

Biomedicines 2024 ,Figure 1 .
Figure 1.In 1510, a drawing was made by Leonardo da Vinci in his mind, for eyes are the windows of the soul with which to explore nature.

Figure 1 .Figure 1 .
Figure 1.In 1510, a drawing was made by Leonardo da Vinci in his mind, for eyes are the windows of the soul with which to explore nature.

Figure 3 .
Figure 3. Thanks to the microscope, Rudolph Virchow (1821-1902) advanced the theory of cell pathology in the book entitled Cellularpathologie (Cellularpathology).

Figure 9 .
Figure 9.In 1929, Michel Bernstein first reported myocarditis by sarcoidosis, consisting of non-caseous granuloma with giant cells (a-c).In this specimen, both the ventricular septum and the rightventricular free wall are involved (d).Haematoxylin and Eosin stain.

Figure 9 .
Figure 9.In 1929, Michel Bernstein first reported myocarditis by sarcoidosis, consisting of noncaseous granuloma with giant cells (a-c).In this specimen, both the ventricular septum and the right-ventricular free wall are involved (d).Haematoxylin and Eosin stain.

Figure 14 .
Figure 14.Immunosuppressive therapy is quite efficient for non-positive PCR and less for positive PCR myocarditis From [11], modified.

Figure 14 .
Figure 14.Immunosuppressive therapy is quite efficient for non-positive PCR and less for positive PCR myocarditis From [11], modified.

Figure 14 .
Figure 14.Immunosuppressive therapy is quite efficient for non-positive PCR and less for positive PCR myocarditis From [11], modified.

Figure 21 .
Figure 21.Myocarditis with inflammatory infiltrates and remarkable interstitial edema, in the absence of myocardial necrosis.Haematoxylin and Eosin stain.

Figure 21 .
Figure 21.Myocarditis with inflammatory infiltrates and remarkable interstitial edema, in the sence of myocardial necrosis.Haematoxylin and Eosin stain.Figure 21.Myocarditis with inflammatory infiltrates and remarkable interstitial edema, in the absence of myocardial necrosis.Haematoxylin and Eosin stain.

Figure 21 .
Figure 21.Myocarditis with inflammatory infiltrates and remarkable interstitial edema, in the sence of myocardial necrosis.Haematoxylin and Eosin stain.Figure 21.Myocarditis with inflammatory infiltrates and remarkable interstitial edema, in the absence of myocardial necrosis.Haematoxylin and Eosin stain.

Figure 24 .
Figure 24.Enterovirus is the most frequent cause of sudden death by viral myocarditis (Veneto Region, Italy).

Figure 24 .
Figure 24.Enterovirus is the most frequent cause of sudden death by viral myocarditis (Veneto Region, Italy).

Figure 24 .
Figure 24.Enterovirus is the most frequent cause of sudden death by viral myocarditis (Veneto Region, Italy).

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12, x FOR PEER REVIEW 18 of 22 accomplished either electively in chronic heart failure or during the emergency of cardiogenic shock by acute myocarditis.

Figure 27 .
Figure 27.Contractile recovery and rate of survival by ECMO in fulminant myocarditis.Data from different reports [36-39].