Mucormycosis is an angioinvasive fungal infection due to fungi of the order Mucorales.
Depending on the clinical presentation it is classified as rhinocerebral, pulmonary, cutaneous, gastrointestinal, disseminated or other, which includes uncommon rare forms, such as endocarditis, osteomyelitis, peritonitis, renal, etc.
The disease was first described in 1876 when Fürbinger described in Germany a patient who died of cancer and in whom the right lung showed a hemorrhagic infarct with fungal hyphae and a few sporangia.
In 1885, Arnold Paltauf published the first case of disseminated mucormycosis, which he named “Mycosis mucorina”.
His drawings of the etiologic agent showed the presence of sporangiophores and rhizoid-like structures, and this led to the conclusion that the infection was most probably caused by Lichtheimia corymbifera.
Over time, more cases were diagnosed, and the incidence of the disease has increased.
Currently, Mucorales fungi are the next most common mold pathogens after Aspergillus, leading to invasive fungal disease in patients with malignancies or transplantation.
The incidence of mucormycosis has also increased significantly inpatients with diabetes, which is the commonest underlying risk factor globally.
Τhe epidemiology of mucormycosis is evolving as new immunomodulating agents are used in the treatment of cancer and autoimmune diseases, and as the modern diagnostic tools lead to the identification of previously uncommon genera/species such as the Apophysomyces or Saksenaea complex.
Just a short update to bring awareness to health care professionals of the monkeypox virus dilemma in 2022,and to inform professionals in Nigeria to be alert as to make diagnosis and inform appropriate authorities. Also, to alert of some of the impediments we face in the undeveloped world in measures against viral infections.
Just one bite of a mosquito can take us closer to death. Don't let that happen to anyone. Happy World Malaria Day. The only way to celebrate the occasion of World Malaria Day is by joining hands against this disease.
Just a short update to bring awareness to health care professionals of the monkeypox virus dilemma in 2022,and to inform professionals in Nigeria to be alert as to make diagnosis and inform appropriate authorities. Also, to alert of some of the impediments we face in the undeveloped world in measures against viral infections.
Just one bite of a mosquito can take us closer to death. Don't let that happen to anyone. Happy World Malaria Day. The only way to celebrate the occasion of World Malaria Day is by joining hands against this disease.
Introduction, epidemiology, global trends, Indian setting, pathogenesis, life cycle, clinical manifestations, investigations, treatment regimen, prevention.
Measles and its prevention - Slideset by professor EdwardsWAidid
In this study Professor Kathryn M. Edwards (Sarah H. Sell and Cornelius Vanderbilt Professor - Division of Pediatric Infectious Diseases - Vanderbilt University Medical Center) provides an update on measles and its prevention.
To learn more, please visit www.waidid.org!
Definition of tuberculosis as scientific and practical problem.
Epidemiology of tuberculosis.
The etiology and pathogenesis of tuberculosis.
Immunity of tuberculosis.
Clinical classification of tuberculosis.
Epidemiology & Control measures for Tuberculosis. AB Rajar
n this Lecture I tried my best to include all essential features about the TB disease. I hope that this will help to undergraduate Medical students for better understanding the Disease.
Infections and salivary gland disease in pediatric age: how to manage - Slide...WAidid
The slideset by Professor Susanna Esposito aims at explaining how to manage the salivary gland infections in pediatric age, from pathogenesis, to transmission, treatments and vaccination coverage, that should be urgently increased in Italy as well as in EU Countries.
mucoromycosis is a fungal infection mostly caused by saprophytic molds.
these fungi are found widely in environment, mostly in damp areas or areas with good carbon source, as carbon is essential or basic needs for such fungi.
their infection is categorised into three categories,
cutaneous mucoromycosis,
sub-cutaneous mucoromycosis,
disseminated mucoromycosis.
this ppt will gives you an overview regarding mucoromycosis its causative agent, parthenogenesis and lab diagnosis and treatment.
Pneumonia - Community Acquired Pneumonia (CAP)Arshia Nozari
An overview to Community Acquired Pneumonia; It's Pathophysiology, Etiology, Epidemiology, Diagnosis and Treatment according to Harrison's Internal Medicine, 20th Edition (2018).
ORAL MANIFESTATIONS OF SYPHILIS-A reviewishita1994
Syphilis is an infectious disease of most extreme significance these days, which has made a rebound after the presence of AIDS.
It might introduce oral lesions in all stages.
A sharp information on its different oral signs is significant for appropriate determination and satisfactory treatment.
Infective syphilis is brought about by the anaerobic filamentous spirochete, Treponema pallidum.
Previously decade there has been a noteworthy ascent in the prevalence of infective syphilis in the created world.
Striking increments in the recurrence of syphilis have happened in Eastern Europe, and more modest ascents have been accounted for in Western Europe and the US.
Paget’s disease of bone with special reference to dentistry-an insightishita1994
Bone is a dynamic tissue that is constantly renewed. The cell populations that participate in this process; the osteoblasts and osteoclast are derived from different progenitor pools that are under distinct molecular control mechanisms. Together, these cells form temporary anatomical structures, called as basic multicellular units that execute bone remodeling. A number of stimuli affect bone turnover, including hormones, cytokines, and mechanical stimuli. All of these factors affect the amount and quality of the tissue produced. Paget’s disease is a bone disorder characterized by excessive and abnormal remodeling of the bone, resulting in distortion and weakness of affected bones. It is the second‑most common osteo dystrophic condition after osteoporosis.
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Measles and its prevention - Slideset by professor EdwardsWAidid
In this study Professor Kathryn M. Edwards (Sarah H. Sell and Cornelius Vanderbilt Professor - Division of Pediatric Infectious Diseases - Vanderbilt University Medical Center) provides an update on measles and its prevention.
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n this Lecture I tried my best to include all essential features about the TB disease. I hope that this will help to undergraduate Medical students for better understanding the Disease.
Infections and salivary gland disease in pediatric age: how to manage - Slide...WAidid
The slideset by Professor Susanna Esposito aims at explaining how to manage the salivary gland infections in pediatric age, from pathogenesis, to transmission, treatments and vaccination coverage, that should be urgently increased in Italy as well as in EU Countries.
mucoromycosis is a fungal infection mostly caused by saprophytic molds.
these fungi are found widely in environment, mostly in damp areas or areas with good carbon source, as carbon is essential or basic needs for such fungi.
their infection is categorised into three categories,
cutaneous mucoromycosis,
sub-cutaneous mucoromycosis,
disseminated mucoromycosis.
this ppt will gives you an overview regarding mucoromycosis its causative agent, parthenogenesis and lab diagnosis and treatment.
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ORAL MANIFESTATIONS OF SYPHILIS-A reviewishita1994
Syphilis is an infectious disease of most extreme significance these days, which has made a rebound after the presence of AIDS.
It might introduce oral lesions in all stages.
A sharp information on its different oral signs is significant for appropriate determination and satisfactory treatment.
Infective syphilis is brought about by the anaerobic filamentous spirochete, Treponema pallidum.
Previously decade there has been a noteworthy ascent in the prevalence of infective syphilis in the created world.
Striking increments in the recurrence of syphilis have happened in Eastern Europe, and more modest ascents have been accounted for in Western Europe and the US.
Paget’s disease of bone with special reference to dentistry-an insightishita1994
Bone is a dynamic tissue that is constantly renewed. The cell populations that participate in this process; the osteoblasts and osteoclast are derived from different progenitor pools that are under distinct molecular control mechanisms. Together, these cells form temporary anatomical structures, called as basic multicellular units that execute bone remodeling. A number of stimuli affect bone turnover, including hormones, cytokines, and mechanical stimuli. All of these factors affect the amount and quality of the tissue produced. Paget’s disease is a bone disorder characterized by excessive and abnormal remodeling of the bone, resulting in distortion and weakness of affected bones. It is the second‑most common osteo dystrophic condition after osteoporosis.
Oral cancer is the world’s 6th most common malignancy and has one of the lowest survival rates, often due to late diagnosis. The most important determinant factor in cancer survival is diagnostic delay and it directly affects the survival rate.
Most oral cancers are preceded by precancerous lesions and early cancers that can be identified by visual inspection of the oral cavity. Conventional oral examination is useful in the discovery of some oral lesions, but it does not identify all potentially premalignant lesions, as some are not readily apparent to visual inspection alone.
Adjunctive techniques have emerged that may facilitate early detection of oral premalignant and malignant lesions. Thorough clinical examinations being one of the best modalities in suspecting the pathology, the biggest disadvantage in the diagnosis lies in detecting the site of biopsy and also whether biopsy is required or not in early lesions.
Nowadays various diagnostic aids have been established in detecting such lesions but easy chair-side techniques can be used if possible. And one such technique is by using vital staining with dyes which is used for early recognition of lesion and also can improve the patient survival rate.
CLINICOPATHOLOGICAL FEATURES OF PERIPHERAL OSSIFYING FIBROMA IN A SERIES OF 4...ishita1994
Peripheral ossifying fibromas are benign mesenchymal lesions that usually arise in the anterior maxilla of young female patients. Histologically they consist of spindle cell proliferation with focal mineralization. We reviewed 48 specimens from 41 patients and recorded the clinical data, sex, and age of the patients, site, and size of the lesions, treatment, and postoperative outcome. Histologically the presence of mature, woven bone, cementum, and calcifications was evaluated and evaluated immunohistochemically. Lesions were more frequent in female patients in the third and fourth decade and were usually in the lower maxilla and smaller than 2 cm. All lesions were conservatively excised, and they relapsed in eight patients. Histopathologically, the lesions were poorly circumscribed, with moderately cellular proliferation, and with no discernible architectural pattern. All tumors showed some degree of mineralization, the presence of immature bone being the most common. Immunohistochemical examination showed staining of tumoral cells for smooth muscle actin and CD68. Lesions tended to occur more commonly in female patients, but one decade later than usually reported. We found a higher recurrence rate in lesions that contained cementum-like material but without bone formation, suggesting a lack of maturation in this group. Immunohistochemical results were consistent with myofibroblastic differentiation but they added no information about the behavior of the lesions.
Pathophysiology of myoepithelial cells in salivary glandsishita1994
In salivary glands and other exocrine glands, there are
star‑shaped cells lying between the basal lamina and the acinar
and ductal cells. These cells structurally resemble epithelial cells
and smooth muscles and, thus, are referred to as myoepithelial
cells (MECs). Because of their shape and interwoven processes,
they were commonly referred to as “star‑shaped cells” or
“basket cells.” Tamarin described these cells as being “like an
octopus sitting on a rock”.
Current concepts of pemphigus with a deep insight into its molecular aspectishita1994
Pemphigus vulgaris is an autoimmune bullous disease involving both the skin and mucosal areas, which
is characterized by intraepithelial flaccid blisters and erosions. The pathogenesis of this disease is not
yet completely established, but novel intuitions into its pathogenesis have recently been published. An
unanswered question in its pathophysiology is the mechanism of acantholysis or loss of keratinocyte
cell adhesion. Acantholysis seems to result from a communal action of autoantibodies against numerous
keratinocyte self‑antigens, of which desmogleins 1 and 3, desmocollins and nondesmosome components,
such as the mitochondrion, might take part in the disease initiation. Lately, apoptosis was described as
a possible underlying mechanism of acantholysis. Likewise, apoptolysis is assumed to be the association
between suprabasal acantholytic and cell death pathways. Hence, the present review focuses on the current
concepts in the pathogenesis of the pemphigus in a nutshell.
Cytoskeleton of a cell is made up of microfilaments, microtubules and intermediate filaments. Keratins are diverse proteins. These intermediate filaments maintain the structural integrity of the keratinocytes. The word keratin covers these intermediate filament-forming proteins within the keratinocytes. They are expressed in a specific pattern and according to the stage of cellular differentiation. They always occur in pairs. Mutations in the genes which regulate the expression of keratin proteins are associated with a number of disorders which show defects in both skin and mucosa. In addition, there are a number of disorders which are seen because of abnormal keratinization. These keratins and keratin-associated proteins have become important markers in diagnostic pathology. This review article discusses the classification, structure, functions, the stains used for the demonstration of keratin and associated pathology. The review describes the physiology of keratinization, pathology behind abnormal keratin formation and various keratin disorders.
Romanowsky staining or Romanowsky–Giemsa staining, is a prototypical staining technique, widely used in hematology and cytopathology.
They are used to differentiate cells for microscopic examination in air dried cytological smears or pathological specimens, especially blood and bone marrow films, and to detect parasites such as malaria within the blood.
Romanowsky stains is a neutral dye containing both acid and basic dyes in combination. It contains both azure B (electron acceptor) and eosin Y (electron donor).
The value of Romanowsky staining lies in its ability to produce a wide range of hues, allowing cellular components to be easily differentiated. This phenomenon is referred to as the Romanowsky effect, or more generally as metachromasia.
These stains allow better estimation of cell size, nuclear size, cell cytoplasm and identify ground substances by metachromasia.
The tissue section is colourless because the fixed protein has the same refractive index as that of glass. We use dyes that have specific affinity with the different tissue proteins and colour them differently.
Colour is seen by the eye as a result of the effect of certain electromagnetic waves on the rods and cones of the retina. These waves, which have a varying length, will determine the colour that is seen.
White light being composed of all the colours of the visible spectrum varies in wavelength from 4,000 Â to 8,000 Â.
If light of a specific wavelength is absorbed from white light the resultant light will then be coloured, the colour being dependent upon the particular wavelength that has been removed.
Ghost cells are translucent balloon shaped , elliptical epithelial cells are recognized as swollen, pale, eosinophilic cells.
They are seen either singly or in sheets with a clear conservation of basic cellular outline, generally with apparent clear areas or with some remnants indicative of the site previously occupied by the nucleus.
The transformation of epithelial cells into more resistant terminally differentiated apoptotic cells i.e., ghost cells are responsible for the banal behavior of neoplasms and they also help in relieving the stress of the forming neoplasm.
The most accepted nature of ghost cells is aberrant keratinization that is altered form of keratin as it doesn’t stain with normal cytokeratin antibodies.
Tonofilaments have been observed universally in the ghost cells of all the odontogenic or non-odontogenic tumors but these solely don’t satisfy their nature which is also found to be positive for enamel proteins in odontogenic tumors.
Although, studies prove an intricate functional relationship exists between Wnt and Notch signalling during development of neoplasms and in assigning cells to particular fates.
Their relationship along with other signalling pathways complex interaction during tumorigenesis also needs intensive evaluation and this would help revealing the missing link between odontogenic and non-odontogenic tumors exhibiting these similar looking mysterious ghost cells.
Mineralization (calcification) is the process of deposition of insoluble calcium salts in a tissue. It is one of the important steps in the formation of hard tissues of the body that is enamel, dentin, bone, and cementum. The synthetic cells, along with the help of the enzyme alkaline phosphatase, aid the mineralization process. The mineral content (inorganic portion) of all the hard tissues of the body is mainly in the form of Calcium hydroxyapatite crystals, Ca10(PO4)6(OH)2.
When calcium phosphate deposition is initiated, the crux is then to control spontaneous precipitation from tissue fluids supersaturated in calcium and phosphate ions and to limit it to well-defined sites. Formative cells achieve this by creating microenvironments that facilitate mineral ion handling and by secreting proteins that stabilize calcium and phosphate ions in body fluids and/or control their deposition onto a receptive extracellular matrix.
The synthetic cells achieve this property by secreting proteins that stabilize Calcium and Phosphate in the body fluids and control their deposition onto the extracellular matrix. These proteins are:
1. Salivary proteins
2. Enamel matrix protein
3. Dentin, cementum, and bone matrix proteins.
Histologically, the lesion shows a highly vascular proliferation that resembles granulation tissue.
Numerous small and larger endothelium-lined channels are formed that are engorged with red blood cells. These vessels sometimes are organized in lobular aggregates, and may be called as lobular capillary haemangioma.
The surface is usually ulcerated and replaced by a thick fibrinopurulent membrane.
A mixed inflammatory cell infiltrate of neutrophils, plasma cells, and lymphocytes is evident.
Neutrophils are most prevalent near the ulcerated surface; chronic inflammatory cells are found deeper in the specimen.
It is also called Oral Fibroma or Irritational Fibroma or Focal Fibrous Hyperplasia.
Fibroma is a benign neoplasm of fibrous connective tissue origin.
It is characterized by excessive proliferation of fibroblast cells with synthesis of large amount of collagen.
Although a large number of fibrous over-growths are found inside the oral cavity, most of these are reactive lesions occurring as a result of trauma or local irritation and therefore true fibromas are extremely rare.
Jain G et al (2017) stated that traumatic irritants include calculi, foreign bodies, overhanging margins, restorations, margins of caries, chronic biting, sharp spicules of bones, and overextended borders of appliances. Fibroma, a benign neoplasm of fibroblastic origin, is reactive in nature and represents a reactive hyperplasia of fibrous connective tissue in response to local irritation or trauma rather than being a true neoplasm.
8 th edition TNM classification and significance of depth of invasionishita1994
Diagnosis of oral cancer is completed for:
Initial diagnosis
Staging
Treatment planning
A complete history, and clinical examination is first completed, then a wedge of tissue is cut from the suspicious lesion for tissue diagnosis. In this procedure, the surgeon cuts all, or a piece of the tissue, to have it examined under a microscope by a pathologist.
Leukoplakia can be defined as a “white patch” or “plaque” in the oral cavity, which cannot be scrapped off and which cannot be characterized clinically or pathologically as any other disease.
This excludes lesions such as lichen planus, candidiasis, leukoedema, white spongy nevus, and obvious frictional keratosis.
The term leukoplakia should be used to recognise white plaques of questionable risk having excluded (other) known diseases or disorders that carry no risk for cancer-WHO 2005.
Mandibular central incisors are two in number
Mandibular central incisor and lateral are similar in anatomy and complement each other in function
They are smaller than the maxillary central incisors
Mandibular central incisor erupts between the age of 7 and 8 years
First tooth from the midline in each lower quadrant
Depth of invasion in oral squamous cell carcinomaishita1994
It is the most common malignant epithelial tissue neoplasm of the oral cavity.
It is derived from the stratified squamous epithelium.
Since oral squamous cell carcinomas constitute bulk of the oral malignancies (above 90 %) it is thus commonly referred to as Oral Cancer.
Tuberculosis is a disease characterized by granulomatous lesions caused by Mycobacterium Tuberculosis. A German scientist Robert Koch discovered the causative organism of TB in 1882.
Since time immemorial, it has been a global health problem. TB has shown a decline in its prevalence globally; however, it is still highly prevalent in Asian countries.
TB is usually overlooked in the differential diagnosis of oral lesions as it is supposed to be a rare entity.
Oral manifestations of TB occur either due to infected sputum or due to hematogenous spread.
TB is an age old disease and has been known to mankind for thousands of years.
Role of human papillomavirus and tumor suppressor genesishita1994
Oral cancer is synonymous to Squamous Cell Carcinoma (SCC) of oral mucosal origin that accounts for more than 90% of all malignant presentations at the aforementioned anatomical sites.
More than 300,000 new cases worldwide are being diagnosed with oral SCC (OSCC) annually.
Approximately, 30,000 (US) & 40,000(EUROPE).
Oral cancer is estimated by the WHO to be the 8th most common cancer worldwide.
In India & other Asian countries, oral & oropharyngeal carcinomas (OCs) comprise up to half of all malignancies, with this particularly high prevalence being attributed to the influence of carcinogens & region-specific epidemiological factors, especially tobacco & betel quid chewing.
JUNCTIONAL EPITHELIUM
It is a highly specialized epithelial tissue which divides faster than any other normal epithelium.
The mean turnover time of junctional epithelium is 5–6 days.
The junctional epithelium is basically a stratified, squamous, non-keratinizing epithelium comprising two layers: basal & suprabasal layers.
The junctional epithelium differs from the gingival oral epithelium & sulcular epithelium in origin & structure.
This specialized epithelium ranges in thickness from few cells at its most apical portion to between 15 & 30 cells at its most coronal portion adjacent to the sulcular epithelium, & the cells align themselves in a plane parallel to the tooth surface.
The length of this epithelium is approximately 0.25–1.35 mm.
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MANAGEMENT OF ATRIOVENTRICULAR CONDUCTION BLOCK.pdfJim Jacob Roy
Cardiac conduction defects can occur due to various causes.
Atrioventricular conduction blocks ( AV blocks ) are classified into 3 types.
This document describes the acute management of AV block.
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Artificial intelligence (AI) refers to the simulation of human intelligence processes by machines, especially computer systems. It encompasses tasks such as learning, reasoning, problem-solving, perception, and language understanding. AI technologies are revolutionizing various fields, from healthcare to finance, by enabling machines to perform tasks that typically require human intelligence.
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Ethanol (CH3CH2OH), or beverage alcohol, is a two-carbon alcohol
that is rapidly distributed in the body and brain. Ethanol alters many
neurochemical systems and has rewarding and addictive properties. It
is the oldest recreational drug and likely contributes to more morbidity,
mortality, and public health costs than all illicit drugs combined. The
5th edition of the Diagnostic and Statistical Manual of Mental Disorders
(DSM-5) integrates alcohol abuse and alcohol dependence into a single
disorder called alcohol use disorder (AUD), with mild, moderate,
and severe subclassifications (American Psychiatric Association, 2013).
In the DSM-5, all types of substance abuse and dependence have been
combined into a single substance use disorder (SUD) on a continuum
from mild to severe. A diagnosis of AUD requires that at least two of
the 11 DSM-5 behaviors be present within a 12-month period (mild
AUD: 2–3 criteria; moderate AUD: 4–5 criteria; severe AUD: 6–11 criteria).
The four main behavioral effects of AUD are impaired control over
drinking, negative social consequences, risky use, and altered physiological
effects (tolerance, withdrawal). This chapter presents an overview
of the prevalence and harmful consequences of AUD in the U.S.,
the systemic nature of the disease, neurocircuitry and stages of AUD,
comorbidities, fetal alcohol spectrum disorders, genetic risk factors, and
pharmacotherapies for AUD.
Title: Sense of Smell
Presenter: Dr. Faiza, Assistant Professor of Physiology
Qualifications:
MBBS (Best Graduate, AIMC Lahore)
FCPS Physiology
ICMT, CHPE, DHPE (STMU)
MPH (GC University, Faisalabad)
MBA (Virtual University of Pakistan)
Learning Objectives:
Describe the primary categories of smells and the concept of odor blindness.
Explain the structure and location of the olfactory membrane and mucosa, including the types and roles of cells involved in olfaction.
Describe the pathway and mechanisms of olfactory signal transmission from the olfactory receptors to the brain.
Illustrate the biochemical cascade triggered by odorant binding to olfactory receptors, including the role of G-proteins and second messengers in generating an action potential.
Identify different types of olfactory disorders such as anosmia, hyposmia, hyperosmia, and dysosmia, including their potential causes.
Key Topics:
Olfactory Genes:
3% of the human genome accounts for olfactory genes.
400 genes for odorant receptors.
Olfactory Membrane:
Located in the superior part of the nasal cavity.
Medially: Folds downward along the superior septum.
Laterally: Folds over the superior turbinate and upper surface of the middle turbinate.
Total surface area: 5-10 square centimeters.
Olfactory Mucosa:
Olfactory Cells: Bipolar nerve cells derived from the CNS (100 million), with 4-25 olfactory cilia per cell.
Sustentacular Cells: Produce mucus and maintain ionic and molecular environment.
Basal Cells: Replace worn-out olfactory cells with an average lifespan of 1-2 months.
Bowman’s Gland: Secretes mucus.
Stimulation of Olfactory Cells:
Odorant dissolves in mucus and attaches to receptors on olfactory cilia.
Involves a cascade effect through G-proteins and second messengers, leading to depolarization and action potential generation in the olfactory nerve.
Quality of a Good Odorant:
Small (3-20 Carbon atoms), volatile, water-soluble, and lipid-soluble.
Facilitated by odorant-binding proteins in mucus.
Membrane Potential and Action Potential:
Resting membrane potential: -55mV.
Action potential frequency in the olfactory nerve increases with odorant strength.
Adaptation Towards the Sense of Smell:
Rapid adaptation within the first second, with further slow adaptation.
Psychological adaptation greater than receptor adaptation, involving feedback inhibition from the central nervous system.
Primary Sensations of Smell:
Camphoraceous, Musky, Floral, Pepperminty, Ethereal, Pungent, Putrid.
Odor Detection Threshold:
Examples: Hydrogen sulfide (0.0005 ppm), Methyl-mercaptan (0.002 ppm).
Some toxic substances are odorless at lethal concentrations.
Characteristics of Smell:
Odor blindness for single substances due to lack of appropriate receptor protein.
Behavioral and emotional influences of smell.
Transmission of Olfactory Signals:
From olfactory cells to glomeruli in the olfactory bulb, involving lateral inhibition.
Primitive, less old, and new olfactory systems with different path
6. • Mucormycosis is an angioinvasive fungal infection due to fungi of the order
Mucorales.
• Depending on the clinical presentation it is classified as rhinocerebral, pulmonary,
cutaneous, gastrointestinal, disseminated or other, which includes uncommon rare
forms, such as endocarditis, osteomyelitis, peritonitis, renal, etc.
• The disease was first described in 1876 when Fürbinger described in Germany a
patient who died of cancer and in whom the right lung showed a hemorrhagic
infarct with fungal hyphae and a few sporangia.
• In 1885, Arnold Paltauf published the first case of disseminated mucormycosis,
which he named “Mycosis mucorina”.
• His drawings of the etiologic agent showed the presence of sporangiophores and
rhizoid-like structures, and this led to the conclusion that the infection was most
probably caused by Lichtheimia corymbifera.
7. • Over time, more cases were diagnosed, and the incidence of the disease has
increased.
• Currently, Mucorales fungi are the next most common mold pathogens after
Aspergillus, leading to invasive fungal disease in patients with malignancies or
transplantation.
• The incidence of mucormycosis has also increased significantly inpatients with
diabetes, which is the commonest underlying risk factor globally.
• Τhe epidemiology of mucormycosis is evolving as new immunomodulating agents
are used in the treatment of cancer and autoimmune diseases, and as the modern
diagnostic tools lead to the identification of previously uncommon genera/species
such as the Apophysomyces or Saksenaea complex.
• The aim of this article is to present an update on the epidemiology and the available
diagnostic methods for this potentially lethal disease.
9. • Most of the data regarding the epidemiology of mucormycosis originate from case
reports and case series.
• The first extensive review of the literature was made by Roden et al. in 2005.
• The analysis comprised 929 cases published from 1940 to 2003, providing useful
information about the disease, but it also included cases of entomophthoramycosis.
• More recently, Jeong et al. analyzed 851 cases published from 2000 to 2017. In this
study, the review was undertaken and reported using the PRISMA guidelines and it
included only cases caused by Mucorales.
• Other relatively large case series were collected either on a national level or in
patients with selected underlying diseases, for example, hematopoietic stem cell
transplantation. Registries are another source of valuable information, despite their
inherent limitations.
• The Working Group on Zygomycosis of the European Confederation of Medical
Mycology(ECMM) and the International Society of Human and Animal Mycology
(ISHAM) constructed such aregistry in 2004 and published 230 cases from Europe in
2011.
10. INCIDENCE OF MUCORMYCOSIS:
• The incidence of mucormycosis is increasing.
• The exact incidence/prevalence is not known because there are few population-based
studies, and they differ in capture periods, populations and definition or diagnostic
procedures.
• In the study performed in the San Francisco Bayarea, from 1992 to 1993, the annual
incidence of mucormycosis was found to be 1.7 cases per 1 million individuals (500 cases
year).
• In the study published by Kontoyiannis et al. in 2016, “the prevalence of mucormycosis-
related hospitalizations was estimated as 0.12 per 10,000 discharges during January 2005–
June 2014, and it increased to 0.16 per 10,000 discharges if the definition of mucormycosis
was relaxed to not require the use of amphotericin B or posaconazole”.
• In a national population-based study in France, the prevalence of mucormycosis was 0.7
cases per million in 1997 and rose to 1.2 per million in 2006.
11. • From Belgium, Saegeman et al. reported a rise from 0.019 cases/10,000 patient-days during
2000 to 0.148 cases/10,000 patient-days during 2009.
• In India, the prevalence of mucormycosis is approximately 0.14 cases per 1000 population,
which is about80 times the prevalence of mucormycosis in developed countries.
• All the above publications highlight the fact that mucormycosis is an emerging disease.
• Roden et al. included a figure where the rise of incidence over 6 decades (1940–1999) is
clearly shown.
• The same authors reported the rise of percentages of cases documented by culture and by
decade.
• The percentage was 50% in the 1980s, and 71% in the 2000s.
• This may indicate that, in addition to an actual increase of the incidence of cases, better
diagnostic methods or increased awareness of the disease play an important role.
• The rising trend of mucormycosis was also shown by Chakrabarti et al. who published three
consecutive studies from a single center in India; the incidence of mucormycosis was 12.9
cases/year over the first decade, 35.6 cases/year over a 5-year period and, during an
eighteen months period, 50cases/year.
12. CAUSATIVE AGENTS:
• The order Mucorales comprises 261 species in 55 genera, 38 of which have been
with human infections.
• Their taxonomy has changed widely the last years due to molecular phylogenetic studies
and, inevitably, some taxa have undergone several name changes as well.
• The fungal spores enter the human organism by inhalation, ingestion or direct inoculation.
• The most common species all over the world is Rhizopus arrhizus.
• Other isolated fungi belong to the genera Lichtheimia, Mucor, Rhizomucor,
Saksenaea, Apophysomyces, Cokeromyces, Actinomucor And Syncephalastrum.
• In the global review by Jeong et al. Rhizopus spp., Lichtheimia spp. and Mucor spp.
accounted for 75% of all cases.
13. • The agents of mucormycosis vary depending on the geographical area.
• In the ECMM study from Europe, Rhizopus spp. were isolated in 34% of cases, Lichtheimia
spp. in 19% and Mucor spp. in 19%.
• In the RetroZygo study from France, Rhizopus spp. were the causative agents in 52%, while
the second most common genus was Lichtheimia (29%).
• In the studies from India, the second most commonly isolated agents were Apophysomyces
spp. Apophysomyces And Saksenaea spp. are almost always responsible for cutaneous
mucormycosis in immunocompetent patients, and are mainly found in Asia.
• New species are emerging, including Rhizopus homothallicus, Thamnostylum lucknowense
Mucor irregularis and Saksenaea erythrospora
14. PREDISPOSING FACTORS/UNDERLYING CONDITIONS:
• The most important conditions that predispose to mucormycosis, according to various
studies, include diabetes mellitus (DM), with or without ketoacidosis, hematological
malignancies (HM), other malignancies, transplantation, prolonged neutropenia,
corticosteroids, trauma, iron overload, illicit intravenous drug use, neonatal prematurity
malnourishment.
• Immunocompetent patients can also be affected, when the spores of the fungus are
inoculated in the skin, as a result of trauma or burns.
• Risk factors for mucormycosis vary considerably by geographical area. In studies from
Europe the most common underlying disease was a hematological malignancy, while in
India, Iran and Mexico it was diabetes mellitus.
• Diabetes was also the leading underlying condition in the study by Stemler et al. in
of the Middle East and North Africa.
• Several studies have shown that the underlying disease is correlated to the site of infection.
• Hematological malignancies and neutropenia are associated with pulmonary
and diabetes mellitus with sinusitis and rhino-cerebral disease, while trauma usually leads
cutaneous mucormycosis.
15. 1. Diabetes mellitus and ketoacidosis:
Diabetes mellitus is the leading underlying disease inpatients with mucormycosis globally.
According to the World Health Organization (WHO) “the global prevalence (age-
of diabetes has nearly doubled since 1980, rising from 4.7% to8.5% in the adult population.
Globally, an estimated 422 million adults were living with diabetes in2014, compared to 108
million in 1980”. Diabetes prevalence has risen faster in low- and middle-income countries
than in high-income countries. The number of people aged 20–79 years with diabetes in
was 61.3 million in India, and it is estimated to rise to 101.2 million in 2030. A great rise in the
diabetic population is also predicted for China, Brazil, Japan, Mexico, Egypt and Indonesia.
Accordingly, the cases of mucormycosis are expected to increase. In the latest review by
et al. diabetes mellitus was the most common underlying condition in 40% of cases and 20%
had documented ketoacidosis. Uncontrolled, type II, diabetes is the most common type in
diabetic patients with mucormycosis. In a recent study comparing North and South India,
diabetic ketoacidosis was found in 90% of cases from North India and 10% of cases from
South India. Diabetes has been reported as a risk factor for mucormycosis in 73.5% of cases
India, 75% in Iran and72% in Mexico. In contrast, the percentages from the European ECMM
study were 17%,from Italy 18%, from France 23% and from Lebanon 35%. In the Indian
publications, mucormycosis was the unmasking disease for diabetes mellitus in 12–31% of
patients.
16. 2. Hematological malignancy and hematopoietic stem cell transplantation:
Hematological malignancies (HMs) and hematopoietic stem cell transplantation (HSCT) are
most common underlying diseases in mucormycosis in Europe, USA and Australia. In India
was a risk factor in 1–9% and in Iran in 3%. The majority of patients with HM and
mucormycosis in various studies had acute myeloid leukemia (48% in the ECMM study, 46%
Italy, 34% in France, 38% in Lebanon and 42% in the global review by Jeong et al. The rest of
the patients with HM had acute lymphoblastic leukemia, non-Hodgkin’s lymphoma,
myelodysplastic syndrome and other, more rare, malignancies. The risk is higher when the
patient has prolonged neutropenia. HSCT is also an important risk factor. In the global
of mucormycosis in France from 2005 to 2007, HSCT was the underlying condition in 12% of
cases. Conversely, in a French nationwide retrospective study from 2003 to 2008, the
prevalence of mucormycosis among HSCT recipients was found to be 0.4%. In order to
investigate the epidemiology of infections due to Mucorales and other molds in transplant
recipients, Park et al. analyzed the data from the Transplant-Associated Infection Surveillance
Network (TRANSNET),where 23 transplant centers in USA conducted a prospective
for invasive fungal infections during 2001–2006. The 12-month mucormycosis cumulative
incidence was 0.29% for HSCT. Mucormycosis incidence among HSCT recipients varied
from 0.08% to 0.69%. The incidence of HSCT as a risk factor for mucormycosis in developing
countries was reported as 1% for India, 2% for Iran and 2% for South America countries.
17. 3. Solid organ malignancies and solid organ transplantation:
Solid organ malignancies(SOMs) and solid organ transplantation (SOT), although not as
common as HM and HSCT, are also important risk factors for mucormycosis. The reported
prevalence varies, ranging from 0.6% to 23%, but the studies cannot be compared because
methods of collecting data are different. The numbers are higher in reviews of the literature,
where there is publication bias. In the RetroZygo study from France SOT was the underlying
disease in 3% of cases. In the TRANSNET analysis the 12-month mucormycosis cumulative
incidence for SOT was 0.07% and mucormycosis accounted for 2% of all invasive fungal
infections in these patients. The results were similar in the Prospective Antifungal Therapy
Alliance (PATH Alliance) study, where 7526 invasive fungal infections in a total of 6918 adults
SOT recipients were included. Mucormycosis accounted for1.6% of these infections. The
incidence also depends on the organ being transplanted. In the review by Almyroudis et al.
incidence in renal transplant recipients was 0.4–0.5, in liver recipients 4–16, in heart recipients
and in lung recipients 13.7–14, all per 1000 patients. In a prospective, matched case-control
study, renal failure, diabetes mellitus and prior voriconazole and/or caspofungin use were
associated with a higher risk of mucormycosis, whereas tacrolimus, a calcineurin-inhibitor,
associated with a lower risk. Calcineurin plays a vital role in the virulence and pathogenicity of
several opportunistic fungi and its involvement in the virulence of Mucorales is currently a
topic of research.
18. 4. Corticosteroids and other immunosuppressive agents:
Chronic administration of corticosteroids and other immunosuppressive agents is an
risk factor for mucormycosis. They are used in the treatment of malignancies, transplantation
and autoimmune diseases. Corticosteroids impair migration, ingestion and phagolysosome
fusion in macrophages. In addition they may lead to drug-induced diabetes. Prolonged (>3
weeks) high-dose systemic corticosteroids are risk factors for mucormycosis. However, there
have been reports of mucormycosis associated with short courses of corticosteroids. In the
ECMM European study 46% of patients had received corticosteroids in the month prior to
diagnosis of mucormycosis and 44% had received other immunosuppressive agents. In the
global review by Jeong et al. 3% of patients had an autoimmune disease, while in Australia,
Kennedy et al. reported that 12% had an autoimmune disease. There are few cases of
lupus erythematosus associated mucormycosis in the literature, but the mortality of these
infections is exceedingly high (80%). There have also been reports of mucormycosis in other
autoimmune diseases, where the infection mimicked the relapse of Wegener’s
or, in another case, was confused with giant cell arteritis. Although these cases are extremely
rare, they may be underdiagnosed and mucormycosis should be included in the differential
diagnosis.
19. 5. Iron overload:
Increased serum iron is a risk factor for mucormycosis, as iron plays a crucial role in the
pathogenesis of this infection. Iron is normally attached to transferrin and ferritin, and is not
available to the Mucorales fungi. In patients with diabetic ketoacidosis or other forms of
acidosis there is decreased affinity of these proteins to bind iron. Serum iron may also be
increased in patients undergoing dialysis or multiple transfusions. In the past, the iron
deferoxamine was used in these cases. This is a bacterial siderophore and is actually utilized
Mucorales as a xenosiderophore for acquiring iron from the host. It soon became apparent
that deferoxamine was a risk factor for mucormycosis, most often disseminated. The newer
chelators, deferasirox and deferiprone, do not have xenosiderophore activity. Iron overload
also been implicated in the increased susceptibility of liver transplant recipients to
disseminated mucormycosis.
20. 6. Breakthrough mucormycosis:
Another factor that may predispose to mucormycosis is the use of antifungal prophylaxis or
treatment, which is effective against Aspergillus but not Mucorales(voriconazole and
echinocandins). The first reports of possible association of prophylaxis with voriconazole and
mucormycosis were published in 2004. Marty et al. hypothesized that a possible explanation
for this was prolonged use of voriconazole or increased survival among profoundly
immunosuppressed patients, i.e., patients who had received HSCT. Studies in animal models
suggested that voriconazole might increase the virulence of certain Mucorales. Breakthrough
invasive fungal infections continued to emerge when the newer azoles, posaconazole and
isavuconazole were introduced, despite their activity against Mucorales. In a single-center
study from Austria 13% of HSCT patients receiving prophylaxis with posaconazole developed
breakthrough invasive fungal infections and 55% of them were due to mucormycetes. A
review by Lionakis et al. showed that the incidence and spectrum of breakthrough invasive
mold infections vary significantly depending on the specific mold-active antifungal used for
prophylaxis, local epidemiology and patient characteristics.
21. 7. Other:
Other diseases associated with mucormycosis are intravenous drug use, AIDS, renal failure,
liver diseases, chronic alcoholism, malnutrition and low birth weight infants. Mucormycosis in
patients who are HIV positive is extremely rare. In an old retrospective study of 1630
of patients who died of AIDS from 1984 to 2002, only 2 patients had mucormycosis. In the
recent review of the literature by Moreira et al. only 4 out of 67 cases (5.9%) had no other
factors. The commonest comorbidities were a history of intravenous drug use (IVDU; 50%),
neutropenia(29.7%) and corticosteroid use (25%). Patients with a history of IVDU who
mucormycosis, most often present with isolated cerebral infection. Conversely, in a review of
68 patients with isolated cerebral mucormycosis, 82% had a history of IVDU, and the authors
concluded that the presence of lesions in the basal ganglia, rapidly progressive symptoms
a history of IVDU should raise suspicion for mucormycosis and for initiation of amphotericin
and stereotactic aspiration. In a study from India, published in 2019,post-pulmonary
tuberculosis (6.9%) and chronic kidney disease (8.9%) were emerging risk factors.
22. 8. No underlying disease:
In a significant proportion of cases mucormycosis develops in immunocompetent patients. In
the two large reviews by Roden et al. and Jeong et al., 19% and 18% of patients respectively,
had no underlying disease. In such cases trauma or burns is the usual predisposing factor,
resulting in cutaneous disease. The trauma can be minor (injection sites, animal bites,
gardening, etc.) or major, including motor vehicle accident, natural disasters and surgery. In
cases associated with natural disasters uncommon species have been isolated: wound
infections due to Apophysomyces elegans were reported after the tsunami in Sri-Lanka and
Syncephalastrum racemosum was isolated from respiratory samples following hurricane
Katrina. Mucormycosis has also been reported following combat-related injury. Another
clinical entity, reported mainly from India and China, is isolated renal mucormycosis in
immunocompetent patients. Finally, there have been several reports from Asia, about an
infection in immunocompetent patients by Mucor irregularis, leading to primary cutaneous
mucormycosis, which progresses very slowly, in contrast to the classical presentation of
mucormycosis.
23. 9. Healthcare associated:
There have been multiple reports of healthcare-associated mucormycosis, either as isolated
cases or as outbreaks. In a publication from India, 75 cases of mucormycosis were reported
during an eighteen-month period, of which 9% were nosocomial. Healthcare-associated
mucormycosis has been attributed to various exposures in the hospital environment:
(a) Various procedures and medical devices, such as catheters, insulin pumps and finger
and insertion of tubes, tooth extractions and surgery.
(b) Environmental factors may also be a source of infection. Molds may be found in the air,
dust, water or any surfaces in the hospital. Construction works increase the risk of invasive
fungal infections. Outbreaks have been linked to defective ventilation systems and water
leakage.
(c)The clinical presentation varies, depending on the source of infection. Infections due to
bandages, adhesives or contaminated wound dressings are mostly cutaneous. Percutaneous
exposure in immunocompromised patients has led to disseminated disease. Inhalation leads
pulmonary and rhino-cerebral infection, while ingestion of tablets or food, and the use of
tongue depressors, are responsible for gastrointestinal mucormycosis. Dialysis catheters have
been linked to peritonitis.
25. • Early diagnosis of mucormycosis is of utmost importance, since it may improve outcome.
• Studies have shown that it increases survival, and it may also reduce the need for or extent
of surgical resection, disfigurement and suffering.
• Since the disease is rare, a high index of suspicion is very important.
• Diagnosis consists of recognition of risk factors, assessment of clinical manifestations, early
use of imaging modalities and prompt initiation of diagnostic methods based on
histopathology, cultures and advanced molecular techniques.
26. CLINICAL DIAGNOSIS:
The clinical approach to diagnosis has low sensitivity and specificity. The hallmark of
mucormycosis is tissue necrosis resulting from angioinvasion and thrombosis, the absence,
however, of a necrotic eschar does not preclude the diagnosis. Necrotic cutaneous lesions in
immunocompromised patients may be due to mucormycosis, but the differential diagnosis
includes other pathogens, such as Aspergillus, Fusarium, Pseudallescheria and Scedosporium
species. Pseudomonas aeruginosa causing ecthyma gangrenosum may also produce a
picture. Although the clinical signs and symptoms are non-specific, some of them may have
potentially high predictive value. In a susceptible host, a history of prophylaxis with
voriconazole or the emergence of breakthrough fungal infection while receiving agents
against Aspergillus but not Mucorales, suggests the presence of mucormycosis.
27. A patient with diabetes and sinusitis should be thoroughly examined for possible
mucormycosis. Corzo-Leon et al. proposed an algorithm for the diagnosis and treatment of
rhino-orbito-cerebral mucormycosis in patients with diabetes mellitus. The “red flags/warning
signs” in this algorithm are cranial nerve palsy, diplopia, sinus pain, proptosis, periorbital
swelling, orbital apex syndrome or a palatine ulcer. The finding of any of these signs should
prompt immediate further testing, including blood tests, imaging, ocular and/ or sinus surgery
or endoscopic revision and initiation of antifungal treatment. Although diabetes, with or
without ketoacidosis, is the usual underlying disease in rhinocerebral mucormycosis, it should
be noted that it might also occur in patients with malignancies, recipients of HSCT or SOT and
other immunocompromised individuals. Pulmonary mucormycosis most often occurs in
neutropenic patients. The clinical features cannot be easily distinguished from those of
pulmonary aspergillosis or fusariosis. Additionally, in countries where tuberculosis is endemic,
the two infections may coexist. Prolonged fever, not responding to broad-spectrum antibiotics,
is usually present. Nonproductive cough is a common symptom, where as hemoptysis, pleuritic
chest pain and dyspnea are less common. Imaging studies have an important role in the
differentiation of invasive fungal infections. Chamilos et al. reported that multiple (≥10)
nodules, and pleural effusion are more common in mucormycosis. Another finding that
indicates mucormycosis is the reverse halo sign (RHS) on computerized tomography (CT) scan.
28. In the study by Legouge et al. sequential thoracic CT scans were performed in leukemic
neutropenic patients, and the RHS was observed in 15 of 16 patients (94%) during the first
week of the disease, while other radiologic findings, such as multiple nodules, appeared later.
These findings led the authors to the conclusion that in the particular setting of neutropenic
leukemic patients with pulmonary infection, the presence of the RHS on CT was a strong
indicator of pulmonary mucormycosis. This was also shown in another study, where the CT
scans of 24 patients with pulmonary mucormycosis were compared to those of 96 patients
with invasive lung aspergillosis. The RHS was observed in 54% of patients with mucormycosis
and only in 6% of patients with aspergillosis, whereas some airway-invasive features, such as
clusters of centrilobular nodules, peribronchial consolidations and bronchial wall thickening,
were more common in patients with invasive aspergillosis. In a more recent study, however,
the most common pattern on initial CT scans of immunocompromised patients with
pulmonary mucormycosis was nodule (≤3 cm)/mass (>3 cm) or consolidation with surrounding
ground-glass opacity halo (18/20, 90%). On follow-up CT, morphologic changes could be seen
in87% and they included RHS, central necrosis and air-crescent sign. Sequential morphologic
changes were related to the absolute neutrophil count in 13 of 15 patients. Another imaging
technique, which is not yet widely used, is the positron emission tomography-computed
tomography (PET/CT)with [18F]-fluorodeoxyglucose (FDG). While all these studies point
towards the diagnosis of mucormycosis, definite diagnosis requires laboratory methods, such
as histopathology and cultures.
29. ROUTINE LABORATORY DIAGNOSIS:
In clinical practice, laboratory diagnosis of mucormycosis includes histopathology, direct
examinationof wet mounts and culture.
30. 1. Histopathology:
Definitive diagnosis is based on the demonstration of fungal hyphae typical for
in biopsies of affected tissues, or bronchoalveolar lavage (BAL) in patients with pulmonary
mucormycosis. Histopathology is a very important diagnostic tool since it distinguishes the
presence of the fungus as a pathogen in the specimen from a culture contaminant and is
indispensable to define whether there is blood vessel invasion. It can furthermore reveal
coinfections with other molds. Mucorales genera produce typically non-pigmented, wide (5–
μm), thin-walled, ribbon-like hyphae with no or few septations (pauci septate) and right-
branching, in contrast to those of the Aspergillus species or other hyaline molds, which are
typically 3–5 μm wide, septate and form acute-angle branching. Routine hematoxylin and
eosin (H&E) stains may show only the cell wall with no structures inside, or occasionally, very
degenerate hyphae. Stains that can help highlight the fungal wall include Grocott
methenamine-silver (GMS) and periodic acid-Schiff PAS stains, although PAS gives a better
visualization of the surrounding tissue compared to GMS.
31. 2. Direct microscopy:
For a rapid presumptive diagnosis of mucormycosis direct microscopy of KOH wet mounts
be used. It can be applied to all materials sent to the clinical laboratory, preferably using
fluorescent brighteners such as Blankophor and Calcofluor White together with KOH, which
enhance the visualization of the characteristic fungal hyphae, in this case requiring a
fluorescent microscope. Direct microscopy of fresh material is an inexpensive, yet invaluable
method to rapidly give a presumptive diagnosis and to define clear surgical margins for
invasive fungal infection intraoperatively, and it is strongly recommended, along with
histopathology, by a panel of experts of the European Confederation of Medical Mycology in
cooperation with the Mycoses Study Group Education and Research Consortium
ERC). These methods, however, are not able to identify a fungus to the genus or species
Another method, immunohistochemistry using monoclonal antibodies against R. arrhizus
aid in the diagnosis when cultures are negative and has been proven useful for
aspergillosis from mucormycosis (sensitivity 100%, specificity 100% for mucormycosis) and has
gained a moderate recommendation of B IIu in the recent ECMM/MSG ERC guidelines.
32. 3. Culture:
Culture of specimens is essential for the diagnosis of mucormycosis since it allows
identification to the genus and species level, and eventually antifungal susceptibility testing.
Most medically important Mucorales are thermotolerant and are able to grow rapidly at
temperatures of 37°C. They grow on virtually any carbohydrate substrate, colonies appearing
usually within 24–48 h and identification is based on colonial and microscopic morphology
and growth temperature. Matrix assisted laser desorption ionization-time of flight mass
spectrometry (MALDI-TOF) identification of cultured Mucorales is a promising method for
those laboratories that are accordingly equipped, but the commercially available databases
should be expanded further, and more validation data are needed. Until then, molecular
identification remains the gold standard. A positive culture from a sterile site confirms the
diagnosis, while a positive culture from a non-sterile site could be due to a contaminant and
must be combined with clinical and radiological data to establish a probable diagnosis.
there is a caveat for falsely positive results, especially when histopathology is not available.
33. The major concern about culture, however, is its low sensitivity, as it can be falsely negative in
up to50% of mucormycosis cases. This can be attributed to a number of reasons, such as
grinding or homogenization of tissue specimens, which may destroy the delicate hyphae of
mucormycetes, the presence of genera that require special culture conditions, recent or
ongoing therapy with antifungals effective on Mucorales or even a lack of expertise. Proper
sampling and handling of the specimens before examination are a prerequisite for an optimal
yield. Therefore, upon suspicion of a case, good communication and close collaboration
between clinicians and the microbiology laboratory is essential to ensure that all steps of the
diagnostic procedure will be taken properly.
34. APPLIED AND EMERGING MOLECULAR METHODS:
Molecular methods have evolved as a useful tool to confirm the infection and identify the
strains involved. There are methods therefore, developed on the one hand to accurately
identify to the species level strains that already have grown in cultures, and on the other
methods to detect mucormycetes in tissues. The ITS region is the most widely sequenced
region for fungi in general. ITS sequencing is are liable method and has typically been the
most useful for molecular systematics at the species level, and even within species and it is
recommended as a first-line method for species identification of Mucorales. For the
in tissues, several methods have been developed, including PCR based techniques such as
nested PCR, real-time PCR (qPCR), nested PCR combined with RFLP
, PCR coupled with
electrospray ionization mass spectrometry (PCR/ESI-MS) and PCR/high-resolution melt
analysis (HRMA). Many of these methods have been reportedly successfully applied, and
perform better on fresh or deep-frozen samples than on paraffin embedded tissues. Target
selection for the PCR is a key determinant of the success of the method. There are methods
that use pan-fungal primers targeting the ITS genomic region with the following sequencing
of the amplified DNA, or methods of multiplex PCR using specific primers targeting a
restricted number of mucoralean genera/species. Most of the molecular tests target the 18S
ribosomal RNA genes, but also other targets have been investigated. These include the 28S
rDNA, the mitochondrial gene Rnl, the cytochrome b gene or the Mucorales-specific Cot H
gene.
35. Kasai et al. developed a specific qPCR targeting the 28S rDNA, Bernal-Martinez et al. a
multiplex real-time qPCR targeting the ITS1/ITS2 region with specific probes for R. oryzae, R.
microspores And Mucor spp. and Springer et al. developed two independent Mucorales
specific real-time qPCR assays, targeting two different regions of the multicopy ribosomal
operon-18Sand 28S, that are able to detect DNA from a broad range of clinically relevant
Mucorales species. The in-house tests that have been developed so far use different probes
and primers, therefore the lack of standardization makes their implementation in the clinical
laboratory difficult. Furthermore, they are cumbersome, costly and need expertise. A new pan-
Mucorales real-time (qRCR) commercial kit appeared to be a fast diagnostic test with an
overall sensitivity of 75% tested on serial blood samples from patients with culture-positive
invasive mucormycosis, often preceding the final diagnosis by several days to weeks. Guegan
et al. have validated its performance comparing it with four in-house qPCR assays targeting
the 18S rDNA in pulmonary samples, allowing the detection of four main clinically relevant
genera, i.e., Mucor-Rhizopus spp., Lichtheimia spp., Rhizomucor spp. And Cunninghamella spp.
The commercial assay was user friendly and all qPCR assays used in the study were superior to
conventional methods to detect fungal DNA. Drawbacks of the method are that genus
identification is not possible, and that it may not detect low fungal burden infections. Clinical
studies are required for the validation of all these methods. In samples with the characteristic
hyphae of Mucorales upon histopathological examination, the application of molecular
methods confirms the diagnosis, therefore are highly recommended.
36. NON-INVASIVE DIAGNOSTIC METHODS: AN EYE TO THE FUTURE?:
1. Molecular:
The samples used in most of the above-mentioned methods presuppose invasive
which may not be applicable to some patient groups (hematologic malignancies with
thrombocytopenia, ICU patients, etc.). Despite the angio-invasive nature of the infection,
cultures remain negative. In fact, only a handful of cases with a positive blood culture have
been described so far. However, fungal DNA circulates in the blood. There is therefore a lot
ongoing research, focusing on non-invasive methods, such as qPCR for the detection of
circulating mucoralean DNA in blood (plasma or serum) or urine. Serum Mucorales PCR has
been shown to be a highly reliable tool for the diagnosis of invasive mucormycosis in
immunocompromised patients. Millon et al. in a study using three qPCR (for
Absidiacorymbifera (Lichtheimia), Mucor/Rhizopus And Rhizomucor 18S ribosomal RNA
on sera of mucormycosis patients showed that this method was highly sensitive, had a low
detection level and could detect infection 3–68 days earlier than the conventional methods.
These findings were confirmed in a following study of this group in collaboration with ten
other centers of the French network for surveillance of invasive fungal infection (RESSIF,
Institut Pasteur, Paris).
37. This method could be also useful for treatment monitoring. Legrand et al., using a qPCR
method, found that detection of circulating Mucorales DNA (cmDNA) allowed earlier diagnosis
of invasive wound mucormycosis (IWM) in severely ill burn patients and earlier treatment
initiation. Springer et al. also found early detection (21 days earlier compared to conventional
methods) of Mucorales in blood and tissue samples from hematological patients with invasive
mucormycosis, using a fast (4 h turnaround time) probe-based Mucorales-specific real-time
PCR assay (Muc18S). Methods of qPCR in blood are rapid (about 3 h turnaround time).
Although their sensitivity is lower than in tissues, they are highly specific. Furthermore, they are
able to diagnose mucormycosis in immunocompromised patients earlier than the conventional
mycological methods (8 days) or imaging(3 days. They are appropriate therefore for screening
and monitoring of patients at high-risk and could increase survival. In the search of new
specific targets, Baldin et al. have shown that the spore coating protein homolog CotH genes,
which are unique for Mucorales, has given encouraging results in a mouse model, with urine
being the preferred sample type compared to plasma or BAL. In cases of confirmed
mucormycosis this method had 90% sensitivity and was 100% specific.
38. 2. Serology:
There are no commercially available antigen markers to detect Mucorales, as galactomannan
(GM) for Aspergillus. However, GM testing in blood and BAL in hematology patients or
patients with compatible chest CT imaging results may be used to decrease the likelihood of
mucormycosis. Furthermore, the panfungal β-D-glucan test does not detect antigen
components of the Mucorales. In search of new targets for serologic tests, Burnha-Maurish et
al. evaluated a monoclonal antibody(2DA6) in a sandwich ELISA and found it to be highly
reactive with purified fucomannan of the Mucor spp. They subsequently constructed a lateral
flow immunoassay (LFIA) for detection of Mucorales cell wall fucomannan in clinical samples
and demonstrated that LFIA was more convenient to use than ELISA and had the potential to
be used as a point-of-care test on BAL, serum, urine and tissue. The test was able to rapidly
and accurately identify R. delemar, L. corymbifera, M. circinelloides and C. Bertholletiae ,
after infection (within 3–4 days of infection) in murine models.
39. 3. Metabolomics-breath test:
In an experimental murine model of invasive mucormycosis (IM),Koshy et al. examined breath
volatile metabolite profiles, using the three Mucorales species that most commonly cause
human IM— Rhizopus arrhizus var. arrhizus , R. arrhizus var. delemar And R. microspores , by
thermal desorption gas chromatography/tandem mass spectrometry (GC–MS).Mice infected
with Aspergillus fumigatus were used as controls. They also analyzed breath volatile
metabolites from five patients eventually diagnosed with proven IM caused by R.
,sampled prospectively. The findings showed that the three Mucorales species had distinct
breath profiles of the volatile metabolite sesquiterpene, which could be used to identify these
infections in vivo. These profiles distinguished the infections from each other and from
aspergillosis, therefore this method has the potential to diagnose fungal infection non-
invasively, and perhaps monitor response to therapy. Additionally, it could be used in a high
risk population such as patients with neutropenia due to treatment for leukemia or those
undergoing hematopoietic cell transplantation, to screen for mold infections additionally to
Aspergillus galactomannan. This method appears to be very appealing and promising, but
needs further evaluation.
41. • Epidemiology of mucormycosis is evolving.
• In light of new evidence, diabetes mellitus remains themain underlying disease globally.
• As diabetes is rising, especially in low and middle-income countries, a rise in mucormycosis
cases is expected and this should be alarming.
• In developed countries, the most common underlying diseases are hematological
malignancies, with acute myeloid leukemia the most frequent.
• IVDU is the main risk factor for isolated cerebral mucormycosis, and post-pulmonary
tuberculosis and chronic kidney disease are emerging risk factors in developing countries.
• New emerging species include Rhizopus homothallicus, Thamnostylum lucknowense, Mucor
irregularis And Saksenaea erythrospora.
42. • Diagnosis of mucormycosis remains challenging.
• Histopathology, direct examination and culture remain essential tools, although the
molecular methods are improving.
• New molecular platforms are being investigated and new fungal genetic targets are being
explored.
• Molecular-based methods have gained acceptance for confirmation of the infection when
applied to tissues.
• Methods on detection of Mucorales DNA in blood have shown promising results for earlier
and rapid diagnosis and could be used as screening tests in high-risk patients, but have to
be validated in clinical studies.
• More, much needed, rapid methods that do not require invasive procedures, such as
serology-based point-of-care, or metabolomics-based breath tests, are being developed and
hopefully will be evaluated in the near future.
44. • Jones AC, Bentsen TY, Freedman PD. Mucormycosis of the oral cavity. Oral surgery, oral
medicine, oral pathology. 1993 Apr 1;75(4):455-60.
• Rai S, Misra D, Misra A, Jain A, Jain P, Dhawan A. Palatal mucormycosis masquerading as
bacterial and fungal osteomyelitis: A rare case report. Contemporary clinical dentistry. 2018
Apr;9(2):309.
• Roy, M. (2021). Dual Infection in a COVID 19 Patient – Mucormycosis and Actinomycosis.
• Reddy SG, Kumar KK, Sekhar CP, Reddy RB. Oral mucormycosis: Need for early diagnosis!!.
Journal of Dr. NTR University of Health Sciences. 2014 Apr 1;3(2):145.
• Santosh AB, Muddana K, Bakki SR. Fungal Infections of Oral Cavity: Diagnosis, Management,
and Association with COVID-19. SN comprehensive clinical medicine. 2021 Mar 27:1-2.